CN103473044A - Drawing method for application program interface adaptive to mobile terminals with different resolutions - Google Patents
Drawing method for application program interface adaptive to mobile terminals with different resolutions Download PDFInfo
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- CN103473044A CN103473044A CN2013103643516A CN201310364351A CN103473044A CN 103473044 A CN103473044 A CN 103473044A CN 2013103643516 A CN2013103643516 A CN 2013103643516A CN 201310364351 A CN201310364351 A CN 201310364351A CN 103473044 A CN103473044 A CN 103473044A
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Abstract
The invention discloses a drawing method for an application program interface adaptive to mobile terminals with different resolutions. The drawing method comprises the steps that the pixel density of a mobile terminal is obtained; the number of pixels, required to be set in the mobile terminal, of each element of an application program interface is sequentially computed according to a preset size and pixel density; the application program interface is drawn according to the number of pixels. Compared with the prior art, and according to the drawing method for the application program interface adaptive to mobile terminals with different resolutions, the application program interface is limited by the size of each element, accordingly, the display size of each element in the display screens of the mobile terminals with different resolutions is the same, so that the situation that in order to enable the application program interface to display patterns with the same size in the mobile terminals with different resolutions, different versions of application program interfaces need to be designed is avoided, the difficulty and workload on software development are simplified and reduced, and the user experience is improved.
Description
Technical field
The present invention relates to application program field engineering field, relate more specifically to a kind of Application Program Interface method for drafting of adaptive different resolution mobile terminal.
Background technology
The screen of distinct device generally possesses fixing resolution, and wherein each point is exactly a pixel.It doesn't matter for the size of its resolution and screen itself.When screen size one timing, the higher screen display of resolution is just more clear; If same resolution is certain, the less demonstration image of screen is also just more clear.
Along with developing rapidly of infotech and electronic technology, people to the demand of software systems also in continuous growth.Simple program from application program on computers of operation to mobile phone, the range of application of software systems is also in continuous expansion.This just requires software to show user interface by equipment of a great variety, that the specification characteristic is different (being that the 2560*1600 display is the 320*240 mobile phone display screen to low side resolution from high-end resolution), to the user, provides function.For example, the resolution specification of current smart mobile phone screen roughly is divided into tetra-kinds of QVGA, HVGA, VGA, WVGA, therefore many application software corresponding version of each resolution that also released one after another.If the wrongly installed version, the last situation that has just caused whole mobile phone screen can only show very little pattern or can only show the part of original pattern.Along with the development of technology, mobile phone, also can be increasing according to the software of screen specification classification also towards the development of giant-screen high resolving power.
For adaptive resolution, current way is to issue corresponding version for concrete resolution.Generally need to, for concrete resolution design user interface, make showing resource.Yet this method has not only increased difficulty and the workload of software development, the user is also had higher requirement simultaneously, require the user for concrete resolution, different versions to be installed.
Summary of the invention
The Application Program Interface method for drafting that the purpose of this invention is to provide a kind of adaptive different resolution mobile terminal, to avoid need designing different Application Program Interfaces for the mobile terminal of different resolution, thereby simplify difficulty and the workload of software development, improve the user simultaneously and experience.
For achieving the above object, the invention provides a kind of Application Program Interface method for drafting of adaptive different resolution mobile terminal, comprise the following steps:
Obtain the picture element density of mobile terminal screen;
According to default size and described picture element density, in the computing application program interface, each element needs the pixel count arranged on described mobile terminal successively;
Draw described Application Program Interface according to described pixel count.
Compared with prior art, in the Application Program Interface method for drafting of the adaptive different resolution mobile terminal of the present invention, because Application Program Interface is that size by each element limits, when thereby each element shows on the mobile terminal screen of different resolution, size is identical, thereby avoided current when Application Program Interface is shown in the mobile terminal of different resolution the identical situation that needs to design the Application Program Interface of different editions of pattern magnitude, simplify difficulty and the workload of software development, improved user's experience simultaneously.
Preferably, described " obtaining the picture element density of mobile terminal " also comprises before:
The size of each described element in described Application Program Interface is set.
Preferably, described size comprises the actual physical size of described element and characterizes the position dimension of described element position.
Preferably, described " in the computing application program interface, each element needs the size pixel count and the position pixel count that arrange on described mobile terminal " is specially:
Described actual physical size is multiplied by described picture element density and to obtain described element, needs the size pixel count arranged on described mobile terminal;
Described position dimension is multiplied by described picture element density to obtain the position pixel count of described element on described mobile terminal.
Preferably, described " according to result of calculation, drawing described Application Program Interface " is specially:
Draw the described element of respective pixel number on described mobile terminal according to described size pixel count;
According to described position pixel count described element of layout on described mobile terminal.
Preferably, described position dimension is the relative size of described element with respect to described mobile terminal screen.
By following description also by reference to the accompanying drawings, it is more clear that the present invention will become, and these accompanying drawings are for explaining embodiments of the invention.
The accompanying drawing explanation
The workflow diagram of Application Program Interface method for drafting one preferred embodiment that Fig. 1 is the adaptive different resolution mobile terminal of the present invention.
The Application Program Interface method for drafting that Fig. 2 is the adaptive different resolution mobile terminal of the present invention is determined the schematic diagram of element physical size one embodiment in mobile terminal according to actual physical size.
The schematic diagram when login interface that Fig. 3 is qq software loads on the mobile phone B that 5 inches, resolution are 1920*1080.
The schematic diagram when login interface that Fig. 4 is qq software loads on the mobile phone C that 3.5 inches, resolution are 960*640.
Embodiment
With reference now to accompanying drawing, describe embodiments of the invention, in accompanying drawing, similar element numbers represents similar element.
Please refer to Fig. 1, described the workflow of Application Program Interface method for drafting one preferred embodiment of the adaptive different resolution mobile terminal of the present invention.As shown in Figure 1, comprise the following steps:
Step S101, during design application, set gradually the size of each element in Application Program Interface, wherein above-mentioned size comprises the actual physical size of element and the position dimension of sign element present position on mobile terminal screen, actual physical size (unit: inch) be the size that is applicable to the different user finger touch, can determine the element shape according to actual physical size, part or all of size, can determine element residing position or element residing position and element shape in mobile terminal screen in mobile terminal screen by position dimension, the part of size, in a word, can uniquely determine the shape of certain element at mobile terminal by actual physical size and position dimension, the parameters such as size and location,
Wherein, when actual physical size, for determining shape, the size of element, position dimension is for determining that this element, when the position of mobile terminal, illustrates as follows.As: when a certain element is bowlder, it is the b inch that radius of a circle R is set, radius R is that the b inch is actual physical size, center of circle O and the mobile terminal screen left side apart from x, be 40% of screen width a, the distance y at O distance moving terminal top, the center of circle is 30% of mobile terminal screen height b, now according to radius R, can determine round actual size and shape, can determine circle residing position (as shown in Figure 2) in mobile terminal according to x and y, on the mobile terminal at arbitrary resolution, load or while moving this application program, the size of this circle in Application Program Interface is all identical, be the circle that radius is R, it is pixel count difference shared on the different resolution mobile terminal, thereby while having avoided in prior art, according to pixel count, element is set, the size of element in the different resolution mobile terminal, shape and mobile terminal do not mate, need to be for the mobile terminal design Application Program Interface of different resolution thereby cause, thereby the present invention has simplified difficulty and the workload of software development, improved user's experience simultaneously.
It should be noted that at position dimension and determine that element in present position, sometimes can also determine by position dimension the size of element in mobile terminal in conjunction with actual physical size.
Step S102, before Application Program Interface loads, obtain the picture element density DPI of mobile terminal screen; Wherein picture element density DPI means on mobile terminal screen, per inch has how many pixels, as to take the mobile phone of a 5 inches 1920*1080 resolution be example, and its picture element density DPI is 441;
Step S103, calculate according to the size of element in predefined Application Program Interface and the picture element density DPI obtained the pixel count that each element needs setting on mobile terminal successively, and wherein pixel count specifically comprises size pixel count and position pixel count; The a certain elements A wherein of take specifically comprises as example explanation computation process: the actual physical size of elements A is multiplied by picture element density DPI and obtains elements A need the size pixel count arranged on mobile terminal, the position dimension of elements A is multiplied by picture element density DPI and obtains the position pixel count of elements A on mobile terminal;
Step S104 draws the element of respective pixel number on mobile terminal according to the size pixel count;
Step S105, according to position pixel count each element of layout on mobile terminal, thereby to obtaining comprising the complete Application Program Interface of a plurality of elements after all elements execution step S104 and step S105; Step S104 and step S105 are the detailed process according to size pixel count and position pixel count drafting Application Program Interface.
As can be seen from the above description, limit element with respect to prior art with pixel count, thereby need design the application program of different editions for the mobile terminal of different resolution, the Application Program Interface method for drafting of the adaptive different resolution mobile terminal of the present invention has proposed a kind of new method, when design application, size by element in Application Program Interface limits each element, because the size that is applicable to the finger touch is constant, by this, suitable size is carried out the element in the defining application interface so, even the mobile terminal for different resolution, when showing on mobile terminal screen, this Application Program Interface all can show the element of formed objects, thereby solved the mobile terminal for different resolution in the prior art and need design different Application Program Interfaces, difficulty and the workload of software development have been simplified, improved user's experience simultaneously.
Lower mask body be take the login interface of qq software describe the present invention as example when loading or moving on the mobile terminal of different resolution.
The login interface of qq software arranges as follows: login interface comprises the account input frame, the Password Input frame, these four elements of qq head portrait and login button, the software developer is when the login interface of this qq software of design, the height h that the account input frame is set is 0.306 inch, an account input frame left side, rightmargin a and top margin b(are apart from the distance on top) adopt relative layout, as a left side, rightmargin a is 2.963% of mobile terminal screen width, top margin b is 26.98% of screen height, 0.306 inch actual physical size that is this element of account input frame wherein, 2.963% and 26.98% can determine the position dimension of this element of account input frame present position on mobile terminal screen, simultaneously, left, rightmargin a can determine the 1-2*2.963%=94.073% that the length of this element is the mobile terminal screen width, it should be noted that, during due to operation qq on mobile terminal, login interface can be covered with the full screen of mobile terminal, therefore the account input frame is also the distance of account input frame with respect to the login interface border with respect to left and right back gauge a and the top margin b of mobile terminal screen, can determine the position of account input frame on login interface.Wherein the setting of the size of Password Input frame and login button is similar, no longer explanation herein.
Example 1: describe as example when the login interface of qq software of take loads on the mobile phone B of 5 inches 1920*1080 resolution.When this qq software being installed on mobile phone B and loading login interface, at first the picture element density DPI(that obtains mobile phone B is 441), calculate successively each element according to the size of account input frame, Password Input frame and these three elements of login button of picture element density DPI and setting afterwards and need the size pixel count and the position pixel count that arrange in mobile phone B, thereby obtain shape, size, the position of login interface in the mobile phone B screen, finally according to result of calculation, load the login interface (as shown in Figure 3) of qq software.Concrete, take this element of account input frame as example explanation computation process: account number input frame height h is 0.306 inch, the picture element density DPI obtained is 441, can obtain 0.306 inch height respective pixel is h=0.306*441=134.946, i.e. 135 pixels, an account input frame left side, rightmargin a is 2.963% of mobile phone B screen width, it is the a=1080*2.963%=32 pixel, top margin b is 26.98% of screen height, it is the b=1920*26.98%=518 pixel, thereby can determine size and the position (as shown in Figure 3) of account input frame on mobile phone B according to these pixel counts that calculate.In like manner, Password Input frame and login button size and the position on mobile phone B can be obtained, finally according to the result of calculation of all elements, login interface can be drawn out.
It should be noted that, the height that the account input frame just is set in the login interface of qq software is actual physical size, and other parameters of account input frame are the relative parameter with respect to mobile terminal screen, this is while due to the user, carrying out touch operation, it is general as long as the height of account input frame meets the size of user's finger, just can facilitate the user to touch, the length of account input frame not too affects user's touch operation.Certainly, the user length of account input frame also can be set is a fixing actual physical size.
Example 2, the login interface of qq software of take describes as example when 3.5 inches, resolution load on the mobile phone C that 960*640, picture element density DPI are 326.When this qq software being installed on mobile phone C and loading login interface, at first the picture element density DPI(that obtains mobile phone C is 326), calculate successively each element according to the size of account input frame, Password Input frame and these three elements of login button of picture element density DPI and setting afterwards and need the size pixel count and the position pixel count that arrange in mobile phone C, thereby obtain shape, size, the position of login interface in mobile phone C screen, finally according to result of calculation, load the login interface (as shown in Figure 4) of qq software.Concrete, take this element of account input frame as example explanation computation process: account number input frame height h is 0.306 inch, the picture element density DPI obtained is 326, can obtain 0.306 inch height respective pixel is h=0.306*326=99.756, i.e. 100 pixels, an account input frame left side, rightmargin a is 2.963% of mobile phone C screen width, it is the a=640*2.963%=19 pixel, top margin b is 26.98% of screen height, it is the b=960*26.98%=259 pixel, thereby can determine size and the position (as shown in Figure 4) of account input frame on mobile phone C according to these pixel counts that calculate.In like manner, Password Input frame and login button size and the position on mobile phone C can be obtained, finally according to the result of calculation of all elements, login interface can be drawn out.
From example 1 and example 2, can find out, when this element of account input frame shows on mobile phone B and mobile phone C, the height h of account input frame is 0.306 inch, just h is different with the pixel count of required setting on mobile phone C in mobile phone B, realized on the mobile terminal of different resolution, the height of account input frame when showing is identical, thereby having avoided current is that when Application Program Interface is shown in the mobile terminal of different resolution, pattern magnitude is identical, and the situation of the Application Program Interface of needs design different editions, difficulty and the workload of software development have been simplified, improved user's experience simultaneously.
The display interface that in the present invention, the indication Application Program Interface is any application.
Above in conjunction with most preferred embodiment, invention has been described, but the present invention is not limited to the embodiment of above announcement, and should contain the various modifications of carrying out according to essence of the present invention, equivalent combinations.
Claims (6)
1. the Application Program Interface method for drafting of an adaptive different resolution mobile terminal, is characterized in that, comprises the following steps:
Obtain the picture element density of mobile terminal screen;
According to default size and described picture element density, in the computing application program interface, each element needs the pixel count arranged on described mobile terminal successively;
Draw described Application Program Interface according to described pixel count.
2. the Application Program Interface method for drafting of adaptive different resolution mobile terminal as claimed in claim 1, is characterized in that, described " obtaining the picture element density of mobile terminal " also comprises before:
The size of each described element in described Application Program Interface is set.
3. the Application Program Interface method for drafting of adaptive different resolution mobile terminal as claimed in claim 2, is characterized in that, described size comprises the actual physical size of described element and characterizes the position dimension of described element position.
4. the Application Program Interface method for drafting of adaptive different resolution mobile terminal as claimed in claim 3, is characterized in that, described " in the computing application program interface, each element needs the pixel count arranged on described mobile terminal " is specially:
Described actual physical size is multiplied by described picture element density and to obtain described element, needs the size pixel count arranged on described mobile terminal;
Described position dimension is multiplied by described picture element density to obtain the position pixel count of described element on described mobile terminal.
5. the Application Program Interface method for drafting of adaptive different resolution mobile terminal as claimed in claim 4, is characterized in that, described " according to result of calculation, drawing described Application Program Interface " is specially:
Draw the described element of respective pixel number on described mobile terminal according to described size pixel count;
According to described position pixel count described element of layout on described mobile terminal.
6. the Application Program Interface method for drafting of adaptive different resolution mobile terminal as claimed in claim 3, is characterized in that, described position dimension is the relative size of described element with respect to described mobile terminal screen.
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| CN106484388A (en) * | 2015-09-02 | 2017-03-08 | 腾讯科技(深圳)有限公司 | The implementation method of user interface and device |
| CN107423055A (en) * | 2017-06-30 | 2017-12-01 | 百度在线网络技术(北京)有限公司 | Method, apparatus, equipment and the storage medium of adaptive terminal device resolution |
| CN108205398A (en) * | 2016-12-16 | 2018-06-26 | 腾讯科技(深圳)有限公司 | The method and apparatus that web animation is adapted to screen |
| CN108427596A (en) * | 2018-03-15 | 2018-08-21 | 上海哔哩哔哩科技有限公司 | Mobile terminal application interface view resolution matching process, device and storage medium |
| CN113032060A (en) * | 2019-12-24 | 2021-06-25 | 腾讯科技(深圳)有限公司 | Visual element display method and device and terminal |
| CN113703630A (en) * | 2021-08-31 | 2021-11-26 | 维沃移动通信有限公司 | Interface display method and device |
| CN115209193A (en) * | 2022-07-15 | 2022-10-18 | 海宁奕斯伟集成电路设计有限公司 | Display processing equipment and method and display system |
| WO2023165197A1 (en) * | 2022-03-04 | 2023-09-07 | 腾讯科技(深圳)有限公司 | Method and apparatus for adjusting interface layout, device and storage medium |
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| CN113032060A (en) * | 2019-12-24 | 2021-06-25 | 腾讯科技(深圳)有限公司 | Visual element display method and device and terminal |
| CN113703630A (en) * | 2021-08-31 | 2021-11-26 | 维沃移动通信有限公司 | Interface display method and device |
| WO2023165197A1 (en) * | 2022-03-04 | 2023-09-07 | 腾讯科技(深圳)有限公司 | Method and apparatus for adjusting interface layout, device and storage medium |
| CN115209193A (en) * | 2022-07-15 | 2022-10-18 | 海宁奕斯伟集成电路设计有限公司 | Display processing equipment and method and display system |
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Application publication date: 20131225 |