assimp/code/ColladaLoader.cpp

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/*
---------------------------------------------------------------------------
Open Asset Import Library (assimp)
---------------------------------------------------------------------------
Copyright (c) 2006-2012, assimp team
All rights reserved.
Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the following
conditions are met:
* Redistributions of source code must retain the above
copyright notice, this list of conditions and the
following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the
following disclaimer in the documentation and/or other
materials provided with the distribution.
* Neither the name of the assimp team, nor the names of its
contributors may be used to endorse or promote products
derived from this software without specific prior
written permission of the assimp team.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------------
*/
/** @file Implementation of the Collada loader */
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#ifndef ASSIMP_BUILD_NO_COLLADA_IMPORTER
#include "../include/assimp/anim.h"
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#include "../include/assimp/scene.h"
#include "ColladaLoader.h"
#include "ColladaParser.h"
#include "fast_atof.h"
#include "ParsingUtils.h"
#include "SkeletonMeshBuilder.h"
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#include "Defines.h"
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#include "time.h"
#include <boost/foreach.hpp>
#include "../include/assimp/DefaultLogger.hpp"
#include "../include/assimp/Importer.hpp"
#include <numeric>
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#include "Defines.h"
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using namespace Assimp;
static const aiImporterDesc desc = {
"Collada Importer",
"",
"",
"http://collada.org",
aiImporterFlags_SupportTextFlavour,
1,
3,
1,
5,
"dae"
};
// ------------------------------------------------------------------------------------------------
// Constructor to be privately used by Importer
ColladaLoader::ColladaLoader()
: noSkeletonMesh(), ignoreUpDirection(false), mNodeNameCounter()
{}
// ------------------------------------------------------------------------------------------------
// Destructor, private as well
ColladaLoader::~ColladaLoader()
{}
// ------------------------------------------------------------------------------------------------
// Returns whether the class can handle the format of the given file.
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
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bool ColladaLoader::CanRead( const std::string& pFile, IOSystem* pIOHandler, bool checkSig) const
{
// check file extension
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
std::string extension = GetExtension(pFile);
if( extension == "dae")
return true;
// XML - too generic, we need to open the file and search for typical keywords
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
if( extension == "xml" || !extension.length() || checkSig) {
/* If CanRead() is called in order to check whether we
* support a specific file extension in general pIOHandler
* might be NULL and it's our duty to return true here.
*/
if (!pIOHandler)return true;
const char* tokens[] = {"collada"};
return SearchFileHeaderForToken(pIOHandler,pFile,tokens,1);
}
return false;
}
// ------------------------------------------------------------------------------------------------
void ColladaLoader::SetupProperties(const Importer* pImp)
{
noSkeletonMesh = pImp->GetPropertyInteger(AI_CONFIG_IMPORT_NO_SKELETON_MESHES,0) != 0;
ignoreUpDirection = pImp->GetPropertyInteger(AI_CONFIG_IMPORT_COLLADA_IGNORE_UP_DIRECTION,0) != 0;
}
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
// ------------------------------------------------------------------------------------------------
// Get file extension list
const aiImporterDesc* ColladaLoader::GetInfo () const
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
{
return &desc;
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
}
// ------------------------------------------------------------------------------------------------
// Imports the given file into the given scene structure.
void ColladaLoader::InternReadFile( const std::string& pFile, aiScene* pScene, IOSystem* pIOHandler)
{
mFileName = pFile;
// clean all member arrays - just for safety, it should work even if we did not
mMeshIndexByID.clear();
mMaterialIndexByName.clear();
mMeshes.clear();
newMats.clear();
mLights.clear();
mCameras.clear();
mTextures.clear();
mAnims.clear();
// parse the input file
ColladaParser parser( pIOHandler, pFile);
if( !parser.mRootNode)
throw DeadlyImportError( "Collada: File came out empty. Something is wrong here.");
// reserve some storage to avoid unnecessary reallocs
newMats.reserve(parser.mMaterialLibrary.size()*2);
mMeshes.reserve(parser.mMeshLibrary.size()*2);
mCameras.reserve(parser.mCameraLibrary.size());
mLights.reserve(parser.mLightLibrary.size());
// create the materials first, for the meshes to find
BuildMaterials( parser, pScene);
// build the node hierarchy from it
pScene->mRootNode = BuildHierarchy( parser, parser.mRootNode);
// ... then fill the materials with the now adjusted settings
FillMaterials(parser, pScene);
// Apply unitsize scale calculation
pScene->mRootNode->mTransformation *= aiMatrix4x4(parser.mUnitSize, 0, 0, 0,
0, parser.mUnitSize, 0, 0,
0, 0, parser.mUnitSize, 0,
0, 0, 0, 1);
if( !ignoreUpDirection ) {
// Convert to Y_UP, if different orientation
if( parser.mUpDirection == ColladaParser::UP_X)
pScene->mRootNode->mTransformation *= aiMatrix4x4(
0, -1, 0, 0,
1, 0, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1);
else if( parser.mUpDirection == ColladaParser::UP_Z)
pScene->mRootNode->mTransformation *= aiMatrix4x4(
1, 0, 0, 0,
0, 0, 1, 0,
0, -1, 0, 0,
0, 0, 0, 1);
}
// store all meshes
StoreSceneMeshes( pScene);
// store all materials
StoreSceneMaterials( pScene);
// store all lights
StoreSceneLights( pScene);
// store all cameras
StoreSceneCameras( pScene);
// store all animations
StoreAnimations( pScene, parser);
// If no meshes have been loaded, it's probably just an animated skeleton.
if (!pScene->mNumMeshes) {
if (!noSkeletonMesh) {
SkeletonMeshBuilder hero(pScene);
}
pScene->mFlags |= AI_SCENE_FLAGS_INCOMPLETE;
}
}
// ------------------------------------------------------------------------------------------------
// Recursively constructs a scene node for the given parser node and returns it.
aiNode* ColladaLoader::BuildHierarchy( const ColladaParser& pParser, const Collada::Node* pNode)
{
// create a node for it
aiNode* node = new aiNode();
// find a name for the new node. It's more complicated than you might think
node->mName.Set( FindNameForNode( pNode));
// calculate the transformation matrix for it
node->mTransformation = pParser.CalculateResultTransform( pNode->mTransforms);
// now resolve node instances
std::vector<const Collada::Node*> instances;
ResolveNodeInstances(pParser,pNode,instances);
// add children. first the *real* ones
node->mNumChildren = pNode->mChildren.size()+instances.size();
node->mChildren = new aiNode*[node->mNumChildren];
for( size_t a = 0; a < pNode->mChildren.size(); a++)
{
node->mChildren[a] = BuildHierarchy( pParser, pNode->mChildren[a]);
node->mChildren[a]->mParent = node;
}
// ... and finally the resolved node instances
for( size_t a = 0; a < instances.size(); a++)
{
node->mChildren[pNode->mChildren.size() + a] = BuildHierarchy( pParser, instances[a]);
node->mChildren[pNode->mChildren.size() + a]->mParent = node;
}
// construct meshes
BuildMeshesForNode( pParser, pNode, node);
// construct cameras
BuildCamerasForNode(pParser, pNode, node);
// construct lights
BuildLightsForNode(pParser, pNode, node);
return node;
}
// ------------------------------------------------------------------------------------------------
// Resolve node instances
void ColladaLoader::ResolveNodeInstances( const ColladaParser& pParser, const Collada::Node* pNode,
std::vector<const Collada::Node*>& resolved)
{
// reserve enough storage
resolved.reserve(pNode->mNodeInstances.size());
// ... and iterate through all nodes to be instanced as children of pNode
for (std::vector<Collada::NodeInstance>::const_iterator it = pNode->mNodeInstances.begin(),
end = pNode->mNodeInstances.end(); it != end; ++it)
{
// find the corresponding node in the library
const ColladaParser::NodeLibrary::const_iterator itt = pParser.mNodeLibrary.find((*it).mNode);
const Collada::Node* nd = itt == pParser.mNodeLibrary.end() ? NULL : (*itt).second;
// FIX for http://sourceforge.net/tracker/?func=detail&aid=3054873&group_id=226462&atid=1067632
// need to check for both name and ID to catch all. To avoid breaking valid files,
// the workaround is only enabled when the first attempt to resolve the node has failed.
if (!nd) {
nd = FindNode(pParser.mRootNode,(*it).mNode);
}
if (!nd)
DefaultLogger::get()->error("Collada: Unable to resolve reference to instanced node " + (*it).mNode);
else {
// attach this node to the list of children
resolved.push_back(nd);
}
}
}
// ------------------------------------------------------------------------------------------------
// Resolve UV channels
void ColladaLoader::ApplyVertexToEffectSemanticMapping(Collada::Sampler& sampler,
const Collada::SemanticMappingTable& table)
{
std::map<std::string, Collada::InputSemanticMapEntry>::const_iterator it = table.mMap.find(sampler.mUVChannel);
if (it != table.mMap.end()) {
if (it->second.mType != Collada::IT_Texcoord)
DefaultLogger::get()->error("Collada: Unexpected effect input mapping");
sampler.mUVId = it->second.mSet;
}
}
// ------------------------------------------------------------------------------------------------
// Builds lights for the given node and references them
void ColladaLoader::BuildLightsForNode( const ColladaParser& pParser, const Collada::Node* pNode, aiNode* pTarget)
{
BOOST_FOREACH( const Collada::LightInstance& lid, pNode->mLights)
{
// find the referred light
ColladaParser::LightLibrary::const_iterator srcLightIt = pParser.mLightLibrary.find( lid.mLight);
if( srcLightIt == pParser.mLightLibrary.end())
{
DefaultLogger::get()->warn("Collada: Unable to find light for ID \"" + lid.mLight + "\". Skipping.");
continue;
}
const Collada::Light* srcLight = &srcLightIt->second;
// now fill our ai data structure
aiLight* out = new aiLight();
out->mName = pTarget->mName;
out->mType = (aiLightSourceType)srcLight->mType;
// collada lights point in -Z by default, rest is specified in node transform
out->mDirection = aiVector3D(0.f,0.f,-1.f);
out->mAttenuationConstant = srcLight->mAttConstant;
out->mAttenuationLinear = srcLight->mAttLinear;
out->mAttenuationQuadratic = srcLight->mAttQuadratic;
// collada doesn't differenciate between these color types
out->mColorDiffuse = out->mColorSpecular = out->mColorAmbient = srcLight->mColor*srcLight->mIntensity;
// convert falloff angle and falloff exponent in our representation, if given
if (out->mType == aiLightSource_SPOT) {
out->mAngleInnerCone = AI_DEG_TO_RAD( srcLight->mFalloffAngle );
// ... some extension magic.
if (srcLight->mOuterAngle >= ASSIMP_COLLADA_LIGHT_ANGLE_NOT_SET*(1-1e-6f))
{
// ... some deprecation magic.
if (srcLight->mPenumbraAngle >= ASSIMP_COLLADA_LIGHT_ANGLE_NOT_SET*(1-1e-6f))
{
// Need to rely on falloff_exponent. I don't know how to interpret it, so I need to guess ....
// epsilon chosen to be 0.1
out->mAngleOuterCone = AI_DEG_TO_RAD (std::acos(std::pow(0.1f,1.f/srcLight->mFalloffExponent))+
srcLight->mFalloffAngle);
}
else {
out->mAngleOuterCone = out->mAngleInnerCone + AI_DEG_TO_RAD( srcLight->mPenumbraAngle );
if (out->mAngleOuterCone < out->mAngleInnerCone)
std::swap(out->mAngleInnerCone,out->mAngleOuterCone);
}
}
else out->mAngleOuterCone = AI_DEG_TO_RAD( srcLight->mOuterAngle );
}
// add to light list
mLights.push_back(out);
}
}
// ------------------------------------------------------------------------------------------------
// Builds cameras for the given node and references them
void ColladaLoader::BuildCamerasForNode( const ColladaParser& pParser, const Collada::Node* pNode, aiNode* pTarget)
{
BOOST_FOREACH( const Collada::CameraInstance& cid, pNode->mCameras)
{
// find the referred light
ColladaParser::CameraLibrary::const_iterator srcCameraIt = pParser.mCameraLibrary.find( cid.mCamera);
if( srcCameraIt == pParser.mCameraLibrary.end())
{
DefaultLogger::get()->warn("Collada: Unable to find camera for ID \"" + cid.mCamera + "\". Skipping.");
continue;
}
const Collada::Camera* srcCamera = &srcCameraIt->second;
// orthographic cameras not yet supported in Assimp
if (srcCamera->mOrtho) {
DefaultLogger::get()->warn("Collada: Orthographic cameras are not supported.");
}
// now fill our ai data structure
aiCamera* out = new aiCamera();
out->mName = pTarget->mName;
// collada cameras point in -Z by default, rest is specified in node transform
out->mLookAt = aiVector3D(0.f,0.f,-1.f);
// near/far z is already ok
out->mClipPlaneFar = srcCamera->mZFar;
out->mClipPlaneNear = srcCamera->mZNear;
// ... but for the rest some values are optional
// and we need to compute the others in any combination.
if (srcCamera->mAspect != 10e10f)
out->mAspect = srcCamera->mAspect;
if (srcCamera->mHorFov != 10e10f) {
out->mHorizontalFOV = srcCamera->mHorFov;
if (srcCamera->mVerFov != 10e10f && srcCamera->mAspect == 10e10f) {
out->mAspect = tan(AI_DEG_TO_RAD(srcCamera->mHorFov)) /
tan(AI_DEG_TO_RAD(srcCamera->mVerFov));
}
}
else if (srcCamera->mAspect != 10e10f && srcCamera->mVerFov != 10e10f) {
out->mHorizontalFOV = 2.0f * AI_RAD_TO_DEG(atan(srcCamera->mAspect *
tan(AI_DEG_TO_RAD(srcCamera->mVerFov) * 0.5f)));
}
// Collada uses degrees, we use radians
out->mHorizontalFOV = AI_DEG_TO_RAD(out->mHorizontalFOV);
// add to camera list
mCameras.push_back(out);
}
}
// ------------------------------------------------------------------------------------------------
// Builds meshes for the given node and references them
void ColladaLoader::BuildMeshesForNode( const ColladaParser& pParser, const Collada::Node* pNode, aiNode* pTarget)
{
// accumulated mesh references by this node
std::vector<size_t> newMeshRefs;
newMeshRefs.reserve(pNode->mMeshes.size());
// add a mesh for each subgroup in each collada mesh
BOOST_FOREACH( const Collada::MeshInstance& mid, pNode->mMeshes)
{
const Collada::Mesh* srcMesh = NULL;
const Collada::Controller* srcController = NULL;
// find the referred mesh
ColladaParser::MeshLibrary::const_iterator srcMeshIt = pParser.mMeshLibrary.find( mid.mMeshOrController);
if( srcMeshIt == pParser.mMeshLibrary.end())
{
// if not found in the mesh-library, it might also be a controller referring to a mesh
ColladaParser::ControllerLibrary::const_iterator srcContrIt = pParser.mControllerLibrary.find( mid.mMeshOrController);
if( srcContrIt != pParser.mControllerLibrary.end())
{
srcController = &srcContrIt->second;
srcMeshIt = pParser.mMeshLibrary.find( srcController->mMeshId);
if( srcMeshIt != pParser.mMeshLibrary.end())
srcMesh = srcMeshIt->second;
}
if( !srcMesh)
{
DefaultLogger::get()->warn( boost::str( boost::format( "Collada: Unable to find geometry for ID \"%s\". Skipping.") % mid.mMeshOrController));
continue;
}
} else
{
// ID found in the mesh library -> direct reference to an unskinned mesh
srcMesh = srcMeshIt->second;
}
// build a mesh for each of its subgroups
size_t vertexStart = 0, faceStart = 0;
for( size_t sm = 0; sm < srcMesh->mSubMeshes.size(); ++sm)
{
const Collada::SubMesh& submesh = srcMesh->mSubMeshes[sm];
if( submesh.mNumFaces == 0)
continue;
// find material assigned to this submesh
std::string meshMaterial;
std::map<std::string, Collada::SemanticMappingTable >::const_iterator meshMatIt = mid.mMaterials.find( submesh.mMaterial);
const Collada::SemanticMappingTable* table = NULL;
if( meshMatIt != mid.mMaterials.end())
{
table = &meshMatIt->second;
meshMaterial = table->mMatName;
}
else
{
DefaultLogger::get()->warn( boost::str( boost::format( "Collada: No material specified for subgroup <%s> in geometry <%s>.") % submesh.mMaterial % mid.mMeshOrController));
if( !mid.mMaterials.empty() )
meshMaterial = mid.mMaterials.begin()->second.mMatName;
}
// OK ... here the *real* fun starts ... we have the vertex-input-to-effect-semantic-table
// given. The only mapping stuff which we do actually support is the UV channel.
std::map<std::string, size_t>::const_iterator matIt = mMaterialIndexByName.find( meshMaterial);
unsigned int matIdx;
if( matIt != mMaterialIndexByName.end())
matIdx = matIt->second;
else
matIdx = 0;
if (table && !table->mMap.empty() ) {
std::pair<Collada::Effect*, aiMaterial*>& mat = newMats[matIdx];
// Iterate through all texture channels assigned to the effect and
// check whether we have mapping information for it.
ApplyVertexToEffectSemanticMapping(mat.first->mTexDiffuse, *table);
ApplyVertexToEffectSemanticMapping(mat.first->mTexAmbient, *table);
ApplyVertexToEffectSemanticMapping(mat.first->mTexSpecular, *table);
ApplyVertexToEffectSemanticMapping(mat.first->mTexEmissive, *table);
ApplyVertexToEffectSemanticMapping(mat.first->mTexTransparent,*table);
ApplyVertexToEffectSemanticMapping(mat.first->mTexBump, *table);
}
// built lookup index of the Mesh-Submesh-Material combination
ColladaMeshIndex index( mid.mMeshOrController, sm, meshMaterial);
// if we already have the mesh at the library, just add its index to the node's array
std::map<ColladaMeshIndex, size_t>::const_iterator dstMeshIt = mMeshIndexByID.find( index);
if( dstMeshIt != mMeshIndexByID.end()) {
newMeshRefs.push_back( dstMeshIt->second);
}
else
{
// else we have to add the mesh to the collection and store its newly assigned index at the node
aiMesh* dstMesh = CreateMesh( pParser, srcMesh, submesh, srcController, vertexStart, faceStart);
// store the mesh, and store its new index in the node
newMeshRefs.push_back( mMeshes.size());
mMeshIndexByID[index] = mMeshes.size();
mMeshes.push_back( dstMesh);
vertexStart += dstMesh->mNumVertices; faceStart += submesh.mNumFaces;
// assign the material index
dstMesh->mMaterialIndex = matIdx;
if(dstMesh->mName.length == 0)
{
dstMesh->mName = mid.mMeshOrController;
}
}
}
}
// now place all mesh references we gathered in the target node
pTarget->mNumMeshes = newMeshRefs.size();
if( newMeshRefs.size())
{
pTarget->mMeshes = new unsigned int[pTarget->mNumMeshes];
std::copy( newMeshRefs.begin(), newMeshRefs.end(), pTarget->mMeshes);
}
}
// ------------------------------------------------------------------------------------------------
// Creates a mesh for the given ColladaMesh face subset and returns the newly created mesh
aiMesh* ColladaLoader::CreateMesh( const ColladaParser& pParser, const Collada::Mesh* pSrcMesh, const Collada::SubMesh& pSubMesh,
const Collada::Controller* pSrcController, size_t pStartVertex, size_t pStartFace)
{
aiMesh* dstMesh = new aiMesh;
dstMesh->mName = pSrcMesh->mName;
// count the vertices addressed by its faces
const size_t numVertices = std::accumulate( pSrcMesh->mFaceSize.begin() + pStartFace,
pSrcMesh->mFaceSize.begin() + pStartFace + pSubMesh.mNumFaces, 0);
// copy positions
dstMesh->mNumVertices = numVertices;
dstMesh->mVertices = new aiVector3D[numVertices];
std::copy( pSrcMesh->mPositions.begin() + pStartVertex, pSrcMesh->mPositions.begin() +
pStartVertex + numVertices, dstMesh->mVertices);
// normals, if given. HACK: (thom) Due to the glorious Collada spec we never
// know if we have the same number of normals as there are positions. So we
// also ignore any vertex attribute if it has a different count
if( pSrcMesh->mNormals.size() >= pStartVertex + numVertices)
{
dstMesh->mNormals = new aiVector3D[numVertices];
std::copy( pSrcMesh->mNormals.begin() + pStartVertex, pSrcMesh->mNormals.begin() +
pStartVertex + numVertices, dstMesh->mNormals);
}
// tangents, if given.
if( pSrcMesh->mTangents.size() >= pStartVertex + numVertices)
{
dstMesh->mTangents = new aiVector3D[numVertices];
std::copy( pSrcMesh->mTangents.begin() + pStartVertex, pSrcMesh->mTangents.begin() +
pStartVertex + numVertices, dstMesh->mTangents);
}
// bitangents, if given.
if( pSrcMesh->mBitangents.size() >= pStartVertex + numVertices)
{
dstMesh->mBitangents = new aiVector3D[numVertices];
std::copy( pSrcMesh->mBitangents.begin() + pStartVertex, pSrcMesh->mBitangents.begin() +
pStartVertex + numVertices, dstMesh->mBitangents);
}
// same for texturecoords, as many as we have
// empty slots are not allowed, need to pack and adjust UV indexes accordingly
for( size_t a = 0, real = 0; a < AI_MAX_NUMBER_OF_TEXTURECOORDS; a++)
{
if( pSrcMesh->mTexCoords[a].size() >= pStartVertex + numVertices)
{
dstMesh->mTextureCoords[real] = new aiVector3D[numVertices];
for( size_t b = 0; b < numVertices; ++b)
dstMesh->mTextureCoords[real][b] = pSrcMesh->mTexCoords[a][pStartVertex+b];
dstMesh->mNumUVComponents[real] = pSrcMesh->mNumUVComponents[a];
++real;
}
}
// same for vertex colors, as many as we have. again the same packing to avoid empty slots
for( size_t a = 0, real = 0; a < AI_MAX_NUMBER_OF_COLOR_SETS; a++)
{
if( pSrcMesh->mColors[a].size() >= pStartVertex + numVertices)
{
dstMesh->mColors[real] = new aiColor4D[numVertices];
std::copy( pSrcMesh->mColors[a].begin() + pStartVertex, pSrcMesh->mColors[a].begin() + pStartVertex + numVertices,dstMesh->mColors[real]);
++real;
}
}
// create faces. Due to the fact that each face uses unique vertices, we can simply count up on each vertex
size_t vertex = 0;
dstMesh->mNumFaces = pSubMesh.mNumFaces;
dstMesh->mFaces = new aiFace[dstMesh->mNumFaces];
for( size_t a = 0; a < dstMesh->mNumFaces; ++a)
{
size_t s = pSrcMesh->mFaceSize[ pStartFace + a];
aiFace& face = dstMesh->mFaces[a];
face.mNumIndices = s;
face.mIndices = new unsigned int[s];
for( size_t b = 0; b < s; ++b)
face.mIndices[b] = vertex++;
}
// create bones if given
if( pSrcController)
{
// refuse if the vertex count does not match
// if( pSrcController->mWeightCounts.size() != dstMesh->mNumVertices)
// throw DeadlyImportError( "Joint Controller vertex count does not match mesh vertex count");
// resolve references - joint names
const Collada::Accessor& jointNamesAcc = pParser.ResolveLibraryReference( pParser.mAccessorLibrary, pSrcController->mJointNameSource);
const Collada::Data& jointNames = pParser.ResolveLibraryReference( pParser.mDataLibrary, jointNamesAcc.mSource);
// joint offset matrices
const Collada::Accessor& jointMatrixAcc = pParser.ResolveLibraryReference( pParser.mAccessorLibrary, pSrcController->mJointOffsetMatrixSource);
const Collada::Data& jointMatrices = pParser.ResolveLibraryReference( pParser.mDataLibrary, jointMatrixAcc.mSource);
// joint vertex_weight name list - should refer to the same list as the joint names above. If not, report and reconsider
const Collada::Accessor& weightNamesAcc = pParser.ResolveLibraryReference( pParser.mAccessorLibrary, pSrcController->mWeightInputJoints.mAccessor);
if( &weightNamesAcc != &jointNamesAcc)
throw DeadlyImportError( "Temporary implementational lazyness. If you read this, please report to the author.");
// vertex weights
const Collada::Accessor& weightsAcc = pParser.ResolveLibraryReference( pParser.mAccessorLibrary, pSrcController->mWeightInputWeights.mAccessor);
const Collada::Data& weights = pParser.ResolveLibraryReference( pParser.mDataLibrary, weightsAcc.mSource);
if( !jointNames.mIsStringArray || jointMatrices.mIsStringArray || weights.mIsStringArray)
throw DeadlyImportError( "Data type mismatch while resolving mesh joints");
// sanity check: we rely on the vertex weights always coming as pairs of BoneIndex-WeightIndex
if( pSrcController->mWeightInputJoints.mOffset != 0 || pSrcController->mWeightInputWeights.mOffset != 1)
throw DeadlyImportError( "Unsupported vertex_weight addressing scheme. ");
// create containers to collect the weights for each bone
size_t numBones = jointNames.mStrings.size();
std::vector<std::vector<aiVertexWeight> > dstBones( numBones);
// build a temporary array of pointers to the start of each vertex's weights
typedef std::vector< std::pair<size_t, size_t> > IndexPairVector;
std::vector<IndexPairVector::const_iterator> weightStartPerVertex;
weightStartPerVertex.resize(pSrcController->mWeightCounts.size(),pSrcController->mWeights.end());
IndexPairVector::const_iterator pit = pSrcController->mWeights.begin();
for( size_t a = 0; a < pSrcController->mWeightCounts.size(); ++a)
{
weightStartPerVertex[a] = pit;
pit += pSrcController->mWeightCounts[a];
}
// now for each vertex put the corresponding vertex weights into each bone's weight collection
for( size_t a = pStartVertex; a < pStartVertex + numVertices; ++a)
{
// which position index was responsible for this vertex? that's also the index by which
// the controller assigns the vertex weights
size_t orgIndex = pSrcMesh->mFacePosIndices[a];
// find the vertex weights for this vertex
IndexPairVector::const_iterator iit = weightStartPerVertex[orgIndex];
size_t pairCount = pSrcController->mWeightCounts[orgIndex];
for( size_t b = 0; b < pairCount; ++b, ++iit)
{
size_t jointIndex = iit->first;
size_t vertexIndex = iit->second;
float weight = ReadFloat( weightsAcc, weights, vertexIndex, 0);
// one day I gonna kill that XSI Collada exporter
if( weight > 0.0f)
{
aiVertexWeight w;
w.mVertexId = a - pStartVertex;
w.mWeight = weight;
dstBones[jointIndex].push_back( w);
}
}
}
// count the number of bones which influence vertices of the current submesh
size_t numRemainingBones = 0;
for( std::vector<std::vector<aiVertexWeight> >::const_iterator it = dstBones.begin(); it != dstBones.end(); ++it)
if( it->size() > 0)
numRemainingBones++;
// create bone array and copy bone weights one by one
dstMesh->mNumBones = numRemainingBones;
dstMesh->mBones = new aiBone*[numRemainingBones];
size_t boneCount = 0;
for( size_t a = 0; a < numBones; ++a)
{
// omit bones without weights
if( dstBones[a].size() == 0)
continue;
// create bone with its weights
aiBone* bone = new aiBone;
bone->mName = ReadString( jointNamesAcc, jointNames, a);
bone->mOffsetMatrix.a1 = ReadFloat( jointMatrixAcc, jointMatrices, a, 0);
bone->mOffsetMatrix.a2 = ReadFloat( jointMatrixAcc, jointMatrices, a, 1);
bone->mOffsetMatrix.a3 = ReadFloat( jointMatrixAcc, jointMatrices, a, 2);
bone->mOffsetMatrix.a4 = ReadFloat( jointMatrixAcc, jointMatrices, a, 3);
bone->mOffsetMatrix.b1 = ReadFloat( jointMatrixAcc, jointMatrices, a, 4);
bone->mOffsetMatrix.b2 = ReadFloat( jointMatrixAcc, jointMatrices, a, 5);
bone->mOffsetMatrix.b3 = ReadFloat( jointMatrixAcc, jointMatrices, a, 6);
bone->mOffsetMatrix.b4 = ReadFloat( jointMatrixAcc, jointMatrices, a, 7);
bone->mOffsetMatrix.c1 = ReadFloat( jointMatrixAcc, jointMatrices, a, 8);
bone->mOffsetMatrix.c2 = ReadFloat( jointMatrixAcc, jointMatrices, a, 9);
bone->mOffsetMatrix.c3 = ReadFloat( jointMatrixAcc, jointMatrices, a, 10);
bone->mOffsetMatrix.c4 = ReadFloat( jointMatrixAcc, jointMatrices, a, 11);
bone->mNumWeights = dstBones[a].size();
bone->mWeights = new aiVertexWeight[bone->mNumWeights];
std::copy( dstBones[a].begin(), dstBones[a].end(), bone->mWeights);
// apply bind shape matrix to offset matrix
aiMatrix4x4 bindShapeMatrix;
bindShapeMatrix.a1 = pSrcController->mBindShapeMatrix[0];
bindShapeMatrix.a2 = pSrcController->mBindShapeMatrix[1];
bindShapeMatrix.a3 = pSrcController->mBindShapeMatrix[2];
bindShapeMatrix.a4 = pSrcController->mBindShapeMatrix[3];
bindShapeMatrix.b1 = pSrcController->mBindShapeMatrix[4];
bindShapeMatrix.b2 = pSrcController->mBindShapeMatrix[5];
bindShapeMatrix.b3 = pSrcController->mBindShapeMatrix[6];
bindShapeMatrix.b4 = pSrcController->mBindShapeMatrix[7];
bindShapeMatrix.c1 = pSrcController->mBindShapeMatrix[8];
bindShapeMatrix.c2 = pSrcController->mBindShapeMatrix[9];
bindShapeMatrix.c3 = pSrcController->mBindShapeMatrix[10];
bindShapeMatrix.c4 = pSrcController->mBindShapeMatrix[11];
bindShapeMatrix.d1 = pSrcController->mBindShapeMatrix[12];
bindShapeMatrix.d2 = pSrcController->mBindShapeMatrix[13];
bindShapeMatrix.d3 = pSrcController->mBindShapeMatrix[14];
bindShapeMatrix.d4 = pSrcController->mBindShapeMatrix[15];
bone->mOffsetMatrix *= bindShapeMatrix;
// HACK: (thom) Some exporters address the bone nodes by SID, others address them by ID or even name.
// Therefore I added a little name replacement here: I search for the bone's node by either name, ID or SID,
// and replace the bone's name by the node's name so that the user can use the standard
// find-by-name method to associate nodes with bones.
const Collada::Node* bnode = FindNode( pParser.mRootNode, bone->mName.data);
if( !bnode)
bnode = FindNodeBySID( pParser.mRootNode, bone->mName.data);
// assign the name that we would have assigned for the source node
if( bnode)
bone->mName.Set( FindNameForNode( bnode));
else
DefaultLogger::get()->warn( boost::str( boost::format( "ColladaLoader::CreateMesh(): could not find corresponding node for joint \"%s\".") % bone->mName.data));
// and insert bone
dstMesh->mBones[boneCount++] = bone;
}
}
return dstMesh;
}
// ------------------------------------------------------------------------------------------------
// Stores all meshes in the given scene
void ColladaLoader::StoreSceneMeshes( aiScene* pScene)
{
pScene->mNumMeshes = mMeshes.size();
if( mMeshes.size() > 0)
{
pScene->mMeshes = new aiMesh*[mMeshes.size()];
std::copy( mMeshes.begin(), mMeshes.end(), pScene->mMeshes);
mMeshes.clear();
}
}
// ------------------------------------------------------------------------------------------------
// Stores all cameras in the given scene
void ColladaLoader::StoreSceneCameras( aiScene* pScene)
{
pScene->mNumCameras = mCameras.size();
if( mCameras.size() > 0)
{
pScene->mCameras = new aiCamera*[mCameras.size()];
std::copy( mCameras.begin(), mCameras.end(), pScene->mCameras);
mCameras.clear();
}
}
// ------------------------------------------------------------------------------------------------
// Stores all lights in the given scene
void ColladaLoader::StoreSceneLights( aiScene* pScene)
{
pScene->mNumLights = mLights.size();
if( mLights.size() > 0)
{
pScene->mLights = new aiLight*[mLights.size()];
std::copy( mLights.begin(), mLights.end(), pScene->mLights);
mLights.clear();
}
}
// ------------------------------------------------------------------------------------------------
// Stores all textures in the given scene
void ColladaLoader::StoreSceneTextures( aiScene* pScene)
{
pScene->mNumTextures = mTextures.size();
if( mTextures.size() > 0)
{
pScene->mTextures = new aiTexture*[mTextures.size()];
std::copy( mTextures.begin(), mTextures.end(), pScene->mTextures);
mTextures.clear();
}
}
// ------------------------------------------------------------------------------------------------
// Stores all materials in the given scene
void ColladaLoader::StoreSceneMaterials( aiScene* pScene)
{
pScene->mNumMaterials = newMats.size();
if (newMats.size() > 0) {
pScene->mMaterials = new aiMaterial*[newMats.size()];
for (unsigned int i = 0; i < newMats.size();++i)
pScene->mMaterials[i] = newMats[i].second;
newMats.clear();
}
}
// ------------------------------------------------------------------------------------------------
// Stores all animations
void ColladaLoader::StoreAnimations( aiScene* pScene, const ColladaParser& pParser)
{
// recursivly collect all animations from the collada scene
StoreAnimations( pScene, pParser, &pParser.mAnims, "");
// catch special case: many animations with the same length, each affecting only a single node.
// we need to unite all those single-node-anims to a proper combined animation
for( size_t a = 0; a < mAnims.size(); ++a)
{
aiAnimation* templateAnim = mAnims[a];
if( templateAnim->mNumChannels == 1)
{
// search for other single-channel-anims with the same duration
std::vector<size_t> collectedAnimIndices;
for( size_t b = a+1; b < mAnims.size(); ++b)
{
aiAnimation* other = mAnims[b];
if( other->mNumChannels == 1 && other->mDuration == templateAnim->mDuration && other->mTicksPerSecond == templateAnim->mTicksPerSecond )
collectedAnimIndices.push_back( b);
}
// if there are other animations which fit the template anim, combine all channels into a single anim
if( !collectedAnimIndices.empty() )
{
aiAnimation* combinedAnim = new aiAnimation();
combinedAnim->mName = aiString( std::string( "combinedAnim_") + char( '0' + a));
combinedAnim->mDuration = templateAnim->mDuration;
combinedAnim->mTicksPerSecond = templateAnim->mTicksPerSecond;
combinedAnim->mNumChannels = collectedAnimIndices.size() + 1;
combinedAnim->mChannels = new aiNodeAnim*[combinedAnim->mNumChannels];
// add the template anim as first channel by moving its aiNodeAnim to the combined animation
combinedAnim->mChannels[0] = templateAnim->mChannels[0];
templateAnim->mChannels[0] = NULL;
delete templateAnim;
// combined animation replaces template animation in the anim array
mAnims[a] = combinedAnim;
// move the memory of all other anims to the combined anim and erase them from the source anims
for( size_t b = 0; b < collectedAnimIndices.size(); ++b)
{
aiAnimation* srcAnimation = mAnims[collectedAnimIndices[b]];
combinedAnim->mChannels[1 + b] = srcAnimation->mChannels[0];
srcAnimation->mChannels[0] = NULL;
delete srcAnimation;
}
// in a second go, delete all the single-channel-anims that we've stripped from their channels
// back to front to preserve indices - you know, removing an element from a vector moves all elements behind the removed one
while( !collectedAnimIndices.empty() )
{
mAnims.erase( mAnims.begin() + collectedAnimIndices.back());
collectedAnimIndices.pop_back();
}
}
}
}
// now store all anims in the scene
if( !mAnims.empty())
{
pScene->mNumAnimations = mAnims.size();
pScene->mAnimations = new aiAnimation*[mAnims.size()];
std::copy( mAnims.begin(), mAnims.end(), pScene->mAnimations);
}
mAnims.clear();
}
// ------------------------------------------------------------------------------------------------
// Constructs the animations for the given source anim
void ColladaLoader::StoreAnimations( aiScene* pScene, const ColladaParser& pParser, const Collada::Animation* pSrcAnim, const std::string pPrefix)
{
std::string animName = pPrefix.empty() ? pSrcAnim->mName : pPrefix + "_" + pSrcAnim->mName;
// create nested animations, if given
for( std::vector<Collada::Animation*>::const_iterator it = pSrcAnim->mSubAnims.begin(); it != pSrcAnim->mSubAnims.end(); ++it)
StoreAnimations( pScene, pParser, *it, animName);
// create animation channels, if any
if( !pSrcAnim->mChannels.empty())
CreateAnimation( pScene, pParser, pSrcAnim, animName);
}
// ------------------------------------------------------------------------------------------------
// Constructs the animation for the given source anim
void ColladaLoader::CreateAnimation( aiScene* pScene, const ColladaParser& pParser, const Collada::Animation* pSrcAnim, const std::string& pName)
{
// collect a list of animatable nodes
std::vector<const aiNode*> nodes;
CollectNodes( pScene->mRootNode, nodes);
std::vector<aiNodeAnim*> anims;
for( std::vector<const aiNode*>::const_iterator nit = nodes.begin(); nit != nodes.end(); ++nit)
{
// find all the collada anim channels which refer to the current node
std::vector<Collada::ChannelEntry> entries;
std::string nodeName = (*nit)->mName.data;
// find the collada node corresponding to the aiNode
const Collada::Node* srcNode = FindNode( pParser.mRootNode, nodeName);
// ai_assert( srcNode != NULL);
if( !srcNode)
continue;
// now check all channels if they affect the current node
for( std::vector<Collada::AnimationChannel>::const_iterator cit = pSrcAnim->mChannels.begin();
cit != pSrcAnim->mChannels.end(); ++cit)
{
const Collada::AnimationChannel& srcChannel = *cit;
Collada::ChannelEntry entry;
// we expect the animation target to be of type "nodeName/transformID.subElement". Ignore all others
// find the slash that separates the node name - there should be only one
std::string::size_type slashPos = srcChannel.mTarget.find( '/');
if( slashPos == std::string::npos)
continue;
if( srcChannel.mTarget.find( '/', slashPos+1) != std::string::npos)
continue;
std::string targetID = srcChannel.mTarget.substr( 0, slashPos);
if( targetID != srcNode->mID)
continue;
// find the dot that separates the transformID - there should be only one or zero
std::string::size_type dotPos = srcChannel.mTarget.find( '.');
if( dotPos != std::string::npos)
{
if( srcChannel.mTarget.find( '.', dotPos+1) != std::string::npos)
continue;
entry.mTransformId = srcChannel.mTarget.substr( slashPos+1, dotPos - slashPos - 1);
std::string subElement = srcChannel.mTarget.substr( dotPos+1);
if( subElement == "ANGLE")
entry.mSubElement = 3; // last number in an Axis-Angle-Transform is the angle
else if( subElement == "X")
entry.mSubElement = 0;
else if( subElement == "Y")
entry.mSubElement = 1;
else if( subElement == "Z")
entry.mSubElement = 2;
else
DefaultLogger::get()->warn( boost::str( boost::format( "Unknown anim subelement <%s>. Ignoring") % subElement));
} else
{
// no subelement following, transformId is remaining string
entry.mTransformId = srcChannel.mTarget.substr( slashPos+1);
}
std::string::size_type bracketPos = srcChannel.mTarget.find('(');
if (bracketPos != std::string::npos)
{
entry.mTransformId = srcChannel.mTarget.substr(slashPos + 1, bracketPos - slashPos - 1);
std::string subElement = srcChannel.mTarget.substr(bracketPos);
if (subElement == "(0)(0)")
entry.mSubElement = 0;
else if (subElement == "(1)(0)")
entry.mSubElement = 1;
else if (subElement == "(2)(0)")
entry.mSubElement = 2;
else if (subElement == "(3)(0)")
entry.mSubElement = 3;
else if (subElement == "(0)(1)")
entry.mSubElement = 4;
else if (subElement == "(1)(1)")
entry.mSubElement = 5;
else if (subElement == "(2)(1)")
entry.mSubElement = 6;
else if (subElement == "(3)(1)")
entry.mSubElement = 7;
else if (subElement == "(0)(2)")
entry.mSubElement = 8;
else if (subElement == "(1)(2)")
entry.mSubElement = 9;
else if (subElement == "(2)(2)")
entry.mSubElement = 10;
else if (subElement == "(3)(2)")
entry.mSubElement = 11;
else if (subElement == "(0)(3)")
entry.mSubElement = 12;
else if (subElement == "(1)(3)")
entry.mSubElement = 13;
else if (subElement == "(2)(3)")
entry.mSubElement = 14;
else if (subElement == "(3)(3)")
entry.mSubElement = 15;
}
// determine which transform step is affected by this channel
entry.mTransformIndex = SIZE_MAX;
for( size_t a = 0; a < srcNode->mTransforms.size(); ++a)
if( srcNode->mTransforms[a].mID == entry.mTransformId)
entry.mTransformIndex = a;
if( entry.mTransformIndex == SIZE_MAX) {
continue;
}
entry.mChannel = &(*cit);
entries.push_back( entry);
}
// if there's no channel affecting the current node, we skip it
if( entries.empty())
continue;
// resolve the data pointers for all anim channels. Find the minimum time while we're at it
float startTime = 1e20f, endTime = -1e20f;
for( std::vector<Collada::ChannelEntry>::iterator it = entries.begin(); it != entries.end(); ++it)
{
Collada::ChannelEntry& e = *it;
e.mTimeAccessor = &pParser.ResolveLibraryReference( pParser.mAccessorLibrary, e.mChannel->mSourceTimes);
e.mTimeData = &pParser.ResolveLibraryReference( pParser.mDataLibrary, e.mTimeAccessor->mSource);
e.mValueAccessor = &pParser.ResolveLibraryReference( pParser.mAccessorLibrary, e.mChannel->mSourceValues);
e.mValueData = &pParser.ResolveLibraryReference( pParser.mDataLibrary, e.mValueAccessor->mSource);
// time count and value count must match
if( e.mTimeAccessor->mCount != e.mValueAccessor->mCount)
throw DeadlyImportError( boost::str( boost::format( "Time count / value count mismatch in animation channel \"%s\".") % e.mChannel->mTarget));
if( e.mTimeAccessor->mCount > 0 )
{
// find bounding times
startTime = std::min( startTime, ReadFloat( *e.mTimeAccessor, *e.mTimeData, 0, 0));
endTime = std::max( endTime, ReadFloat( *e.mTimeAccessor, *e.mTimeData, e.mTimeAccessor->mCount-1, 0));
}
}
std::vector<aiMatrix4x4> resultTrafos;
if( !entries.empty() && entries.front().mTimeAccessor->mCount > 0 )
{
// create a local transformation chain of the node's transforms
std::vector<Collada::Transform> transforms = srcNode->mTransforms;
// now for every unique point in time, find or interpolate the key values for that time
// and apply them to the transform chain. Then the node's present transformation can be calculated.
float time = startTime;
while( 1)
{
for( std::vector<Collada::ChannelEntry>::iterator it = entries.begin(); it != entries.end(); ++it)
{
Collada::ChannelEntry& e = *it;
// find the keyframe behind the current point in time
size_t pos = 0;
float postTime = 0.f;
while( 1)
{
if( pos >= e.mTimeAccessor->mCount)
break;
postTime = ReadFloat( *e.mTimeAccessor, *e.mTimeData, pos, 0);
if( postTime >= time)
break;
++pos;
}
pos = std::min( pos, e.mTimeAccessor->mCount-1);
// read values from there
float temp[16];
for( size_t c = 0; c < e.mValueAccessor->mSize; ++c)
temp[c] = ReadFloat( *e.mValueAccessor, *e.mValueData, pos, c);
// if not exactly at the key time, interpolate with previous value set
if( postTime > time && pos > 0)
{
float preTime = ReadFloat( *e.mTimeAccessor, *e.mTimeData, pos-1, 0);
float factor = (time - postTime) / (preTime - postTime);
for( size_t c = 0; c < e.mValueAccessor->mSize; ++c)
{
float v = ReadFloat( *e.mValueAccessor, *e.mValueData, pos-1, c);
temp[c] += (v - temp[c]) * factor;
}
}
// Apply values to current transformation
std::copy( temp, temp + e.mValueAccessor->mSize, transforms[e.mTransformIndex].f + e.mSubElement);
}
// Calculate resulting transformation
aiMatrix4x4 mat = pParser.CalculateResultTransform( transforms);
// out of lazyness: we store the time in matrix.d4
mat.d4 = time;
resultTrafos.push_back( mat);
// find next point in time to evaluate. That's the closest frame larger than the current in any channel
float nextTime = 1e20f;
for( std::vector<Collada::ChannelEntry>::iterator it = entries.begin(); it != entries.end(); ++it)
{
Collada::ChannelEntry& e = *it;
// find the next time value larger than the current
size_t pos = 0;
while( pos < e.mTimeAccessor->mCount)
{
float t = ReadFloat( *e.mTimeAccessor, *e.mTimeData, pos, 0);
if( t > time)
{
nextTime = std::min( nextTime, t);
break;
}
++pos;
}
}
// no more keys on any channel after the current time -> we're done
if( nextTime > 1e19)
break;
// else construct next keyframe at this following time point
time = nextTime;
}
}
// there should be some keyframes, but we aren't that fixated on valid input data
// ai_assert( resultTrafos.size() > 0);
// build an animation channel for the given node out of these trafo keys
if( !resultTrafos.empty() )
{
aiNodeAnim* dstAnim = new aiNodeAnim;
dstAnim->mNodeName = nodeName;
dstAnim->mNumPositionKeys = resultTrafos.size();
dstAnim->mNumRotationKeys= resultTrafos.size();
dstAnim->mNumScalingKeys = resultTrafos.size();
dstAnim->mPositionKeys = new aiVectorKey[resultTrafos.size()];
dstAnim->mRotationKeys = new aiQuatKey[resultTrafos.size()];
dstAnim->mScalingKeys = new aiVectorKey[resultTrafos.size()];
for( size_t a = 0; a < resultTrafos.size(); ++a)
{
aiMatrix4x4 mat = resultTrafos[a];
double time = double( mat.d4); // remember? time is stored in mat.d4
mat.d4 = 1.0f;
dstAnim->mPositionKeys[a].mTime = time;
dstAnim->mRotationKeys[a].mTime = time;
dstAnim->mScalingKeys[a].mTime = time;
mat.Decompose( dstAnim->mScalingKeys[a].mValue, dstAnim->mRotationKeys[a].mValue, dstAnim->mPositionKeys[a].mValue);
}
anims.push_back( dstAnim);
} else
{
DefaultLogger::get()->warn( "Collada loader: found empty animation channel, ignored. Please check your exporter.");
}
}
if( !anims.empty())
{
aiAnimation* anim = new aiAnimation;
anim->mName.Set( pName);
anim->mNumChannels = anims.size();
anim->mChannels = new aiNodeAnim*[anims.size()];
std::copy( anims.begin(), anims.end(), anim->mChannels);
anim->mDuration = 0.0f;
for( size_t a = 0; a < anims.size(); ++a)
{
anim->mDuration = std::max( anim->mDuration, anims[a]->mPositionKeys[anims[a]->mNumPositionKeys-1].mTime);
anim->mDuration = std::max( anim->mDuration, anims[a]->mRotationKeys[anims[a]->mNumRotationKeys-1].mTime);
anim->mDuration = std::max( anim->mDuration, anims[a]->mScalingKeys[anims[a]->mNumScalingKeys-1].mTime);
}
anim->mTicksPerSecond = 1;
mAnims.push_back( anim);
}
}
// ------------------------------------------------------------------------------------------------
// Add a texture to a material structure
void ColladaLoader::AddTexture ( aiMaterial& mat, const ColladaParser& pParser,
const Collada::Effect& effect,
const Collada::Sampler& sampler,
aiTextureType type, unsigned int idx)
{
// first of all, basic file name
const aiString name = FindFilenameForEffectTexture( pParser, effect, sampler.mName );
mat.AddProperty( &name, _AI_MATKEY_TEXTURE_BASE, type, idx );
// mapping mode
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
int map = aiTextureMapMode_Clamp;
if (sampler.mWrapU)
map = aiTextureMapMode_Wrap;
if (sampler.mWrapU && sampler.mMirrorU)
map = aiTextureMapMode_Mirror;
mat.AddProperty( &map, 1, _AI_MATKEY_MAPPINGMODE_U_BASE, type, idx);
map = aiTextureMapMode_Clamp;
if (sampler.mWrapV)
map = aiTextureMapMode_Wrap;
if (sampler.mWrapV && sampler.mMirrorV)
map = aiTextureMapMode_Mirror;
mat.AddProperty( &map, 1, _AI_MATKEY_MAPPINGMODE_V_BASE, type, idx);
// UV transformation
mat.AddProperty(&sampler.mTransform, 1,
_AI_MATKEY_UVTRANSFORM_BASE, type, idx);
// Blend mode
mat.AddProperty((int*)&sampler.mOp , 1,
_AI_MATKEY_TEXBLEND_BASE, type, idx);
// Blend factor
mat.AddProperty((float*)&sampler.mWeighting , 1,
_AI_MATKEY_TEXBLEND_BASE, type, idx);
// UV source index ... if we didn't resolve the mapping, it is actually just
// a guess but it works in most cases. We search for the frst occurence of a
// number in the channel name. We assume it is the zero-based index into the
// UV channel array of all corresponding meshes. It could also be one-based
// for some exporters, but we won't care of it unless someone complains about.
if (sampler.mUVId != UINT_MAX)
map = sampler.mUVId;
else {
map = -1;
for (std::string::const_iterator it = sampler.mUVChannel.begin();it != sampler.mUVChannel.end(); ++it){
if (IsNumeric(*it)) {
map = strtoul10(&(*it));
break;
}
}
if (-1 == map) {
DefaultLogger::get()->warn("Collada: unable to determine UV channel for texture");
map = 0;
}
}
mat.AddProperty(&map,1,_AI_MATKEY_UVWSRC_BASE,type,idx);
}
// ------------------------------------------------------------------------------------------------
// Fills materials from the collada material definitions
void ColladaLoader::FillMaterials( const ColladaParser& pParser, aiScene* /*pScene*/)
{
for (std::vector<std::pair<Collada::Effect*, aiMaterial*> >::iterator it = newMats.begin(),
end = newMats.end(); it != end; ++it)
{
aiMaterial& mat = (aiMaterial&)*it->second;
Collada::Effect& effect = *it->first;
// resolve shading mode
int shadeMode;
if (effect.mFaceted) /* fixme */
shadeMode = aiShadingMode_Flat;
else {
switch( effect.mShadeType)
{
case Collada::Shade_Constant:
shadeMode = aiShadingMode_NoShading;
break;
case Collada::Shade_Lambert:
shadeMode = aiShadingMode_Gouraud;
break;
case Collada::Shade_Blinn:
shadeMode = aiShadingMode_Blinn;
break;
case Collada::Shade_Phong:
shadeMode = aiShadingMode_Phong;
break;
default:
DefaultLogger::get()->warn("Collada: Unrecognized shading mode, using gouraud shading");
shadeMode = aiShadingMode_Gouraud;
break;
}
}
mat.AddProperty<int>( &shadeMode, 1, AI_MATKEY_SHADING_MODEL);
// double-sided?
shadeMode = effect.mDoubleSided;
mat.AddProperty<int>( &shadeMode, 1, AI_MATKEY_TWOSIDED);
// wireframe?
shadeMode = effect.mWireframe;
mat.AddProperty<int>( &shadeMode, 1, AI_MATKEY_ENABLE_WIREFRAME);
// add material colors
mat.AddProperty( &effect.mAmbient, 1,AI_MATKEY_COLOR_AMBIENT);
mat.AddProperty( &effect.mDiffuse, 1, AI_MATKEY_COLOR_DIFFUSE);
mat.AddProperty( &effect.mSpecular, 1,AI_MATKEY_COLOR_SPECULAR);
mat.AddProperty( &effect.mEmissive, 1, AI_MATKEY_COLOR_EMISSIVE);
mat.AddProperty( &effect.mTransparent, 1, AI_MATKEY_COLOR_TRANSPARENT);
mat.AddProperty( &effect.mReflective, 1, AI_MATKEY_COLOR_REFLECTIVE);
// scalar properties
mat.AddProperty( &effect.mShininess, 1, AI_MATKEY_SHININESS);
mat.AddProperty( &effect.mReflectivity, 1, AI_MATKEY_REFLECTIVITY);
mat.AddProperty( &effect.mRefractIndex, 1, AI_MATKEY_REFRACTI);
// transparency, a very hard one. seemingly not all files are following the
// specification here .. but we can trick.
if (effect.mTransparency >= 0.f && effect.mTransparency < 1.f) {
effect.mTransparency = 1.f- effect.mTransparency;
mat.AddProperty( &effect.mTransparency, 1, AI_MATKEY_OPACITY );
mat.AddProperty( &effect.mTransparent, 1, AI_MATKEY_COLOR_TRANSPARENT );
}
// add textures, if given
if( !effect.mTexAmbient.mName.empty())
/* It is merely a lightmap */
AddTexture( mat, pParser, effect, effect.mTexAmbient, aiTextureType_LIGHTMAP);
if( !effect.mTexEmissive.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexEmissive, aiTextureType_EMISSIVE);
if( !effect.mTexSpecular.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexSpecular, aiTextureType_SPECULAR);
if( !effect.mTexDiffuse.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexDiffuse, aiTextureType_DIFFUSE);
if( !effect.mTexBump.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexBump, aiTextureType_NORMALS);
if( !effect.mTexTransparent.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexTransparent, aiTextureType_OPACITY);
if( !effect.mTexReflective.mName.empty())
AddTexture( mat, pParser, effect, effect.mTexReflective, aiTextureType_REFLECTION);
}
}
// ------------------------------------------------------------------------------------------------
// Constructs materials from the collada material definitions
void ColladaLoader::BuildMaterials( ColladaParser& pParser, aiScene* /*pScene*/)
{
newMats.reserve(pParser.mMaterialLibrary.size());
for( ColladaParser::MaterialLibrary::const_iterator matIt = pParser.mMaterialLibrary.begin(); matIt != pParser.mMaterialLibrary.end(); ++matIt)
{
const Collada::Material& material = matIt->second;
// a material is only a reference to an effect
ColladaParser::EffectLibrary::iterator effIt = pParser.mEffectLibrary.find( material.mEffect);
if( effIt == pParser.mEffectLibrary.end())
continue;
Collada::Effect& effect = effIt->second;
// create material
aiMaterial* mat = new aiMaterial;
aiString name( material.mName.empty() ? matIt->first : material.mName );
mat->AddProperty(&name,AI_MATKEY_NAME);
// store the material
mMaterialIndexByName[matIt->first] = newMats.size();
newMats.push_back( std::pair<Collada::Effect*, aiMaterial*>( &effect,mat) );
}
// ScenePreprocessor generates a default material automatically if none is there.
// All further code here in this loader works well without a valid material so
// we can safely let it to ScenePreprocessor.
#if 0
if( newMats.size() == 0)
{
aiMaterial* mat = new aiMaterial;
aiString name( AI_DEFAULT_MATERIAL_NAME );
mat->AddProperty( &name, AI_MATKEY_NAME);
const int shadeMode = aiShadingMode_Phong;
mat->AddProperty<int>( &shadeMode, 1, AI_MATKEY_SHADING_MODEL);
aiColor4D colAmbient( 0.2f, 0.2f, 0.2f, 1.0f), colDiffuse( 0.8f, 0.8f, 0.8f, 1.0f), colSpecular( 0.5f, 0.5f, 0.5f, 0.5f);
mat->AddProperty( &colAmbient, 1, AI_MATKEY_COLOR_AMBIENT);
mat->AddProperty( &colDiffuse, 1, AI_MATKEY_COLOR_DIFFUSE);
mat->AddProperty( &colSpecular, 1, AI_MATKEY_COLOR_SPECULAR);
const float specExp = 5.0f;
mat->AddProperty( &specExp, 1, AI_MATKEY_SHININESS);
}
#endif
}
// ------------------------------------------------------------------------------------------------
// Resolves the texture name for the given effect texture entry
aiString ColladaLoader::FindFilenameForEffectTexture( const ColladaParser& pParser,
const Collada::Effect& pEffect, const std::string& pName)
{
// recurse through the param references until we end up at an image
std::string name = pName;
while( 1)
{
// the given string is a param entry. Find it
Collada::Effect::ParamLibrary::const_iterator it = pEffect.mParams.find( name);
// if not found, we're at the end of the recursion. The resulting string should be the image ID
if( it == pEffect.mParams.end())
break;
// else recurse on
name = it->second.mReference;
}
// find the image referred by this name in the image library of the scene
ColladaParser::ImageLibrary::const_iterator imIt = pParser.mImageLibrary.find( name);
if( imIt == pParser.mImageLibrary.end())
{
throw DeadlyImportError( boost::str( boost::format(
"Collada: Unable to resolve effect texture entry \"%s\", ended up at ID \"%s\".") % pName % name));
}
aiString result;
// if this is an embedded texture image setup an aiTexture for it
if (imIt->second.mFileName.empty())
{
if (imIt->second.mImageData.empty()) {
throw DeadlyImportError("Collada: Invalid texture, no data or file reference given");
}
aiTexture* tex = new aiTexture();
// setup format hint
if (imIt->second.mEmbeddedFormat.length() > 3) {
DefaultLogger::get()->warn("Collada: texture format hint is too long, truncating to 3 characters");
}
strncpy(tex->achFormatHint,imIt->second.mEmbeddedFormat.c_str(),3);
// and copy texture data
tex->mHeight = 0;
tex->mWidth = imIt->second.mImageData.size();
tex->pcData = (aiTexel*)new char[tex->mWidth];
memcpy(tex->pcData,&imIt->second.mImageData[0],tex->mWidth);
// setup texture reference string
result.data[0] = '*';
result.length = 1 + ASSIMP_itoa10(result.data+1,MAXLEN-1,mTextures.size());
// and add this texture to the list
mTextures.push_back(tex);
}
else
{
result.Set( imIt->second.mFileName );
ConvertPath(result);
}
return result;
}
// ------------------------------------------------------------------------------------------------
// Convert a path read from a collada file to the usual representation
void ColladaLoader::ConvertPath (aiString& ss)
{
// TODO: collada spec, p 22. Handle URI correctly.
// For the moment we're just stripping the file:// away to make it work.
// Windoes doesn't seem to be able to find stuff like
// 'file://..\LWO\LWO2\MappingModes\earthSpherical.jpg'
if (0 == strncmp(ss.data,"file://",7))
{
ss.length -= 7;
memmove(ss.data,ss.data+7,ss.length);
ss.data[ss.length] = '\0';
}
// Maxon Cinema Collada Export writes "file:///C:\andsoon" with three slashes...
// I need to filter it without destroying linux paths starting with "/somewhere"
if( ss.data[0] == '/' && isalpha( ss.data[1]) && ss.data[2] == ':' )
{
ss.length--;
memmove( ss.data, ss.data+1, ss.length);
ss.data[ss.length] = 0;
}
// find and convert all %xy special chars
char* out = ss.data;
for( const char* it = ss.data; it != ss.data + ss.length; /**/ )
{
if( *it == '%' && (it + 3) < ss.data + ss.length )
{
// separate the number to avoid dragging in chars from behind into the parsing
char mychar[3] = { it[1], it[2], 0 };
size_t nbr = strtoul16( mychar);
it += 3;
*out++ = (char)(nbr & 0xFF);
} else
{
*out++ = *it++;
}
}
// adjust length and terminator of the shortened string
*out = 0;
ss.length = (ptrdiff_t) (out - ss.data);
}
// ------------------------------------------------------------------------------------------------
// Reads a float value from an accessor and its data array.
float ColladaLoader::ReadFloat( const Collada::Accessor& pAccessor, const Collada::Data& pData, size_t pIndex, size_t pOffset) const
{
// FIXME: (thom) Test for data type here in every access? For the moment, I leave this to the caller
size_t pos = pAccessor.mStride * pIndex + pAccessor.mOffset + pOffset;
ai_assert( pos < pData.mValues.size());
return pData.mValues[pos];
}
// ------------------------------------------------------------------------------------------------
// Reads a string value from an accessor and its data array.
const std::string& ColladaLoader::ReadString( const Collada::Accessor& pAccessor, const Collada::Data& pData, size_t pIndex) const
{
size_t pos = pAccessor.mStride * pIndex + pAccessor.mOffset;
ai_assert( pos < pData.mStrings.size());
return pData.mStrings[pos];
}
// ------------------------------------------------------------------------------------------------
// Collects all nodes into the given array
void ColladaLoader::CollectNodes( const aiNode* pNode, std::vector<const aiNode*>& poNodes) const
{
poNodes.push_back( pNode);
for( size_t a = 0; a < pNode->mNumChildren; ++a)
CollectNodes( pNode->mChildren[a], poNodes);
}
// ------------------------------------------------------------------------------------------------
// Finds a node in the collada scene by the given name
const Collada::Node* ColladaLoader::FindNode( const Collada::Node* pNode, const std::string& pName) const
{
if( pNode->mName == pName || pNode->mID == pName)
return pNode;
for( size_t a = 0; a < pNode->mChildren.size(); ++a)
{
const Collada::Node* node = FindNode( pNode->mChildren[a], pName);
if( node)
return node;
}
return NULL;
}
// ------------------------------------------------------------------------------------------------
// Finds a node in the collada scene by the given SID
const Collada::Node* ColladaLoader::FindNodeBySID( const Collada::Node* pNode, const std::string& pSID) const
{
if( pNode->mSID == pSID)
return pNode;
for( size_t a = 0; a < pNode->mChildren.size(); ++a)
{
const Collada::Node* node = FindNodeBySID( pNode->mChildren[a], pSID);
if( node)
return node;
}
return NULL;
}
// ------------------------------------------------------------------------------------------------
// Finds a proper name for a node derived from the collada-node's properties
std::string ColladaLoader::FindNameForNode( const Collada::Node* pNode)
{
// now setup the name of the node. We take the name if not empty, otherwise the collada ID
// FIX: Workaround for XSI calling the instanced visual scene 'untitled' by default.
if (!pNode->mName.empty() && pNode->mName != "untitled")
return pNode->mName;
else if (!pNode->mID.empty())
return pNode->mID;
else if (!pNode->mSID.empty())
return pNode->mSID;
else
{
// No need to worry. Unnamed nodes are no problem at all, except
// if cameras or lights need to be assigned to them.
return boost::str( boost::format( "$ColladaAutoName$_%d") % mNodeNameCounter++);
}
}
General - Added format auto-detection to most loaders - Simplified BaseImporter::CanRead() with some utility methods - improved fast_atof -> no overruns anymore. Fuck you, irrlicht. - added assimp_cmd tool to allow command line model processing. Mainly adebugging tool for internal purposes, but others might find it useful, too. - vc8/vc9: revision number is now written to DLL version header - mkutil: some batch scripts to simplify tagging & building of release versions - some API cleanup - fixing some doxygen markup (+now explicit use of @file <filename>) - Icon for assimp_view and assimp_cmd 3DS - Normal vectors are not anymore inverted in some cases - Improved pivot handling - Improved handling of x-flipped meshes Collada - fixed a minor bug (visual_scene element) LWS - WIP implementation. No animations yet, some bugs and crashes. - Animation system remains disabled, WIP code - many test files for LWS, but most of them test the anim support, which is, read above, currently disabled. STL - fixing a log warning which appears for every model - added binary&ascii test spider, exported from truespace MD3 - Cleaning up output tags for automatically joined player models. IRR - Fixing coordinate system issues. - Instance handling improved. - Some of the reported crashes not yet fixed. PretransformVertices - Numerous performance improvements. - Added config option to preserve the hierarchy during the step. RemoveRedundantMaterials - Added config option to specify a list of materials which are kept in every case. UNREAL - Added support for the old unreal data format (*.a,*.d,*.uc) - tested only with exports from Milkshape - more Unreal stuff to come soon git-svn-id: https://assimp.svn.sourceforge.net/svnroot/assimp/trunk@356 67173fc5-114c-0410-ac8e-9d2fd5bffc1f
2009-03-05 22:32:13 +00:00
#endif // !! ASSIMP_BUILD_NO_DAE_IMPORTER