CN114416272B - Graphic assembly display method and device, storage medium and electronic equipment - Google Patents

Abstract

The embodiment of the application provides a graphic assembly display method, a graphic assembly display device, a storage medium and electronic equipment, wherein the graphic assembly display method comprises the following steps: firstly, determining a display subarea corresponding to a graphic component to be displayed according to a correlation value of the representation of the graphic component to be displayed, then determining the interval distance between the graphic component to be displayed and a display area reference component according to the display subarea corresponding to the graphic component to be displayed, and then determining the position information of the graphic component to be displayed based on the distribution mode of the graphic component and the interval distance, wherein the position information of different graphic components to be displayed is different, and finally displaying the graphic component to be displayed according to the position information of the graphic component to be displayed. Because the position information of each graphic component to be displayed is different, the graphic components to be displayed can be distributed at different positions of the display picture, the phenomenon of stacking and overlapping of the graphic components is avoided, and a user can accurately and rapidly acquire the association value of the representation of each graphic component, so that the technical problem of low current data analysis efficiency is effectively solved.

Description

Graphic assembly display method and device, storage medium and electronic equipment

Technical Field

The present disclosure relates to the field of image display technologies, and in particular, to a method and apparatus for displaying a graphic assembly, a storage medium, and an electronic device.

Background

With the continuous development of technology, mass data are generated in various fields at any time, and in order to more effectively utilize the data, the data need to be effectively collected, sorted and analyzed.

In the process of data analysis, the association degree between each data is usually required to be firstly obtained so as to facilitate subsequent data analysis and processing, for example, the association degree between commodity sales and commodity browsing is obtained, in order to improve the efficiency of data analysis, currently, graphic components for representing the association degree of data are usually displayed in a display screen so as to facilitate a user to quickly and intuitively obtain the association degree between each data, however, when the association degrees represented by a plurality of graphic components are the same or similar, the graphic components can be distributed at the same position in the display screen, the phenomenon of overlapping and stacking of the graphic components occurs, and the user cannot accurately obtain the association degrees represented by all the graphic components, thereby affecting the data analysis efficiency.

Disclosure of Invention

The application provides a graphic component display method, a graphic component display device, a storage medium and electronic equipment, which can alleviate the technical problem of low current data analysis efficiency.

In order to solve the technical problems, the application provides the following technical scheme:

the application provides a graphic component display method, which comprises the following steps:

determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed;

determining the interval distance between the graphic component to be displayed and a display area reference component according to the display subarea corresponding to the graphic component to be displayed;

determining the position information of the graphic component to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

Before the step of determining the display subarea corresponding to the graphic component to be displayed according to the association value represented by the graphic component to be displayed, the method further comprises the following steps:

dividing the display area into a plurality of circles with unequal radiuses and taking the display area reference assembly as the circle center;

taking a circular ring area formed by adjacent circles as a display subarea; wherein each display sub-region characterizes a corresponding associated value range.

The step of determining the interval distance between the graphic component to be displayed and the display area reference component according to the display sub-area corresponding to the graphic component to be displayed comprises the following steps:

when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are all larger than or equal to a preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a first interval distance calculation formula;

and when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are smaller than the preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a second interval distance calculation formula.

Wherein before the step of determining the position information of the graphic component to be displayed based on the graphic component distribution pattern and the interval distance, the method further comprises:

and determining a corresponding graphic component distribution mode according to the number of the graphic components to be displayed corresponding to each display subarea and a distance threshold value between the graphic components to be displayed corresponding to each display subarea and a display area reference axis.

Wherein the step of determining the position information of the graphic component to be displayed based on the graphic component distribution pattern and the interval distance includes:

determining coordinate information of the graphic component to be displayed in a first direction based on the graphic component distribution mode;

determining coordinate information of the graphic component to be displayed in a second direction based on the interval distance and the distance between the graphic component to be displayed and a reference axis of a display area; wherein the first direction is perpendicular to the second direction.

Wherein the first direction is perpendicular to the display area reference axis; the distance threshold value between the graphic component to be displayed and the reference axis of the display area comprises an upper limit distance threshold value and a lower limit distance threshold value; the first direction includes a vertical direction; the step of determining the coordinate information of the graphic component to be displayed in the first direction based on the graphic component distribution mode comprises the following steps:

subtracting the lower distance threshold from the upper distance threshold to obtain a distance threshold difference;

obtaining a distance difference value of the adjacent graphic components to be displayed in the vertical direction according to the distance threshold value difference value and the number of the graphic components to be displayed corresponding to the display subarea;

Determining the distance between the graphic component to be displayed and the reference axis of the display area according to the distance difference value;

and determining coordinate information of the graphic component to be displayed in the vertical direction according to the distance between the graphic component to be displayed and the reference axis of the display area.

Wherein the second direction comprises a horizontal direction; the step of determining coordinate information of the graphic component to be displayed in the second direction based on the distance between the spacing distance and the distance between the graphic component to be displayed and the reference axis of the display area includes:

and calculating the distance between the interval distance and the distance between the graphic component to be displayed and the reference axis of the display area by adopting a preset algorithm to obtain the coordinate information of the graphic component to be displayed in the horizontal direction.

The embodiment of the application also provides a graphic assembly display device, which comprises:

the display subarea determining module is used for determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed;

the interval distance determining module is used for determining the interval distance between the graphic component to be displayed and the display area reference component according to the display subarea corresponding to the graphic component to be displayed;

The position information determining module is used for determining the position information of the graphic component to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and the display module is used for displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

Embodiments of the present application also provide a computer readable storage medium storing a plurality of instructions adapted to be loaded by a processor to perform the steps in the graphic assembly display method described above.

The embodiment of the application also provides electronic equipment, which comprises a processor and a memory, wherein the processor is electrically connected with the memory, the memory is used for storing instructions and data, and the processor is used for executing the steps in the graphic assembly display method.

The embodiment of the application provides a graphic component display method, a device, a storage medium and electronic equipment, wherein the display subarea corresponding to a graphic component to be displayed is firstly determined according to an association value of the representation of the graphic component to be displayed, then the interval distance between the graphic component to be displayed and a display area reference component is determined according to the display subarea corresponding to the graphic component to be displayed, and then the position information of the graphic component to be displayed is determined based on the distribution mode of the graphic component and the interval distance, wherein the position information of different graphic components to be displayed is different, and finally the graphic component to be displayed is displayed according to the position information of the graphic component to be displayed. Because the position information of each graphic component to be displayed is different, each graphic component to be displayed is distributed at different positions of the display picture, the phenomenon of stacking and overlapping of the graphic components is avoided, and a user can accurately and rapidly acquire the association degree of the representation of all the graphic components, so that the technical problem of low current data analysis efficiency is effectively solved.

Drawings

Technical solutions and other advantageous effects of the present application will be made apparent from the following detailed description of specific embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a flowchart of a graphic assembly display method according to an embodiment of the present application.

Fig. 2 is a schematic view of a graphic assembly display provided in an embodiment of the present application.

Fig. 3 is a schematic view of a prior art scene of a graphical component display.

Fig. 4 is a schematic structural diagram of a graphic assembly display device according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 6 is another schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

The embodiment of the application provides a graphic component display method, a graphic component display device, a storage medium and electronic equipment.

As shown in fig. 1, fig. 1 is a schematic flow chart of a graphic assembly display method according to an embodiment of the present application, and a specific flow may be as follows:

s101, determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed.

The graphic component to be displayed comprises symbols, numbers and/or graphic components, and the display subarea is a region for displaying the graphic component to be displayed. Alternatively, for convenience of distinction, the graphic components to be displayed may be set to be different from each other, as shown in fig. 2, and in this embodiment, a combination of a circle and a different number is used as the different graphic components to be displayed.

Specifically, in the practical application process, in order to extract effective information from massive data, it is generally required to obtain the relevance between numerous data and reference data, and then analyze the data based on the relevance, so as to obtain information having a promoting effect on the development of the industry, for example, in the data analysis process of the e-commerce industry, in order to understand the influencing factor of the commodity sales, it is required to obtain the relevance between the commodity sales and other data: the obtained correlation value (specific numerical value for representing the correlation degree) between the commodity sales volume and the commodity browsing volume is 0.3, and the correlation value between the commodity sales volume and the commodity collection times is 0.9, so that the correlation strength between the commodity sales volume and the commodity browsing volume is smaller, and the correlation strength between the commodity sales volume and the commodity collection times is larger.

Further, before the step S101, the method further includes:

dividing the display area into a plurality of circles with unequal radiuses and taking the display area reference assembly as the circle center;

taking a circular ring area formed by adjacent circles as a display subarea; wherein each display sub-region characterizes a corresponding associated value range.

In the practical application process, the size of the display area can be adjusted in real time according to the aspect ratio of the display screen, so that the proportion of the display area to the display screen is more matched, and the display effect of each graphic component is improved.

Specifically, the display area is thinned into a plurality of display subareas for representing different association value ranges in advance, so that a user can more intuitively view association values represented by each graphic component to be displayed later, for example, the display area is divided into 4 display subareas, wherein the association value range of the first display subarea is 0.9-1, the association value range of the second display subarea is 0.8-0.9, the association value range of the third display subarea is 0.7-0.8, the association value range of the fourth display subarea is 0.6-0.7, and if the user needs to know the number of the graphic components to be displayed with the association value being 0.7-0.8, the user only needs to view the third display subarea and count the number of the graphic components to be displayed in the display subarea.

In this embodiment, as shown in fig. 2, the display area reference component is a graphic component that plays a role of position reference in the display area, and the display area 200 is divided into a first circle (a partial arc 2002 of the first circle is shown in the figure) with the display area reference component 2001 as a center, a second circle (a partial arc 2003 of the second circle is shown in the figure), a third circle (a partial arc 2004 of the third circle is shown in the figure), and a fourth circle (a partial arc 2005 of the fourth circle is shown in the figure), preferably, the shape of the display area reference component 2001 is a circle, and it should be noted that the shape of the display area reference component 2001 may be any shape, and the shape of the display area reference component 2001 is not specifically limited herein.

Further, the coordinates of the display area reference unit 2001 and the radius of each circle (i.e., the distance between each circle and the display area reference unit 2001) may be set according to practical situations. In the present embodiment, the coordinates of the display area reference member 2001 are set to (-1470, 264), the radius of the first circle is set to 1740px, the radius of the second circle is set to 1956px, the radius of the third circle is set to 2172px, the radius of the fourth circle is set to 2302px, the distances between the display area reference member 2001 and the first circle, the first circle and the second circle, and the second circle and the third circle are all 216px, the distance between the third circle and the fourth circle is 130px, and the circular area formed by adjacent circles (the first circle and the second circle, the second circle and the third circle, and the third circle and the fourth circle), the area between the circle closest to the display area reference member 2001 (the first circle) and the display area reference member 2001 is used as the display sub-area.

In addition, each display subarea characterizes a corresponding association value range, in order to more intuitively show the association value range corresponding to each display subarea, a display area reference axis 2006 is set in the display area, a scale for identifying the association value is set on the display area reference axis 2006, optionally, the association value on the display area reference axis 2006 decreases with increasing distance from the display area reference component 2001, that is, the association value ranges are respectively a first circle, a second circle, a third circle and a fourth circle in order from the big to the small, and an adjustment control is set around the display area reference axis 2006, so that a user can drag the adjustment control to adjust the scale range displayed by the display area reference axis 2006.

S102, determining the interval distance between the graphic component to be displayed and the display area reference component according to the display subarea corresponding to the graphic component to be displayed.

In order to ensure the subsequent distribution effect of each graphic component to be displayed, the distance between each graphic component to be displayed and the reference component of the display area needs to be determined first, so in this embodiment, according to the association value represented by the graphic component to be displayed, the display sub-area corresponding to the graphic component to be displayed may be determined according to the association value range represented by each display sub-area, and according to the determined display sub-area, the corresponding calculation formula is selected to calculate the distance between the graphic component to be displayed and the reference component of the display area.

Specifically, in the present embodiment, the association value corresponding to the third circular boundary line (i.e., the partial arc 2004 of the third circle) is denoted as end, where end=0.7 (the third circular boundary line is aligned with the scale of the display area reference axis 2006 indicating that the association value is 0.7), and the amplitude g= (1-end)/3= (1-0.7)/3=0.1 of the association value range characterized by each display sub-area.

In one embodiment, when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are all greater than or equal to a preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to the first interval distance calculation formula. Optionally, the preset value is set as an association value of end characterization, and the first interval distance calculation formula is as follows: d1 2172 (end) of the graphic component to be displayed, for example, the range of the association value of the annular region formed by the first circle and the second circle is 0.8-0.9, the association value of the graphic component to be displayed a is 0.82, that is, the display subarea corresponding to the graphic component to be displayed a is the annular region formed by the first circle and the second circle, and since the association values in the [ 0.8-0.9 ] are all greater than 0.7, the interval distance between the graphic component to be displayed a and the display area reference component is: d1 (a) =2172- (0.82-0.7) × (216/0.1) = 1910.8.

In another embodiment, when the association values in the association value ranges represented by the display sub-areas corresponding to the graphic components to be displayed are smaller than the preset values, the distance between the graphic components to be displayed and the display area reference component is calculated according to the second distance calculation formula. Optionally, the preset value is set as an association value of end characterization, and the second interval distance calculation formula is as follows: d2 (end-associated value of graphic component representation to be displayed) + (130/end) +2172, for example, the range of associated values of the annular region representation formed by the third circle and the fourth circle is [0.6, 0.7), the associated value of graphic component representation to be displayed B is 0.64, that is, the display subarea corresponding to graphic component B to be displayed is the annular region formed by the third circle and the fourth circle, and since the associated values in [0.6,0.7 ] are less than 0.7, the interval distance between graphic component B to be displayed and the display area reference component is: d2 (B) = (0.7-0.64) × (130/0.7) +2172= 2183.1.

S103, determining position information of the graphic assemblies to be displayed based on the graphic assembly distribution mode and the interval distance, wherein the position information of different graphic assemblies to be displayed is different.

The position information of the graphic components to be displayed comprises coordinates of the graphic components to be displayed, and the graphic component distribution mode is used for calculating the coordinates capable of uniformly distributing the graphic components to be displayed. Specifically, in order to improve the efficiency of data analysis, graphic components for characterizing the association degree of data are generally displayed in a display screen, so that a user can quickly and intuitively acquire the association degree between data, however, when the association degrees characterized by a plurality of graphic components are the same or similar, as shown in fig. 3, the graphic components are distributed at the same position in the display area 200 to form a graphic component stacking component 3001, so that the phenomenon of overlapping and stacking of graphic components occurs, and the user cannot accurately acquire the association degrees of all the graphic component characterizations, thereby affecting the data analysis efficiency.

In this embodiment, the occurrence of the above situation can be effectively avoided by setting the position information of each graphic assembly to be displayed to be different from each other.

Specifically, the step S103 specifically includes:

determining coordinate information of a graphic component to be displayed in a first direction based on a graphic component distribution mode;

determining coordinate information of the graphic component to be displayed in a second direction based on the interval distance and the distance between the graphic component to be displayed and a reference axis of the display area; wherein the first direction is perpendicular to the second direction.

Optionally, the first direction includes a vertical direction, the second direction includes a horizontal direction, and the first direction is perpendicular to the display area reference axis, and before step S103, the method further includes:

and determining a corresponding graphic component distribution mode according to the number of graphic components to be displayed corresponding to each display subarea and a distance threshold value between the graphic components to be displayed corresponding to each display subarea and a reference axis of the display area.

In this embodiment, each display sub-area is divided into a positive correlation area and a negative correlation area, where the positive correlation area is used for displaying a graphic component to be displayed corresponding to data representing positive correlation with reference data, and the negative correlation area is used for displaying a graphic component to be displayed corresponding to data representing negative correlation with reference data.

Specifically, the distance threshold between the graphic component to be displayed and the reference axis of the display area includes an upper limit distance threshold and a lower limit distance threshold, preferably, the lower limit distance threshold is 30px, the upper limit distance threshold is (the height of the display area/2-15) px, in one embodiment, the lower limit distance threshold is subtracted from the upper limit distance threshold to obtain a distance threshold difference value, and then, according to the distance threshold difference value and the number P of graphic components to be displayed corresponding to the display subareas, the distance difference value R of the adjacent graphic components to be displayed in the vertical direction is obtained. Alternatively, the distance difference r= (upper distance threshold-lower distance threshold)/(P-1||1) ("P-1||1" means that when the denominator (i.e., the value of P-1) is equal to 0, 1 is taken as the value of the denominator) of the adjacent graphic components to be displayed in the vertical direction.

In another embodiment, after coordinates of to-be-displayed graphic assemblies at two ends (i.e., one end close to a reference axis of a display area and one end close to a boundary of the display area) in a positive correlation area and a negative correlation area of the same display subarea are determined according to an upper limit distance threshold and a lower limit distance threshold, an arc formed between the two to-be-displayed graphic assemblies and a central angle formed by the reference assemblies of the display area are obtained, and a ratio of an angle of the central angle to the number of the remaining to-be-displayed graphic assemblies is calculated, so that a distance difference value R between each to-be-displayed graphic assembly in a vertical direction y can be obtained.

Optionally, the association values represented by the graphic assemblies to be displayed corresponding to each display sub-area may be sequentially ordered from large to small or from small to large in advance, and the distance distorruler between the graphic assembly to be displayed and the reference axis of the display area is determined according to the distance difference R, for example, the association values represented by the graphic assemblies to be displayed corresponding to the positive and negative correlation areas in each display sub-area are sequentially ordered from small to large in order, the distance distorruler 1 between the first graphic assembly to be displayed and the reference axis of the display area in the positive and negative correlation areas in each display sub-area is 30px, the distance to distorruler 2 between the second graphic assembly to be displayed and the reference axis of the display area is (30+r) px, the distance distorruler 3 between the third graphic assembly to be displayed and the reference axis of the display area is (30+2R) px, the distance to be displayed 4 between the fourth graphic assembly to be displayed and the reference axis of the display area is (30+3R) px, … …, and finally, according to fig. 2, the distance to the graphic information between the graphic assemblies to be displayed and the reference axis of the display area is determined in the vertical direction of the graphic assembly to be displayed: if the graphic component to be displayed is located in the positive correlation area, the coordinates of the graphic component to be displayed in the vertical direction y are as follows: height of display area/2-distorrule; if the graphic component to be displayed is located in the negative correlation area, the coordinates of the graphic component to be displayed in the vertical direction y are as follows: height of display area/2+distorrule.

For example, the height of the display area is 2160px, positive correlation is formed between the data represented by the graphic component a to be displayed and the reference data, and the distance distorrule 1 between the graphic component a to be displayed and the reference axis of the display area is 30px, so the coordinates of the graphic component a to be displayed in the vertical direction y are: 2160/2-30=1050; the data represented by the graphic component B to be displayed and the reference data are in negative correlation, and the distance distorRuler 2 between the graphic component B to be displayed and the reference axis of the display area is (30+2R) px, wherein R= (1065-30)/(10-1||1) =115, so the coordinates of the graphic component B to be displayed in the vertical direction y are: 2160/2+ (30+2×115) =1340.

Further, a preset algorithm is adopted to calculate the distance between the interval distance and the distance between the graphic component to be displayed and the reference axis of the display area, and coordinate information of the graphic component to be displayed in the horizontal direction x is obtained. In this embodiment, the preset algorithm is: and (D2-distorRuler 2) -1470 (namely, the horizontal x coordinate value of the display area reference component), wherein the calculated result is the coordinate of the graphic component to be displayed in the horizontal direction x. For example, the distance D between the graphic component B to be displayed and the display area reference component 2001 is 1740px, and the distance distorrule between the graphic component B to be displayed and the display area reference axis is 30px, so the coordinates of the graphic component B to be displayed in the horizontal direction x are: v (17402-302) -1470 = 270, the coordinates of the graphic component B to be displayed are (270, 1340).

And S104, displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

After determining the position information (i.e. coordinates) of each graphic component to be displayed, each graphic component to be displayed can be correspondingly displayed in the display area according to the respective position information.

In this embodiment, as shown in fig. 2, the coordinates of each graphic component to be displayed are set to be different through the steps, so that each graphic component to be displayed is uniformly and dispersedly distributed at different positions of the display screen, even if a plurality of associated values of the graphic component representations to be displayed are the same or similar, the phenomenon of stacking and overlapping of the graphic components does not occur, and a user can accurately and rapidly acquire the associated degrees of all the graphic component representations, thereby effectively relieving the technical problem of low current data analysis efficiency.

Further, as shown in fig. 2, a data detail component 2007 may be further disposed in the display screen, so that a user can more clearly read the data information (e.g. the collection times of the goods) represented by each graphic component to be displayed and the association value of the representation thereof, optionally, after the user clicks the graphic component to be displayed in the display area 200, the corresponding data detail information appears, for example, the user clicks the graphic component to be displayed 2008, and the data detail information 2009 appears around the graphic component 2008 to be displayed, so that the user can selectively view the data details to be understood according to the actual requirement, thereby further improving the efficiency of data analysis.

As can be seen from the foregoing, in the graphic component display method provided by the present application, firstly, a display sub-area corresponding to a graphic component to be displayed is determined according to an association value represented by the graphic component to be displayed, then, a separation distance between the graphic component to be displayed and a display area reference component is determined according to the display sub-area corresponding to the graphic component to be displayed, and then, position information of the graphic component to be displayed is determined based on a graphic component distribution mode and the separation distance, wherein the position information of different graphic components to be displayed is different, and finally, the graphic component to be displayed is displayed according to the position information of the graphic component to be displayed. Because the position information of each graphic component to be displayed is different, each graphic component to be displayed is distributed at different positions of the display picture, the phenomenon of stacking and overlapping of the graphic components is avoided, and a user can accurately and rapidly acquire the association degree of the representation of all the graphic components, so that the technical problem of low current data analysis efficiency is effectively solved.

The method according to the above embodiment will be further described from the perspective of a graphic assembly display device, which may be implemented as a separate entity or integrated in an electronic device.

Referring to fig. 4, fig. 4 specifically describes a graphic component display device provided in the embodiment of the present application, which can realize the beneficial effects that any one of the graphic component display methods provided in the embodiment of the present invention can realize, and detailed descriptions of the foregoing embodiments are omitted herein, and specifically, the graphic component display device includes: a display sub-region determination module 10, a separation distance determination module 20, a location information determination module 30, and a display module 40, wherein:

(1) Display sub-region determination module 10

The display subarea determining module 10 is configured to determine a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed.

(2) Separation distance determination module 20

The interval distance determining module 20 is configured to determine an interval distance between the graphic component to be displayed and the display area reference component according to the display sub-area corresponding to the graphic component to be displayed.

(3) Location information determination module 30

The location information determining module 30 is configured to determine location information of graphic components to be displayed based on the graphic component distribution pattern and the interval distance, where the location information of different graphic components to be displayed is different.

(4) Display module 40

And a display module 40 for displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

As can be seen from the foregoing, in the graphic assembly display device provided by the present application, the display sub-region corresponding to the graphic assembly to be displayed is determined by the display sub-region determining module 10 according to the association value represented by the graphic assembly to be displayed, then the interval distance between the graphic assembly to be displayed and the display region reference assembly is determined by the interval distance determining module 20 according to the display sub-region corresponding to the graphic assembly to be displayed, then the position information of the graphic assembly to be displayed is determined by the position information determining module 30 based on the distribution mode of the graphic assembly and the interval distance, wherein the position information of the different graphic assemblies to be displayed is different, and finally the graphic assembly to be displayed is displayed by the display module 40 according to the position information of the graphic assembly to be displayed. Because the position information of each graphic component to be displayed is different, each graphic component to be displayed is distributed at different positions of the display picture, the phenomenon of stacking and overlapping of the graphic components is avoided, and a user can accurately and rapidly acquire the association degree of the representation of all the graphic components, so that the technical problem of low current data analysis efficiency is effectively solved.

Correspondingly, the embodiment of the invention also provides a graphic component display system which comprises any graphic component display device provided by the embodiment of the invention, and the graphic component display device can be integrated in electronic equipment.

The method comprises the steps of firstly determining a display subarea corresponding to a graphic component to be displayed according to a correlation value of the representation of the graphic component to be displayed, then determining the interval distance between the graphic component to be displayed and a display area reference component according to the display subarea corresponding to the graphic component to be displayed, then determining the position information of the graphic component to be displayed based on the distribution mode of the graphic component and the interval distance, wherein the position information of different graphic components to be displayed is different, and finally displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

Because the graphic component display system may include any of the graphic component display devices provided by the embodiments of the present invention, the beneficial effects that any of the graphic component display devices provided by the embodiments of the present invention can achieve are detailed in the previous embodiments and are not described herein.

In addition, the embodiment of the application also provides electronic equipment. As shown in fig. 5, the electronic device 500 includes a processor 501, a memory 502. The processor 501 is electrically connected to the memory 502.

The processor 501 is a control center of the electronic device 500, connects various parts of the entire electronic device using various interfaces and lines, and performs various functions of the electronic device and processes data by running or loading application programs stored in the memory 502, and calling data stored in the memory 502, thereby performing overall monitoring of the electronic device.

In this embodiment, the processor 501 in the electronic device 500 loads the instructions corresponding to the processes of one or more application programs into the memory 502 according to the following steps, and the processor 501 executes the application programs stored in the memory 502, so as to implement various functions:

determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed;

determining the interval distance between the graphic component to be displayed and the display area reference component according to the display subarea corresponding to the graphic component to be displayed;

determining position information of a graphic component to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

Fig. 6 shows a specific block diagram of an electronic device according to an embodiment of the present invention, which may be used to implement the method for displaying a graphic assembly according to the above embodiment.

The RF circuit 610 is configured to receive and transmit electromagnetic waves, and to perform mutual conversion between the electromagnetic waves and the electrical signals, thereby communicating with a communication network or other devices. RF circuitry 610 may include various existing circuit elements for performing these functions, such as an antenna, a radio frequency transceiver, a digital signal processor, an encryption/decryption chip, a Subscriber Identity Module (SIM) card, memory, and the like. The RF circuitry 610 may communicate with various networks such as the internet, intranets, wireless networks, or other devices via wireless networks. The wireless network may include a cellular telephone network, a wireless local area network, or a metropolitan area network. The wireless network may use various communication standards, protocols, and technologies including, but not limited to, global system for mobile communications (Global System for Mobile Communication, GSM), enhanced mobile communications technology (Enhanced Data GSM Environment, EDGE), wideband code division multiple access technology (Wideband Code Division Multiple Access, WCDMA), code division multiple access technology (Code Division Access, CDMA), time division multiple access technology (Time Division Multiple Access, TDMA), wireless fidelity technology (Wireless Fidelity, wi-Fi) (e.g., institute of electrical and electronics engineers standards IEEE 802.11a,IEEE 802.11b,IEEE802.11g and/or IEEE802.11 n), internet telephony (Voice over Internet Protocol, voIP), worldwide interoperability for microwave access (Worldwide Interoperability for Microwave Access, wi-Max), other protocols for mail, instant messaging, and short messaging, as well as any other suitable communication protocols, even including those not currently developed.

The memory 620 may be used to store software programs and modules, and the processor 680 may perform various functional applications and data processing, i.e., to implement a function of storing 5G capability information, by executing the software programs and modules stored in the memory 620. Memory 620 may include high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, memory 620 may further include memory remotely located relative to processor 680, which may be connected to electronic device 600 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input unit 630 may be used to receive input numeric or character information and to generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control. In particular, the input unit 630 may include a touch-sensitive surface 631 and other input devices 632. The touch-sensitive surface 631, also referred to as a touch display screen or a touch pad, may collect touch operations thereon or thereabout by a user (e.g., operations of the user on the touch-sensitive surface 631 or thereabout using any suitable object or accessory such as a finger, stylus, etc.), and actuate the corresponding connection device according to a predetermined program. Alternatively, the touch sensitive surface 631 may comprise two parts, a touch detection device and a touch controller. The touch detection device detects the touch azimuth of a user, detects a signal brought by touch operation and transmits the signal to the touch controller; the touch controller receives touch information from the touch detection device and converts it into touch point coordinates, which are then sent to the processor 680 and can receive commands from the processor 680 and execute them. In addition, the touch sensitive surface 631 may be implemented in various types of resistive, capacitive, infrared, surface acoustic wave, and the like. In addition to the touch-sensitive surface 631, the input unit 630 may also comprise other input devices 632. In particular, other input devices 632 may include, but are not limited to, one or more of a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, mouse, joystick, etc.

The display unit 640 may be used to display information entered by a user or provided to a user as well as various graphical user interfaces of the electronic device 600, which may be composed of graphics, text, icons, video, and any combination thereof. The display unit 640 may include a display panel 641, and optionally, the display panel 641 may be configured in the form of an LCD (Liquid Crystal Display ), an OLED (Organic Light-Emitting Diode), or the like. Further, the touch sensitive surface 631 may overlay the display panel 641, and upon detection of a touch operation thereon or thereabout by the touch sensitive surface 631, the touch sensitive surface is communicated to the processor 680 to determine the type of touch event, and the processor 680 then provides a corresponding visual output on the display panel 641 based on the type of touch event. Although in fig. 6 the touch-sensitive surface 631 and the display panel 641 are implemented as two separate components for input and output functions, in some embodiments the touch-sensitive surface 631 may be integrated with the display panel 641 for input and output functions.

The electronic device 600 may also include at least one sensor 650, such as a light sensor, a motion sensor, and other sensors. In particular, the light sensor may include an ambient light sensor that may adjust the brightness of the display panel 641 according to the brightness of ambient light, and a proximity sensor that may turn off the display panel 641 and/or the backlight when the electronic device 600 moves to the ear. As one of the motion sensors, the gravity acceleration sensor can detect the acceleration in all directions (generally three axes), and can detect the gravity and the direction when the mobile phone is stationary, and can be used for applications of recognizing the gesture of the mobile phone (such as horizontal and vertical screen switching, related games, magnetometer gesture calibration), vibration recognition related functions (such as pedometer and knocking), and the like; other sensors such as gyroscopes, barometers, hygrometers, thermometers, infrared sensors, etc. that may also be configured with the electronic device 600 are not described in detail herein.

Audio circuitry 660, speakers 661, and microphone 662 may provide an audio interface between a user and the electronic device 600. The audio circuit 660 may transmit the received electrical signal converted from audio data to the speaker 661, and the electrical signal is converted into a sound signal by the speaker 661 to be output; on the other hand, microphone 662 converts the collected sound signals into electrical signals, which are received by audio circuit 660 and converted into audio data, which are processed by audio data output processor 680 for transmission to, for example, another terminal via RF circuit 610, or which are output to memory 620 for further processing. Audio circuitry 660 may also include an ear bud jack to provide communication of the peripheral headphones with electronic device 600.

The electronic device 600 may facilitate user email, web browsing, streaming media access, etc. via the transmission module 670 (e.g., wi-Fi module), which provides wireless broadband internet access to the user. Although fig. 6 shows the transmission module 670, it is understood that it does not belong to the essential constitution of the electronic device 600, and can be omitted entirely as required within the scope not changing the essence of the invention.

Processor 680 is a control center of electronic device 600, and uses various interfaces and lines to connect the various parts of the overall handset, perform various functions of electronic device 600 and process data by running or executing software programs and/or modules stored in memory 620, and invoking data stored in memory 620. Optionally, processor 680 may include one or more processing cores; in some embodiments, processor 680 may integrate an application processor that primarily processes operating systems, user interfaces, applications, etc., with a modem processor that primarily processes wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 680.

The electronic device 600 also includes a power supply 690 (e.g., a battery) that provides power to the various components, and in some embodiments, may be logically connected to the processor 680 through a power management system, thereby performing functions such as managing charging, discharging, and power consumption by the power management system. The power supply 690 may also include one or more of any of a direct current or alternating current power supply, a recharging system, a power failure detection circuit, a power converter or inverter, a power status indicator, and the like.

Although not shown, the electronic device 600 may further include a camera (e.g., front camera, rear camera), a bluetooth module, etc., which will not be described in detail herein. In particular, in this embodiment, the display unit of the electronic device is a touch screen display, the electronic device further includes a memory, and one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs including instructions for:

determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component representation to be displayed;

Determining the interval distance between the graphic component to be displayed and the display area reference component according to the display subarea corresponding to the graphic component to be displayed;

determining position information of a graphic component to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

In the implementation, each module may be implemented as an independent entity, or may be combined arbitrarily, and implemented as the same entity or several entities, and the implementation of each module may be referred to the foregoing method embodiment, which is not described herein again.

Those of ordinary skill in the art will appreciate that all or a portion of the steps of the various methods of the above embodiments may be performed by instructions, or by instructions controlling associated hardware, which may be stored in a computer-readable storage medium and loaded and executed by a processor. To this end, an embodiment of the present invention provides a storage medium having stored therein a plurality of instructions capable of being loaded by a processor to perform the steps of any of the graphic assembly display methods provided by the embodiments of the present invention.

Wherein the storage medium may include: read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disk, and the like.

The instructions stored in the storage medium can execute the steps in any graphic component display method provided by the embodiment of the present invention, so that the beneficial effects that any graphic component display method provided by the embodiment of the present invention can be achieved, and detailed descriptions of the previous embodiments are omitted herein.

The specific implementation of each operation above may be referred to the previous embodiments, and will not be described herein.

In summary, although the present application has been described with reference to the preferred embodiments, the preferred embodiments are not intended to limit the application, and those skilled in the art can make various modifications and adaptations without departing from the spirit and scope of the application, and the scope of the application is therefore defined by the claims.

Claims (7)

1. A graphic assembly display method, comprising:

the display area is thinned into a plurality of display subareas used for representing different association value ranges in advance;

dividing the display area into a plurality of circles with unequal radiuses and taking the display area reference assembly as the circle center;

Taking a circular ring area formed by adjacent circles as a display subarea;

determining a display subarea corresponding to the graphic component to be displayed according to the association value of the graphic component to be displayed and the association value range of each display subarea representation;

selecting a corresponding calculation formula according to the display subarea corresponding to the graphic component to be displayed so as to calculate the interval distance between the graphic component to be displayed and a display area reference component;

the step of selecting a corresponding calculation formula to calculate the interval distance between the graphic component to be displayed and the display area reference component according to the display sub-area corresponding to the graphic component to be displayed comprises the following steps:

when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are all larger than or equal to a preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a first interval distance calculation formula;

when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are smaller than the preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a second interval distance calculation formula;

Determining a corresponding graphic component distribution mode according to the number of the graphic components to be displayed corresponding to each display subarea and a distance threshold value between the graphic components to be displayed corresponding to each display subarea and a display area reference axis;

determining the position information of the graphic component to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

2. The graphic component display method according to claim 1, wherein the step of determining the position information of the graphic component to be displayed based on the graphic component distribution pattern and the separation distance comprises:

determining coordinate information of the graphic component to be displayed in a first direction based on the graphic component distribution mode;

determining coordinate information of the graphic component to be displayed in a second direction based on the interval distance and the distance between the graphic component to be displayed and a reference axis of a display area; wherein the first direction is perpendicular to the second direction.

3. The graphic assembly display method according to claim 2, wherein the first direction is perpendicular to the display area reference axis; the distance threshold value between the graphic component to be displayed and the reference axis of the display area comprises an upper limit distance threshold value and a lower limit distance threshold value; the first direction includes a vertical direction; the step of determining the coordinate information of the graphic component to be displayed in the first direction based on the graphic component distribution mode comprises the following steps:

Subtracting the lower distance threshold from the upper distance threshold to obtain a distance threshold difference;

obtaining a distance difference value of the adjacent graphic components to be displayed in the vertical direction according to the distance threshold value difference value and the number of the graphic components to be displayed corresponding to the display subarea;

determining the distance between the graphic component to be displayed and the reference axis of the display area according to the distance difference value;

and determining coordinate information of the graphic component to be displayed in the vertical direction according to the distance between the graphic component to be displayed and the reference axis of the display area.

4. A graphic assembly display method according to claim 3, wherein the second direction comprises a horizontal direction; the step of determining coordinate information of the graphic component to be displayed in the second direction based on the distance between the spacing distance and the distance between the graphic component to be displayed and the reference axis of the display area includes:

and calculating the distance between the interval distance and the distance between the graphic component to be displayed and the reference axis of the display area by adopting a preset algorithm to obtain the coordinate information of the graphic component to be displayed in the horizontal direction.

5. A graphic assembly display device, comprising:

the display subarea determining module is used for refining the display area into a plurality of display subareas used for representing different association value ranges in advance, dividing the display area into a plurality of circles with unequal radiuses and taking the display area reference assembly as a circle center, taking a circular ring area formed by adjacent circles as the display subarea, and determining the display subarea corresponding to the graphic assembly to be displayed according to the association value represented by the graphic assembly to be displayed and the association value range represented by each display subarea;

the interval distance determining module is configured to select a corresponding calculation formula to calculate an interval distance between the graphic component to be displayed and a display area reference component according to the display sub-area corresponding to the graphic component to be displayed, and the step of selecting a corresponding calculation formula to calculate an interval distance between the graphic component to be displayed and the display area reference component according to the display sub-area corresponding to the graphic component to be displayed includes: when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are all larger than or equal to a preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a first interval distance calculation formula; when the association values in the association value range represented by the display subarea corresponding to the graphic component to be displayed are smaller than the preset value, calculating the interval distance between the graphic component to be displayed and the display area reference component according to a second interval distance calculation formula;

The position information determining module is used for determining a corresponding graphic component distribution mode according to the number of the graphic components to be displayed corresponding to each display subarea and a distance threshold value between the graphic components to be displayed corresponding to each display subarea and a display area reference axis, and determining the position information of the graphic components to be displayed based on the graphic component distribution mode and the interval distance; wherein, the position information of different graphic components to be displayed is different;

and the display module is used for displaying the graphic component to be displayed according to the position information of the graphic component to be displayed.

6. A computer readable storage medium storing a plurality of instructions adapted to be loaded by a processor to perform the steps in the graphical component display method of any of claims 1 to 4.

7. An electronic device comprising a processor and a memory, the processor being electrically connected to the memory, the memory being for storing instructions and data, the processor being for performing the steps of the graphical component display method of any of claims 1 to 4.