CN103577055A

CN103577055A - System and method for positioning display of graphical user interface

Info

Publication number: CN103577055A
Application number: CN201210261462.XA
Authority: CN
Inventors: 郭天杰; 郭政毅
Original assignee: Hongfujin Precision Industry Shenzhen Co Ltd; Hon Hai Precision Industry Co Ltd
Current assignee: Chongqing Yucun Technology Co ltd
Priority date: 2012-07-26
Filing date: 2012-07-26
Publication date: 2014-02-12
Anticipated expiration: 2032-07-26
Also published as: CN103577055B

Abstract

Provided are a system and method for positioning display of a graphical user interface. The method comprises the steps of reading basic information of every segmented picture in the graphical user interface displayed on a display device; obtaining coordinates of four vertexes of every segmented picture by calculation according to the basic information of every segmented picture, and recording the coordinates in a preset format; marking the sequence of every segmented picture according to the coordinates of the four vertexes of every segmented picture, sequentially storing the basic information of every segmented picture in a preset storage area in a storage device according to the marking sequence; and when the graphical user interface needs displaying, reading and displaying every segmented picture of the graphical user interface according to the marking sequence. The graphical user interface can be marked and freely displayed by utilizing the system and method for positioning display of the graphical user interface, and management of the graphical user interface is more humanized.

Description

The locating and displaying system and method for graphic user interface

Technical field

The present invention relates to a kind of management system and method for graphic user interface, relate in particular to a kind of locating and displaying system and method for graphic user interface.

Background technology

Classic method is at design configuration user interface (Graphical User Interface, GUI) time, all need to be prior to declare and define integral layout (layout) size of graphic user interface in program, and need to pre-define the display position and size of a plurality of divided frames in this layout.This predefined classic method is fixed the display position of divided frame and size, causes hommization not in the management of design configuration user interface, and to a plurality of divided frames in layout, does not provide explicit location and display packing.

Summary of the invention

In view of above content, be necessary to provide a kind of locating and displaying system of graphic user interface, it can pre-define position and the size of divided frame in graphic user interface, and utilizes the divided frame in rotation recursive fashion location display graphics user interface.

In addition, be also necessary to provide a kind of positioning display method of graphic user interface, it can pre-define position and the size of divided frame in graphic user interface, and utilizes the divided frame in rotation recursive fashion location display graphics user interface.

A locating and displaying system, run on electronic installation, this system comprises: read module, for when read the basic information of each divided frame of graphic user interface showing in display device; Processing module, for when according to the basic information of above-mentioned each divided frame, calculates the coordinate on four summits of each divided frame, and the format record to preset; Mark module, for when according to the coordinate on above-mentioned each four summits of divided frame, the order of each divided frame of mark, and the basic information of storing successively each divided frame according to the order of institute's mark is in memory storage in default storage area; Display module when showing this graphic user interface when needs, reads and shows each divided frame of this graphic user interface from described memory storage in default storage area according to the order of institute's mark.

A positioning display method for graphic user interface, is applied on electronic installation, and the method comprises: read step: the basic information that reads each divided frame in the graphic user interface showing in display device; Treatment step: according to the basic information of above-mentioned each divided frame, calculate the coordinate on four summits of each divided frame, and the format record to preset; Markers step: according to the coordinate on above-mentioned each four summits of divided frame, the order of each divided frame of mark, and the basic information of storing successively each divided frame according to the order of institute's mark is in memory storage in default storage area; Step display: when needs show this graphic user interface, read and show each divided frame of this graphic user interface in default storage area according to the order of institute's mark from described memory storage.

Compared to prior art, the locating and displaying system and method for described graphic user interface, the position and the size that do not need divided frame in pre-defined graphic user interface, utilize rotation recursive fashion directly to read and the divided frame of locating in designed graphic user interface, and the data of the good graphic user interface of store location, during divided frame in the graphic user interface that need to use this design, according to described tab order, show successively the divided frame in this graphic user interface.

Accompanying drawing explanation

Fig. 1 is the running environment figure of the locating and displaying system preferred embodiment of graphic user interface of the present invention.

Fig. 2 is the functional block diagram of the locating and displaying system 10 of graphic user interface in Fig. 1.

Fig. 3 is the operation process chart of the positioning display method preferred embodiment of graphic user interface of the present invention.

Fig. 4 is that the present invention carries out the refinement process flow diagram of mark to the divided frame in graphic user interface.

Fig. 5 A and Fig. 5 B are the schematic diagram of the present invention to the mark of the divided frame in graphic user interface.

Main element symbol description

Electronic installation	?1
		Display device	?10
Graphic user interface	?11
		Locating and displaying system	?20
Memory storage	?30
		Layout design tool	?40
Processor	?50
		Read module	?200
Processing module	?202
		Mark module	?204
Display module	?206

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

As shown in Figure 1, be the running environment figure of the locating and displaying system preferred embodiment of graphic user interface of the present invention.The locating and displaying system 20(of this graphic user interface is hereinafter to be referred as " locating and displaying system 20 ") run in electronic installation 1, this electronic installation 1 also comprises display device 10, memory storage 30, layout design tool 40 and processor 50.Described display device 10 is for the graphics data of display electronics assemblies 1.In this preferred embodiment, described display device 10 is for display graphics user interface 11.

Described layout design tool 40 is for designing and plan the layout (layout) of graphic user interface 11, and a layout comprises a plurality of cutting apart of (pane) picture, and described divided frame can be the icon in a video (video) source.Designed while comprising the layout of a plurality of divided frames in utilizing layout design tool 40, the size of this layout is restriction not, and the position of the plurality of divided frame and size are also without pre-defined.User can, according to the hobby of oneself, design the divided frame of different sizes in the layout of graphic user interface 11.Described layout design tool 40 can record the basic information such as coordinate, length and the corresponding numerical value of width of each divided frame left upper apex in a layout designing.

Described memory storage 30 is for the Various types of data of storage electronics 1.Described processor 50 is for carrying out the function of locating and displaying system 20.

As shown in Figure 2, be the functional block diagram of locating and displaying system 20 in Fig. 1.Described locating and displaying system 20 comprises: read module 200, processing module 202, mark module 204 and display module 206.Described module is the software program section with specific function, this software is stored in computer-readable recording medium or other memory device, can be carried out by computing machine or other calculation element that comprises processor, thereby complete the locating and displaying work flow to graphic user interface in the present invention.Below in conjunction with Fig. 3 to Fig. 5, each functional module in locating and displaying system 20 is elaborated.

As shown in Figure 3, be the process flow diagram of the positioning display method preferred embodiment of graphic user interface 11 of the present invention.Step S10, read module 200 reads the topology data of the graphic user interface 11 showing in display device 10 from layout design tool 40.This topology data comprises the basic information of each divided frame in this layout, i.e. the coordinate of the left upper apex of each divided frame, length and wide corresponding numerical value.

Step S11, according to the basic information of above-mentioned each divided frame, processing module 202 calculates the coordinate on four summits of each divided frame, and the format record to preset, for example, with { left upper apex coordinate, upper right apex coordinate, bottom right apex coordinate, lower-left apex coordinate } format record.Wherein, the X coordinate that the X coordinate on the summit, upper right of a divided frame equals the left upper apex of this divided frame adds the length of this divided frame, and the Y coordinate on this summit, upper right is identical with the Y coordinate of left upper apex; The X coordinate on the summit, bottom right of this divided frame is identical with the X coordinate on summit, upper right, and the Y coordinate that the Y coordinate on this summit, bottom right equals the left upper apex of this divided frame adds the width of this divided frame; The X coordinate on the summit, lower-left of this divided frame is identical with the X coordinate of left upper apex, and the Y coordinate that the Y coordinate on this summit, lower-left equals the left upper apex of this divided frame adds the width of this divided frame.It should be noted that it is initial point that coordinate system in the present invention be take the left upper apex of display device 10, level is to the right the positive direction of principal axis of X-axis, is the positive direction of principal axis of Y-axis vertically downward.

Step S12, mark module 204 carrys out the order of each divided frame of mark with the method for recurrence rotation, and the basic information of storing successively each divided frame according to the order of institute's mark is in memory storage 30 in default storage area.The method of recurrence that described mark module 204 adopts rotation is carried out mark concrete steps to each divided frame describe in conjunction with the process flow diagram of Fig. 4.

Step S13, for example, in the time need to showing designed graphic user interface 11 (again show), described display module 206 reads and shows each divided frame of this graphic user interface 11 from described memory storage 30 in default storage area according to the order of institute's mark.

The method that adopts recurrence to rotate in the present invention is carried out mark to each divided frame in graphic user interface 11 and is carried out the divided frame in locating and displaying graphic user interface 11.In the present embodiment, due to what adopt, be that recurrence spinning solution carries out mark, therefore, described display module 206 can demonstrate each divided frame successively in a kind of mode turning clockwise, and to user, has shown different visual effects.The present invention can be applied in video wall (Video wall), user is by using the graphic user interface of computer design oneself hobby, transmit with the topology data in the graphic user interface 11 after mark of the present invention to video wall, video wall can show designed graphic user interface 11 again.

As shown in Figure 4, be the refinement process flow diagram of each divided frame in marker graphic user interface of the present invention.Step S120, travels through the left upper apex coordinate of all divided frames, by the X coordinate of left upper apex and Y coordinate all minimum divided frame be labeled as " 1 ", and to record this divided frame be current divided frame.

Step S121, mark module 204 search and the right adjacent unmarked divided frame of current divided frame, when searching with the right adjacent unlabelled divided frame of current divided frame, enter step S122, when not searching with the right adjacent unlabelled divided frame of current divided frame, enter step S123.

Step S122, this unlabelled divided frame searching of mark module 204 marks, and the divided frame of institute's mark in this step is recorded as to current divided frame, and return to step S121 and proceed search.In this preferred embodiment, mark module 204 carries out mark successively according to the natural numerical order except zero to searched unlabelled divided frame.For example, current divided frame be labeled as " 1 " time, first the unmarked divided frame searching is labeled as to numeral " 2 ", and usings this divided frame that is labeled as " 2 " and as current picture, return to step S121 and proceed search.In other preferred embodiments, the character that described mark module 204 also can order of representation according to letter or other carries out mark to searched unlabelled divided frame.

Step S123, adjacent unlabelled divided frame under mark module 204 search and current divided frame, when search with current divided frame under during adjacent unlabelled divided frame, return to step S122; When not searching with current, while cutting apart unlabelled divided frame adjacent under picture, enter step S124.

Step S124, mark module 204 search and the left adjacent divided frame of current divided frame, when searching with the left adjacent unlabelled divided frame of current divided frame, return to step S122; When not searching with the left adjacent unlabelled divided frame of current divided frame, enter step S125.

Step S125, adjacent unlabelled divided frame on mark module 204 search and current divided frame, when search with current divided frame on during adjacent unlabelled divided frame, return to step S122; When do not search with current divided frame on during adjacent unlabelled divided frame, enter step S126.

Step S126, mark module 204 judges whether to also have unlabelled divided frame, and if there is no unlabelled divided frame, all divided frames are all marked, and mark is complete, and flow process finishes.If also have unlabelled divided frame, return to step S 122.

In above-mentioned flow process, search be all unlabelled divided frame, to prevent repeating label.In this preferred embodiment, right adjacent the referring to of described and current divided frame: have a unmarked divided frame (in order to distinguish over unmarked divided frame below in described graphic user interface 11, this unmarked divided frame is designated as to " the first unmarked divided frame " herein) the X coordinate of left upper apex and the difference of the X coordinate on summit, current divided frame upper right be less than a preset value, and the Y coordinate on the summit, upper right of current divided frame be more than or equal to this this first unmarked divided frame left upper apex Y coordinate and be less than or equal to the Y coordinate time on the summit, lower-left of this first unmarked divided frame, this first unmarked divided frame is adjacent with the described current divided frame right side.

Described lower adjacent finger is when there being a unlabelled divided frame (right adjacent adjacent with a following definitions left side in order to distinguish over above-mentioned definition, upper adjacent unmarked divided frame, this unmarked divided frame is designated as to " the second unmarked divided frame " herein) the Y coordinate of left upper apex and the difference of the Y coordinate on summit, current divided frame bottom right be less than described preset value, and the X coordinate on the summit, bottom right of current divided frame be more than or equal to this second unmarked divided frame left upper apex X coordinate and be less than or equal to the X coordinate on the summit, upper right of this second unmarked divided frame, adjacent under this this second unmarked divided frame and current divided frame.

The adjacent finger in a described left side is when there being a unlabelled divided frame (adjacent in order to distinguish over the above-mentioned definition right side, descend adjacent unmarked divided frame in adjacent and following definitions, this unmarked divided frame is designated as to " the 3rd unmarked divided frame " herein) the X coordinate of left upper apex and the difference of the X coordinate on summit, current divided frame lower-left be less than described preset value, and the X coordinate on the summit, lower-left of current divided frame be more than or equal to the 3rd unmarked divided frame summit, upper right Y coordinate and be less than or equal to the Y coordinate on the summit, upper right of the 3rd unmarked divided frame, the 3rd unmarked divided frame is adjacent with a current divided frame left side.

Described upper adjacent finger is when there being a unlabelled divided frame (adjacent in order to distinguish over the above-mentioned definition right side, lower adjacent, left adjacent unmarked divided frame, this unmarked divided frame is designated as to " the 4th unmarked divided frame " herein) the Y coordinate of left upper apex and the difference of the Y coordinate of current divided frame left upper apex be less than described preset value, and the X coordinate of the left upper apex of this current divided frame be more than or equal to the 4th unmarked divided frame summit, lower-left X coordinate and be less than or equal to the X coordinate on the summit, bottom right of the 4th unmarked divided frame, adjacent on the 4th unmarked divided frame and current divided frame.

Wherein, the above-mentioned right side is adjacent, left adjacent, upper adjacent and lower adjacent priority order can pre-define, in this preferred embodiment, the adjacent right of priority in the default above-mentioned right side is greater than lower adjacent right of priority, lower adjacent right of priority is greater than left adjacent right of priority, and left adjacent right of priority is greater than adjacent right of priority, therefore, while searching for the unmarked divided frame adjacent with current divided frame at every turn, equal first search and the right adjacent unmarked divided frame of current divided frame.In other preferred embodiments, above-mentioned priority order also can redefine according to actual demand.

Shown in Fig. 5, it is the schematic diagram of each divided frame in marker graphic user interface of the present invention.As shown in Figure 5A, this graphic user interface 11 has comprised 10 divided frames, each divided frame is a diagram, utilizes the coordinate on four summits of each divided frame of Fig. 5 A by described mark module 204, can obtain each divided frame after mark as shown in Figure 5 B.

It should be noted last that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.

Claims

1. a positioning display method for graphic user interface, is characterized in that, the method comprises:

Read step: the basic information that reads each divided frame in the graphic user interface showing in display device;

Treatment step: according to the basic information of above-mentioned each divided frame, calculate the coordinate on four summits of each divided frame, and the format record to preset;

Markers step: according to the coordinate on above-mentioned each four summits of divided frame, the order of each divided frame of mark, and the basic information of storing successively each divided frame according to the order of institute's mark is in memory storage in default storage area;

Step display: when needs show this graphic user interface, read and show each divided frame of this graphic user interface in default storage area according to the order of institute's mark from described memory storage.

2. the positioning display method of graphic user interface as claimed in claim 1, is characterized in that, the method for the order of described each divided frame of mark is:

A. travel through the left upper apex coordinate of all divided frames, by the X coordinate of left upper apex and Y coordinate all minimum divided frame be labeled as 1, and to record this divided frame be current divided frame;

B. search and the right adjacent unmarked divided frame of current divided frame; when searching with the right adjacent unmarked divided frame of current divided frame; enter step c, when not searching with the right adjacent unmarked divided frame of current divided frame, enter steps d;

C. this unmarked divided frame searching of mark, is recorded as current divided frame by the divided frame after this mark and returns to step b and proceed search;

D. adjacent unmarked divided frame under search and current divided frame, when search with current divided frame under during adjacent unmarked divided frame, return to step c, when not searching with current, while cutting apart unmarked divided frame adjacent under picture, enter step e;

E. search and the left adjacent divided frame of current divided frame, when searching with the left adjacent unmarked divided frame of current divided frame, returns to step c, when not searching with the left adjacent unmarked divided frame of current divided frame, enters step f;

F. adjacent unmarked divided frame on search and current divided frame, when search with current divided frame on during adjacent unmarked divided frame, return to step c, when do not search with current divided frame on during adjacent unmarked divided frame, enter step g;

G. judge whether to also have unlabelled divided frame, if there is no unlabelled divided frame, flow process finishes, if also have unlabelled divided frame, returns to step c.

3. the positioning display method of graphic user interface as claimed in claim 2, it is characterized in that, right adjacent the referring to of described and current divided frame: have the X coordinate of left upper apex of a unlabelled divided frame and the difference of the X coordinate on summit, current divided frame upper right to be less than a preset value in described graphic display interface, and the Y coordinate on the summit, upper right of current divided frame be more than or equal to this unmarked divided frame left upper apex Y coordinate and be less than or equal to the Y coordinate time on the summit, lower-left of this unmarked divided frame, this unmarked divided frame is adjacent with the described current divided frame right side,

Described lower adjacent finger is when having the Y coordinate of left upper apex of a unlabelled divided frame and the difference of the Y coordinate on summit, current divided frame bottom right to be less than described preset value, and the X coordinate on the summit, bottom right of current divided frame be more than or equal to this unlabelled divided frame left upper apex X coordinate and be less than or equal to the X coordinate on the summit, upper right of this unlabelled divided frame, adjacent under this unlabelled divided frame and current divided frame;

The adjacent finger in a described left side is when having the X coordinate of left upper apex of a unlabelled divided frame and the difference of the X coordinate on summit, current divided frame lower-left to be less than described preset value, and the X coordinate on the summit, lower-left of current divided frame be more than or equal to this unlabelled divided frame summit, upper right Y coordinate and be less than or equal to the Y coordinate on the summit, upper right of this unlabelled divided frame, this unlabelled divided frame is adjacent with a current divided frame left side;

Described upper adjacent finger is when having the Y coordinate of left upper apex of a unlabelled divided frame and the difference of the Y coordinate of current divided frame left upper apex to be less than described preset value, and the X coordinate of the left upper apex of this current divided frame be more than or equal to this unlabelled divided frame summit, lower-left X coordinate and be less than or equal to the X coordinate on the summit, bottom right of this unlabelled divided frame, adjacent on this unlabelled divided frame and current divided frame.

4. the positioning display method of graphic user interface as claimed in claim 3, is characterized in that, in described markers step, according to the natural numerical order except zero, searched unlabelled divided frame is carried out to mark successively.

5. a locating and displaying system for graphic user interface, is characterized in that, this system comprises:

Read module, for working as the basic information that reads each divided frame of graphic user interface showing in display device;

Processing module, for when according to the basic information of above-mentioned each divided frame, calculates the coordinate on four summits of each divided frame, and the format record to preset;

Mark module, for when according to the coordinate on above-mentioned each four summits of divided frame, the order of each divided frame of mark, and the basic information of storing successively each divided frame according to the order of institute's mark is in memory storage in default storage area;

Display module when showing this graphic user interface when needs, reads and shows each divided frame of this graphic user interface from described memory storage in default storage area according to the order of institute's mark.

6. the locating and displaying system of graphic user interface as claimed in claim 5, is characterized in that, the method for the order of described each divided frame of mark module mark is:

7. the locating and displaying system of graphic user interface as claimed in claim 6, it is characterized in that, the adjacent finger in the described right side is when having the X coordinate of left upper apex of a unlabelled divided frame and the difference of the X coordinate on summit, current divided frame upper right to be less than a preset value, and the Y coordinate on the summit, upper right of current divided frame be more than or equal to this unlabelled divided frame left upper apex Y coordinate and be less than or equal to the Y coordinate on the summit, lower-left of this unlabelled divided frame, this unlabelled divided frame is adjacent with the current divided frame right side;

8. the locating and displaying system of graphic user interface as claimed in claim 6, is characterized in that, described mark module carries out mark successively according to the natural numerical order except zero to searched unlabelled divided frame.