CN113296665A - Method for expanding desktop display content - Google Patents

Method for expanding desktop display content Download PDF

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CN113296665A
CN113296665A CN202110544437.1A CN202110544437A CN113296665A CN 113296665 A CN113296665 A CN 113296665A CN 202110544437 A CN202110544437 A CN 202110544437A CN 113296665 A CN113296665 A CN 113296665A
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thickness
materials
user
desktop
weather
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陶敏
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Wuhan Changji Technology Co ltd
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Wuhan Changji Technology Co ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0484Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T11/002D [Two Dimensional] image generation
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T17/00Three dimensional [3D] modelling, e.g. data description of 3D objects
    • G06T17/10Constructive solid geometry [CSG] using solid primitives, e.g. cylinders, cubes

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  • Human Computer Interaction (AREA)
  • Computer Graphics (AREA)
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  • User Interface Of Digital Computer (AREA)
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Abstract

The invention relates to the technical field of desktop display, in particular to a method for expanding desktop display content, which comprises S1, searching a Program Manager window, and sending a 0x052C message to the window to enable a system desktop to support layered display; s2, the material is classified and labeled from several dimensions: hue, style, composite score and material price; s3, the weather module acquires weather information of the position from a weather information system in real time according to the geographical position of the computer, and displays the weather state and the building model of the geographical position in a 3D animation mode; s4, automatically recommending appropriate materials by the system according to the historical behavior data of the user; s5, selecting 1-N materials, and arranging and combining the materials on a target window according to any mode; s6, placing the target window on the next layer of the system desktop; and S7, transferring the mouse event and the keyboard event of the system to the target window, and making corresponding response actions according to the events by each element on the target window.

Description

Method for expanding desktop display content
Technical Field
The invention relates to the technical field of desktop display, in particular to a method for expanding desktop display content.
Background
The existing desktop is displayed too singly, the scheme provides a method for expanding desktop display content, the original desktop is divided into a plurality of layers of desktops in the longitudinal direction, the same or different elements can be added on each layer of desktop, the content on the bottom desktop can penetrate through a transparent area of the upper desktop, the elements on the different or same desktop layers can realize interaction by an external control instruction, a 2D or 3D model corresponding to an object in a real scene is automatically generated, one or more models are combined and applied on desktop wallpaper at will to generate a virtual real scene, the 2D/3D models with equal proportion are generated by the real desktop and related objects on the desktop, the sizes and position information of the models are mapped into the virtual desktop with equal proportion, the matching and combination with the real object are realized, the real perception of the virtual desktop is improved, the method is characterized in that the real weather (such as rain, snow, fog, hail and the like) conditions are vividly and dynamically displayed in the dynamic wallpaper on the desktop of a computer, the size and frequency of raindrops displayed by the dynamic wallpaper are different along with different rainfall levels, corresponding weather conditions are dynamically displayed by combining the geographical position of equipment, the strength of the weather conditions is displayed by using different effects, continuous development accompanying the weather conditions is obtained by means of big data and artificial intelligence analysis, geological disasters (such as flood, debris flow and the like) which may be caused can be caused, and the evolution process and results are fed back to the dynamic wallpaper.
Disclosure of Invention
The present invention is directed to a method for extending desktop display contents, so as to solve the problems mentioned in the background art.
In order to achieve the purpose, the invention provides the following technical scheme:
a method for expanding desktop display content comprises the following steps of:
s1, searching a Program Manager window, and sending a 0x052C message to the window to enable a system desktop to support layered display;
s2, the material is classified and labeled from several dimensions: hue, style, composite score and material price;
s3, the weather module acquires weather information of the position from a weather information system in real time according to the geographical position of the computer, and displays the weather state and the building model of the geographical position in a 3D animation mode;
s4, automatically recommending appropriate materials by the system according to the historical behavior data of the user;
s5, selecting 1-N materials, and arranging and combining the materials on a target window according to any mode;
s6, placing the target window on the next layer of the system desktop;
s7, transferring the mouse event and keyboard event to the target window, making corresponding response action according to the events,
as a preferred scheme of the present invention, each layered window of S1 supports displaying several materials such as still pictures, moving pictures, videos, 2D/3D models, weather modules, etc.
In a preferred embodiment of the present invention, the S2 color tone: the system automatically sorts all colors and occupation proportions related to the material from high to low, and marks the color with the occupation proportion of more than 34 percent as a main tone; style: the definition of the style is actively selected by a material provider, if the provider does not select the style of the material, the default style of the material is undefined; and (3) comprehensive scoring: each user of the raw materials can score the raw materials, the highest score is 5, the lowest score is 0, all scores are sorted from low to high, the top 10% of high segments and the bottom 10% of low segments are removed, and the rest average score is taken, namely the comprehensive score; price of material: the price is divided into pricing, cost price, discount price and discount rate.
As a preferable scheme of the present invention, the effect of the weather condition S3 on the building model is persistent, and the specific effect is as follows:
raindrop: the rainfall level (millimeter) in each 24 hours and the thickness of the ground rainwater displayed by the model form a mapping relation, wherein the thickness of the ground rainwater is 0.1-9.9 millimeters, and the thickness of the rainwater is 1 percent of the height (pixel) of the model; 10-24.9 mm in thickness of 2%; 25-49.9 mm, and the thickness is 4%; 50-99.9 mm thick 6.5%; 100-249.9 mm, 8% thickness; greater than or equal to 250 mm, and the thickness is 10%;
snow: the snow fall level of every 24 hours and the snow thickness of the ground and the building displayed by the model form a mapping relation, the snow thickness is less than or equal to 2.4 millimeters, and the snow thickness is 2.4 percent of the height (pixel) of the model; 2.4-4.9 mm, and the thickness is 5%; 4.9-9.9 mm, and the thickness is 7.8%; greater than or equal to 10 mm, and the thickness is 10%;
atomizing: the visibility (meter) of fog and the ambiguity of elements form a mapping relation, wherein the visibility (meter) of fog is more than or equal to 10000 meters, and the ambiguity is 0% (completely visible); 5000-10000 m, and the ambiguity is 20%; 500-5000 meters, and the ambiguity is 40%; 200-500 m, and the ambiguity is 60%; 50-200 m, and the ambiguity is 80%; less than 50 meters, and a haze of 95%.
As a preferred embodiment of the present invention, the specific recommendation algorithm of S4 is as follows:
1) when the user browses the material for 1 time, adding a label (such as hue, style, score, pricing, discount rate and the like) to which the material belongs to the user, if the user has the same label, adding 1 to the weight of the label, and judging the browsing behavior of the user when any one of the following behavior conditions is met:
changing the element from invisible to visible and maintaining for more than 3 seconds;
using control modes including but not limited to mouse, keyboard and touch screen to make the element obtain focus;
2) every time the user selects the material for 1 time, the weight of all the labels corresponding to the material is added with 3;
3) sorting all labels owned by the user according to the descending order of the weight, and removing the labels with the weight of 0;
4) displaying all recommended materials in the first 5 pages, determining the quantity of the materials displayed on each page according to the length and the width of the page, assuming that each page displays N materials, the first 5 pages have 5 × N materials in total, and determining the quantity of the materials to be displayed on each label according to the weight ratio of all the labels of the user;
5) when the user actively marks that the material is disliked, the weight of all the tags of the element is reduced by 6 but is not less than 0.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the method, an original layer of desktop is divided into a plurality of layers of desktops in the longitudinal direction, the same or different elements can be added on each layer of desktop, the content on the bottom layer of desktop can penetrate through a transparent area of the upper layer of desktop, the elements on the different or same desktop layers can realize interaction through an external control instruction, a 2D or 3D model corresponding to a real scene object is automatically generated, and one or more models are randomly combined and applied on desktop wallpaper to generate a virtual real scene.
2. In the invention, by generating 2D/3D models with equal proportion for the real desktop and related objects on the desktop, the size and the position information of the models are mapped into the virtual desktop in equal proportion, the matching combination preview with real objects is realized, the real perception of the matching of the virtual desktop is improved, the real weather (such as rain, snow, fog, hail and the like) conditions are vividly displayed in real time in the dynamic wallpaper on the computer desktop, the raindrop size and the raindrop frequency displayed by the dynamic wallpaper are different along with the different rainfall levels, and the corresponding weather conditions are dynamically displayed by combining the geographical position of the equipment, and the strength of the weather condition is displayed by using different effects, the continuous development accompanying the weather condition is obtained by means of big data and artificial intelligence analysis, possibly causing geological disasters (such as floods, debris flows, etc.) and feed back the evolution process and results to the dynamic wallpaper.
Drawings
Fig. 1 is a schematic diagram of a wallpaper case of the invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.
Referring to fig. 1, the present invention provides a technical solution:
a method for expanding desktop display content comprises the following steps of:
s1, searching a Program Manager window, and sending a 0x052C message to the window to enable a system desktop to support layered display;
s2, the material is classified and labeled from several dimensions: hue, style, composite score and material price;
s3, the weather module acquires weather information of the position from a weather information system in real time according to the geographical position of the computer, and displays the weather state and the building model of the geographical position in a 3D animation mode;
s4, automatically recommending appropriate materials by the system according to the historical behavior data of the user;
s5, selecting 1-N materials, and arranging and combining the materials on a target window according to any mode;
s6, placing the target window on the next layer of the system desktop;
s7, transferring the mouse event and keyboard event to the target window, making corresponding response action according to the events,
as a preferred scheme of the present invention, each layered window of S1 supports displaying several materials such as still pictures, moving pictures, videos, 2D/3D models, weather modules, etc.
In a preferred embodiment of the present invention, the S2 color tone: the system automatically sorts all colors and occupation proportions related to the material from high to low, and marks the color with the occupation proportion of more than 34 percent as a main tone; style: the definition of the style is actively selected by a material provider, if the provider does not select the style of the material, the default style of the material is undefined; and (3) comprehensive scoring: each user of the raw materials can score the raw materials, the highest score is 5, the lowest score is 0, all scores are sorted from low to high, the top 10% of high segments and the bottom 10% of low segments are removed, and the rest average score is taken, namely the comprehensive score; price of material: the price is divided into pricing, cost price, discount price and discount rate.
As a preferable scheme of the present invention, the effect of the weather condition S3 on the building model is persistent, and the specific effect is as follows:
raindrop: the rainfall level (millimeter) in each 24 hours and the thickness of the ground rainwater displayed by the model form a mapping relation, wherein the thickness of the ground rainwater is 0.1-9.9 millimeters, and the thickness of the rainwater is 1 percent of the height (pixel) of the model; 10-24.9 mm in thickness of 2%; 25-49.9 mm, and the thickness is 4%; 50-99.9 mm thick 6.5%; 100-249.9 mm, 8% thickness; greater than or equal to 250 mm, and the thickness is 10%;
snow: the snow fall level of every 24 hours and the snow thickness of the ground and the building displayed by the model form a mapping relation, the snow thickness is less than or equal to 2.4 millimeters, and the snow thickness is 2.4 percent of the height (pixel) of the model; 2.4-4.9 mm, and the thickness is 5%; 4.9-9.9 mm, and the thickness is 7.8%; greater than or equal to 10 mm, and the thickness is 10%;
atomizing: the visibility (meter) of fog and the ambiguity of elements form a mapping relation, wherein the visibility (meter) of fog is more than or equal to 10000 meters, and the ambiguity is 0% (completely visible); 5000-10000 m, and the ambiguity is 20%; 500-5000 meters, and the ambiguity is 40%; 200-500 m, and the ambiguity is 60%; 50-200 m, and the ambiguity is 80%; less than 50 meters, and a haze of 95%.
As a preferred embodiment of the present invention, the specific recommendation algorithm of S4 is as follows:
1) when the user browses the material for 1 time, adding a label (such as hue, style, score, pricing, discount rate and the like) to which the material belongs to the user, if the user has the same label, adding 1 to the weight of the label, and judging the browsing behavior of the user when any one of the following behavior conditions is met:
changing the element from invisible to visible and maintaining for more than 3 seconds;
using control modes including but not limited to mouse, keyboard and touch screen to make the element obtain focus;
2) every time the user selects the material for 1 time, the weight of all the labels corresponding to the material is added with 3;
3) sorting all labels owned by the user according to the descending order of the weight, and removing the labels with the weight of 0;
4) displaying all recommended materials in the first 5 pages, determining the quantity of the materials displayed on each page according to the length and the width of the page, assuming that each page displays N materials, the first 5 pages have 5 × N materials in total, and determining the quantity of the materials to be displayed on each label according to the weight ratio of all the labels of the user;
5) when the user actively marks that the material is disliked, the weight of all the tags of the element is reduced by 6 but is not less than 0.
According to the embodiment, the display content of the desktop is expanded through the following steps:
searching a Program Manager window, and sending a 0x052C message to the window to enable a system desktop to support layered display, wherein each layer of layered window supports display of a plurality of materials such as static pictures, dynamic pictures, videos, 2D/3D models, weather modules and the like;
material is classified and labeled from several dimensions:
color tone: the system automatically sorts all colors and occupation proportions related to the material from high to low, and marks the color with the occupation proportion of more than 34 percent as a main tone;
style: the definition of the style is actively selected by a material provider, if the provider does not select the style of the material, the default style of the material is undefined;
and (3) comprehensive scoring: each user of the raw materials can score the raw materials, the highest score is 5, the lowest score is 0, all scores are sorted from low to high, the top 10% of high segments and the bottom 10% of low segments are removed, and the rest average score is taken, namely the comprehensive score;
price of material: the price is divided into pricing, cost price, discount price and discount rate;
the weather module acquires weather information of the position from a weather information system in real time according to the geographical position of the computer, the weather state and the building model of the geographical position are displayed in a 3D animation mode, the influence effect of the weather state on the building model is continuous, and the specific effects are as follows:
raindrop: the rainfall level (millimeter) in each 24 hours and the thickness of the ground rainwater displayed by the model form a mapping relation, wherein the thickness of the ground rainwater is 0.1-9.9 millimeters, and the thickness of the rainwater is 1 percent of the height (pixel) of the model; 10-24.9 mm in thickness of 2%; 25-49.9 mm, and the thickness is 4%; 50-99.9 mm thick 6.5%; 100-249.9 mm, 8% thickness; greater than or equal to 250 mm, and the thickness is 10%;
snow: the snow fall level of every 24 hours and the snow thickness of the ground and the building displayed by the model form a mapping relation, the snow thickness is less than or equal to 2.4 millimeters, and the snow thickness is 2.4 percent of the height (pixel) of the model; 2.4-4.9 mm, and the thickness is 5%; 4.9-9.9 mm, and the thickness is 7.8%; greater than or equal to 10 mm, and the thickness is 10%;
atomizing: the visibility (meter) of fog and the ambiguity of elements form a mapping relation, wherein the visibility (meter) of fog is more than or equal to 10000 meters, and the ambiguity is 0% (completely visible); 5000-10000 m, and the ambiguity is 20%; 500-5000 meters, and the ambiguity is 40%; 200-500 m, and the ambiguity is 60%; 50-200 m, and the ambiguity is 80%; less than 50 meters, 95% ambiguity;
the system automatically recommends appropriate materials according to the historical behavior data of the user, and a specific recommendation algorithm is as follows:
1) when the user browses the material for 1 time, adding a label (such as hue, style, score, pricing, discount rate and the like) to which the material belongs to the user, if the user has the same label, adding 1 to the weight of the label, and judging the browsing behavior of the user when any one of the following behavior conditions is met:
changing the element from invisible to visible and maintaining for more than 3 seconds;
using control modes including but not limited to mouse, keyboard and touch screen to make the element obtain focus;
2) every time the user selects the material for 1 time, the weight of all the labels corresponding to the material is added with 3;
3) sorting all labels owned by the user according to the descending order of the weight, and removing the labels with the weight of 0;
4) displaying all recommended materials in the first 5 pages, determining the quantity of the materials displayed on each page according to the length and the width of the page, assuming that each page displays N materials, the first 5 pages have 5 × N materials in total, and determining the quantity of the materials to be displayed on each label according to the weight ratio of all the labels of the user;
5) when the user actively marks that the material is disliked, the weight of all the labels of the element is reduced by 6 but is not less than 0
1-N materials are selected and arranged and combined on a target window according to any mode;
placing the target window to the next layer of the system desktop;
transmitting a mouse event and a keyboard event of the system to a target window, and making corresponding response actions by each element on the target window according to the events;
case 1: the original desktop on one layer is divided into a plurality of layers of desktops in the longitudinal direction, the same or different elements can be added on each layer of desktop, and the contents on the desktop on the bottom layer can penetrate through the transparent area of the desktop on the upper layer. Elements on different or the same desktop layer can be interacted by an external control instruction, for example, the picture in fig. 1 is taken as an example, a wallpaper module is divided into elements such as sky, cloud, house, mountain and the like, and the elements can be freely moved and changed in position, so that new wallpaper is formed;
case 2: the method comprises the following steps that external equipment (a camera and a microphone) is transmitted to a computer through a network, the computer automatically generates a 2D/3D module, a 2D or 3D model corresponding to a real scene object is automatically generated, one or more models are randomly combined and applied on desktop wallpaper, a virtual real scene is generated, and model elements in the scene can respond to the following control instructions:
1. through the sliding and clicking events issued by the mouse;
2. key events issued by the keyboard;
3. capturing the motion of an object in real time through a camera;
4. voice commands captured in real time by a microphone;
5. instructions transmitted over the network to the native machine.
Case 3: the objects on the real desktop are restored in equal proportion and then are placed on the computer desktop through the external equipment, so that the interaction between the reality and the computer is realized, 2D/3D models in equal proportion are generated by the real desktop and the related objects on the desktop, the sizes and the position information of the models are mapped into the virtual desktop in equal proportion, the matching combination preview with the real objects is realized, and the real perception of the matching of the virtual desktop is improved.
Case 4: in Wuhan, a computer of a certain user home, Wuhan rains all the year in summer, the method can reflect the real-time weather (such as rain, snow, fog, hail and the like) conditions on the computer desktop in real time and vividly in the dynamic wallpaper of the computer desktop through historical data analysis and real-time weather states, the size and the frequency of raindrops displayed by the dynamic wallpaper are different along with different rainfall levels, the corresponding weather conditions are dynamically displayed by combining the geographical position of equipment, the strength of the weather conditions is displayed by using different effects, geological disasters (such as flood, debris flow and the like) which are possibly caused along with the continuous development of the weather conditions are obtained by means of large data and artificial intelligence analysis, and the evolution process and results are fed back to the dynamic wallpaper.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A method for expanding desktop display content is characterized by comprising the following steps of:
s1, searching a Program Manager window, and sending a 0x052C message to the window to enable a system desktop to support layered display;
s2, the material is classified and labeled from several dimensions: hue, style, composite score and material price;
s3, the weather module acquires weather information of the position from a weather information system in real time according to the geographical position of the computer, and displays the weather state and the building model of the geographical position in a 3D animation mode;
s4, automatically recommending appropriate materials by the system according to the historical behavior data of the user;
s5, selecting 1-N materials, and arranging and combining the materials on a target window according to any mode;
s6, placing the target window on the next layer of the system desktop;
and S7, transferring the mouse event and the keyboard event of the system to the target window, and making corresponding response actions according to the events by each element on the target window.
2. The method of claim 1, wherein each layered window of the S1 supports displaying still pictures, moving pictures, videos, 2D/3D models, weather modules, and other materials.
3. The method for expanding desktop display content according to claim 1, wherein said S2 hue: the system automatically sorts all colors and occupation proportions related to the material from high to low, and marks the color with the occupation proportion of more than 34 percent as a main tone; style: the definition of the style is actively selected by a material provider, if the provider does not select the style of the material, the default style of the material is undefined; and (3) comprehensive scoring: each user of the raw materials can score the raw materials, the highest score is 5, the lowest score is 0, all scores are sorted from low to high, the top 10% of high segments and the bottom 10% of low segments are removed, and the rest average score is taken, namely the comprehensive score; price of material: the price is divided into pricing, cost price, discount price and discount rate.
4. The method for extending desktop display contents according to claim 1, wherein the effect of the weather condition of S3 on the architectural model is persistent, and the specific effect is as follows:
raindrop: the rainfall level (millimeter) in each 24 hours and the thickness of the ground rainwater displayed by the model form a mapping relation, wherein the thickness of the ground rainwater is 0.1-9.9 millimeters, and the thickness of the rainwater is 1 percent of the height (pixel) of the model; 10-24.9 mm in thickness of 2%; 25-49.9 mm, and the thickness is 4%; 50-99.9 mm thick 6.5%; 100-249.9 mm, 8% thickness; greater than or equal to 250 mm, and the thickness is 10%;
snow: the snow fall level of every 24 hours and the snow thickness of the ground and the building displayed by the model form a mapping relation, the snow thickness is less than or equal to 2.4 millimeters, and the snow thickness is 2.4 percent of the height (pixel) of the model; 2.4-4.9 mm, and the thickness is 5%; 4.9-9.9 mm, and the thickness is 7.8%; greater than or equal to 10 mm, and the thickness is 10%;
atomizing: the visibility (meter) of fog and the ambiguity of elements form a mapping relation, wherein the visibility (meter) of fog is more than or equal to 10000 meters, and the ambiguity is 0% (completely visible); 5000-10000 m, and the ambiguity is 20%; 500-5000 meters, and the ambiguity is 40%; 200-500 m, and the ambiguity is 60%; 50-200 m, and the ambiguity is 80%; less than 50 meters, and a haze of 95%.
5. The method for expanding desktop display contents according to claim 1, wherein the specific recommendation algorithm of S4 is as follows:
1) when the user browses the material for 1 time, adding a label (such as hue, style, score, pricing, discount rate and the like) to which the material belongs to the user, if the user has the same label, adding 1 to the weight of the label, and judging the browsing behavior of the user when any one of the following behavior conditions is met:
changing the element from invisible to visible and maintaining for more than 3 seconds;
using control modes including but not limited to mouse, keyboard and touch screen to make the element obtain focus;
2) every time the user selects the material for 1 time, the weight of all the labels corresponding to the material is added with 3;
3) sorting all labels owned by the user according to the descending order of the weight, and removing the labels with the weight of 0;
4) displaying all recommended materials in the first 5 pages, determining the quantity of the materials displayed on each page according to the length and the width of the page, assuming that each page displays N materials, the first 5 pages have 5 × N materials in total, and determining the quantity of the materials to be displayed on each label according to the weight ratio of all the labels of the user;
5) when the user actively marks that the material is disliked, the weight of all the tags of the element is reduced by 6 but is not less than 0.
CN202110544437.1A 2021-05-19 2021-05-19 Method for expanding desktop display content Pending CN113296665A (en)

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