292 lines
12 KiB
C
292 lines
12 KiB
C
/*
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Open Asset Import Library (ASSIMP)
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----------------------------------------------------------------------
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Copyright (c) 2006-2008, ASSIMP Development Team
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All rights reserved.
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Redistribution and use of this software in source and binary forms,
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with or without modification, are permitted provided that the
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following conditions are met:
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* Redistributions of source code must retain the above
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copyright notice, this list of conditions and the
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following disclaimer.
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* Redistributions in binary form must reproduce the above
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copyright notice, this list of conditions and the
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following disclaimer in the documentation and/or other
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materials provided with the distribution.
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* Neither the name of the ASSIMP team, nor the names of its
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contributors may be used to endorse or promote products
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derived from this software without specific prior
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written permission of the ASSIMP Development Team.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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----------------------------------------------------------------------
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*/
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/** @file aiPostProcess.h
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* @brief Definitions for import post processing steps
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*/
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#ifndef AI_POSTPROCESS_H_INC
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#define AI_POSTPROCESS_H_INC
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#include "aiTypes.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/** Defines the flags for all possible post processing steps. */
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enum aiPostProcessSteps
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{
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/** Calculates the tangents and bitangents for the imported meshes. Does nothing
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* if a mesh does not have normals. You might want this post processing step to be
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* executed if you plan to use tangent space calculations such as normal mapping
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* applied to the meshes. There exists a configuration option,
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* #AI_CONFIG_PP_CT_MAX_SMOOTHING_ANGLE that allows you to specify
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* an angle maximum for the step.
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*/
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aiProcess_CalcTangentSpace = 1,
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/** Identifies and joins identical vertex data sets within all imported meshes.
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* After this step is run each mesh does contain only unique vertices anymore,
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* so a vertex is possibly used by multiple faces. You usually want
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* to use this post processing step.*/
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aiProcess_JoinIdenticalVertices = 2,
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/** Converts all the imported data to a left-handed coordinate space such as
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* the DirectX coordinate system. By default the data is returned in a right-handed
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* coordinate space which for example OpenGL prefers. In this space, +X points to the
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* right, +Y points towards the viewer and and +Z points upwards. In the DirectX
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* coordinate space +X points to the right, +Y points upwards and +Z points
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* away from the viewer.
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*/
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aiProcess_ConvertToLeftHanded = 4,
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/** Triangulates all faces of all meshes. By default the imported mesh data might
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* contain faces with more than 3 indices. For rendering a mesh you usually need
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* all faces to be triangles. This post processing step splits up all higher faces
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* to triangles. This step won't modify line and point primitives. If you need
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* only triangles, do the following:<br>
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* 1. Specify both the aiProcess_Triangulate and the aiProcess_SortByPType
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* step. <br>
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* 2. Ignore all point and line meshes when you process assimp's output data.
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*/
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aiProcess_Triangulate = 8,
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/** Removes some parts of the data structure (animations, materials,
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* light sources, cameras, textures, vertex components).
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*
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* The components to be removed are specified in a separate
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* configuration option, #AI_CONFIG_PP_RVC_FLAGS. This is quite useful
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* if you don't need all parts of the output structure. Especially vertex
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* colors are rarely used today ... . Calling this step to exclude non-required
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* stuff from the pipeline as early as possible results in an increased
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* performance and a better optimized output data structure.
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* This step is also useful if you want to force Assimp to recompute
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* normals or tangents. The corresponding steps don't recompute them if
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* they're already there ( loaded from the source asset). By using this
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* step you can make sure they are NOT there.
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*/
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aiProcess_RemoveComponent = 0x10,
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/** Generates normals for all faces of all meshes. The normals are shared
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* between the three vertices of a face. This is ignored
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* if normals are already existing. This flag may not be specified together
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* with aiProcess_GenSmoothNormals
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*/
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aiProcess_GenNormals = 0x20,
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/** Generates smooth normals for all vertices in the mesh. This is ignored
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* if normals are already existing. This flag may not be specified together
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* with aiProcess_GenNormals. There exists a configuration option,
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* #AI_CONFIG_PP_GSN_MAX_SMOOTHING_ANGLE that allows you to specify
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* an angle maximum for the step.
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*/
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aiProcess_GenSmoothNormals = 0x40,
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/** Splits large meshes into submeshes
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* This is quite useful for realtime rendering where the number of vertices
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* is usually limited by the video driver.
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*
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* The split limits can be set through aiSetVertexSplitLimit() and
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* aiSetTriangleSplitLimit(). The default values for this are defined
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* in the internal SplitLargeMeshes.h header as AI_SLM_DEFAULT_MAX_VERTICES
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* and AI_SLM_DEFAULT_MAX_TRIANGLES.
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*/
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aiProcess_SplitLargeMeshes = 0x80,
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/** Removes the node graph and pre-transforms all vertices with
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* the local transformation matrices of their nodes. The output
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* scene does still contain nodes, however, there is only a
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* root node with children, each one referencing only one mesh,
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* each mesh referencing one material. For rendering, you can
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* simply render all meshes in order, you don't need to pay
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* attention to local transformations and the node hierarchy.
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* Animations are removed during this step.
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* This step is intended for applications that have no scenegraph.
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* The step CAN cause some problems: if e.g. a mesh of the asset
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* contains normals and another, using the same material index, does not,
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* they will be brought together, but the first meshes's part of
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* the normal list will be zeroed.
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*/
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aiProcess_PreTransformVertices = 0x100,
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/** Limits the number of bones simultaneously affecting a single vertex
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* to a maximum value. If any vertex is affected by more than that number
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* of bones, the least important vertex weights are removed and the remaining
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* vertex weights are renormalized so that the weights still sum up to 1.
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* The default bone weight limit is 4 (defined as AI_LMW_MAX_WEIGHTS in
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* LimitBoneWeightsProcess.h), but you can use the aiSetBoneWeightLimit
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* function to supply your own limit to the post processing step.
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*
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* If you intend to perform the skinning in hardware, this post processing step
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* might be of interest for you.
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*/
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aiProcess_LimitBoneWeights = 0x200,
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/** Validates the aiScene data structure before it is returned.
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* This makes sure that all indices are valid, all animations and
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* bones are linked correctly, all material are correct and so on ...
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* This is primarily intended for our internal debugging stuff,
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* however, it could be of interest for applications like editors
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* where stability is more important than loading performance.
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*/
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aiProcess_ValidateDataStructure = 0x400,
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/** Reorders triangles for vertex cache locality and thus better performance.
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* The step tries to improve the ACMR (average post-transform vertex cache
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* miss ratio) for all meshes. The step runs in O(n) and is roughly
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* basing on the algorithm described in this paper:
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* http://www.cs.princeton.edu/gfx/pubs/Sander_2007_%3ETR/tipsy.pdf
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*/
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aiProcess_ImproveCacheLocality = 0x800,
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/** Searches for redundant materials and removes them.
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*
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* This is especially useful in combination with the PretransformVertices
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* and OptimizeGraph steps. Both steps join small meshes, but they
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* can't do that if two meshes have different materials.
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*/
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aiProcess_RemoveRedundantMaterials = 0x1000,
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/** This step tries to determine which meshes have normal vectors
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* that are facing inwards. The algorithm is simple but effective:
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* the bounding box of all vertices + their normals is compared against
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* the volume of the bounding box of all vertices without their normals.
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* This works well for most objects, problems might occur with planar
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* surfaces. However, the step tries to filter such cases.
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* The step inverts all in-facing normals. Generally it is recommended
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* to enable this step, although the result is not always correct.
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*/
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aiProcess_FixInfacingNormals = 0x2000,
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/** This step splits meshes with more than one primitive type in
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* homogeneous submeshes.
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*
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* The step is executed after the triangulation step. After the step
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* returns, just one bit is set in aiMesh::mPrimitiveTypes. This is
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* especially useful for real-time rendering where point and line
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* primitives are often ignored or rendered separately.
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* You can use the AI_CONFIG_PP_SBP_REMOVE option to specify which
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* primitive types you need. This can be used to easily exclude
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* lines and points, which are rarely used, from the import.
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*/
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aiProcess_SortByPType = 0x8000,
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/** This step searches all meshes for degenerated primitives and
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* converts them to proper lines or points.
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*
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* A face is degenerated if one or more of its faces are identical.
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*/
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aiProcess_FindDegenerates = 0x10000,
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/** This step searches all meshes for invalid data, such as zeroed
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* normal vectors or invalid UV coords and removes them.
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*
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* This is especially useful for normals. If they are invalid, and
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* the step recognizes this, they will be removed and can later
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* be computed by one of the other steps.<br>
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* The step will also remove meshes that are infinitely small.
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*/
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aiProcess_FindInvalidData = 0x20000,
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/** This step converts non-UV mappings (such as spherical or
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* cylindrical) to proper UV mapping channels.
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*
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* Most applications will support UV mapping only, so you will
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* probably want to specify this step in every case.
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*/
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aiProcess_GenUVCoords = 0x40000,
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/** This step pre-transforms UV coordinates by the UV transformations
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* (such as scalings or rotations).
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*
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* UV transformations are specified per-texture - see the
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* AI_MATKEY_UVTRANSFORM key for more information on this topic.
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* This step finds all textures with transformed input UV
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* coordinates and generates a new, transformed, UV channel for it.
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* Most applications won't support UV transformations, so you will
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* probably want to specify this step in every case.
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*/
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aiProcess_TransformUVCoords = 0x80000
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};
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/** @def AI_POSTPROCESS_DEFAULT_REALTIME_FASTEST
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* @brief Default postprocess configuration targeted at realtime applications
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* which need to load models as fast as possible.
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*
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* If you're using DirectX, don't forget to combine this value with
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* the #aiProcess_ConvertToLeftHanded step.
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*/
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#define AI_POSTPROCESS_DEFAULT_REALTIME_FASTEST \
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aiProcess_CalcTangentSpace | \
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aiProcess_GenNormals | \
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aiProcess_JoinIdenticalVertices | \
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aiProcess_Triangulate | \
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aiProcess_GenUVCoords
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/** @def AI_POSTPROCESS_DEFAULT_REALTIME
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* @brief Default postprocess configuration targeted at realtime applications.
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* Unlike AI_POSTPROCESS_DEFAULT_REALTIME_FASTEST, this configuration
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* performs some extra optimizations.
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*
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* If you're using DirectX, don't forget to combine this value with
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* the #aiProcess_ConvertToLeftHanded step.
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*/
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#define AI_POSTPROCESS_DEFAULT_REALTIME \
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aiProcess_CalcTangentSpace | \
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aiProcess_GenSmoothNormals | \
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aiProcess_JoinIdenticalVertices | \
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aiProcess_ImproveCacheLocality | \
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aiProcess_LimitBoneWeights | \
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aiProcess_RemoveRedundantMaterials | \
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aiProcess_SplitLargeMeshes | \
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aiProcess_OptimizeGraph | \
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aiProcess_Triangulate | \
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aiProcess_GenUVCoords
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#ifdef __cplusplus
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} // end of extern "C"
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#endif
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#endif // AI_POSTPROCESS_H_INC
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