CN110069307B - Screen display control method and system and intelligent terminal - Google Patents

Abstract

The invention relates to a control method, a system and an intelligent terminal for screen display, wherein the control method comprises the following steps: acquiring icon dominant color information; determining a color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and a preset time range; acquiring current time, and determining the time period of the current time through comparison; and displaying the current output color of the icon according to the time period of the current time and the color gradient rule. According to the control method and system and the intelligent terminal, the main color of the intelligent terminal has slight gradient change along with the time change, so that the icon use experience of a user has more time directivity and more time flowing emotion, and the aesthetic fatigue caused by single output color is avoided; in addition, the manner of obtaining the dominant color based on season or weather can also provide a better user experience in visual recognition.

Description

Screen display control method and system and intelligent terminal

Technical Field

The invention belongs to the field of intelligent terminal display control, and particularly relates to a screen display control method and system and an intelligent terminal.

Background

In the prior art, icons of mobile equipment are various, the main color of the icons is single, the color of the icons is kept single and unchanged at any time, and a single visual identification tone interface is easy to cause aesthetic fatigue of users; in addition, the main colors of the current icons are too mixed, and better optimization and experience are needed in visual identification.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a screen display control method, a screen display control system and an intelligent terminal.

In order to achieve the purpose, the invention provides the following technical scheme:

a control method of screen display includes:

acquiring icon dominant color information;

determining a color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and a preset time range;

acquiring current time, and determining the time period of the current time through comparison;

and displaying the current output color of the icon according to the time period of the current time and the color gradient rule.

Further, the preset time range includes a day time period and a night time period, the day time period is divided into a first day time section and a second day time section in a clockwise direction, and the night time period is divided into a first night time section and a second night time section in a clockwise direction;

the end time of the first time of day section coincides with the start time of the second time of day section;

the end time of the second day time segment coincides with the start time of the first night time segment;

the end time of the first night time segment coincides with the start time of the second night time segment;

the end time of the second night time segment coincides with the start time of the first day time segment.

Further, according to the icon dominant color information and a preset time range, determining a color gradient rule of an output color relative to a dominant color in a unit time period, including:

and reducing or increasing unit amplitude according to the shade of the dominant color.

Further, the performing of the decrement or increment of the unit magnitude according to the lightness of the dominant color includes:

the primary color in the first diurnal period varies in a gradient from dark to light in a clockwise direction and the primary color in the second diurnal period varies in a gradient from light to dark in a clockwise direction during the diurnal period;

in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section.

Further, according to the icon dominant color information and a preset time range, determining a color gradient rule of an output color relative to a dominant color in a unit time period, including:

the reduction or increase in unit width is performed according to the lightness of the dominant color.

Further, the reducing or increasing of the unit width according to the lightness of the dominant color includes:

the primary color brightness in the clockwise direction in the first diurnal period varies in a gradient from low to high in the clockwise direction, and the primary color brightness in the clockwise direction in the second diurnal period varies in a gradient from high to low in the clockwise direction;

the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period.

Further, according to the icon dominant color information and a preset time range, determining a color gradient rule of an output color relative to a dominant color in a unit time period, including:

the decrement or increment of unit amplitude is performed according to the saturation of the dominant color.

Further, the decrement or increment of unit magnitude according to the saturation of the dominant color includes:

the primary color saturation in the clockwise direction in the first diurnal period changes from low to high gradient and the primary color saturation in the clockwise direction in the second diurnal period changes from high to low gradient during the diurnal period;

and in the night time period, the primary color saturation in the clockwise direction in the first night time section is changed in a gradient manner from high to low, and the primary color saturation in the clockwise direction in the second night time section is changed in a gradient manner from low to high.

Further, the acquiring of the icon dominant color information includes:

defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; or the like, or, alternatively,

the corresponding dominant color is defined according to seasonal state, including spring, summer, fall or winter.

The present invention also provides a control system for screen display, comprising:

the dominant color acquisition unit is used for acquiring the dominant color information of the icon;

the gradient determining unit is used for determining a color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and a preset time range;

the time acquisition unit is used for acquiring the current time and determining the time period of the current time through comparison;

and the color output unit is used for displaying the current output color of the icon according to the time period of the current time and the color gradient rule.

Further, the preset time range includes a day time period and a night time period, the day time period is divided into a first day time section and a second day time section in a clockwise direction, and the night time period is divided into a first night time section and a second night time section in a clockwise direction;

the end time of the first time of day section coincides with the start time of the second time of day section;

the end time of the second day time segment coincides with the start time of the first night time segment;

the end time of the first night time segment coincides with the start time of the second night time segment;

the end time of the second night time segment coincides with the start time of the first day time segment.

Further, the gradient determination unit is configured to perform decrement or increment of unit magnitude according to the shade of the dominant color.

Further, the performing of the decrement or increment of the unit magnitude according to the lightness of the dominant color includes:

the primary color in the first diurnal period varies in a gradient from dark to light in a clockwise direction and the primary color in the second diurnal period varies in a gradient from light to dark in a clockwise direction during the diurnal period;

in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section.

Further, the gradient determination unit is configured to perform decrement or increment of unit magnitude according to lightness of a dominant color.

Further, the reducing or increasing of the unit width according to the lightness of the dominant color includes:

the primary color brightness in the clockwise direction in the first diurnal period varies in a gradient from low to high in the clockwise direction, and the primary color brightness in the clockwise direction in the second diurnal period varies in a gradient from high to low in the clockwise direction;

the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period.

Further, the gradient determination unit is configured to perform decrement or increment of unit magnitude according to the saturation of the dominant color.

Further, the decrement or increment of unit magnitude according to the saturation of the dominant color includes:

the primary color saturation in the clockwise direction in the first diurnal period changes from low to high gradient and the primary color saturation in the clockwise direction in the second diurnal period changes from high to low gradient during the diurnal period;

and in the night time period, the primary color saturation in the clockwise direction in the first night time section is changed in a gradient manner from high to low, and the primary color saturation in the clockwise direction in the second night time section is changed in a gradient manner from low to high.

Further, the dominant color acquisition unit is configured to:

defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; or the like, or, alternatively,

the corresponding dominant color is defined according to seasonal state, including spring, summer, fall or winter.

The invention also provides an intelligent terminal which comprises the screen display control system.

The control method, the system and the intelligent terminal for screen display provided by the invention determine the color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and the preset time range, and display the current output color of the icon based on the time period of the current time and the color gradient rule so as to realize gradient change of the color of the icon in different time periods, so that the icon can display different colors in different times. Therefore, the control method, the control system and the intelligent terminal have slight gradient change of the main color along with the time change, so that the icon using experience of a user has more time directivity and more time flowing emotion, and the aesthetic fatigue caused by single output color is avoided; in addition, the manner of obtaining the dominant color based on season or weather can also provide a better user experience in visual recognition.

Drawings

Fig. 1 is a flowchart of a screen display control method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a screen display control method according to an embodiment of the present invention.

In a specific embodiment, the method for controlling screen display provided by the present invention comprises the following steps:

s1: acquiring icon dominant color information;

s2: determining a color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and a preset time range;

s3: acquiring current time, and determining the time period of the current time through comparison;

s4: and displaying the current output color of the icon according to the time period of the current time and the color gradient rule.

In step S2, the preset time range includes a day time period and a night time period, the day time period dividing the first day time section and the second day time section in a clockwise direction, the night time period dividing the first night time section and the second night time section in a clockwise direction; the end time of the first time of day section coincides with the start time of the second time of day section; the end time of the second day time segment coincides with the start time of the first night time segment; the end time of the first night time segment coincides with the start time of the second night time segment; the end time of the second night time segment coincides with the start time of the first day time segment.

Specifically, the above-mentioned day time period may be determined according to the local sunrise and sunset time, time zone, etc., the local day and night time is determined, and every 12 hours is defined as the day time period and the other 12 hours is defined as the night time period according to the change of 24 hours. A color gradient change per unit time (e.g., 1 hour). In this embodiment, taking beijing time as an example, the daytime period is 6 o 'clock-18 o' clock, wherein the daytime period can be divided into 12 periods by taking a step gradient per hour, and the 12 periods are divided into two groups, wherein 6 o 'clock-12 o' clock is the first daytime period node, and 12 o 'clock-18 o' clock is the second daytime period node; the night time period is 18 o 'clock-6 o' clock next day, wherein the night time period is divided into 12 time periods by taking a gradient per hour, and the 12 time periods are divided into two groups, wherein 12 o 'clock-24 o' clock is the first night time section, and 24 o 'clock-6 o' clock next day is the second night time section.

When determining the color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and the preset time range, one of the following strategies can be adopted: 1. reducing or increasing unit amplitude according to the shade of the dominant color; 2. performing decrement or increment of unit amplitude according to the lightness of the dominant color; 3. the decrement or increment of unit amplitude is performed according to the saturation of the dominant color.

In the day time period, the primary color changes from dark to light in a clockwise direction in the first day time section, and the primary color changes from light to dark in a clockwise direction in the second day time section; in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section.

Specifically, according to the RGB color parameters, for example, the red color system is constant based on the R parameter, and the GB parameter is equally varied. The light color direction is extended to reduce a certain arithmetic or geometric numerical value for the equivalence of GB parameters; the extension in the dark color direction increases a certain arithmetic difference or geometric proportion value for the equivalence of GB parameters. In day time period 6 hour-18, the primary color extends in the light color direction at 6 hours-12 hours, and is lightest at 12 hours and returns to the original primary color direction at 12 hours-18 hours. In the night period 18 hours-6 hours, the dominant color extends toward the dark color at 18 hours-24 (0), and is deepest at 24 hours (0), and the dominant color is restored toward the original dominant color at 24 hours (0). It should be understood that the numerical reasonable maximum minimum is defined as the median value of the color change to full black (R0, G0, B0), full white (R255, G255, B255).

The above decrease or increase in unit magnitude according to the lightness of the primary color is specifically that, in the daytime period, the lightness of the primary color changes from low to high in a clockwise direction in the first daytime section, and the lightness of the primary color changes from high to low in a clockwise direction in the second daytime section; the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period.

Specifically, the reduction and the increase in unit magnitude are performed according to the lightness of the dominant color, which varies in the interval where the lightness decreases by 6 degrees and the lightness increases by 6 degrees, e.g., the reduction and the increase are 1. In day time period 6 hour-18, the dominant color at 6 hours-12 hours extends to the high brightness direction, and up to 12 hours, the brightness of the dominant color is the highest, and is +6 degrees; the primary color is restored to the original value in the lightness direction of the primary color at 12 hours to 18 hours, and the variable is 0. In the night time period 18 o 'clock-6 o' clock, the dominant color extends to the low lightness direction at 18 o 'clock-24 (0), and the lightness of the dominant color is the lowest at 24 o' clock (0), and is-6 degrees; 24, (0) when-6, the main color is restored to the original value in the lightness direction of the main color, and the variable is 0.

The decrement or increment in unit amplitude according to the saturation of the primary color is specifically that, in the daytime period, the saturation of the primary color changes from low to high in a gradient manner in the clockwise direction in the first daytime period, and the saturation of the primary color changes from high to low in a gradient manner in the clockwise direction in the second daytime period; and in the night time period, the primary color saturation in the clockwise direction in the first night time section is changed in a gradient manner from high to low, and the primary color saturation in the clockwise direction in the second night time section is changed in a gradient manner from low to high.

Specifically, the decrement and increment of unit magnitude are performed according to the saturation of the dominant color, which varies in the interval in which the saturation decreases by 6 degrees and increases by 6 degrees, e.g., the decrement and increment amount is 1. In day time period 6 hour-18 hour, the primary color at 6 hour-12 hour extends to the high saturation direction, and by 12 hour, the primary color saturation is highest at +6 degrees. And the primary color recovers to the original primary color saturation direction at 12 h-18 h, and the variable is 0. In the night period 18 hours-6 hours, the dominant color at 18 hours-24 (0) extends to the low saturation direction until 24(0), at which point the dominant color is at its lowest saturation of-6 degrees. 24, (0) the primary color recovers to the original primary color saturation direction at the time of-6, and the variable is 0.

In step S1, the icon dominant color information may be acquired in one of the following manners:

1. defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; specifically, the main color is subjected to color change based on the color tone of the change of the sky according to the characteristic color change situation of the weather on the local day. For example, in a sunny day, a bright tone in a sunny day is selected, in a rainy day, a dark blue tone is selected, which has a dark color based on rain, and in a snowy day, a white tone is selected, which has a tendency of change of characteristic elements of the color of the weather at that time.

2. Defining a corresponding dominant color according to seasonal states, wherein the seasonal states comprise spring, summer, autumn or winter; specifically, the main color is changed based on the four-season natural characteristic color tone according to the local four-season natural characteristic color change situation. For example, a color tone with a spring color is selected in spring, and the change and adaptation are performed based on the dominant color, for example, an icon with a green dominant color is added according to four seasons, and the appearance effect is spring light green, summer dark green, autumn yellow green, winter gray green, and the like.

The control method for screen display determines the color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and the preset time range, and displays the current output color of the icon based on the time period of the current time and the color gradient rule so as to realize gradient change of the color of the icon in different time periods, so that the icon can display different colors in different times. Therefore, the control method, the control system and the intelligent terminal have slight gradient change of the main color along with the time change, so that the icon using experience of a user has more time directivity and more time flowing emotion, and the aesthetic fatigue caused by single output color is avoided; in addition, the manner of obtaining the dominant color based on season or weather can also provide a better user experience in visual recognition.

In addition to the above control method, the present invention also provides a control system for screen display, which includes a dominant color obtaining unit, a gradient determining unit, a time obtaining unit, and a color output unit. The system comprises a dominant color acquisition unit, a gradient determination unit and a control unit, wherein the dominant color acquisition unit is used for acquiring dominant color information of an icon, and the gradient determination unit is used for determining a color gradient rule of an output color relative to a dominant color in a unit time period according to the dominant color information of the icon and a preset time range; the time acquisition unit is used for acquiring the current time and determining the time period of the current time through comparison; and the color output unit is used for displaying the current output color of the icon according to the time period of the current time and the color gradient rule.

The preset time range comprises a day time period and a night time period, the day time period is divided into a first day time section and a second day time section in a clockwise direction, and the night time period is divided into a first night time section and a second night time section in the clockwise direction; the end time of the first time of day section coincides with the start time of the second time of day section; the end time of the second day time segment coincides with the start time of the first night time segment; the end time of the first night time segment coincides with the start time of the second night time segment; the end time of the second night time segment coincides with the start time of the first day time segment.

Specifically, the above-mentioned day time period may be determined according to the local sunrise and sunset time, time zone, etc., the local day and night time is determined, and every 12 hours is defined as the day time period and the other 12 hours is defined as the night time period according to the change of 24 hours. A color gradient change per unit time (e.g., 1 hour). In this embodiment, taking beijing time as an example, the daytime period is 6 o 'clock-18 o' clock, wherein the daytime period can be divided into 12 periods by taking a step gradient per hour, and the 12 periods are divided into two groups, wherein 6 o 'clock-12 o' clock is the first daytime period node, and 12 o 'clock-18 o' clock is the second daytime period node; the night time period is 18 o 'clock-6 o' clock next day, wherein the night time period is divided into 12 time periods by taking a gradient per hour, and the 12 time periods are divided into two groups, wherein 12 o 'clock-24 o' clock is the first night time section, and 24 o 'clock-6 o' clock next day is the second night time section.

The gradient determining unit is configured to perform a decrement or increment of a unit amplitude according to a shade of a primary color, and specifically, configured to change the primary color from dark to light in a clockwise direction in the first day time section and change the primary color from light to dark in a clockwise direction in the second day time section in a gradient manner in the clockwise direction in the day time period; in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section.

Specifically, according to the RGB color parameters, for example, the red color system is constant based on the R parameter, and the GB parameter is equally varied. The light color direction is extended to reduce a certain arithmetic or geometric numerical value for the equivalence of GB parameters; the extension in the dark color direction increases a certain arithmetic difference or geometric proportion value for the equivalence of GB parameters. In day time period 6 hour-18, the primary color extends in the light color direction at 6 hours-12 hours, and is lightest at 12 hours and returns to the original primary color direction at 12 hours-18 hours. In the night period 18 hours-6 hours, the dominant color extends toward the dark color at 18 hours-24 (0), and is deepest at 24 hours (0), and the dominant color is restored toward the original dominant color at 24 hours (0). It should be understood that the numerical reasonable maximum minimum is defined as the median value of the color change to full black (R0, G0, B0), full white (R255, G255, B255).

The gradient determining unit may be further configured to perform a decrement or increment of unit magnitude according to a brightness of a dominant color, and in particular, configured to change the brightness of the dominant color from a low gradient to a high gradient in a clockwise direction in the first diurnal period and change the brightness of the dominant color from a high gradient to a low gradient in a clockwise direction in the second diurnal period in the diurnal period; the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period.

Specifically, the reduction and the increase in unit magnitude are performed according to the lightness of the dominant color, which varies in the interval where the lightness decreases by 6 degrees and the lightness increases by 6 degrees, e.g., the reduction and the increase are 1. In day time period 6 hour-18, the dominant color at 6 hours-12 hours extends to the high brightness direction, and up to 12 hours, the brightness of the dominant color is the highest, and is +6 degrees; the primary color is restored to the original value in the lightness direction of the primary color at 12 hours to 18 hours, and the variable is 0. In the night time period 18 o 'clock-6 o' clock, the dominant color extends to the low lightness direction at 18 o 'clock-24 (0), and the lightness of the dominant color is the lowest at 24 o' clock (0), and is-6 degrees; 24, (0) when-6, the main color is restored to the original value in the lightness direction of the main color, and the variable is 0.

The gradient determining unit may be further configured to perform a decrement or increment of a unit magnitude according to a saturation of a primary color, and specifically, configured to change the saturation of the primary color from low to high in a clockwise direction in the first diurnal period and change the saturation of the primary color from high to low in a clockwise direction in the second diurnal period in a gradient manner in the clockwise direction in the diurnal period; and in the night time period, the primary color saturation in the clockwise direction in the first night time section is changed in a gradient manner from high to low, and the primary color saturation in the clockwise direction in the second night time section is changed in a gradient manner from low to high.

Specifically, the decrement and increment of unit magnitude are performed according to the saturation of the dominant color, which varies in the interval in which the saturation decreases by 6 degrees and increases by 6 degrees, e.g., the decrement and increment amount is 1. In day time period 6 hour-18 hour, the primary color at 6 hour-12 hour extends to the high saturation direction, and by 12 hour, the primary color saturation is highest at +6 degrees. And the primary color recovers to the original primary color saturation direction at 12 h-18 h, and the variable is 0. In the night period 18 hours-6 hours, the dominant color at 18 hours-24 (0) extends to the low saturation direction until 24(0), at which point the dominant color is at its lowest saturation of-6 degrees. 24, (0) the primary color recovers to the original primary color saturation direction at the time of-6, and the variable is 0.

The dominant color obtaining unit is used for defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; or, the corresponding dominant color is defined according to seasonal states, including spring, summer, fall or winter.

Specifically, when the main color has a color change based on the color tone of the weather on the local day according to the change of the weather characteristic color, for example, a bright color tone on a sunny day is selected in a sunny day, a dark blue color tone based on rain or other dark colors is selected in a rainy day, a white color tone is selected in a snowy day, and the like, and the change of the weather characteristic color element is prone to this time. When the main color is changed based on the four-season natural characteristic color tone according to the local four-season natural characteristic color change situation in one year, for example, the tone with the spring color is selected in spring, and the change adaptation is performed based on the main color, for example, an icon with the green main color can be added according to the four seasons, and the presentation effect is light green in spring, dark green in summer, yellow green in autumn, gray green in winter and the like.

The control system for screen display determines the color gradient rule of the output color relative to the dominant color in a unit time period according to the icon dominant color information and the preset time range, and displays the current output color of the icon based on the time period of the current time and the color gradient rule so as to realize gradient change of the color of the icon in different time periods, so that the icon can display different colors in different times. Therefore, the control method, the control system and the intelligent terminal have slight gradient change of the main color along with the time change, so that the icon using experience of a user has more time directivity and more time flowing emotion, and the aesthetic fatigue caused by single output color is avoided; in addition, the manner of obtaining the dominant color based on season or weather can also provide a better user experience in visual recognition.

The invention further provides an intelligent terminal, which comprises the control system for screen display, the intelligent terminal can be a mobile phone, a PAD or a computer, and other parts of the intelligent terminal are required to refer to the prior art, which is not described herein again.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

It is to be understood that the embodiments described herein may be implemented in hardware, software, firmware, middleware, microcode, or any combination thereof. For a hardware implementation, the Processing units may be implemented within one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), general purpose processors, controllers, micro-controllers, microprocessors, other electronic units configured to perform the functions described herein, or a combination thereof.

For a software implementation, the techniques described herein may be implemented by means of units performing the functions described herein. The software codes may be stored in a memory and executed by a processor. The memory may be implemented within the processor or external to the processor.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or make a contribution to the prior art, or may be implemented in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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

Claims (3)

1. A method for controlling a screen display, comprising:

acquiring icon dominant color information;

determining a color gradient rule of an output color relative to a main color in a unit time period according to the icon main color information and a preset time range, wherein the preset time range comprises a day time period and a night time period, the day time period is divided into a first day time section and a second day time section in a clockwise direction, and the night time period is divided into a first night time section and a second night time section in the clockwise direction;

the end time of the first time of day section coincides with the start time of the second time of day section;

the end time of the second day time segment coincides with the start time of the first night time segment;

the end time of the first night time segment coincides with the start time of the second night time segment;

the end time of the second night time segment coincides with the start time of the first day time segment;

the determining of the color gradient rule of the output color relative to the dominant color in the unit time period according to the icon dominant color information and the preset time range includes:

the method for reducing or increasing unit amplitude according to the color depth of the dominant color comprises the following steps:

the primary color in the first diurnal period varies in a gradient from dark to light in a clockwise direction and the primary color in the second diurnal period varies in a gradient from light to dark in a clockwise direction during the diurnal period;

in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section;

or the like, or, alternatively,

the method for performing decrement or increment of unit amplitude according to lightness of a dominant color includes:

the primary color brightness in the clockwise direction in the first diurnal period varies in a gradient from low to high in the clockwise direction, and the primary color brightness in the clockwise direction in the second diurnal period varies in a gradient from high to low in the clockwise direction;

the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period;

or, the decrement or increment of unit amplitude according to the saturation of the dominant color includes:

the primary color saturation in the clockwise direction in the first diurnal period changes from low to high gradient and the primary color saturation in the clockwise direction in the second diurnal period changes from high to low gradient during the diurnal period;

in the night time period, the primary color saturation in the clockwise direction in the first night time section changes from high to low in a gradient manner, and the primary color saturation in the clockwise direction in the second night time section changes from low to high in a gradient manner;

acquiring the current time, and determining the time period of the current time by comparing the current time with the preset time range;

displaying the current output color of the icon according to the time period of the current time and the color gradient rule;

wherein the acquiring of the icon dominant color information comprises:

defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; or the like, or, alternatively,

the corresponding dominant color is defined according to seasonal state, including spring, summer, fall or winter.

2. A control system for a screen display, comprising:

the dominant color acquisition unit is used for acquiring the dominant color information of the icon;

a gradient determining unit, configured to determine a color gradient rule of an output color relative to a dominant color in a unit time period according to the icon dominant color information and a preset time range, where the preset time range includes a day time period and a night time period, the day time period is divided into a first day time section and a second day time section in a clockwise direction, and the night time period is divided into a first night time section and a second night time section in the clockwise direction;

the end time of the first time of day section coincides with the start time of the second time of day section;

the end time of the second day time segment coincides with the start time of the first night time segment;

the end time of the first night time segment coincides with the start time of the second night time segment;

the end time of the second night time segment coincides with the start time of the first day time segment;

the gradient determining unit is used for reducing or increasing unit amplitude according to the color depth of the dominant color, and comprises the following steps: the primary color in the first diurnal period varies in a gradient from dark to light in a clockwise direction and the primary color in the second diurnal period varies in a gradient from light to dark in a clockwise direction during the diurnal period;

in the night time period, the primary color changes from light to dark in a gradient manner along the clockwise direction in the first night time section, and the primary color changes from dark to light in a gradient manner along the clockwise direction in the second night time section;

or, the gradient determining unit is configured to perform decrement or increment of unit magnitude according to lightness of a dominant color, and includes: the primary color brightness in the clockwise direction in the first diurnal period varies in a gradient from low to high in the clockwise direction, and the primary color brightness in the clockwise direction in the second diurnal period varies in a gradient from high to low in the clockwise direction;

the dominant color lightness in the clockwise direction in the first night time section changes in a gradient from high to low, and the dominant color lightness in the clockwise direction in the second night time section changes in a gradient from low to high, over the night time period;

or, the gradient determining unit is configured to perform decrement or increment of unit magnitude according to the saturation of the dominant color, and includes:

the primary color saturation in the clockwise direction in the first diurnal period changes from low to high gradient and the primary color saturation in the clockwise direction in the second diurnal period changes from high to low gradient during the diurnal period;

in the night time period, the primary color saturation in the clockwise direction in the first night time section changes from high to low in a gradient manner, and the primary color saturation in the clockwise direction in the second night time section changes from low to high in a gradient manner;

the time acquisition unit is used for acquiring the current time and determining the time period of the current time by comparing the current time with the preset time range;

the color output unit is used for displaying the current output color of the icon according to the time period of the current time and the color gradient rule;

wherein the dominant color obtaining unit is further configured to:

defining a corresponding dominant color according to a weather state, wherein the weather state comprises sunny days, cloudy days, rainy days or snowy days; or the like, or, alternatively,

the corresponding dominant color is defined according to seasonal state, including spring, summer, fall or winter.

3. An intelligent terminal, characterized in that it comprises a control system of the screen display according to claim 2.

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