CN104464535A - Screen-based neon display method and device - Google Patents

Abstract

The invention relates to the technical field of mobile terminal display control, in particular to a screen-based neon display method and device. The method includes: setting a graph used for display and display precision of the graph, converting the graph into a lattice diagram, setting a screen lattice, performing analog display of an initial vertical column lattice of the graph in the screen lattice, detecting screen shaking, and starting analog display by the screen lattice from a next vertical column lattice of the initial vertical column lattice of the graph. Neon display of ultra-large characters or graphs on the screen is realized by virtue of persistence of vision of human eyes by utilizing the screen of a mobile terminal, computing graphic lattice and matching with shaking of the screen, and the method and device is simple, convenient and high in universality.

Description

A kind of neon bulb display packing based on screen and device

Technical field

The present invention relates to mobile terminal display control technology field, particularly relate to a kind of neon bulb display packing based on screen and device.

Background technology

Neon bulb, due to lucuriant in design, is subject to the favor of broad masses, when the occasions such as party, concert, public notice meeting use, all needs, by jumbotron and fluorescent tube, to carry inconvenience.

Summary of the invention

For above-mentioned defect, the object of the invention is to propose a kind of neon bulb display packing based on screen and device, the neon bulb function of large-size screen monitors can be realized by mobile terminal screen.

For reaching this object, the present invention by the following technical solutions:

Based on a neon bulb display packing for screen, described method comprises:

Set the display precision for the figure that shows and described figure;

Described Graphic Exchanging is become dot chart;

Setting screen dot matrix;

The initial perpendicular row dot matrix of figure described in simulative display in screen dot matrix;

Detect that described screen rocks, described screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix.

The present invention also provides a kind of neon lamp display device based on screen, and described device comprises:

Figure setup unit, for setting the display precision of figure for showing and described figure;

Graphic Exchanging unit, for becoming dot chart by described Graphic Exchanging;

Screen dot matrix setup unit, for setting screen dot matrix;

Initial perpendicular row lattice display unit, for the initial perpendicular row dot matrix of figure described in simulative display in screen dot matrix;

Graphic dot matrix display unit, for detecting that described screen rocks, described screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix.

The neon bulb display that the present invention is based on screen is by the display precision of setting for the figure that shows and figure, Graphic Exchanging is become dot chart, setting screen dot matrix, the initial perpendicular row dot matrix of simulative display figure in screen dot matrix, detect that screen rocks, screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of figure erects row dot matrix.The present invention, by the eye storage characteristic of human eye, utilizes the screen of mobile terminal, by calculating graphic dot matrix, coordinate rock screen realize screen super large word or figure neon bulb display, simple, convenient, highly versatile.

Accompanying drawing explanation

Fig. 1 is the neon bulb display packing process flow diagram one that the present invention is based on screen.

Fig. 2 is the neon bulb display packing flowchart 2 that the present invention is based on screen.

Fig. 3 is the neon lamp display device structural drawing that the present invention is based on screen.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Fig. 1 shows the neon bulb display packing process flow diagram based on screen that the embodiment of the present invention provides, and details are as follows:

In step S101, set the display precision of figure for showing and described figure;

In embodiments of the present invention, first set the figure that will show, can be word or picture, set the precision that this wants display graphics, such as 32*32 simultaneously.

In step s 102, Graphic Exchanging is become dot chart;

In embodiments of the present invention, this word or Graphic Exchanging are become dot chart, such as 32*32 dot matrix.

In step s 103, setting screen dot matrix;

In embodiments of the present invention, screen dot matrix adopts 32 dot matrix (i.e. row), also can adopt other dot matrix, such as, also adopt 32*32 dot matrix.

In step S104, the initial perpendicular row dot matrix of simulative display figure in screen dot matrix;

In embodiments of the present invention, by obtaining the direction that screen rocks, if direction, to choose in the dot chart of figure the rightest one perpendicular row dot matrix left as initial perpendicular row dot matrix and simulative display, if most the first from left, is chosen in the dot chart of figure in direction to the right erect row dot matrix as initial perpendicular row dot matrix and simulative display.The perpendicular row in centre that initial perpendicular row dot matrix also can choose graphic dot matrix, or the perpendicular row of random selecting one.What judge screen by the acceleration of the gravity sensor recognition screen in mobile phone in the present invention rocks direction.

In step S105, detect that screen rocks, screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix.

In embodiments of the present invention, detect that screen rocks to a direction, interval preset time period, screen dot matrix is from the initial perpendicular row dot matrix of figure simulative display to the party's next perpendicular row dot matrix upwards.Such as detect that screen rocks to the right, through 0.01 second, next the perpendicular row dot matrix changing initial perpendicular row dot matrix right direction into starts simulative display, the lattice position that screen is used as display is constant, the graphic dot matrix that just will show is in change, when the perpendicular row of next dot matrix of screen dot matrix show, a upper dot matrix erects row Lock-out.

Fig. 2 shows the neon bulb display packing process flow diagram based on screen that the embodiment of the present invention provides, and details are as follows:

In step s 201, the display precision of figure for showing and described figure is set;

In step S202, Graphic Exchanging is become dot chart;

In step S203, setting screen dot matrix;

In step S204, the initial perpendicular row dot matrix of simulative display figure in screen dot matrix;

In step S205, detect that screen rocks, screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix;

In step S206, detect that screen rocks when turning to, screen dot matrix is simulative display from the rightabout perpendicular row dot matrix of the perpendicular row dot matrix of the current display direction of figure.

In embodiments of the present invention, after getting J-turn information by gravity sensor, such as, when a screen shift left side is rocked, simulative display from the perpendicular row dot matrix on the right side of the perpendicular row dot matrix of the current display direction of figure.

In step S207, detect that screen stops when rocking, stop rocking direction, perpendicular row dot matrix simulative display to the next column that this rocks direction erects row dot matrix that screen dot matrix shows from current Graphics before rocking according to screen.

In embodiments of the present invention, step S206 and step S207 interchangeable order.Detect screen stop rock time, through preset interval time location, according to screen stop rock before rock direction, such as rock left, screen dot matrix continue from current Graphics display perpendicular row dot matrix next column to the left erect row dot matrix simulative display.

Fig. 3 shows the neon lamp display device structural drawing based on screen that the embodiment of the present invention provides, and details are as follows:

Figure setup unit 31 sets the display precision of figure for showing and figure.

Graphic Exchanging is become dot chart by Graphic Exchanging unit 32.

Screen dot matrix setup unit 33 setting screen dot matrix.

The initial perpendicular row dot matrix of initial perpendicular row lattice display unit 34 figure described in simulative display in screen dot matrix.

Screen rocks direction acquisition module 341 and obtains the direction that screen rocks;

If initial perpendicular row dot matrix chooses display module 342 screen rock direction left, choose the rightest one perpendicular row dot matrix in the dot chart of figure and erect row dot matrix and simulative display as initial; If screen rocks direction to the right, to choose in the dot chart of figure most the first from left and erect row dot matrix as initial perpendicular row dot matrix and simulative display.

Graphic dot matrix display unit 35 detects that described screen rocks, and screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of figure erects row dot matrix.

Screen rocks angle detecting module 351 and detects that screen rocks to a direction;

Graphic dot matrix display module 352 interval preset time period, screen dot matrix is from the initial perpendicular row dot matrix of figure simulative display to the party's next perpendicular row dot matrix upwards.

Screen shift display unit 36 for detect described screen rock turn to time, screen dot matrix is simulative display from the rightabout perpendicular row dot matrix of the perpendicular row dot matrix of the current display direction of figure.

Screen stops rocking display unit 37 and detects that described screen stops when rocking, and stops rocking direction, perpendicular row dot matrix simulative display to the next column that this rocks direction erects row dot matrix that screen dot matrix shows from current Graphics before rocking according to screen.

Set forth in said method embodiment by the neon bulb display mode of mobile terminal screen, at this, repeat no more.

The neon bulb display that the present invention is based on screen is by the display precision of setting for the figure that shows and figure, Graphic Exchanging is become dot chart, setting screen dot matrix, the initial perpendicular row dot matrix of simulative display figure in screen dot matrix, detect that screen rocks, screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of figure erects row dot matrix.The present invention, by the eye storage characteristic of human eye, utilizes the screen of mobile terminal, by calculating graphic dot matrix, coordinate rock screen realize screen super large word or figure neon bulb display, simple, convenient, highly versatile.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. based on a neon bulb display packing for screen, it is characterized in that, described method comprises:

Set the display precision for the figure that shows and described figure;

Described Graphic Exchanging is become dot chart;

Setting screen dot matrix;

The initial perpendicular row dot matrix of figure described in simulative display in screen dot matrix;

Detect that described screen rocks, described screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix.

2. neon bulb display packing as claimed in claim 1, is characterized in that, described in detect that described screen rocks, the next column of the initial perpendicular row dot matrix of figure described in described screen dot matrix simulative display erects after row dot matrix starts simulative display and also comprises:

Detect that described screen rocks when turning to, described screen dot matrix is simulative display from the rightabout perpendicular row dot matrix of the perpendicular row dot matrix of the current display direction of described figure.

3. neon bulb display packing as claimed in claim 1 or 2, is characterized in that, described in screen dot matrix the initial perpendicular row dot matrix of figure described in simulative display be specially:

Obtain the direction that screen rocks, if direction, to choose in the dot chart of described figure the rightest one perpendicular row dot matrix left as initial perpendicular row dot matrix and simulative display, if most the first from left, is chosen in the dot chart of described figure in direction to the right erect row dot matrix as initial perpendicular row dot matrix and simulative display.

4. neon bulb display packing as claimed in claim 3, is characterized in that, described in when detecting that described screen rocks, described screen dot matrix simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix is specially:

Detect that described screen rocks to a direction, interval preset time period, described screen dot matrix is from the initial perpendicular row dot matrix of described figure simulative display to the party's next perpendicular row dot matrix upwards.

5. neon bulb display packing as claimed in claim 1, is characterized in that, described in when detecting that described screen rocks, described screen dot matrix also comprises after simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix:

Detect that described screen stops when rocking, stop rocking direction, perpendicular row dot matrix simulative display to the next column that this rocks direction erects row dot matrix that described screen dot matrix shows from described current Graphics before rocking according to described screen.

6. based on a neon lamp display device for screen, it is characterized in that, described device comprises:

Figure setup unit, for setting the display precision of figure for showing and described figure;

Graphic Exchanging unit, for becoming dot chart by described Graphic Exchanging;

Screen dot matrix setup unit, for setting screen dot matrix;

Initial perpendicular row lattice display unit, for the initial perpendicular row dot matrix of figure described in simulative display in screen dot matrix;

Graphic dot matrix display unit, for detecting that described screen rocks, described screen dot matrix is simulative display from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix.

7. neon lamp display device as claimed in claim 6, it is characterized in that, also comprise screen shift display unit, for detecting that described screen rocks at graphic dot matrix display unit, after the next column of the initial perpendicular row dot matrix of figure described in described screen dot matrix simulative display erects row dot matrix, detect that described screen rocks when turning to, described screen dot matrix is simulative display from the rightabout perpendicular row dot matrix of the perpendicular row dot matrix of the current display direction of described figure.

8. neon lamp display device as claimed in claims 6 or 7, is characterized in that, described initial perpendicular row lattice display unit specifically comprises:

Screen rocks direction acquisition module, for obtaining the direction that screen rocks;

Initial perpendicular row dot matrix chooses display module, if rock direction left for screen, chooses the rightest one perpendicular row dot matrix in the dot chart of described figure and erects row dot matrix and simulative display as initial; If screen rocks direction to the right, to choose in the dot chart of described figure most the first from left and erect row dot matrix as initial perpendicular row dot matrix and simulative display.

9. neon lamp display device as claimed in claim 8, it is characterized in that, described graphic dot matrix display unit specifically comprises:

Screen rocks angle detecting module, for detecting that described screen rocks to a direction;

Graphic dot matrix display module, for interval preset time period, described screen dot matrix is from the initial perpendicular row dot matrix of described figure simulative display to the party's next perpendicular row dot matrix upwards.

10. neon lamp display device as claimed in claim 6, it is characterized in that, also comprise screen to stop rocking display unit, for detecting that described screen rocks at graphic dot matrix display unit, described screen dot matrix is from the next column of the initial perpendicular row dot matrix of described figure erects row dot matrix after simulative display, when detecting that described screen stops rocking, stop rocking direction, perpendicular row dot matrix simulative display to the next column that this rocks direction erects row dot matrix that described screen dot matrix shows from described current Graphics before rocking according to described screen.