CN102509331A - Dynamic model building method based on three-dimensional (3D) engine - Google Patents

Abstract

The invention provides a dynamic model building method based on a three-dimensional (3D) engine, which is used for building a 3D dynamic model of equipment. The method comprises the following steps of dividing equipment into components, respectively encoding the divided components, building a 3D dynamic model of equipment by a user as required, and modifying the parameters of the components as required. According to the method, the model is encoded, and based on a 3D rendering engine, the model can be updated through writing the background codes, and moreover, the user can change the information of equipment parameters, components and the like in the model list through simply operating the information list of simulation equipment; and the authority of the user is improved, the operation is simple and safe, and the user can perform updating operation on the existing model, so that the troublesome code operation is eliminated.

Description

A kind of dynamic model building method based on d engine

Technical field

The invention belongs to the electronic 3-D model technical field, relate to the d engine dynamic model and build, be a kind of dynamic model building method based on d engine.

Background technology

Along with constantly improving of three-dimensional artificial technology upgraded, it is more and more general that virtual technology becomes, and the three-dimensional artificial project is also done bigger and bigger, and the quantity of the three-dimensional model that relates to is more and more, and it is more and more longer that model is built the required time, the also corresponding increase of fussy degree.

In the practice of virtual emulation; Run into such kind of situation through regular meeting; The actual object that needs virtual emulation is for to be made up of a lot of parts; Electrical instrumentation equipment-voltage table has for example comprised display (perhaps pointer-type gauges), shift knob, debugging button, the voltage selector button of liquid crystal on the voltage table.In actual emulation, need control the state of each assembly above the control to voltage table.Face two problems this time:

1, whole modeling and the separately problem of modeling:

The model quantity meeting that the material of a, requirement importing model can perhaps be built very greatly a lot;

Need to divide earlier open model to play up the labor time again when b, rending model;

2, unit status is followed the matching problem of back-end data:

A, user be the unit status of new model more, can only upgrade through writing background program;

B, model do not possess plasticity concerning the user;

Prior art can provide and solve whole modeling and the problem of separating modeling, but but is being powerless aspect the matching problem of unit status and back-end data, and the unit status of model can only change through the backstage, and the user does not have the authority of change fully.

Summary of the invention

The problem that the present invention will solve is: for building of d engine dynamic model, can only come more new model through writing back-end data, model poor plasticity for the user in the prior art.

Technical scheme of the present invention is: a kind of dynamic model building method based on d engine, and equipment is carried out the Three-Dimensional Dynamic model build, may further comprise the steps:

1) analyzes dynamic model and build required all component, list the component list of dynamic model;

2) under d engine entity file folder DEF catalogue, create the entity text document; Form is " .def "; Opening document is write required assembly entity in the tabulation of entity code definitions component, and all component entity is accomplished definition in tabulation, and the status attribute of each assembly entity is carried out initialization;

3) model of creation text document under d engine model file folder models catalogue; Form is " .cfg "; Opening document is write the basic parameter code; Be used for the model basic parameter of equipment is imported to engine, comprise: device name, device coding, device model and scripting object, device name is the model name to building; Device coding is the sign to model; Device model is the corresponding model material of introducing equipment model framework; Scripting object is the sign to device name;

4) opening steps 3) middle " .cfg " form model text document of creating; Write the I/O data code; Be used for putting table information and import to engine, said some table is the set of the input/output state of each assembly in the equipment, comprises 4 kinds of I/O state: DI, DO, YD, AO; Wherein DI, YD are input state, and DO, AO are output state, and DI representes to represent input value with the assembly on off state, and YD representes to represent input value with the assembly connection state; DO is integer output, and it is floating type output that expression is represented output valve, AO with the component states change, and expression is with floating number value representation output valve;

5) opening steps 3) middle " .cfg " form model text document of creating; Write the module data code; Be used for module information is imported to engine, module information comprises component type, component Name, assembly input state and assembly output state, and component type is the corresponding entity type of assembly; Component Name is the sign of this assembly; The assembly input state is the attribute information of assembly, comprise input port, model, outward appearance pinup picture, model path and assembly towards; The assembly output state is output port, output channel and the demonstration Rule Information of assembly;

6) initialization d engine; Open " .cfg " form model text document through d engine equipment editing machine; Make the dynamic model of equipment import in the engine; The user sees the Three-Dimensional Dynamic model of equipment in the engine scene, and checks basic parameter, some table and each module information that equipment is corresponding through the equipment editing machine;

7) the equipment editing machine of user through opening in the step 6); In the equipment editing machine, the basic parameter, some table, the module information that import the equipment dynamic model in the engine are carried out additions and deletions and changed operation; Accomplish and preserve and cover former " .cfg " form model text document after additions and deletions change operation, promptly obtain the desirable model of user; Wherein upgrade basic parameter information, the information of corresponding equipment model will change; Upgrade some table information, emulator I/O state changes; Upgrade module information, the assembly of emulator will change.

When the equipment dynamic model is provided with display screen, writes the display screen code and import display information, display information comprises the resolution of display screen under different working modes and this pattern of equipment; Check display information in step 6), in step 7) update displayed screen pattern information, the display mode correspondence of equipment changes according to the dynamic model demand.

The present invention is directed in the prior art for the user; This defective of model poor plasticity is carried out perfect; Because the code that the present invention writes is related with d engine closely, code is to write according to the equipment editing machine of d engine, and is encapsulated in the d engine; And the device code in the reality all is and d engine between independently; Therefore the user can open device model through the equipment editing machine in the d engine among the present invention, in the total tabulation of equipment, checks and the status attribute of new model more, to reach the more operation of new model.

Also there is the whole sub-module of pair three-dimensional model to upgrade the loading of building in the prior art; The present invention compares prior art; Its outstanding characteristics and obvious improvement is when being model codeization, to rely on 3 d rendering engine, not only can be through the backstage code write more new model; Further be that the user can the simple operations through the emulator information list changes information such as device parameter in the model tabulation, assembly, user's authority gets a promotion; Code that the present invention writes and d engine tight association; The user can only be through equipment editing machine operation modification facility information in the engine; And can't change the entity code of engine internal; Both made things convenient for the user dynamically to adjust the three-dimensional model of equipment, greatly protected entity code again, safety simple to operate according to self-demand; The user can upgrade operation on existing model, need not to build new model, has saved the code operation of trouble.

Description of drawings

Fig. 1 is the composition structural representation of Three-Dimensional Dynamic assembly of the present invention.

Fig. 2 is the schematic flow sheet of Three-Dimensional Dynamic assembly exploitation of the present invention.

Embodiment

Like Fig. 1 and Fig. 2, the present invention includes following steps:

1) analyzes dynamic model and build required all parts, list the component list of dynamic model;

2) under d engine entity file folder DEF catalogue, create the entity text document; Form is " .def "; Opening document is write required assembly entity in the tabulation of entity code definitions component, and all component entity is accomplished definition in tabulation, and the status attribute of each assembly entity is carried out initialization;

3) model of creation text document under d engine model file folder models catalogue; Form is " .cfg "; Opening document is write the basic parameter code; Be used for the model basic parameter of equipment is imported to engine, comprise: device name, device coding, device model and scripting object, device name is the model name to building; Device coding is the sign to model; Device model is the corresponding model material (.ASE or .md5mesh file) of introducing equipment model framework; Scripting object is the sign to device name;

4) opening steps 3) middle " .cfg " form model text document of creating; Write the I/O data code; Be used for putting table information and import to engine, said some table is the set of the input/output state of each assembly in the equipment, comprises 4 kinds of I/O state: DI, DO, YD, AO; Wherein DI, YD are input state, and DO, AO are output state, and DI representes to represent input value with the assembly on off state, and YD representes to represent input value with the assembly connection state; DO is integer output, and it is floating type output that expression is represented output valve, AO with the component states change, and expression is with floating number value representation output valve;

5) opening steps 3) middle " .cfg " form model text document of creating; Write the module data code; Be used for module information is imported to engine, module information comprises component type, component Name, assembly input state and assembly output state, and component type is the corresponding entity type of assembly; Component Name is the sign of this assembly; The assembly input state is the attribute information of assembly, comprise input port, model, outward appearance pinup picture, model path and assembly towards; The assembly output state is output port, output channel and the demonstration Rule Information of assembly;

6) initialization d engine; Open " .cfg " form model text document through d engine equipment editing machine; Make the dynamic model of equipment import in the engine; The user sees the Three-Dimensional Dynamic model of equipment in the engine scene, and checks basic parameter, some table and each module information that equipment is corresponding through the equipment editing machine;

7) the equipment editing machine of user through opening in the step 6); In the equipment editing machine, the basic parameter, some table, the module information that import the equipment dynamic model in the engine are carried out additions and deletions and changed operation; Accomplish and preserve and cover former " .cfg " form model text document after additions and deletions change operation, promptly obtain the desirable model of user; Wherein upgrade basic parameter information, the information of corresponding equipment model will change; Upgrade some table information, emulator I/O state changes; Upgrade module information, the assembly of emulator will change.

Further, when the equipment dynamic model is provided with display screen, writes the display screen code and import display information, display information comprises the resolution of display screen under different working modes and this pattern of equipment; Check display information in step 6), in step 7) update displayed screen pattern information, the display mode correspondence of equipment changes according to the dynamic model demand.

Building with the Three-Dimensional Dynamic model of voltage table below is that specific embodiment is explained enforcement of the present invention.

Be divided into voltage table several sections such as simple outward appearance, universal switch, general liquid crystal display, general purpose instrument, adjusting button, binding post.Each assembly is carried out independent modeling.Merge through assembly more when in use, form whole voltage table.Done 3 advantages like this:

1), can well be the model component universalization, the different voltages with different table can select different assemblies directly to merge completion, reduces general modeling amount;

2), aspect assembly control, can define separately and the Control Component state, comprise displaying contents etc.;

3), the user can upgrade emulator through simple operations as required.

1, confirm to build the required all component of voltage table:

According to the model that will build, go out required assembly with a tabular;

The required component title	The required component type
		Charging indicator light	The binary states pilot lamp
HT pilot	The binary states pilot lamp
		Binding post E	Binding post
Binding post G	Binding post
		Binding post L	Binding post
Supply socket	Binding post
		Show switching push button	Conventional push button
The voltage selector button	Conventional push button
		LCD screen	The intelligence LCDs
Power switch	The Illuminated Switch button
		Start shutdown switch	Band lamp squash type shift knob

2, assembly substantial definition (.def programming):

Under the current entity DEF folder content of d engine renderer, a newly-built entity text document (.def); According to all component type of listing in the step 1, write the entity code of the correspondence of each component type, concrete form is following:

Desc correspondent entity title;

Scriptobject correspondent entity scripting object;

Lodcontrol correspondent entity sign;

Model correspondent entity model material path;

The attribute of staticparms correspondent entity input state;

The property value of staticoptions correspondent entity input state;

Dynamicparms correspondent entity output state property value;

Signal correspondent entity aspect;

Angle1, angle2 correspondent entity angle;

3, voltage table basic parameter definition

Under d engine model file folder models catalogue, create voltage table model text document (.cfg); Opening document is write voltage table basic parameter code; Voltage table model basic parameter is imported in the engine: voltage table title, voltage table coding, voltage table model and voltage table object, voltage table name are called the model name to building; Voltage table is encoded to the sign to model; The voltage table model is for importing the corresponding model material of voltage table model framework; Scripting object is the sign to the voltage table title;

Instrument " DM50C type digital high voltage megohmmeter " 1

Two parameters in instrument back are emulator title and coding respectively just;

The model material path of the corresponding emulator of model;

The corresponding scripting object of scriptobject;

4, voltage table point table

The voltage table model text document of creating in the opening steps 3 (.cfg); Write voltage table I/O data code; To put table information and import in the engine, said some table is the set of the input/output state of each assembly in the voltage table, comprises 4 kinds of I/O state: DI, DO, YD, AO; Wherein DI, YD are input state, and DO, AO are output state;

DI representes to represent input value with the assembly on off state, and YD representes to represent input value with the assembly connection state; DO (integer output) expression changes with component states represents output valve, and AO (floating type output) representes with floating number value representation output valve.

ios{

1?DO″testlight″0

}

The input pattern of some table comprises DI, YD;

Output mode comprises DO, AO;

Digital " 0 " is represented the value under this pattern;

5, voltage table assembly

The voltage table model text document of creating in the opening steps 3 (.cfg); Write voltage table module data code; The voltage table module information is imported in the engine, and the voltage table module information comprises component type, component Name, assembly input state and assembly output state: component type is the corresponding entity type of assembly; Component Name is the sign of this assembly; The assembly input state is the attribute information of assembly, comprise input port, model, outward appearance pinup picture, model path and assembly towards; The assembly output state is output port, output channel and the demonstration Rule Information of assembly;

The title of the corresponding assembly of Component;

The parametric representation assembly input state of static the inside:

The corresponding component type title of classname;

The corresponding assembly outward appearance of skin pinup picture;

The coordinate of the corresponding assembly of origin;

The corresponding assembly of angle towards;

The material path of the corresponding component model of model;

The ratio of the corresponding assembly of scale;

The parametric representation assembly output state of dunamic the inside:

The pattern of the corresponding output of output0;

6, voltage table display screen pattern

Write the display screen code and import display information, display information comprises the resolution of display screen under different working modes and this pattern of equipment;

Two parameters that Guis closelys follow are respectively display screen pattern and display resolution.

7, demonstration and renewal emulation voltage table and voltage table information list

The initialization d engine; Open voltage table model text document (.cfg) through d engine equipment editing machine; Voltage table dynamic device model is imported in the d engine; The user just can see the three-dimensional model of voltage table in the engine scene, and further checks basic parameter, some table and each module information of equipment corresponding voltage table through the equipment editing machine;

The equipment editing machine of user through opening; In the equipment editing machine, the basic parameter, some table, the module information that import the voltage table in the engine are carried out additions and deletions and changed operation; And the save button cover original voltage table model text document (.cfg) in the pointing device editing machine; Obtain the desirable model of user, upgrade voltage table basic parameter information, the information of corresponding voltage table model will change; Upgrade voltage table point table information, voltage table I/O state changes; Upgrade the voltage table module information, the assembly of voltage table will change.

Below be to upgrade the simple operations that voltage table model user can carry out:

Basic parameter: device name, coding, scripting object can directly be edited, and device model gets final product through the material path of revising model;

The point table: the I/O pattern can directly be edited;

Assembly: component Name, type can change through editor, selection respectively, and the attribute of input state, output state can be edited;

The display screen pattern: display screen pattern and display resolution can be edited.

Claims (2)

1. dynamic model building method based on d engine is characterized in that equipment is carried out the Three-Dimensional Dynamic model to be built, and may further comprise the steps:

1) analyzes dynamic model and build required all component, list the component list of dynamic model;

2) under d engine entity file folder DEF catalogue, create the entity text document; Form is " .def "; Opening document is write required assembly entity in the tabulation of entity code definitions component, and all component entity is accomplished definition in tabulation, and the status attribute of each assembly entity is carried out initialization;

3) model of creation text document under d engine model file folder models catalogue; Form is " .cfg "; Opening document is write the basic parameter code; Be used for the model basic parameter of equipment is imported to engine, comprise: device name, device coding, device model and scripting object, device name is the model name to building; Device coding is the sign to model; Device model is the corresponding model material of introducing equipment model framework; Scripting object is the sign to device name;

4) opening steps 3) middle " .cfg " form model text document of creating; Write the I/O data code; Be used for putting table information and import to engine, said some table is the set of the input/output state of each assembly in the equipment, comprises 4 kinds of I/O state: DI, DO, YD, AO; Wherein DI, YD are input state, and DO, AO are output state, and DI representes to represent input value with the assembly on off state, and YD representes to represent input value with the assembly connection state; DO is integer output, and it is floating type output that expression is represented output valve, AO with the component states change, and expression is with floating number value representation output valve;

5) opening steps 3) middle " .cfg " form model text document of creating; Write the module data code; Be used for module information is imported to engine, module information comprises component type, component Name, assembly input state and assembly output state, and component type is the corresponding entity type of assembly; Component Name is the sign of this assembly; The assembly input state is the attribute information of assembly, comprise input port, model, outward appearance pinup picture, model path and assembly towards; The assembly output state is output port, output channel and the demonstration Rule Information of assembly;

6) initialization d engine; Open " .cfg " form model text document through d engine equipment editing machine; Make the dynamic model of equipment import in the engine; The user sees the Three-Dimensional Dynamic model of equipment in the engine scene, and checks basic parameter, some table and each module information that equipment is corresponding through the equipment editing machine;

7) the equipment editing machine of user through opening in the step 6); In the equipment editing machine, the basic parameter, some table, the module information that import the equipment dynamic model in the engine are carried out additions and deletions and changed operation; Accomplish and preserve and cover former " .cfg " form model text document after additions and deletions change operation, promptly obtain the desirable model of user; Wherein upgrade basic parameter information, the information of corresponding equipment model will change; Upgrade some table information, emulator I/O state changes; Upgrade module information, the assembly of emulator will change.

2. a kind of dynamic model building method according to claim 1 based on d engine; When it is characterized in that the equipment dynamic model is provided with display screen; Write the display screen code and import display information, display information comprises the resolution of display screen under different working modes and this pattern of equipment; Check display information in step 6), in step 7) update displayed screen pattern information, the display mode correspondence of equipment changes according to the dynamic model demand.

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