CN107562315B - Application icon adjusting method and system based on intelligent terminal - Google Patents

Abstract

The invention provides an application icon adjusting method and an application icon adjusting system based on an intelligent terminal. The application icon adjusting method comprises the following steps: identifying the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name; calculating the occupied space of the name according to the length of the character string; and when the occupied space is larger than the name frame of the application icon to display a preset space preset by the name, amplifying each application icon according to an adjusting proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space. The application icon adjustment system includes: the device comprises an identification module, a processing module and an adjustment module. By adopting the technical scheme provided by the invention, the application icon can be automatically amplified according to the occupied space and the preset space, and a new experience is provided for optimizing the visual effect of the user under the condition of completely displaying the name of the application icon.

Description

Application icon adjusting method and system based on intelligent terminal

Technical Field

The invention relates to the technical field of intelligent terminals, in particular to an application icon adjusting method and an application icon adjusting system based on an intelligent terminal.

Background

With the popularization of intelligent terminal devices such as mobile phones and tablet computers becoming more and more widespread, various applications based on the intelligent terminal devices are rapidly developed. For example, after the applications are installed on the intelligent terminal, an application icon corresponding to the application one to one is installed on a desktop of the intelligent terminal, and after the intelligent terminal receives an operation indicating that the application icon is clicked, the intelligent terminal automatically runs the application corresponding to the application icon, so that the application is quickly started.

However, at present, many application icons are displayed on the desktop of the intelligent terminal, and the application names of some application icons are long, and cannot be completely displayed or displayed according to the size of a normal font, so that inconvenience is caused to a user to quickly find an application program to be started, and the acquisition speed is reduced.

Therefore, it is desirable to provide an application icon adjusting method and an application icon adjusting system, which can automatically detect the length of the name of the application icon and automatically enlarge the application icon to completely display the name of the application icon, so that a user can quickly obtain the name of the application icon, and a better display effect is provided for the user.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide an application icon adjusting method and an application icon adjusting system based on an intelligent terminal, which can automatically enlarge the size of an application icon according to the name of the application icon, and provide a better display effect for a user.

The invention provides an application icon adjusting method based on an intelligent terminal, which comprises the following steps:

identifying the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name;

calculating the occupied space of the name according to the length of the character string;

and when the occupied space is larger than the name frame of the application icon to display a preset space preset by the name, amplifying each application icon according to an adjusting proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space.

Preferably, the step of identifying the name of each application icon in the interface of the intelligent terminal to obtain the string length of each name further includes:

acquiring a reading authority for reading each name;

reading the characters contained in each of the names;

and obtaining the character string length of each name according to the characters.

Preferably, when the string length of each of the names is the same,

in the step of obtaining the occupied space of the name according to the length of the character string, the method further includes:

acquiring the display width and the display length of the naming frame;

calculating the occupied space required for completely displaying the name in the naming box according to the length, the display width and the display length of the character string;

or, when there are two or more of the character string lengths,

in the step of obtaining the occupied space of the name of the application icon according to the length of the character string, the method further includes:

comparing the length of each character string, and judging the name with the maximum character string length;

acquiring the display width and the display length of the naming frame;

and calculating the occupied space required for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

Preferably, when the occupied space corresponding to any application icon is larger than the preset space,

the application adjustment method further comprises the following steps:

generating the adjustment proportion according to the occupied space and the preset space;

amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

or, when the occupied space corresponding to two or more application icons is larger than a preset space, the application icon adjusting method further includes:

comparing the occupied spaces of two or more than two application icons, and judging the application icon with the largest occupied space;

generating the adjustment proportion according to the maximum occupied space and the preset space;

and amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the maximum occupied space.

Preferably, after the step of enlarging each of the application icons according to an adjustment ratio to increase the preset space when the named box having the occupied space larger than the application icon is a preset space preset for displaying the name, and controlling the adjusted preset space to be larger than or equal to the occupied space,

the application icon adjusting method further comprises:

correspondingly reducing the arrangement number of the application icons in each line in the interface according to the adjustment proportion;

and the arrangement number of the application icons in each row is 1-4.

The invention further provides an application icon adjusting system based on the intelligent terminal, and the application icon adjusting system comprises: the device comprises an identification module, a processing module and an adjustment module;

the identification module is in communication connection with the processing module, identifies the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name, and sends the character string length to the calculation module;

the processing module is in communication connection with the identification module and the adjustment module, calculates the occupied space of the name according to the length of the character string, and sends the occupied space to the adjustment module;

the adjusting module is in communication connection with the processing module, and when the occupied space is larger than a preset space with preset names, the adjusting module enlarges each application icon according to an adjusting proportion to increase the preset space, and controls the adjusted preset space to be larger than or equal to the occupied space.

Preferably, the identification module further comprises:

a reading authority obtaining unit which obtains a reading authority for reading each name;

a reading unit that reads characters included in each of the names;

and the character string length calculating unit is used for obtaining the character string length of each name according to the characters.

Preferably, when the string length of each of the names is the same, the processing module further includes:

a name frame acquiring unit that acquires a display width and a display length of the name frame;

the occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the length of the character string, the display width and the display length;

or, when there are two or more of the character string lengths, the processing module further includes:

the character string length judging unit compares the length of each character string and judges the name of the application icon with the maximum character string length;

a name frame acquiring unit that acquires a display width and a display length of the name frame;

and the occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

Preferably, when the occupied space corresponding to any one of the application icons is larger than a preset space,

the adjustment module further comprises:

the adjustment proportion calculation unit generates the adjustment proportion according to the occupied space and the preset space;

the control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

or, when the occupied space corresponding to two or more than two application icons is larger than a preset space,

the adjustment module further comprises:

an occupied space judgment unit which compares the occupied spaces of two or more application icons and judges the application icon with the largest occupied space;

the adjustment proportion calculation unit is used for setting the adjustment proportion according to the maximum occupied space and the preset space;

and the control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space and controlling the adjusted preset space to be larger than or equal to the maximum occupied space.

Preferably, the application icon adjusting system further includes an optimizing module, which is in communication connection with the adjusting module, and the optimizing module correspondingly reduces the arrangement number of the application icons in each line in the interface according to the adjusting proportion; and the arrangement number of the application icons in each row is 1-4.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. intelligently adjusting the size of the application icon according to the name of the application icon;

2. displaying the name of the application icon completely;

3. can be suitable for different languages;

4. and a better display effect is provided for a user.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for applying icon adjustment in accordance with a preferred embodiment of the present invention;

FIG. 2 is a flow chart illustrating identifying names of application icons in accordance with a preferred embodiment of the present invention;

FIG. 3 is a flow chart illustrating a process for calculating the occupation space of the application icon name according to a preferred embodiment of the present invention;

FIG. 4 is a flow chart illustrating a process for calculating the occupation space of the application icon name according to another preferred embodiment of the present invention;

FIG. 5 is a schematic flow chart of magnifying an application icon in accordance with a preferred embodiment of the present invention;

FIG. 6 is a schematic flow chart of magnifying an application icon in accordance with another preferred embodiment of the present invention;

FIG. 7 is a schematic flow chart illustrating the application of the icon tuning method in accordance with another preferred embodiment of the present invention;

FIG. 8 is a schematic diagram of an application icon adjustment system in accordance with a preferred embodiment of the present invention;

FIG. 9 is a schematic diagram of an identification module according to a preferred embodiment of the present invention;

FIG. 10 is a schematic diagram of a processing module according to a preferred embodiment of the present invention;

FIG. 11 is a schematic diagram of a processing module according to another preferred embodiment of the present invention;

FIG. 12 is a schematic diagram of an adjusting module according to a preferred embodiment of the present invention;

FIG. 13 is a schematic structural diagram of an adjustment module according to another preferred embodiment of the present invention;

FIG. 14 is a schematic diagram of an application icon adjustment system according to another preferred embodiment of the present invention.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

In the description of the present invention, unless otherwise specified and defined, specific meanings of the terms may be understood as specific conditions by those of ordinary skill in the art.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and do not have a specific meaning per se, and only denote a part of the system. Thus, "module" and "component" may be used in a mixture.

The smart terminal may be implemented in various forms. For example, the terminal described in the present invention may include a mobile terminal such as a mobile phone, a smart phone, a notebook computer, a PDA (personal digital assistant), a PAD (tablet computer), a PMP (portable multimedia player), a navigation device, and the like, and a fixed terminal such as a digital TV, a desktop computer, and the like.

Example one

Referring to fig. 1, a schematic flowchart of an application icon adjusting method based on an intelligent terminal in a preferred embodiment of the present invention specifically includes the following steps:

identifying the name of each application icon in the interface of the intelligent terminal, and obtaining the character string length of each name;

the application icon adjusting method in this embodiment determines whether the size of the application icon needs to be adjusted based on the length of the name of the application icon. Therefore, the name of each application icon on the intelligent terminal interface needs to be identified, the name of the character type is converted into a character, and the length of the character string (the number of characters and the number of bytes) is obtained through a character string length calculation function to identify the length of the name of the application icon. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

calculating the occupied space of the name according to the length of the character string;

and after the character string length contained in the name of the application icon is obtained, calling a function, and calculating the space occupied by the name of the application icon according to the recognized character string length. Namely, the space required to be occupied by the name of the application icon displayed in the current application icon naming box is calculated. For example, 20 bytes requires space that occupies two lines of the named box.

And when the occupied space is larger than the name frame of the application icon to display a preset space preset by the name, amplifying each application icon according to an adjusting proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space.

After the occupied space required for displaying the name is obtained by calculating the length of the character string contained in the name of the application icon, the occupied space is compared with a preset space, and the preset space is the space required for displaying the name of the application icon preset by a user in a name box, for example, two lines. When the intelligent terminal detects that the occupied space required by the name of the application icon is three lines according to the steps and the preset space is two lines, the intelligent terminal can automatically amplify the icon at the moment to increase the actual size of the two lines of preset spaces, such as lengthening the length of the preset space, so that the amplified preset space can be larger than the occupied space, and complete characters can be completely displayed in the two lines after the lengthening even if the three lines of spaces are originally needed.

By the method, the intelligent terminal can automatically enlarge the size of the application icon according to the occupied space required by the name of the application icon, so that the name of the application icon can be completely displayed in the preset space, and a more optimized application icon name display scheme is provided for a user.

Example two

Referring to fig. 2, a schematic flow chart of identifying names of application icons in a preferred embodiment of the present invention specifically includes the following steps:

acquiring a reading authority for reading each name;

the method comprises the steps of sending a reading permission request to an intelligent terminal, obtaining the reading permission of the name of each application icon on an interface, and reading character information contained in the name of each application icon on the interface. And after the name of the application icon is detected, the intelligent terminal calls a function and reads the obtained name of the application icon.

Reading the characters contained in each of the names;

after the reading permission for reading the name of the application icon is obtained, the intelligent terminal can read the characters contained in the name of the application icon, so that the following intelligent terminal can accurately calculate the character string length of the name of the application icon.

And obtaining the character string length of each name according to the characters.

After reading the characters contained in the name of each application icon in the interface, the intelligent terminal calculates the character string length of the name of each application icon according to the obtained characters through a character string function. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

EXAMPLE III

Referring to fig. 3, a schematic flow chart of calculating the occupied space of the application icon name in the preferred embodiment of the present invention specifically includes the following steps:

when the length of the character string of each name is the same, namely after the name of each application icon in the interface is calculated by the intelligent terminal, the obtained length of the character string of each application icon is the same, namely the name of each application icon in the interface is 10 Chinese characters. At this time, the step of obtaining the occupied space of the name according to the length of the character string further includes:

acquiring the display width and the display length of the naming frame;

typically, the named boxes of the application icons have the same length and width. Therefore, the intelligent terminal sends a reading permission request to any application icon in the interface to obtain the width and the length of the naming box contained in the application icon read in the interface, namely the display length and the display width of the name of the application icon which can be displayed in the naming box. For example, the display length of the named box of one application icon is 1cm, and the display width is 0.5 cm.

Calculating the occupied space required for completely displaying the name of the application icon in the naming box according to the length, the display width and the display length of the character string;

the method comprises the steps that the character string length of the name of each application icon in an interface obtained by the intelligent terminal is the same, so that the intelligent terminal can calculate the name of the application icon with the character string length according to the character string length of the name of any application icon in the interface, the obtained display length and the obtained display width of the naming box, and the required occupied space is completely displayed in the naming box with the display length and the display width. The occupation space here can also be understood as the number of rows that the name of the application icon needs to occupy in a named box of a specific display length and display width in full display. For example, the length of the character string of the name of an application icon is 15, the display length of the naming box is 1cm, and the display width is 0.5cm, and then the intelligent terminal judges that the number of lines occupied by the name in the naming box is 3.

Example four

Referring to fig. 4, a schematic flow chart of calculating the occupied space of the application icon name in the preferred embodiment of the present invention specifically includes the following steps:

when the character string lengths of the names of the application icons in the interface are different, that is, when the intelligent terminal calculates the name of each application icon in the interface and obtains the names of a plurality of application icons with different character string lengths, for example, the character string length of the name of the application icon a in the interface is 15, and the character string length of the name of the application icon B in the interface is 5. At this time, the step of obtaining the occupied space of the name according to the length of the character string further includes:

comparing the length of each character string, and judging the name with the maximum character string length;

when the character string length of the name of the application icon A is 15 and the character string length of the name of the application icon B is 5 in the interface, the intelligent terminal compares the name of the application icon A with the character string length of the application icon B, and the intelligent terminal performs the next processing after the comparison is completed. The intelligent terminal compares the obtained character string lengths of the names of the different application icons, and judges the application icon corresponding to the name with the maximum character string length after the comparison is completed. For example, when the character string length of the name of the application icon a in the interface is 15 and the character string length of the name of the application icon B in the interface is 5, the intelligent terminal compares the character string lengths of the two to judge that the name with the largest character string length is the name of the application icon a.

Acquiring the display width and the display length of the naming frame;

typically, the named boxes of the application icons have the same length and width. Therefore, the intelligent terminal sends a reading permission request to any application icon in the interface to obtain the width and the length of the naming box contained in the application icon read in the interface, namely the display length and the display width of the name of the application icon which can be displayed in the naming box. For example, the display length of the named box of one application icon is 1cm, and the display width is 0.5 cm.

And calculating the occupied space required for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

The maximum character string length, the display width and the display length are obtained through the steps, and the intelligent terminal further calculates the occupied space required by the name of the application icon with the maximum character string length to be completely displayed in the name box with the specific display width and the specific display length. The occupation space here can also be understood as the number of rows that the name of the application icon needs to occupy in a named box of a specific display length and display width in full display. For example, the character string length of the name of the application icon a in the interface is 15, the display length of the naming box is 1cm, and the display width is 0.5 cm. Based on the data, the intelligent terminal can calculate that the number of occupied lines required for the complete display of the name of the application icon A in a named box of 1cm x 0.5cm is 3.

EXAMPLE five

Referring to fig. 5, a schematic flow chart of the application icon enlargement in the preferred embodiment of the present invention specifically includes the following steps:

when the occupied space corresponding to any application icon is greater than the preset space, that is, under the condition that the occupied space corresponding to the character string length of any application icon in the interface is greater than the preset space, for example, the preset space is 2 lines, and the occupied space is 3 lines, the application adjustment method in this embodiment further includes:

generating the adjustment proportion according to the occupied space and the preset space;

and calling a function, calculating the proportion of the occupied space exceeding the preset space, setting the proportion of the amplified application icon according to the proportion, and properly increasing the preset space, so that the preset space contained in the amplified application icon is ensured to be larger than or equal to the occupied space of the name of the application icon. For example, if the occupied space is 3 lines and the preset space of the application icon before enlargement is 2 lines, the name of the application icon cannot be completely displayed in the preset space before adjustment. At the moment, the intelligent terminal generates an adjusting proportion according to the occupied given space and the preset space, amplifies the application icon, and lengthens the display length of the naming frame, namely, lengthens the length of the preset space.

Amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

and enlarging the size of each application icon in the interface according to the calculated adjustment proportion to increase the preset space of each application icon, and ensuring that the names of the application icons which originally need 3 lines of occupied space display can be completely displayed in the increased preset space.

EXAMPLE six

Referring to fig. 6, a schematic flow chart of an enlarged application icon according to another preferred embodiment of the present invention specifically includes the following steps:

when the occupied space corresponding to two or more application icons is larger than a preset space, that is, the occupied space corresponding to the string length of the application icons is larger than the preset space in the interface, and the string lengths of the application icons are different, for example, the preset space is 2 lines, the occupied space of the application icon a is 3 lines, the occupied space of the application icon B is 4 lines, and the occupied space of the application icon C is 5 lines. The application adjustment method in this embodiment further includes:

comparing the occupied spaces of two or more than two application icons, and judging the application icon with the largest occupied space;

reading the character string length of each application icon on the interface to calculate the occupation space of the name of each application icon, and after obtaining a plurality of occupation spaces which are larger than the preset space and different, the intelligent terminal further compares the obtained plurality of occupation spaces which are larger than the preset space and different, so as to judge the application icon with the largest occupation space. For example, if the preset space is 2 rows, the occupied space of the application icon a is 3 rows, the occupied space of the application icon B is 4 rows, and the occupied space of the application icon C is 5 rows, the intelligent terminal further compares A, B, C the occupied spaces of the three application icons, and finally obtains that the occupied space of the application icon C is the largest.

Generating the adjustment proportion according to the maximum occupied space and the preset space;

after the application icon with the maximum occupied space is obtained, the intelligent terminal further calls a function, calculates the proportion that the maximum occupied space exceeds the preset space, sets the proportion of the amplified application icon according to the proportion, and appropriately increases the preset space, so that the amplified application icon with the maximum occupied space can be ensured to be smaller than or equal to the preset space of the intelligent terminal. For example, if the occupied space of the application icon C is 5 lines, the application icon C is the application icon with the largest occupied space, and the preset space of the application icon before enlargement is 2 lines, the name of the application icon cannot be completely displayed in the preset space before adjustment. At the moment, the intelligent terminal generates an adjusting proportion according to the maximum occupied space and the preset space, amplifies the C application icon, and lengthens the display length of the naming frame, namely, lengthens the length of the preset space.

Amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the maximum occupied space;

and amplifying the application icon with the maximum occupied space according to the calculated adjustment ratio, and applying the adjustment ratio to the size of each application icon in the interface for uniform visual effect so as to increase the preset space of each application icon including the application icon with the maximum occupied space, thereby ensuring that the names of the application icons which originally need 5 rows of the maximum occupied space can be completely displayed in 2 rows of the increased preset space.

EXAMPLE seven

Referring to fig. 7, a schematic flow chart of an application icon adjusting method in a preferred embodiment of the present invention specifically includes the following steps:

identifying the name of each application icon in the interface of the intelligent terminal, and obtaining the character string length of each name;

the application icon adjusting method in this embodiment determines whether the size of the application icon needs to be adjusted based on the length of the name of the application icon. Therefore, the name of each application icon on the intelligent terminal interface needs to be identified, the name of the character type is converted into a character, and the length of the character string (the number of characters and the number of bytes) is obtained through a character string length calculation function to identify the length of the name of the application icon. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

calculating the occupied space of the name according to the length of the character string;

and after the character string length contained in the name of the application icon is obtained, calling a function, and calculating the space occupied by the name of the application icon according to the recognized character string length. Namely, the space required to be occupied by the name of the application icon displayed in the current application icon naming box is calculated. For example, 20 bytes requires space that occupies two lines of the named box.

And when the occupied space is larger than the name frame of the application icon to display a preset space preset by the name, amplifying each application icon according to an adjusting proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space.

After the occupied space required for displaying the name is obtained by calculating the length of the character string contained in the name of the application icon, the occupied space is compared with a preset space, and the preset space is the space required for displaying the name of the application icon preset by a user in a name box, for example, two lines. When the intelligent terminal detects that the occupied space required by the name of the application icon is three lines according to the steps and the preset space is two lines, the intelligent terminal can automatically amplify the icon at the moment to increase the actual size of the two lines of preset spaces, such as lengthening the length of the preset space, so that the amplified preset space can be larger than the occupied space, and complete characters can be completely displayed in the two lines after the lengthening even if the three lines of spaces are originally needed.

Correspondingly reducing the arrangement number of the application icons in each line in the interface according to the adjustment proportion; and the arrangement number of the application icons in each row is 1-4.

After the application icons are adjusted and amplified according to the occupied space and the preset space, the number of the application icons arranged in each row in the interface can be correspondingly adjusted. Each line of the interface also has a corresponding preset space, and when the enlarged application icons occupy a space larger than the preset space of each line of the interface, the application icon adjusting method in this embodiment further includes correspondingly reducing the arrangement number of the application icons in each line, so as to reduce the occupied space of the application icons in each line, and control the occupied space to be smaller than the preset space of each line of the interface. For example, the number of the application icons arranged in each row of the original interface is 4, but after the application icons are enlarged, the 4 application icons may be partially overlapped, or the distance between every two application icons is very small, so that the visual effect is affected. At this moment, the intelligent terminal can automatically reduce the arrangement quantity of the application icons in each row of the interface to 3, so that the amplified application icons cannot be overlapped, a certain distance is kept, and a good visual effect is kept. However, it should be noted that the number of the arrangement of the application icons per row is controlled to be 1-4. The setting also puts a certain limit on the amplification of the application icons, namely, the amplification reason of the application icons is less than or equal to the preset space of each line of the interface.

Example eight

Referring to fig. 8, a schematic structural diagram of an application icon adjusting system based on an intelligent terminal in a preferred embodiment of the present invention specifically includes the following steps: the device comprises an identification module, a processing module and an adjustment module.

The identification module is in communication connection with the processing module, identifies the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name, and sends the character string length to the calculation module;

the application icon adjusting system in this embodiment determines whether the size of the application icon needs to be adjusted based on the length of the name of the application icon. Therefore, the name of each application icon on the intelligent terminal interface needs to be identified by the identification module, the name of the character type is converted into a character, and the length of the character string (the number of the characters and the number of bytes) is obtained through the character string length calculation function to identify the length of the name of the application icon. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

and the recognition module completes the recognition of the application icon name in the interface, obtains the corresponding character string length, and then sends the character string length obtained by the recognition to the processing module through communication connection.

The processing module is in communication connection with the identification module and the adjustment module, calculates the occupied space of the name according to the length of the character string, and sends the occupied space to the adjustment module;

the recognition module obtains the character string length contained in the name of the application icon, then the character string length is sent to the processing module through communication connection, the processing module calls a function, and the space occupied by the name of the application icon is calculated according to the recognized character string length. Namely, the space required to be occupied by the name of the application icon displayed in the current application icon naming box is calculated. For example, 20 bytes requires space that occupies two lines of the named box. After the calculation is finished, the processing module is connected through communication, and the occupied space obtained through calculation is sent to the adjusting module.

The adjusting module is in communication connection with the processing module, and when the occupied space is larger than a preset space with preset names, the adjusting module enlarges each application icon according to an adjusting proportion to increase the preset space, and controls the adjusted preset space to be larger than or equal to the occupied space.

And the processing module calculates and obtains the occupied space required for displaying the name according to the length of the character string contained in the name of the application icon, and then sends the occupied space to the adjusting module through communication connection. The adjusting module compares the occupied space with a preset space, wherein the preset space is a space required to be occupied by the name of the application icon preset by the user and displayed in the name box, for example, two lines. When the processing module detects that the required occupation space of name of application icon is the triplex row and sends to the adjustment module after according to the identification module, the adjustment module is according to triplex row occupation space and two rows of preset spaces, can enlarge the icon automatically to increase the actual size of two rows of preset spaces, if the length of extension preset space, thereby make the preset space after the enlargeing can be greater than occupation space, that is to say, it can show complete characters and can show completely in two rows after the extension originally to need triplex row space.

By the application icon adjusting system provided in the embodiment, the size of the application icon can be automatically enlarged according to the occupied space required by the name of the application icon, the name of the application icon can be ensured to be completely displayed in the preset space, and a more optimized application icon name display scheme is provided for a user.

Example nine

Referring to fig. 9, a schematic structural diagram of an identification module in a preferred embodiment of the present invention specifically includes: the device comprises a reading authority acquisition unit, a reading unit and a character string length calculation unit.

A reading authority obtaining unit which obtains a reading authority for reading each name;

the reading permission obtaining unit obtains the reading permission of the name of each application icon on the interface by sending a reading permission request to the interface application of the intelligent terminal so as to read the character information contained in the name of each application icon on the interface. After the reading permission obtaining unit obtains the reading permission of the name of the application icon, the identification module calls a function through the reading permission to read the obtained name of the application icon.

A reading unit that reads characters included in each of the names;

after the reading permission obtaining unit obtains the reading permission for reading the name of the application icon, the reading unit can read the characters contained in the name of the application icon, so that the subsequent character string length calculating unit can accurately calculate the character string length of the name of the application icon.

And the character string length calculating unit is used for obtaining the character string length of each name according to the characters.

After reading the characters contained in the name of each application icon in the interface, the reading unit calculates the character string length of the name of each application icon according to the obtained characters through a character string function. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

example ten

Referring to fig. 10, a schematic structural diagram of a processing module in a preferred embodiment of the present invention specifically includes: a name frame acquisition unit and an occupied space calculation unit.

When the length of the character string of each name is the same, that is, after the identification module completes the calculation of the name of each application icon in the interface, the obtained length of the character string of the name of each application icon is the same, that is, the name of each application icon in the interface is 10 Chinese characters. In this embodiment, the processing module further includes:

a name frame acquiring unit that acquires a display width and a display length of the name frame;

typically, the named boxes of the application icons have the same length and width. Therefore, the name box acquiring unit issues a read permission request to any application icon in the interface to acquire the width and length of the name box included in the application icon read in the interface, that is, the display length and the display width of the name of the application icon that can be displayed in the name box. For example, the display length of the named box of one application icon is 1cm, and the display width is 0.5 cm.

The occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the length of the character string, the display width and the display length;

because the character string lengths of the names of the application icons in the interface obtained by the identification module are all the same, the occupied space calculation unit can calculate the name of the application icon with the character string length according to the character string length of the name of any application icon in the interface, the obtained display length and the obtained display width of the naming box, and the occupied space required by the application icon with the character string length is completely displayed in the naming box with the display length and the display width. The occupation space here can also be understood as the number of rows that the name of the application icon needs to occupy in a named box of a specific display length and display width in full display. For example, if the length of the character string of the name of an application icon is 15, the display length of the name box is 1cm, and the display width is 0.5cm, the occupied space calculating unit determines that the number of rows occupied by the name in the name box for complete display is 3.

EXAMPLE eleven

Referring to fig. 11, a schematic structural diagram of a processing module according to another preferred embodiment of the present invention specifically includes: the device comprises a judging unit, a naming frame acquiring unit and an occupied space calculating unit;

when the character string lengths of the names of the application icons in the interface are different, that is, when the intelligent terminal calculates the name of each application icon in the interface and obtains the names of a plurality of application icons with different character string lengths, for example, the character string length of the name of the application icon a in the interface is 15, and the character string length of the name of the application icon B in the interface is 5. At this time, the processing module in this embodiment further includes:

the character string length judging unit compares the length of each character string and judges the name of the application icon with the maximum character string length;

when the character string length of the name of the application icon A is 15 and the character string length of the name of the application icon B is 5 in the interface, the character string length judging unit compares the character string length of the application icon A and the character string length of the name of the application icon B, and the next step of processing is performed after the comparison is completed. The character string length judging unit compares the obtained character string lengths of the names of the different application icons, and after the comparison is completed, the character string length judging unit judges the application icon corresponding to the name with the maximum character string length. For example, when the string length of the name of the a application icon is 15 and the string length of the name of the B application icon is 5 in the interface, the string length determination unit determines that the name having the largest string length is the name of the a application icon by comparing the string lengths of the two by the string length determination unit.

A name frame acquiring unit that acquires a display width and a display length of the name frame;

typically, the named boxes of the application icons have the same length and width. Therefore, the name box acquiring unit issues a read permission request to any application icon in the interface to acquire the width and length of the name box included in the application icon read in the interface, that is, the display length and the display width of the name of the application icon that can be displayed in the name box. For example, the display length of the named box of one application icon is 1cm, and the display width is 0.5 cm.

And the occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

The occupied space calculating unit further calculates the occupied space required by the name of the application icon with the maximum character string length to be completely displayed in the name box with the specific display width and display length according to the maximum character string length, the display width and the display length. The occupation space here can also be understood as the number of rows that the name of the application icon needs to occupy in a named box of a specific display length and display width in full display. For example, the character string length of the name of the application icon a in the interface is 15, the display length of the naming box is 1cm, and the display width is 0.5 cm. Based on the above data, the occupied space calculating unit may calculate that the number of occupied lines required for the complete display of the name of the application icon a in the named box of 1cm × 0.5cm is 3 lines.

Example twelve

Referring to fig. 12, a schematic structural diagram of an adjustment module in a preferred embodiment of the present invention specifically includes: an adjustment ratio calculation unit and a control unit.

When the occupied space corresponding to any application icon is greater than the preset space, that is, under the condition that the occupied space corresponding to the character string length of any application icon in the interface is greater than the preset space, for example, the preset space is 2 lines, and the occupied space is 3 lines, the adjusting module in this embodiment further includes:

the adjustment proportion calculation unit generates the adjustment proportion according to the occupied space and the preset space;

and adjusting the proportion calculation unit, calling a function, calculating the proportion of the occupied space exceeding the preset space, and setting the proportion of the amplified application icon according to the proportion to increase the preset space properly, so that the preset space contained in the amplified application icon is ensured to be larger than or equal to the occupied space of the name of the application icon. For example, if the occupied space is 3 lines and the preset space of the application icon before enlargement is 2 lines, the name of the application icon cannot be completely displayed in the preset space before adjustment. At this time, the adjustment ratio calculation unit generates an adjustment ratio according to the occupied given space and the preset space, enlarges the application icon, and lengthens the display length of the naming frame, that is, lengthens the length of the preset space.

The control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

the control unit enlarges the size of each application icon in the interface according to the adjustment proportion calculated by the calculation unit so as to increase the preset space of each application icon, and ensures that the names of the application icons which originally need 3 lines of occupied space display can be completely displayed in the increased preset space.

EXAMPLE thirteen

Referring to fig. 13, a schematic structural diagram of an adjustment module in another preferred embodiment of the present invention specifically includes an occupied space determining unit, an adjustment ratio calculating unit, and a control unit.

When the occupied space corresponding to two or more application icons is larger than a preset space, that is, the occupied space corresponding to the string length of the application icons is larger than the preset space in the interface, and the string lengths of the application icons are different, for example, the preset space is 2 lines, the occupied space of the application icon a is 3 lines, the occupied space of the application icon B is 4 lines, and the occupied space of the application icon C is 5 lines. The application adjustment system in this embodiment further includes:

an occupied space judgment unit which compares the occupied spaces of two or more application icons and judges the application icon with the largest occupied space;

the occupied space of the name of each application icon is calculated by reading the character string length of each application icon on the interface, and after a plurality of occupied spaces which are larger than the preset space and different are obtained, the occupied space judgment unit in the adjustment module further compares the obtained occupied spaces which are larger than the preset space and different, so that the application icon with the largest occupied space is judged. For example, if the preset space is 2 rows, the occupied space of the application icon a is 3 rows, the occupied space of the application icon B is 4 rows, and the occupied space of the application icon C is 5 rows, the intelligent terminal further compares A, B, C the occupied spaces of the three application icons, and finally obtains that the occupied space of the application icon C is the largest.

The adjustment proportion calculation unit is used for setting the adjustment proportion according to the maximum occupied space and the preset space;

after the occupied space judging unit obtains the application icon with the maximum occupied space, the adjustment proportion calculating unit further calls a function, calculates the proportion that the maximum occupied space exceeds the preset space, sets the proportion of amplifying the application icon according to the proportion, and appropriately increases the preset space, so that the amplified application icon with the maximum occupied space can be ensured to be less than or equal to the preset space of the intelligent terminal. For example, if the occupied space of the application icon C is 5 lines, the application icon C is the application icon with the largest occupied space, and the preset space of the application icon before enlargement is 2 lines, the name of the application icon cannot be completely displayed in the preset space before adjustment. At this time, the adjustment ratio calculation unit generates an adjustment ratio according to the maximum occupied space and the preset space, enlarges the application icon C, and lengthens the display length of the naming frame, that is, lengthens the length of the preset space.

And the control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space and controlling the adjusted preset space to be larger than or equal to the maximum occupied space.

The control unit amplifies the application icon with the largest occupied space according to the calculated adjustment ratio, applies the adjustment ratio to the size of each application icon in the interface for uniform visual effect so as to increase the preset space of each application icon including the application icon with the largest occupied space, and ensures that the names of the application icons which originally need 5 rows of the largest occupied space can be completely displayed in 2 rows of the increased preset space.

Example fourteen

Referring to fig. 14, a schematic structural diagram of an application icon adjusting system in another preferred embodiment of the present invention specifically includes: the device comprises an identification module, a processing module, an adjustment module and an optimization module.

The identification module is in communication connection with the processing module, identifies the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name, and sends the character string length to the calculation module;

the application icon adjusting system in this embodiment determines whether the size of the application icon needs to be adjusted based on the length of the name of the application icon. Therefore, the name of each application icon on the intelligent terminal interface needs to be identified by the identification module, the name of the character type is converted into a character, and the length of the character string (the number of the characters and the number of bytes) is obtained through the character string length calculation function to identify the length of the name of the application icon. For example, the string length is obtained using sizeof. sizeof is used to obtain the byte number (including the end symbol \0, of course) of the character array. For ANSI strings and UNICODE strings, the form is as follows:

TCHAR aa[]＝L"abcdefg"；

cout<<sizeof(aa)<<endl；

char*bb＝"abcdefg"；

cout<<sizeof(bb)<<endl；

and the recognition module completes the recognition of the application icon name in the interface, obtains the corresponding character string length, and then sends the character string length obtained by the recognition to the processing module through communication connection.

The processing module is in communication connection with the identification module and the adjustment module, calculates the occupied space of the name according to the length of the character string, and sends the occupied space to the adjustment module;

the recognition module obtains the character string length contained in the name of the application icon, then the character string length is sent to the processing module through communication connection, the processing module calls a function, and the space occupied by the name of the application icon is calculated according to the recognized character string length. Namely, the space required to be occupied by the name of the application icon displayed in the current application icon naming box is calculated. For example, 20 bytes requires space that occupies two lines of the named box. After the calculation is finished, the processing module is connected through communication, and the occupied space obtained through calculation is sent to the adjusting module.

The adjusting module is in communication connection with the processing module, and when the occupied space is larger than a preset space with preset names, the adjusting module enlarges each application icon according to an adjusting proportion to increase the preset space, and controls the adjusted preset space to be larger than or equal to the occupied space.

And the processing module calculates and obtains the occupied space required for displaying the name according to the length of the character string contained in the name of the application icon, and then sends the occupied space to the adjusting module through communication connection. The adjusting module compares the occupied space with a preset space, wherein the preset space is a space required to be occupied by the name of the application icon preset by the user and displayed in the name box, for example, two lines. When the processing module detects that the required occupation space of name of application icon is the triplex row and sends to the adjustment module after according to the identification module, the adjustment module is according to triplex row occupation space and two rows of preset spaces, can enlarge the icon automatically to increase the actual size of two rows of preset spaces, if the length of extension preset space, thereby make the preset space after the enlargeing can be greater than occupation space, that is to say, it can show complete characters and can show completely in two rows after the extension originally to need triplex row space.

The application icon adjusting system further comprises an optimizing module which is in communication connection with the adjusting module, and the optimizing module correspondingly reduces the arrangement number of the application icons in each line in the interface according to the adjusting proportion;

and the arrangement number of the application icons in each row is 1-4.

The application icon adjusting system in this embodiment further includes an optimizing module, and after the adjusting module adjusts and amplifies the application icons according to the occupied space and the preset space, the optimizing module correspondingly adjusts the number of the application icons arranged in each row in the interface. Each line of the interface also has a corresponding preset space, and when the enlarged application icons occupy a space larger than the preset space of each line of the interface, the optimization module in the application icon adjustment system in this embodiment further reduces the arrangement number of the application icons in each line, so as to reduce the occupied space of the application icons in each line and control the occupied space to be smaller than the preset space of each line of the interface. For example, the number of the application icons arranged in each row of the original interface is 4, but after the application icons are enlarged by the adjusting module, the 4 icons may be partially overlapped, or the distance between every two icons is very small, so that the visual effect is affected. At this moment, the optimization module can automatically reduce the arrangement number of the application icons in each row of the interface to 3, so that the amplified application icons cannot be overlapped, a certain distance is kept, and a good visual effect is kept. However, it should be noted that the number of the arrangement of the application icons per row is controlled to be 1-4. The condition is set to limit the application icon enlargement by the adjusting module, that is, the enlargement of the application icon by the adjusting module is less than or equal to the preset space of each line of the interface.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (8)

1. An application icon adjusting method based on an intelligent terminal is characterized by comprising the following steps:

identifying the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name;

calculating the occupied space of the name according to the length of the character string;

when the occupied space is larger than a preset space preset for displaying the name of the application icon, amplifying each application icon according to an adjusting proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

wherein,

when the occupied space corresponding to any application icon is larger than the preset space,

the application adjustment method further comprises the following steps:

generating the adjustment proportion according to the occupied space and the preset space;

amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

or,

when the occupied space corresponding to two or more application icons is larger than a preset space,

the application icon adjusting method further comprises:

comparing the occupied spaces of two or more than two application icons, and judging the application icon with the largest occupied space;

generating the adjustment proportion according to the maximum occupied space and the preset space;

and amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the maximum occupied space.

2. The application icon adjustment method of claim 1,

the step of identifying the name of each application icon in the interface of the intelligent terminal to obtain the string length of each name further includes:

acquiring a reading authority for reading each name;

reading the characters contained in each of the names;

and obtaining the character string length of each name according to the characters.

3. The application icon adjustment method of claim 1,

when the string length of each of the names is the same,

in the step of obtaining the occupied space of the name according to the length of the character string, the method further includes:

acquiring the display width and the display length of the naming frame;

calculating the occupied space required for completely displaying the name in the naming box according to the length, the display width and the display length of the character string;

or,

when there are two or more of the string lengths,

in the step of obtaining the occupied space of the name of the application icon according to the length of the character string, the method further includes:

comparing the length of each character string, and judging the name with the maximum character string length;

acquiring the display width and the display length of the naming frame;

and calculating the occupied space required for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

4. Application icon adjustment method as claimed in any of the claims 1-3,

after the step of enlarging each application icon according to an adjustment ratio to increase the preset space when the name box with the occupied space larger than the application icon is a preset space preset for displaying the name, and controlling the adjusted preset space to be larger than or equal to the occupied space,

the application icon adjusting method further comprises:

correspondingly reducing the arrangement number of the application icons in each line in the interface according to the adjustment proportion;

and the arrangement number of the application icons in each row is 1-4.

5. An application icon adjusting system based on an intelligent terminal is characterized in that,

the application icon adjustment system includes: the device comprises an identification module, a processing module and an adjustment module;

the identification module is in communication connection with the processing module, identifies the name of each application icon in the interface of the intelligent terminal to obtain the character string length of each name, and sends the character string length to the processing module;

the processing module is in communication connection with the identification module and the adjustment module, calculates the occupied space of the name according to the length of the character string, and sends the occupied space to the adjustment module;

the adjusting module is in communication connection with the processing module, and when the named frame of which the occupied space is larger than the application icon is a preset space preset for displaying the name, the adjusting module enlarges each application icon according to an adjusting proportion to increase the preset space and controls the adjusted preset space to be larger than or equal to the occupied space;

when the occupied space corresponding to any application icon is larger than a preset space,

the adjustment module further comprises:

the adjustment proportion calculation unit generates the adjustment proportion according to the occupied space and the preset space;

the control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space, and controlling the adjusted preset space to be larger than or equal to the occupied space;

or,

when the occupied space corresponding to two or more application icons is larger than a preset space,

the adjustment module further comprises:

an occupied space judgment unit which compares the occupied spaces of two or more application icons and judges the application icon with the largest occupied space;

the adjustment proportion calculation unit is used for setting the adjustment proportion according to the maximum occupied space and the preset space;

and the control unit is used for amplifying each application icon according to the adjustment proportion to increase the preset space and controlling the adjusted preset space to be larger than or equal to the maximum occupied space.

6. The application icon adjustment system of claim 5,

the identification module further comprises:

a reading authority obtaining unit which obtains a reading authority for reading each name;

a reading unit that reads characters included in each of the names;

and the character string length calculating unit is used for obtaining the character string length of each name according to the characters.

7. The application icon adjustment system of claim 5,

when the string length of each of the names is the same,

the processing module further comprises:

a name frame acquiring unit that acquires a display width and a display length of the name frame;

the occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the length of the character string, the display width and the display length;

or,

when there are two or more of the string lengths,

the processing module further comprises:

the character string length judging unit compares the length of each character string and judges the name of the application icon with the maximum character string length;

a name frame acquiring unit that acquires a display width and a display length of the name frame;

and the occupied space calculation unit is used for calculating the occupied space for completely displaying the name in the naming box according to the maximum character string length, the display width and the display length.

8. The application icon adjustment system of any of claims 5-7,

the application icon adjusting system further comprises an optimizing module which is in communication connection with the adjusting module, and the optimizing module correspondingly reduces the arrangement number of the application icons in each line in the interface according to the adjusting proportion;

and the arrangement number of the application icons in each row is 1-4.

Images