974deca5e1
git-svn-id: svn+ssh://svn.code.sf.net/p/supertuxkart/code/main/trunk@11846 178a84e3-b1eb-0310-8ba1-8eac791a3b58
405 lines
15 KiB
C++
405 lines
15 KiB
C++
// Copyright (C) 2002-2012 Nikolaus Gebhardt
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// This file is part of the "Irrlicht Engine".
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// For conditions of distribution and use, see copyright notice in irrlicht.h
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#ifndef __IRR_I_COLLADA_MESH_WRITER_H_INCLUDED__
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#define __IRR_I_COLLADA_MESH_WRITER_H_INCLUDED__
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#include "IMeshWriter.h"
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#include "ISceneNode.h"
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#include "IAnimatedMesh.h"
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#include "SMaterial.h"
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namespace irr
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{
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namespace io
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{
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class IWriteFile;
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} // end namespace io
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namespace scene
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{
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//! Lighting models - more or less the way Collada categorizes materials
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enum E_COLLADA_TECHNIQUE_FX
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{
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//! Blinn-phong which is default for opengl and dx fixed function pipelines.
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//! But several well-known renderers don't support it and prefer phong.
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ECTF_BLINN,
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//! Phong shading, default in many external renderers.
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ECTF_PHONG,
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//! diffuse shaded surface that is independent of lighting.
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ECTF_LAMBERT,
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// constantly shaded surface that is independent of lighting.
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ECTF_CONSTANT
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};
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//! How to interpret the opacity in collada
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enum E_COLLADA_TRANSPARENT_FX
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{
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//! default - only alpha channel of color or texture is used.
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ECOF_A_ONE = 0,
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//! Alpha values for each RGB channel of color or texture are used.
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ECOF_RGB_ZERO = 1
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};
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//! Color names collada uses in it's color samplers
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enum E_COLLADA_COLOR_SAMPLER
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{
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ECCS_DIFFUSE,
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ECCS_AMBIENT,
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ECCS_EMISSIVE,
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ECCS_SPECULAR,
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ECCS_TRANSPARENT,
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ECCS_REFLECTIVE
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};
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//! Irrlicht colors which can be mapped to E_COLLADA_COLOR_SAMPLER values
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enum E_COLLADA_IRR_COLOR
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{
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//! Don't write this element at all
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ECIC_NONE,
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//! Check IColladaMeshWriterProperties for custom color
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ECIC_CUSTOM,
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//! Use SMaterial::DiffuseColor
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ECIC_DIFFUSE,
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//! Use SMaterial::AmbientColor
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ECIC_AMBIENT,
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//! Use SMaterial::EmissiveColor
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ECIC_EMISSIVE,
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//! Use SMaterial::SpecularColor
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ECIC_SPECULAR
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};
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//! Control when geometry elements are created
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enum E_COLLADA_GEOMETRY_WRITING
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{
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//! Default - write each mesh exactly once to collada. Optimal but will not work with many tools.
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ECGI_PER_MESH,
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//! Write each mesh as often as it's used with different materials-names in the scene.
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//! Material names which are used here are created on export, so using the IColladaMeshWriterNames
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//! interface you have some control over how many geometries are written.
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ECGI_PER_MESH_AND_MATERIAL
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};
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//! Callback interface for properties which can be used to influence collada writing
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class IColladaMeshWriterProperties : public virtual IReferenceCounted
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{
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public:
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virtual ~IColladaMeshWriterProperties () {}
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//! Which lighting model should be used in the technique (FX) section when exporting effects (materials)
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virtual E_COLLADA_TECHNIQUE_FX getTechniqueFx(const video::SMaterial& material) const = 0;
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//! Which texture index should be used when writing the texture of the given sampler color.
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/** \return the index to the texture-layer or -1 if that texture should never be exported
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Note: for ECCS_TRANSPARENT by default the alpha channel is used, if you want to use RGB you have to set
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also the ECOF_RGB_ZERO flag in getTransparentFx. */
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virtual s32 getTextureIdx(const video::SMaterial & material, E_COLLADA_COLOR_SAMPLER cs) const = 0;
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//! Return which color from Irrlicht should be used for the color requested by collada
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/** Note that collada allows exporting either texture or color, not both.
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So color mapping is only checked if we have no valid texture already.
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By default we try to return best fits when possible. For example ECCS_DIFFUSE is mapped to ECIC_DIFFUSE.
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When ECIC_CUSTOM is returned then the result of getCustomColor will be used. */
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virtual E_COLLADA_IRR_COLOR getColorMapping(const video::SMaterial & material, E_COLLADA_COLOR_SAMPLER cs) const = 0;
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//! Return custom colors for certain color types requested by collada.
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/** Only used when getColorMapping returns ECIC_CUSTOM for the same paramters. */
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virtual video::SColor getCustomColor(const video::SMaterial & material, E_COLLADA_COLOR_SAMPLER cs) const = 0;
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//! Return the transparence color interpretation.
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/** Not this is only about ECCS_TRANSPARENT and does not affect getTransparency. */
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virtual E_COLLADA_TRANSPARENT_FX getTransparentFx(const video::SMaterial& material) const = 0;
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//! Transparency value for that material.
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/** This value is additional to transparent settings, if both are set they will be multiplicated.
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\return 1.0 for fully transparent, 0.0 for not transparent and not written at all when < 0.f */
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virtual f32 getTransparency(const video::SMaterial& material) const = 0;
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//! Reflectivity value for that material
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/** The amount of perfect mirror reflection to be added to the reflected light
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\return 0.0 - 1.0 for reflectivity and element is not written at all when < 0.f */
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virtual f32 getReflectivity(const video::SMaterial& material) const = 0;
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//! Return index of refraction for that material
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/** By default we don't write that.
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\return a value greater equal 0.f to write \<index_of_refraction\> when it is lesser than 0 nothing will be written */
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virtual f32 getIndexOfRefraction(const video::SMaterial& material) const = 0;
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//! Should node be used in scene export? (only needed for scene-writing, ignored in mesh-writing)
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//! By default all visible nodes are exported.
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virtual bool isExportable(const irr::scene::ISceneNode * node) const = 0;
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//! Return the mesh for the given node. If it has no mesh or shouldn't export it's mesh
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//! you can return 0 in which case only the transformation matrix of the node will be used.
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// Note: Function is not const because there is no const getMesh() function.
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virtual IMesh* getMesh(irr::scene::ISceneNode * node) = 0;
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//! Return if the node has it's own material overwriting the mesh-materials
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/** Usually true except for mesh-nodes which have isReadOnlyMaterials set.
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This is mostly important for naming (as ISceneNode::getMaterial() already returns the correct material).
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You have to override it when exporting custom scenenodes with own materials.
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\return true => The node's own material is used, false => ignore node material and use the one from the mesh */
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virtual bool useNodeMaterial(const scene::ISceneNode* node) const = 0;
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};
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//! Callback interface to use custom names on collada writing.
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/** You can either modify names and id's written to collada or you can use
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this interface to just find out which names are used on writing.
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*/
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class IColladaMeshWriterNames : public virtual IReferenceCounted
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{
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public:
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virtual ~IColladaMeshWriterNames () {}
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//! Return a unique name for the given mesh
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/** Note that names really must be unique here per mesh-pointer, so
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mostly it's a good idea to return the nameForMesh from
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IColladaMeshWriter::getDefaultNameGenerator(). Also names must follow
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the xs::NCName standard to be valid, you can run them through
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IColladaMeshWriter::toNCName to ensure that.
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\param mesh Pointer to the mesh which needs a name
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\param instance When E_COLLADA_GEOMETRY_WRITING is not ECGI_PER_MESH then
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several instances of the same mesh can be written and this counts them.
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*/
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virtual irr::core::stringw nameForMesh(const scene::IMesh* mesh, int instance) = 0;
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//! Return a unique name for the given node
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/** Note that names really must be unique here per node-pointer, so
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mostly it's a good idea to return the nameForNode from
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IColladaMeshWriter::getDefaultNameGenerator(). Also names must follow
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the xs::NCName standard to be valid, you can run them through
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IColladaMeshWriter::toNCName to ensure that.
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*/
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virtual irr::core::stringw nameForNode(const scene::ISceneNode* node) = 0;
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//! Return a name for the material
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/** There is one material created in the writer for each unique name.
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So you can use this to control the number of materials which get written.
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For example Irrlicht does by default write one material for each material
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instanced by a node. So if you know that in your application material
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instances per node are identical between different nodes you can reduce
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the number of exported materials using that knowledge by using identical
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names for such shared materials.
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Names must follow the xs::NCName standard to be valid, you can run them
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through IColladaMeshWriter::toNCName to ensure that.
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*/
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virtual irr::core::stringw nameForMaterial(const video::SMaterial & material, int materialId, const scene::IMesh* mesh, const scene::ISceneNode* node) = 0;
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};
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//! Interface for writing meshes
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class IColladaMeshWriter : public IMeshWriter
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{
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public:
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IColladaMeshWriter()
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: Properties(0), DefaultProperties(0), NameGenerator(0), DefaultNameGenerator(0)
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, WriteTextures(true), WriteDefaultScene(true), ExportSMaterialOnce(true)
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, AmbientLight(0.f, 0.f, 0.f, 1.f)
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{
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}
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//! Destructor
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virtual ~IColladaMeshWriter()
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{
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if ( Properties )
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Properties->drop();
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if ( DefaultProperties )
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DefaultProperties->drop();
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if ( NameGenerator )
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NameGenerator->drop();
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if ( DefaultNameGenerator )
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DefaultNameGenerator->drop();
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}
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//! writes a scene starting with the given node
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virtual bool writeScene(io::IWriteFile* file, scene::ISceneNode* root) = 0;
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//! Set if texture information should be written
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virtual void setWriteTextures(bool write)
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{
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WriteTextures = write;
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}
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//! Get if texture information should be written
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virtual bool getWriteTextures() const
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{
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return WriteTextures;
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}
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//! Set if a default scene should be written when writing meshes.
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/** Many collada readers fail to read a mesh if the collada files doesn't contain a scene as well.
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The scene is doing an instantiation of the mesh.
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When using writeScene this flag is ignored (as we have scene there already)
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*/
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virtual void setWriteDefaultScene(bool write)
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{
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WriteDefaultScene = write;
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}
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//! Get if a default scene should be written
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virtual bool getWriteDefaultScene() const
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{
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return WriteDefaultScene;
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}
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//! Sets ambient color of the scene to write
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virtual void setAmbientLight(const video::SColorf &ambientColor)
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{
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AmbientLight = ambientColor;
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}
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//! Return ambient light of the scene which is written
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virtual video::SColorf getAmbientLight() const
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{
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return AmbientLight;
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}
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//! Control when and how often a mesh is written
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/** Optimally ECGI_PER_MESH would be always sufficent - writing geometry once per mesh.
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Unfortunately many tools (at the time of writing this nearly all of them) have trouble
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on import when different materials are used per node. So when you override materials
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per node and importing the resuling collada has materials problems in other tools try
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using other values here.
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\param writeStyle One of the E_COLLADA_GEOMETRY_WRITING settings.
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*/
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virtual void setGeometryWriting(E_COLLADA_GEOMETRY_WRITING writeStyle)
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{
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GeometryWriting = writeStyle;
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}
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//! Get the current style of geometry writing.
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virtual E_COLLADA_GEOMETRY_WRITING getGeometryWriting() const
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{
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return GeometryWriting;
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}
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//! Make certain there is only one collada material generated per Irrlicht material
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/** Checks before creating a collada material-name if an identical
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irr:::video::SMaterial has been exported already. If so don't export it with
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another name. This is set by default and leads to way smaller .dae files.
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Note that if you need to disable this flag for some reason you can still
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get a similar effect using the IColladaMeshWriterNames::nameForMaterial
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by returning identical names for identical materials there.
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*/
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virtual void setExportSMaterialsOnlyOnce(bool exportOnce)
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{
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ExportSMaterialOnce = exportOnce;
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}
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virtual bool getExportSMaterialsOnlyOnce() const
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{
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return ExportSMaterialOnce;
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}
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//! Set properties to use by the meshwriter instead of it's default properties.
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/** Overloading properties with an own class allows modifying the writing process in certain ways.
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By default properties are set to the DefaultProperties. */
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virtual void setProperties(IColladaMeshWriterProperties * p)
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{
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if ( p == Properties )
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return;
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if ( p )
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p->grab();
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if ( Properties )
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Properties->drop();
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Properties = p;
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}
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//! Get properties which are currently used.
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virtual IColladaMeshWriterProperties * getProperties() const
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{
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return Properties;
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}
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//! Return the original default properties of the writer.
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/** You can use this pointer in your own properties to access and return default values. */
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IColladaMeshWriterProperties * getDefaultProperties() const
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{
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return DefaultProperties;
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}
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//! Install a generator to create custom names on export.
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virtual void setNameGenerator(IColladaMeshWriterNames * nameGenerator)
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{
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if ( nameGenerator == NameGenerator )
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return;
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if ( nameGenerator )
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nameGenerator->grab();
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if ( NameGenerator )
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NameGenerator->drop();
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NameGenerator = nameGenerator;
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}
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//! Get currently used name generator
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virtual IColladaMeshWriterNames * getNameGenerator() const
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{
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return NameGenerator;
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}
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//! Return the original default name generator of the writer.
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/** You can use this pointer in your own generator to access and return default values. */
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IColladaMeshWriterNames * getDefaultNameGenerator() const
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{
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return DefaultNameGenerator;
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}
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//! Restrict the characters of oldString a set of allowed characters in xs::NCName and add the prefix.
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/** A tool function to help when using a custom name generator to generative valid names for collada names and id's. */
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virtual irr::core::stringw toNCName(const irr::core::stringw& oldString, const irr::core::stringw& prefix=irr::core::stringw(L"_NC_")) const = 0;
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protected:
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// NOTE: You usually should also call setProperties with the same paraemter when using setDefaultProperties
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virtual void setDefaultProperties(IColladaMeshWriterProperties * p)
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{
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if ( p == DefaultProperties )
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return;
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if ( p )
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p->grab();
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if ( DefaultProperties )
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DefaultProperties->drop();
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DefaultProperties = p;
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}
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// NOTE: You usually should also call setNameGenerator with the same paraemter when using setDefaultProperties
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virtual void setDefaultNameGenerator(IColladaMeshWriterNames * p)
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{
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if ( p == DefaultNameGenerator )
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return;
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if ( p )
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p->grab();
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if ( DefaultNameGenerator )
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DefaultNameGenerator->drop();
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DefaultNameGenerator = p;
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}
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private:
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IColladaMeshWriterProperties * Properties;
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IColladaMeshWriterProperties * DefaultProperties;
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IColladaMeshWriterNames * NameGenerator;
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IColladaMeshWriterNames * DefaultNameGenerator;
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bool WriteTextures;
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bool WriteDefaultScene;
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bool ExportSMaterialOnce;
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video::SColorf AmbientLight;
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E_COLLADA_GEOMETRY_WRITING GeometryWriting;
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};
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} // end namespace
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} // end namespace
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#endif
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