CN114296583A - Combined display method of data visualization large-screen layer - Google Patents

Abstract

The invention discloses a combined display method of a data visualization large screen layer, belonging to the field of data visualization; the method comprises the following specific steps: s1, dragging and adding the needed icon assembly in the large-screen editor to form a layer; s2, carrying out corresponding editing operation on the layer in the large screen; s3, combining a plurality of layers with uniform range or type through grouping operation to be used as an integral layer shape for operation; s4, grouping or stacking layer adjustment is carried out on the layers in the editing area and the layer list area in the large screen; s5, combining the graph components and the graph layer containers in a one-to-one correspondence manner to form a depth map layer tree; s6, changing the layer structure of the same level through the layer stacking level in the depth map layer tree; s7, controlling the layer of the large screen to carry out authority control of authorized sharing; the invention can make the user more orderly and clearly and quickly make the large screen, so that the data can live, the value of the data can be realized, and the large screen drawing and delivery can be completed with high efficiency and high quality.

Description

Combined display method of data visualization large-screen layer

Technical Field

The invention discloses a combined display method of a data visualization large screen layer, and relates to the technical field of data visualization.

Background

A large screen is a visual presentation of data as appropriate for a particular screen. The appearance of the visual display device not only provides rich display for visual interaction and presentation of data visualization, but also ensures that the data information conveyed by combing is ordered, emphatic and story-free from the real requirements of customers. The viewer can spend less time to obtain more information as much as possible, the mapping from the data space to the graphic space is completed, and the due value of the data is realized. The commonly used scenes at present are: data display, monitoring and early warning, data analysis and report, strategic commanding and the like.

In a BI tool, a large screen is generally used for static or rolling viewing and demonstration scenes, and for different complexity service scenes, a manufacturing process of the large screen generally takes much time, wherein a plurality of rich material layers, chart component layers and the like are included to enrich the display of the large screen, so that the operation is complex;

therefore, the invention provides a combined display method of a data visualization large-screen layer to solve the problems.

Disclosure of Invention

The invention provides a combined display method of a data visualization large-screen layer aiming at the problems in the prior art, and the adopted technical scheme is as follows: a combined display method of a data visualization large screen layer comprises the following specific steps:

s1, dragging and adding the needed icon assembly in the large-screen editor to form a layer;

s2, carrying out corresponding editing operation on the layer in the large screen;

s3, combining a plurality of layers with uniform range or type through grouping operation to be used as an integral layer shape for operation;

s4, grouping or stacking layer adjustment is carried out on the layers in the editing area and the layer list area in the large screen;

s5, combining the graph components and the graph layer containers in a one-to-one correspondence manner to form a depth map layer tree;

s6, changing the layer structure of the same level through the layer stacking level in the depth map layer tree;

and S7, controlling the layer of the large screen to perform authority control of authorized sharing.

The specific steps of S1 dragging and adding the icon assembly to form a layer in the large-screen editor are as follows:

s101, selecting an icon assembly according to needs, and generating a corresponding image layer in an editing area;

s102, converting the component operation into layer processing, and configuring the component.

And the S2 carries out corresponding editing operation on the layer in the large screen, wherein the corresponding editing operation comprises deleting, renaming, stacking hierarchy adjustment, grouping, scattering and displaying and hiding operation of the layer.

The S2 specific steps of carrying out corresponding editing operation on the layer in the large screen, including layer deletion, renaming, stack level adjustment, grouping, scattering and displaying and hiding, are as follows:

s201, selecting a plurality of layers for combination, and recalculating the stacking levels of the layers to be adjusted;

s202, the combined layer is scattered, and the scattered layer stacking level is started by the stacking level of the current father layer and pushed backwards.

And S201, selecting a plurality of layers for combination, and when layered layers exist in the layer tree, changing the stacking levels and the groups of the layers by dragging, and then recalculating the stacking levels of the layers. .

The specific steps of forming the depth map layer tree by correspondingly combining the S5 chart components and the layer containers one by one are as follows:

s501, forming a parent-child relationship between multiple layers and a new layer, so that one layer container comprises multiple child layers;

s502, calculating the size and the position of the father layer according to the position coordinates of all the descendant layers.

The specific steps of S6 changing the layer structure of the same level through the layer stacking hierarchy in the depth map layer tree are as follows:

s601, deleting all descendant layers of the parent layer by deleting the parent layer, and recalculating the stack layer display values of the same-level layers;

s602, if the size and the position of the sub-layer are changed, the size and the position of all ancestor layers are recalculated.

The specific steps of the S7 controlling the authority control of authorized sharing of the large-screen layer are as follows:

s701, distributing the layer or the combined layer to a specified role;

s702, viewing corresponding large-screen display contents according to different login users.

The invention has the beneficial effects that: in order to reduce the time for drawing a large screen by a user and facilitate the centralized operation management of the layers in a large screen editor by the user, the data is quickly changed into a visual language which is orderly displayed on a screen, the value of the data is amplified, the high-efficiency and high-quality large screen delivery is realized, and the combined operation mode of the large screen layers is realized; the invention can make the user more orderly and clearly and quickly make the large screen, so that the data can live, the value of the data can be realized, and the large screen drawing and delivery can be completed with high efficiency and high quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a flow chart of the method of the present invention.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

The first embodiment is as follows:

a combined display method of a data visualization large screen layer comprises the following specific steps:

s1, dragging and adding the needed icon assembly in the large-screen editor to form a layer;

s2, carrying out corresponding editing operation on the layer in the large screen;

s3, combining a plurality of layers with uniform range or type through grouping operation to be used as an integral layer shape for operation;

s4, grouping or stacking layer adjustment is carried out on the layers in the editing area and the layer list area in the large screen;

s5, combining the graph components and the graph layer containers in a one-to-one correspondence manner to form a depth map layer tree;

s6, changing the layer structure of the same level through the layer stacking level in the depth map layer tree;

s7, controlling the layer of the large screen to carry out authority control of authorized sharing;

multiple chart assemblies can be added into the large screen, each chart can form a layer in the large screen after being added, and the layer can be flexibly dragged in the large screen editor; the layers in the large screen can be subjected to operations of position, size, deletion, renaming, stack level adjustment (including top placement, bottom placement, layer upward movement and layer downward movement), grouping, scattering, display and hiding and the like; according to the step S3, in order to facilitate the overall management of the layers, grouping operations may be performed on the layers, and multiple layers in the same range or type are combined through the grouping operations to operate as an overall layer; because the number of layers in the large screen is large, in order to realize the integrity and centralized management of the layers, the layers need to be combined, and the new layers formed after combination are subjected to integral operation;

in order to facilitate the user to quickly operate the layers, according to the step S4, the management of the layers in the large screen can be quickly operated in two areas, namely, the layer in the editing area and the left layer list, both the areas can drag the layers and operate a right-click shortcut menu, and the left layer list can also be used for grouping or adjusting the stacking levels of the layers in a direct dragging manner;

in order to realize the operations of a user on a layer anytime and anywhere, the rapid operations on the layer are realized in two areas, including the operations of a right-click menu and a layer list area of the layer in a large-screen editing area: if the grouped layers exist in the layer tree, the stacking level and the grouping of the layers can be changed through dragging; or the layer operation is carried out through the right-click menu, so that the requirements of the user on quick, anytime and anywhere operation are met;

according to the step of S5, one graph component corresponds to one graph layer container, and after a plurality of graph layers are combined, one graph layer can comprise a plurality of sub-graph layers, so that a depth map layer tree is formed; the layer stacking level in the layer depth tree is changed relative to the layers of the same level; the change of the layer size and position can also affect all the parent layers; the user can carry out authority control of authorized sharing on the image layer in the large screen, and the image layer authorizes different members in different roles according to requirements, so that different members of the large screen after sharing see different displays, and the safety of data is ensured;

further, the specific step of S1 dragging and adding the icon component in the large-screen editor to form a layer is as follows:

s101, selecting an icon assembly according to needs, and generating a corresponding image layer in an editing area;

s102, converting the component operation into layer processing, and configuring the component;

the large screen supports various chart assemblies, a user can select the chart assemblies as required, and generate corresponding layers in an editing area, so that the operation of the user on the assemblies is converted into the processing of the layers, and the configuration of the styles, data and interaction of the assemblies is realized;

further, the S2 performs corresponding editing operations on the layer in the large screen, including layer deletion, renaming, stack level adjustment, grouping, scattering, and hiding operations;

in order to realize the rapid drawing and rich display of the large screen, basic operations on layers in the large screen editing process are indispensable and comprise the operations of layer deletion, renaming, stacking hierarchy adjustment, grouping, scattering, displaying and hiding and the like;

further, the step of S2 performing corresponding editing operation on the layer in the large screen includes deleting, renaming, adjusting the stack hierarchy, grouping, scattering, and hiding the layer, which includes the following steps:

s201, selecting a plurality of layers through ctrl + left click, clicking a 'grouping' function to realize the combination of the plurality of layers, and recalculating and adjusting the stacking levels of the layers;

s202, scattering the combined layer, starting the stacking level of the scattered layer with the stacking level of the current parent layer and pushing backwards;

further, in S201, a combined layer is formed through a layer grouping function, and a fast grouping operation may also be performed through operations in a right-click menu or a layer list area of the layer. If the grouped image layers exist in the image layer tree, the stacking levels and the groups of the image layers can be rapidly changed through dragging;

further, the specific steps of forming the depth map layer tree by combining the S5 graph components and the layer containers in a one-to-one correspondence manner are as follows:

s501, forming a parent-child relationship between multiple layers and a new layer, so that one layer container comprises multiple child layers;

s502, calculating the size and the position of a father layer according to the position coordinates of all descendant layers of the father layer to obtain the father layer;

the basic unit in the large screen is that one graph assembly corresponds to one graph layer, and after the multiple graph layers are combined into a new graph layer according to the characteristic c, the multiple graph layers and the new graph layer form a parent-child relationship, so that one graph layer container can comprise a plurality of child graph layers, and the display of a depth graph layer tree can be formed; calculating the size and the position of the parent image layer according to the position coordinates of all the descendant image layers, and deleting all the child image layers of the parent image layer after deleting operation;

further, the specific step of S6 changing the layer structure of the same level through the layer stacking hierarchy in the depth map layer tree is as follows:

s601, deleting all descendant layers of the parent layer by deleting the parent layer, and recalculating the stack layer display values of the same-level layers;

s602, if the size and the position of the sub-layer are changed, the size and the position of all ancestor layers are recalculated;

according to the layer depth tree formed in S5, when the layer stacking hierarchy is changed with respect to the layer at the same level, the deletion operation of the parent layer deletes all the descendant layers thereof and recalculates the stacking hierarchy display value of the layer at the same level, and the change of the size and position of the child layer recalculates the size and position of all the ancestor layers thereof

Still further, the specific step of S7 controlling the authority control of authorized sharing on the layer of the large screen is as follows:

s701, distributing the layer or the combined layer to a specified role;

s702, viewing corresponding large-screen display contents according to different login users;

because the same large screen may need to be displayed for users with different authorities for multiple times, fine-grained management of layer authorities in the large screen is realized, the layers can be distributed to different roles, and different large screen display effects of the large screen layer according to dynamic display and hiding of different users and members in different roles are realized;

example two:

the method mainly includes the steps that various chart components are built in a large-screen designer, the chart components comprise conventional chart components, text components, video components, map components, index components, decoration components and the like, different types of components are selected, corresponding layers are generated in an editing area, and after the layers are selected, the layers can be dragged, deleted, renamed, stacked levels are changed, grouped, scattered, displayed and hidden and the like; in order to conveniently perform integral centralized operation on a plurality of layers, grouping operation can be performed on the layers; a graph component is added in a large screen to generate a corresponding graph layer, namely, one graph layer comprises one component, a plurality of graph layers are combined to generate a new graph layer to form the relationship between a child parent graph layer and a sub graph layer, namely, the fact that one graph layer can comprise a plurality of graph layers is realized, a one-to-many relationship is formed, and the parent graph layer, the child graph layer and an independent graph layer can be recombined to form a new graph layer so as to form a graph layer depth level tree; the user can carry out authority distribution management on the layer or the combined layer so as to realize specific display of a large screen, realize the value of data and finish drawing and delivery of the large screen with high efficiency and high quality;

wherein, the formation of the large screen layer:

clicking the chart component in the toolbar, adding the chart component to the large-screen editing area and generating a corresponding chart layer, forming a chart layer container, configuring a chart component for display, setting the size and the position of the chart component in a matching way with the size and the position of the chart layer, and configuring the style, the data and the interaction of the chart component in the selected chart layer;

selecting the added component layer in the editing area, and changing the position and the size of the layer in a dragging mode or in the configuration of the position and the size in the style; by analogy, the addition of a plurality of layers such as a chart component, a decoration component and the like can be completed;

and (3) combining multiple layers:

selecting a plurality of layers needing to be combined in an editing region Ctrl + left click, and realizing the combination of the plurality of layers by right click on the selected layers to generate a shortcut menu and select 'grouping' operation or select 'grouping' button in a layer list region, wherein the layer stacking level after the grouping is the stacking level of the first sub-layer before the combination, the stacking level of the layer after the grouping can automatically increase or decrease in an increasing manner, and the sub-layer stacking levels in the formed combined layer sequentially increase in a parent layer; after the multiple image layers are successfully combined, the list tree of the image layer list area can also follow the change of combination, and the combined image layers are displayed as a folder icon and can be unfolded/folded for viewing;

the method can also directly perform multi-selection on the list tree of the layer list area, if a parent layer exists in the current list tree of the layer list, the selected layer can be dragged into one existing parent layer in a dragging mode, the position or the stacking level of the layer after dragging can change along with the dragging to become a sub-layer in the parent layer, the stacking level is automatically set as the stacking level of a target position, and the stacking level of the sub-layer can automatically and sequentially increase progressively; or selecting 'grouping' operation by using a right-click menu of the layers in the chart list tree to realize the combined operation of multiple layers;

after the multiple layers are combined, if necessary, the multiple layers can be scattered, the stack levels of the scattered layers are started by taking the stack level of the current father layer and are sequentially pushed backwards, and the scattered layers have the same functional characteristics as those before grouping; the grouping and scattering of the layers are inverse operations and appear in pairs;

and (3) combining layers:

after a plurality of layers are combined, a new layer can be formed, and the layer has all the characteristics and operations of one layer, including: deleting, dragging, changing the stacking order, renaming, grouping, scattering, displaying and hiding and the like; the combined layers and the new layer form a parent-child relationship, deletion, dragging and moving, stacking sequence changing, display and hiding and the like of the parent layer can affect the child layer, and on the contrary, deletion, addition, dragging and moving, display and hiding of the child layer can also change the position and size of the parent layer;

the combined layer can be recombined with other layers to form a deep layer tree;

the stacking level can be changed whether the layer is a single layer or a combined layer: placing the top and the bottom, moving one layer upwards and moving one layer downwards; the layer stacking level is changed relative to the layers of the same level, namely the change of the sub-layer stacking level in the combined layer is carried out relative to other sub-layers of the same level in the same combination;

the selected layer can be configured with the style, data and attribute of the chart assembly contained in the selected layer, and different from the configuration, the combined layer can only set the size and position information in the style after being selected, does not have or does not need other configurations, and is a special layer;

the size of the combined father layer is obtained by calculating the position coordinates of all descendant layers (including deep descendant layers) in a large screen editing area, the width is the maximum x value minus the minimum x value, the height is the maximum y value minus the minimum y value, and the position coordinates of the father layer respectively descendant the minimum x value and the minimum y value in all the layers; if the combined parent image layer is deleted, all the sub-image layers are deleted; if the child layer is deleted, the size and the position coordinates of the parent layer of the child layer are recalculated through all other child layers; if the position of the child layer is changed, the parent layer of the child layer can be obtained by recalculation;

and (3) authority management of the layer:

by combining with a visual product authority management module, layer authority management means that a user can allocate a layer or a combined layer to an appointed role, and all members under the allocated role can see the layer after large-screen sharing; otherwise, the user cannot see the layer; under the default condition, the image layer is allocated to all roles;

the authority management of the layer can check and see different large-screen display contents according to different login users, so that the layer can be dynamically displayed and hidden according to different users, different large-screen displays can be shared for different users in a friendly and dynamic mode, the display of sensitive data is protected, and the display and report tasks of the same large screen for different users can be quickly completed.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. A combined display method of a data visualization large screen layer is characterized by comprising the following specific steps:

s1, dragging and adding the needed icon assembly in the large-screen editor to form a layer;

s2, carrying out corresponding editing operation on the layer in the large screen;

s3, combining a plurality of layers with uniform range or type through grouping operation to be used as an integral layer shape for operation;

s4, grouping or stacking layer adjustment is carried out on the layers in the editing area and the layer list area in the large screen;

s5, combining the graph components and the graph layer containers in a one-to-one correspondence manner to form a depth map layer tree;

s6, changing the layer structure of the same level through the layer stacking level in the depth map layer tree;

and S7, controlling the layer of the large screen to perform authority control of authorized sharing.

2. The method as claimed in claim 1, wherein the step of S1 dragging and adding the icon component in the large screen editor to form a layer comprises the following steps:

s101, selecting an icon assembly according to needs, and generating a corresponding image layer in an editing area;

s102, converting the component operation into layer processing, and configuring the component.

3. The method as claimed in claim 2, wherein the S2 performs corresponding editing operations on the layer in the large screen, including deleting, renaming, adjusting stack levels, grouping, scattering, and hiding operations of the layer.

4. The method as claimed in claim 3, wherein the step of S2 performing the corresponding editing operation on the layer in the large screen includes the following specific steps of deleting, renaming, adjusting the stack hierarchy, grouping, scattering and hiding the layer:

s201, selecting a plurality of layers for combination, and recalculating the stacking levels of the layers to be adjusted;

s202, the combined layer is scattered, and the scattered layer stacking level is started by the stacking level of the current father layer and pushed backwards.

5. The method according to claim 4, wherein said S201 selects a plurality of layers for combination, and when there are layered layers in the layer tree, the stack level and the grouping of the layers are changed by dragging, and then the stack level of the adjusted layer is recalculated.

6. The method as claimed in claim 5, wherein the step of forming the depth map layer tree by the one-to-one combination of the S5 graph elements and the layer containers comprises the following steps:

s501, forming a parent-child relationship between multiple layers and a new layer, so that one layer container comprises multiple child layers;

s502, calculating the size and the position of the father layer according to the position coordinates of all the descendant layers.

7. The method as claimed in claim 6, wherein the step of S6 changing the peer layer structure through the layer stacking hierarchy in the depth map layer tree comprises the following steps:

s601, deleting all descendant layers of the parent layer by deleting the parent layer, and recalculating the stack layer display values of the same-level layers;

s602, if the size and the position of the sub-layer are changed, the size and the position of all ancestor layers are recalculated.

8. The method as claimed in claim 7, wherein the step S7 of controlling authority control of authorized sharing of the layer of the large screen includes the following specific steps:

s701, distributing the layer or the combined layer to a specified role;

s702, viewing corresponding large-screen display contents according to different login users.

Images