CN109544699A - A kind of graphic display method for three-dimensional software - Google Patents

Abstract

The invention discloses a kind of graphic display methods for three-dimensional software, include the following steps, S1: receiving information, S2: graphing, S3: storage figure, S4: change and update figure, S5: display image；Wherein step S2 still further comprises following steps, S21: drawing information is obtained, it constructs three-dimensional figure paper mockup, S22: calling geometric library model, it is patterned in conjunction with coordinate, S23: calling color libraries color, to the geometrical model colouring in previous step, S24: geometrical model is saved as an individual component, repetition receives information, repeats S21 step, S25: saving the drawing drawn and finished is an individual 3-D graphic；S41: change figure, S42: wherein step S4 including the following steps still further updates figure.

Description

A kind of graphic display method for three-dimensional software

Technical field

The present invention relates to technical field of image processing, specially a kind of graphic display method for three-dimensional software.

Background technique

Set of the figure generally as multiple picture elements in the line with certain thickness and the face with one fixed width etc. Body is shown.There is also show with being coloured to inside in the case where face.

In society now, the drafting of 3-D graphic shows that software is widely used in major engineering construction scene, due to Engineering drawing may be modified with the actual conditions that are combined of engineering, and drawing is closely bound up with engineering construction, so A drawing change, other drawings with need to change；Include simultaneously bulk information in 3-D graphic, is carrying out checking drawing When, it should check that offer is corresponding convenient with regard to drawing.

Summary of the invention

The technical problem to be solved by the present invention is to three-dimensional software graphic display information is limited, and it is not easy between multiple terminals Change, provides a kind of graphic display method for three-dimensional software, to solve the above problems.

In order to solve the above-mentioned technical problems, the present invention provides the following technical solutions:

The present invention provides a kind of graphic display method for three-dimensional software, includes the following steps,

S1: receive information, S2: graphing, S3: storage figure, S4: change and update figure, S5: display image；

Wherein step S2 still further comprises following steps,

S21: obtaining drawing information, constructs three-dimensional figure paper mockup, S22: geometric library model is called, be patterned in conjunction with coordinate, S23: calling color libraries color, to the geometrical model colouring in previous step, S24: geometrical model is saved as one individually Component, repetition receive information, repeat S21 step, S25: saving the drawing drawn and finished is an individual 3-D graphic；

Wherein step S4 including the following steps still further,

S41: change figure, S42: figure is updated.

As a preferred technical solution of the present invention, the information that receives in the step S1 from local terminal or Cloud server, cloud server are provided with multiple terminals, and terminal and cloud server pass through wired or be wirelessly attached.

As a preferred technical solution of the present invention, three-dimensional figure paper mockup is provided with three-dimensional coordinate in the step S21 System, the three-dimensional system of coordinate are provided with X-axis, Y-axis and Z axis, and X-axis, Y-axis and Z axis are vertical two-by-two, X-axis, Y-axis and Z axis phase Coordinate origin is met at, X-axis, Y-axis and Z axis are only provided with coordinate positive axis, the first hexagram for being plotted in the three-dimensional system of coordinate of drawing In limit；Geometric library model in step S22 includes one-dimensional pattern: line, X-Y scheme: face (square, triangle, pentagon, Circle etc.), 3-D graphic: body (triangular prism, square, pentagonal pyramid etc.)；Color libraries color in the step 23 uses rgb color Mode is deployed；In the step S24, an individual component is provided with an exclusive ID number, each component setting Have attribute, attribute includes and is not limited to: geometric figure shape, geometric figure size, the color of colouring and component three-dimensional space Between coordinate.

As a preferred technical solution of the present invention, the storage drawing of the step S3 refers to be stored in terminal, together When be uploaded to cloud server.

As a preferred technical solution of the present invention, the step S41 change figure refers to repetition step S1, S2 to original Figure is reconstructed, and carries out S3 later and uploads cloud server, step S42 updates figure and refers to cloud server by newest change Figure pushes to each terminal.

As a preferred technical solution of the present invention, each individual component is clicked in the step S5, can show structure The attribute of part, attribute include and are not limited to: geometric figure shape, geometric figure size, the three-dimensional of the color of colouring and component Space coordinate.

As a preferred technical solution of the present invention, when clicking each individual component in the step S5, height is had The operation such as bright, hiding, transparent.

As a preferred technical solution of the present invention, the step S5 can global multi-direction preview figure, while energy Diminution is amplified to figure under enough visual angles in all directions.

As a preferred technical solution of the present invention, the figure of the step S5 before display can be to the power of user Limit is verified, while can position user position, and server records beyond the clouds.

The beneficial effects obtained by the present invention are as follows being: the present invention can be realized according to the instruction in terminal or cloud to three-dimensional figure The drafting of shape, and shown；Graphics version is managed collectively by cloud server simultaneously, to ensure used in each terminal Drawing is the drawing of the same shape paper；Corresponding function is set in drawing display simultaneously, convenient for being best understood from the letter of drawing Breath provides convenience to user, to save the drawing parsing time, improves working efficiency.

Detailed description of the invention

Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention It applies example to be used to explain the present invention together, not be construed as limiting the invention.

In the accompanying drawings:

Fig. 1 is overall step schematic diagram of the present invention；

Fig. 2 is page graphing flow diagram in the present invention.

Specific embodiment

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, it should be understood that preferred reality described herein Apply example only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.

Embodiment: as shown in Figs. 1-2, the present invention provides a kind of graphic display method for three-dimensional software, including as follows Step,

S1: receive information, S2: graphing, S3: storage figure, S4: change and update figure, S5: display image；

Wherein step S2 still further comprises following steps,

S21: obtaining drawing information, constructs three-dimensional figure paper mockup, S22: geometric library model is called, be patterned in conjunction with coordinate, S23: calling color libraries color, to the geometrical model colouring in previous step, S24: geometrical model is saved as one individually Component, repetition receive information, repeat S21 step, S25: saving the drawing drawn and finished is an individual 3-D graphic；

Wherein step S4 including the following steps still further,

S41: change figure, S42: figure is updated.

Further, the information received in the step S1 derives from local terminal or cloud server, cloud service Device is provided with multiple terminals, and terminal and cloud server pass through wired or be wirelessly attached.

Further, three-dimensional figure paper mockup is provided with three-dimensional system of coordinate, the three-dimensional system of coordinate setting in the step S21 There are X-axis, Y-axis and Z axis, X-axis, Y-axis and Z axis are vertical two-by-two, and X-axis, Y-axis and Z axis intersect at coordinate origin, X-axis, Y-axis And Z axis is only provided with coordinate positive axis, drawing is plotted in the first octant of the three-dimensional system of coordinate；Geometry in step S22 Library model includes one-dimensional pattern: line, X-Y scheme: face (square, triangle, pentagon, circle etc.), 3-D graphic: body (three Prism, square, pentagonal pyramid etc.)；Color libraries color in the step 23 is deployed using rgb color mode；The step In rapid S24, an individual component is provided with an exclusive ID and numbers, and each component is provided with attribute, and attribute includes and not Be limited to: geometric figure shape, geometric figure size, the color of colouring and component three dimensional space coordinate.

Further, the storage drawing of the step S3 refers to is stored in terminal, while being uploaded to cloud server.

Further, step S41 change figure refers to that original figure is reconstructed in repetition step S1, S2, it is laggard Row S3 uploads cloud server, and step S42 updates figure and refers to that newest change figure is pushed to each terminal by cloud server.

Each individual component, the attribute of meeting display member are clicked in the step S5, attribute includes and is not limited to: geometry Graphics shape, geometric figure size, the color of colouring and component three dimensional space coordinate.

Further, when clicking each individual component in the step S5, the operation such as highlighted, hiding, transparent is had.

Further, the step S5 can global multi-direction preview figure, while can be right under visual angle in all directions Figure amplifies diminution.

Further, the figure of the step S5 before display can verify the permission of user, while can determine Position is will be in user position, and server records beyond the clouds.

Specific: step S1 receives the information of local terminal or cloud server, carries out step S2 to figure according to information Paper is modified, and passes through step S3 after drawing change and the drawing of final version is stored on cloud server, make in daily Change may occur with drawing in the process to update, carried out by step S4, finally show image in step s 5.

It wherein in step S2, is patterned by the cooperation between geometrical model, is painted simultaneously, distribute the sky of geometric figure Between coordinate, model is saved as into individual component, multiple components collectively constitute the 3-D graphic of a completion；In step s 5, The corresponding information of component (geometric figure shape, geometric figure size, the color of colouring and structure can be learned by clicking component The three dimensional space coordinate of part)；Geometrical model includes most of common geometrical model (one-dimensional pattern, X-Y scheme.Three-dimensional figure Shape)；Color libraries are deployed using rgb color mode, can seem all colours comprising naked eyes, enough users use.

Step S41 change figure refers to that original figure is reconstructed in repetition step S1, S2, carries out S3 later and uploads cloud clothes Business device, step S42 update figure and refer to that newest change figure is pushed to each terminal by cloud server；Solves the system of figure The figure of change is uploaded cloud automatically and saved, pushed to each different terminal and shown, avoid figure by the problem of one change Construction problem caused by paper is different.

When clicking each individual component in step S5, the operation such as highlighted, hiding, transparent is had, while there are also display structures The three dimensional space coordinate of the ID number of part, geometric figure shape, geometric figure size, the color of colouring and component；ID number It can also serve as user and refer to use, identical structure may have multiple in drawing, but each by this set ID is individually, to be capable of providing convenience, while the operations such as highlighted, hiding, transparent, convenient for observation element structure relationship, component is gathered around Some information then convenient for users to the fastest understanding component, quickly understands drawing.

Meanwhile the figure of the step S5 before display can verify the permission of user, according to permission difference The figure that can check is different, and the content of display is different, while can also be positioned according to user address, and with cloud Record.

Finally, it should be noted that these are only the preferred embodiment of the present invention, it is not intended to restrict the invention, although Present invention has been described in detail with reference to the aforementioned embodiments, for those skilled in the art, still can be right Technical solution documented by foregoing embodiments is modified or equivalent replacement of some of the technical features.It is all Within the spirit and principles in the present invention, any modification, equivalent replacement, improvement and so on should be included in protection of the invention Within the scope of.

Claims (9)

1. a kind of graphic display method for three-dimensional software, which is characterized in that include the following steps,

S1: receive information, S2: graphing, S3: storage figure, S4: change and update figure, S5: display image；

Wherein step S2 still further comprises following steps,

S21: obtaining drawing information, constructs three-dimensional figure paper mockup, S22: geometric library model is called, be patterned in conjunction with coordinate, S23: calling color libraries color, to the geometrical model colouring in previous step, S24: geometrical model is saved as one individually Component, repetition receive information, repeat S21 step, S25: saving the drawing drawn and finished is an individual 3-D graphic；

Wherein step S4 including the following steps still further,

S41: change figure, S42: figure is updated.

2. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S1 The information of middle receiving derives from local terminal or cloud server, and cloud server is provided with multiple terminals, terminal and cloud Server passes through wired or is wirelessly attached.

3. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step Three-dimensional figure paper mockup is provided with three-dimensional system of coordinate in S21, and the three-dimensional system of coordinate is provided with X-axis, Y-axis and Z axis, X-axis, Y-axis And Z axis is vertical two-by-two, X-axis, Y-axis and Z axis intersect at coordinate origin, and X-axis, Y-axis and Z axis are only provided with coordinate positive axis, Drawing is plotted in the first octant of the three-dimensional system of coordinate；Geometric library model in step S22 includes one-dimensional pattern: line, X-Y scheme: face (square, triangle, pentagon, circle etc.), 3-D graphic: body (triangular prism, square, pentagonal pyramid etc.)；Institute The color libraries color stated in step 23 is deployed using rgb color mode；In the step S24, an individual component is set It is equipped with an exclusive ID number, each component is provided with attribute, and attribute includes and is not limited to: geometric figure shape, geometric graph The three dimensional space coordinate of shape size, the color of colouring and component.

4. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S3 Storage drawing refer to and stored in terminal, while being uploaded to cloud server.

5. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S41 change figure refers to that original figure is reconstructed in repetition step S1, S2, carries out S3 later and uploads cloud server, step S42 It updates figure and refers to that newest change figure is pushed to each terminal by cloud server.

6. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S5 The middle each individual component of click, the attribute of meeting display member, attribute include and are not limited to: geometric figure shape, geometric figure The three dimensional space coordinate of size, the color of colouring and component.

7. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S5 When each individual component of middle click, the operation such as highlighted, hiding, transparent is had.

8. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S5 Can global multi-direction preview figure, while diminution can be amplified to figure under visual angle in all directions.

9. a kind of graphic display method for three-dimensional software according to claim 1, which is characterized in that the step S5 Figure the permission of user can be verified before display, while user position can be positioned, serviced beyond the clouds Device record.