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Diffstat (limited to 'NvCloth/samples/external/assimp-4.1.0/code/BlenderLoader.cpp')
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1 files changed, 1318 insertions, 0 deletions
diff --git a/NvCloth/samples/external/assimp-4.1.0/code/BlenderLoader.cpp b/NvCloth/samples/external/assimp-4.1.0/code/BlenderLoader.cpp new file mode 100644 index 0000000..824954f --- /dev/null +++ b/NvCloth/samples/external/assimp-4.1.0/code/BlenderLoader.cpp @@ -0,0 +1,1318 @@ + +/* +Open Asset Import Library (assimp) +---------------------------------------------------------------------- + +Copyright (c) 2006-2017, 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 BlenderLoader.cpp + * @brief Implementation of the Blender3D importer class. + */ + + +//#define ASSIMP_BUILD_NO_COMPRESSED_BLEND +// Uncomment this to disable support for (gzip)compressed .BLEND files + +#ifndef ASSIMP_BUILD_NO_BLEND_IMPORTER + +#include "BlenderIntermediate.h" +#include "BlenderModifier.h" +#include "BlenderBMesh.h" +#include "StringUtils.h" +#include <assimp/scene.h> +#include <assimp/importerdesc.h> + +#include "StringComparison.h" +#include "StreamReader.h" +#include "MemoryIOWrapper.h" + +#include <cctype> + + +// zlib is needed for compressed blend files +#ifndef ASSIMP_BUILD_NO_COMPRESSED_BLEND +# ifdef ASSIMP_BUILD_NO_OWN_ZLIB +# include <zlib.h> +# else +# include "../contrib/zlib/zlib.h" +# endif +#endif + +namespace Assimp { + template<> const char* LogFunctions<BlenderImporter>::Prefix() + { + static auto prefix = "BLEND: "; + return prefix; + } +} + +using namespace Assimp; +using namespace Assimp::Blender; +using namespace Assimp::Formatter; + +static const aiImporterDesc blenderDesc = { + "Blender 3D Importer \nhttp://www.blender3d.org", + "", + "", + "No animation support yet", + aiImporterFlags_SupportBinaryFlavour, + 0, + 0, + 2, + 50, + "blend" +}; + + +// ------------------------------------------------------------------------------------------------ +// Constructor to be privately used by Importer +BlenderImporter::BlenderImporter() +: modifier_cache(new BlenderModifierShowcase()) { + // empty +} + +// ------------------------------------------------------------------------------------------------ +// Destructor, private as well +BlenderImporter::~BlenderImporter() +{ + delete modifier_cache; +} + +static const char* Tokens[] = { "BLENDER" }; +static const char* TokensForSearch[] = { "blender" }; + +// ------------------------------------------------------------------------------------------------ +// Returns whether the class can handle the format of the given file. +bool BlenderImporter::CanRead( const std::string& pFile, IOSystem* pIOHandler, bool checkSig) const +{ + const std::string& extension = GetExtension(pFile); + if (extension == "blend") { + return true; + } + + else if ((!extension.length() || checkSig) && pIOHandler) { + // note: this won't catch compressed files + return SearchFileHeaderForToken(pIOHandler,pFile, TokensForSearch,1); + } + return false; +} + +// ------------------------------------------------------------------------------------------------ +// List all extensions handled by this loader +void BlenderImporter::GetExtensionList(std::set<std::string>& app) +{ + app.insert("blend"); +} + +// ------------------------------------------------------------------------------------------------ +// Loader registry entry +const aiImporterDesc* BlenderImporter::GetInfo () const +{ + return &blenderDesc; +} + +// ------------------------------------------------------------------------------------------------ +// Setup configuration properties for the loader +void BlenderImporter::SetupProperties(const Importer* /*pImp*/) +{ + // nothing to be done for the moment +} + +struct free_it { + free_it(void* free) : free(free) {} + ~free_it() { + ::free(this->free); + } + + void* free; +}; + +// ------------------------------------------------------------------------------------------------ +// Imports the given file into the given scene structure. +void BlenderImporter::InternReadFile( const std::string& pFile, + aiScene* pScene, IOSystem* pIOHandler) +{ +#ifndef ASSIMP_BUILD_NO_COMPRESSED_BLEND + Bytef* dest = NULL; + free_it free_it_really(dest); +#endif + + + FileDatabase file; + std::shared_ptr<IOStream> stream(pIOHandler->Open(pFile,"rb")); + if (!stream) { + ThrowException("Could not open file for reading"); + } + + char magic[8] = {0}; + stream->Read(magic,7,1); + if (strcmp(magic, Tokens[0] )) { + // Check for presence of the gzip header. If yes, assume it is a + // compressed blend file and try uncompressing it, else fail. This is to + // avoid uncompressing random files which our loader might end up with. +#ifdef ASSIMP_BUILD_NO_COMPRESSED_BLEND + ThrowException("BLENDER magic bytes are missing, is this file compressed (Assimp was built without decompression support)?"); +#else + + if (magic[0] != 0x1f || static_cast<uint8_t>(magic[1]) != 0x8b) { + ThrowException("BLENDER magic bytes are missing, couldn't find GZIP header either"); + } + + LogDebug("Found no BLENDER magic word but a GZIP header, might be a compressed file"); + if (magic[2] != 8) { + ThrowException("Unsupported GZIP compression method"); + } + + // http://www.gzip.org/zlib/rfc-gzip.html#header-trailer + stream->Seek(0L,aiOrigin_SET); + std::shared_ptr<StreamReaderLE> reader = std::shared_ptr<StreamReaderLE>(new StreamReaderLE(stream)); + + // build a zlib stream + z_stream zstream; + zstream.opaque = Z_NULL; + zstream.zalloc = Z_NULL; + zstream.zfree = Z_NULL; + zstream.data_type = Z_BINARY; + + // http://hewgill.com/journal/entries/349-how-to-decompress-gzip-stream-with-zlib + inflateInit2(&zstream, 16+MAX_WBITS); + + zstream.next_in = reinterpret_cast<Bytef*>( reader->GetPtr() ); + zstream.avail_in = reader->GetRemainingSize(); + + size_t total = 0l; + + // and decompress the data .... do 1k chunks in the hope that we won't kill the stack +#define MYBLOCK 1024 + Bytef block[MYBLOCK]; + int ret; + do { + zstream.avail_out = MYBLOCK; + zstream.next_out = block; + ret = inflate(&zstream, Z_NO_FLUSH); + + if (ret != Z_STREAM_END && ret != Z_OK) { + ThrowException("Failure decompressing this file using gzip, seemingly it is NOT a compressed .BLEND file"); + } + const size_t have = MYBLOCK - zstream.avail_out; + total += have; + dest = reinterpret_cast<Bytef*>( realloc(dest,total) ); + memcpy(dest + total - have,block,have); + } + while (ret != Z_STREAM_END); + + // terminate zlib + inflateEnd(&zstream); + + // replace the input stream with a memory stream + stream.reset(new MemoryIOStream(reinterpret_cast<uint8_t*>(dest),total)); + + // .. and retry + stream->Read(magic,7,1); + if (strcmp(magic,"BLENDER")) { + ThrowException("Found no BLENDER magic word in decompressed GZIP file"); + } +#endif + } + + file.i64bit = (stream->Read(magic,1,1),magic[0]=='-'); + file.little = (stream->Read(magic,1,1),magic[0]=='v'); + + stream->Read(magic,3,1); + magic[3] = '\0'; + + LogInfo((format(),"Blender version is ",magic[0],".",magic+1, + " (64bit: ",file.i64bit?"true":"false", + ", little endian: ",file.little?"true":"false",")" + )); + + ParseBlendFile(file,stream); + + Scene scene; + ExtractScene(scene,file); + + ConvertBlendFile(pScene,scene,file); +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ParseBlendFile(FileDatabase& out, std::shared_ptr<IOStream> stream) +{ + out.reader = std::shared_ptr<StreamReaderAny>(new StreamReaderAny(stream,out.little)); + + DNAParser dna_reader(out); + const DNA* dna = NULL; + + out.entries.reserve(128); { // even small BLEND files tend to consist of many file blocks + SectionParser parser(*out.reader.get(),out.i64bit); + + // first parse the file in search for the DNA and insert all other sections into the database + while ((parser.Next(),1)) { + const FileBlockHead& head = parser.GetCurrent(); + + if (head.id == "ENDB") { + break; // only valid end of the file + } + else if (head.id == "DNA1") { + dna_reader.Parse(); + dna = &dna_reader.GetDNA(); + continue; + } + + out.entries.push_back(head); + } + } + if (!dna) { + ThrowException("SDNA not found"); + } + + std::sort(out.entries.begin(),out.entries.end()); +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ExtractScene(Scene& out, const FileDatabase& file) +{ + const FileBlockHead* block = NULL; + std::map<std::string,size_t>::const_iterator it = file.dna.indices.find("Scene"); + if (it == file.dna.indices.end()) { + ThrowException("There is no `Scene` structure record"); + } + + const Structure& ss = file.dna.structures[(*it).second]; + + // we need a scene somewhere to start with. + for(const FileBlockHead& bl :file.entries) { + + // Fix: using the DNA index is more reliable to locate scenes + //if (bl.id == "SC") { + + if (bl.dna_index == (*it).second) { + block = &bl; + break; + } + } + + if (!block) { + ThrowException("There is not a single `Scene` record to load"); + } + + file.reader->SetCurrentPos(block->start); + ss.Convert(out,file); + +#ifndef ASSIMP_BUILD_BLENDER_NO_STATS + DefaultLogger::get()->info((format(), + "(Stats) Fields read: " ,file.stats().fields_read, + ", pointers resolved: " ,file.stats().pointers_resolved, + ", cache hits: " ,file.stats().cache_hits, + ", cached objects: " ,file.stats().cached_objects + )); +#endif +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ConvertBlendFile(aiScene* out, const Scene& in,const FileDatabase& file) +{ + ConversionData conv(file); + + // FIXME it must be possible to take the hierarchy directly from + // the file. This is terrible. Here, we're first looking for + // all objects which don't have parent objects at all - + std::deque<const Object*> no_parents; + for (std::shared_ptr<Base> cur = std::static_pointer_cast<Base> ( in.base.first ); cur; cur = cur->next) { + if (cur->object) { + if(!cur->object->parent) { + no_parents.push_back(cur->object.get()); + } else { + conv.objects.insert( cur->object.get() ); + } + } + } + for (std::shared_ptr<Base> cur = in.basact; cur; cur = cur->next) { + if (cur->object) { + if(cur->object->parent) { + conv.objects.insert(cur->object.get()); + } + } + } + + if (no_parents.empty()) { + ThrowException("Expected at least one object with no parent"); + } + + aiNode* root = out->mRootNode = new aiNode("<BlenderRoot>"); + + root->mNumChildren = static_cast<unsigned int>(no_parents.size()); + root->mChildren = new aiNode*[root->mNumChildren](); + for (unsigned int i = 0; i < root->mNumChildren; ++i) { + root->mChildren[i] = ConvertNode(in, no_parents[i], conv, aiMatrix4x4()); + root->mChildren[i]->mParent = root; + } + + BuildMaterials(conv); + + if (conv.meshes->size()) { + out->mMeshes = new aiMesh*[out->mNumMeshes = static_cast<unsigned int>( conv.meshes->size() )]; + std::copy(conv.meshes->begin(),conv.meshes->end(),out->mMeshes); + conv.meshes.dismiss(); + } + + if (conv.lights->size()) { + out->mLights = new aiLight*[out->mNumLights = static_cast<unsigned int>( conv.lights->size() )]; + std::copy(conv.lights->begin(),conv.lights->end(),out->mLights); + conv.lights.dismiss(); + } + + if (conv.cameras->size()) { + out->mCameras = new aiCamera*[out->mNumCameras = static_cast<unsigned int>( conv.cameras->size() )]; + std::copy(conv.cameras->begin(),conv.cameras->end(),out->mCameras); + conv.cameras.dismiss(); + } + + if (conv.materials->size()) { + out->mMaterials = new aiMaterial*[out->mNumMaterials = static_cast<unsigned int>( conv.materials->size() )]; + std::copy(conv.materials->begin(),conv.materials->end(),out->mMaterials); + conv.materials.dismiss(); + } + + if (conv.textures->size()) { + out->mTextures = new aiTexture*[out->mNumTextures = static_cast<unsigned int>( conv.textures->size() )]; + std::copy(conv.textures->begin(),conv.textures->end(),out->mTextures); + conv.textures.dismiss(); + } + + // acknowledge that the scene might come out incomplete + // by Assimp's definition of `complete`: blender scenes + // can consist of thousands of cameras or lights with + // not a single mesh between them. + if (!out->mNumMeshes) { + out->mFlags |= AI_SCENE_FLAGS_INCOMPLETE; + } +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ResolveImage(aiMaterial* out, const Material* mat, const MTex* tex, const Image* img, ConversionData& conv_data) +{ + (void)mat; (void)tex; (void)conv_data; + aiString name; + + // check if the file contents are bundled with the BLEND file + if (img->packedfile) { + name.data[0] = '*'; + name.length = 1+ ASSIMP_itoa10(name.data+1,static_cast<unsigned int>(MAXLEN-1), static_cast<int32_t>(conv_data.textures->size())); + + conv_data.textures->push_back(new aiTexture()); + aiTexture* tex = conv_data.textures->back(); + + // usually 'img->name' will be the original file name of the embedded textures, + // so we can extract the file extension from it. + const size_t nlen = strlen( img->name ); + const char* s = img->name+nlen, *e = s; + while ( s >= img->name && *s != '.' ) { + --s; + } + + tex->achFormatHint[0] = s+1>e ? '\0' : ::tolower( s[1] ); + tex->achFormatHint[1] = s+2>e ? '\0' : ::tolower( s[2] ); + tex->achFormatHint[2] = s+3>e ? '\0' : ::tolower( s[3] ); + tex->achFormatHint[3] = '\0'; + + // tex->mHeight = 0; + tex->mWidth = img->packedfile->size; + uint8_t* ch = new uint8_t[tex->mWidth]; + + conv_data.db.reader->SetCurrentPos(static_cast<size_t>( img->packedfile->data->val)); + conv_data.db.reader->CopyAndAdvance(ch,tex->mWidth); + + tex->pcData = reinterpret_cast<aiTexel*>(ch); + + LogInfo("Reading embedded texture, original file was "+std::string(img->name)); + } else { + name = aiString( img->name ); + } + + aiTextureType texture_type = aiTextureType_UNKNOWN; + MTex::MapType map_type = tex->mapto; + + if (map_type & MTex::MapType_COL) + texture_type = aiTextureType_DIFFUSE; + else if (map_type & MTex::MapType_NORM) { + if (tex->tex->imaflag & Tex::ImageFlags_NORMALMAP) { + texture_type = aiTextureType_NORMALS; + } + else { + texture_type = aiTextureType_HEIGHT; + } + out->AddProperty(&tex->norfac,1,AI_MATKEY_BUMPSCALING); + } + else if (map_type & MTex::MapType_COLSPEC) + texture_type = aiTextureType_SPECULAR; + else if (map_type & MTex::MapType_COLMIR) + texture_type = aiTextureType_REFLECTION; + //else if (map_type & MTex::MapType_REF) + else if (map_type & MTex::MapType_SPEC) + texture_type = aiTextureType_SHININESS; + else if (map_type & MTex::MapType_EMIT) + texture_type = aiTextureType_EMISSIVE; + //else if (map_type & MTex::MapType_ALPHA) + //else if (map_type & MTex::MapType_HAR) + //else if (map_type & MTex::MapType_RAYMIRR) + //else if (map_type & MTex::MapType_TRANSLU) + else if (map_type & MTex::MapType_AMB) + texture_type = aiTextureType_AMBIENT; + else if (map_type & MTex::MapType_DISPLACE) + texture_type = aiTextureType_DISPLACEMENT; + //else if (map_type & MTex::MapType_WARP) + + out->AddProperty(&name,AI_MATKEY_TEXTURE(texture_type, + conv_data.next_texture[texture_type]++)); + +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::AddSentinelTexture(aiMaterial* out, const Material* mat, const MTex* tex, ConversionData& conv_data) +{ + (void)mat; (void)tex; (void)conv_data; + + aiString name; + name.length = ai_snprintf(name.data, MAXLEN, "Procedural,num=%i,type=%s",conv_data.sentinel_cnt++, + GetTextureTypeDisplayString(tex->tex->type) + ); + out->AddProperty(&name,AI_MATKEY_TEXTURE_DIFFUSE( + conv_data.next_texture[aiTextureType_DIFFUSE]++) + ); +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ResolveTexture(aiMaterial* out, const Material* mat, const MTex* tex, ConversionData& conv_data) +{ + const Tex* rtex = tex->tex.get(); + if(!rtex || !rtex->type) { + return; + } + + // We can't support most of the texture types because they're mostly procedural. + // These are substituted by a dummy texture. + const char* dispnam = ""; + switch( rtex->type ) + { + // these are listed in blender's UI + case Tex::Type_CLOUDS : + case Tex::Type_WOOD : + case Tex::Type_MARBLE : + case Tex::Type_MAGIC : + case Tex::Type_BLEND : + case Tex::Type_STUCCI : + case Tex::Type_NOISE : + case Tex::Type_PLUGIN : + case Tex::Type_MUSGRAVE : + case Tex::Type_VORONOI : + case Tex::Type_DISTNOISE : + case Tex::Type_ENVMAP : + + // these do no appear in the UI, why? + case Tex::Type_POINTDENSITY : + case Tex::Type_VOXELDATA : + + LogWarn(std::string("Encountered a texture with an unsupported type: ")+dispnam); + AddSentinelTexture(out, mat, tex, conv_data); + break; + + case Tex::Type_IMAGE : + if (!rtex->ima) { + LogError("A texture claims to be an Image, but no image reference is given"); + break; + } + ResolveImage(out, mat, tex, rtex->ima.get(),conv_data); + break; + + default: + ai_assert(false); + }; +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::BuildDefaultMaterial(Blender::ConversionData& conv_data) +{ + // add a default material if necessary + unsigned int index = static_cast<unsigned int>( -1 ); + for( aiMesh* mesh : conv_data.meshes.get() ) { + if (mesh->mMaterialIndex == static_cast<unsigned int>( -1 )) { + + if (index == static_cast<unsigned int>( -1 )) { + // Setup a default material. + std::shared_ptr<Material> p(new Material()); + ai_assert(::strlen(AI_DEFAULT_MATERIAL_NAME) < sizeof(p->id.name)-2); + strcpy( p->id.name+2, AI_DEFAULT_MATERIAL_NAME ); + + // Note: MSVC11 does not zero-initialize Material here, although it should. + // Thus all relevant fields should be explicitly initialized. We cannot add + // a default constructor to Material since the DNA codegen does not support + // parsing it. + p->r = p->g = p->b = 0.6f; + p->specr = p->specg = p->specb = 0.6f; + p->ambr = p->ambg = p->ambb = 0.0f; + p->mirr = p->mirg = p->mirb = 0.0f; + p->emit = 0.f; + p->alpha = 0.f; + p->har = 0; + + index = static_cast<unsigned int>( conv_data.materials_raw.size() ); + conv_data.materials_raw.push_back(p); + LogInfo("Adding default material"); + } + mesh->mMaterialIndex = index; + } + } +} + +void BlenderImporter::AddBlendParams(aiMaterial* result, const Material* source) +{ + aiColor3D diffuseColor(source->r, source->g, source->b); + result->AddProperty(&diffuseColor, 1, "$mat.blend.diffuse.color", 0, 0); + + float diffuseIntensity = source->ref; + result->AddProperty(&diffuseIntensity, 1, "$mat.blend.diffuse.intensity", 0, 0); + + int diffuseShader = source->diff_shader; + result->AddProperty(&diffuseShader, 1, "$mat.blend.diffuse.shader", 0, 0); + + int diffuseRamp = 0; + result->AddProperty(&diffuseRamp, 1, "$mat.blend.diffuse.ramp", 0, 0); + + + aiColor3D specularColor(source->specr, source->specg, source->specb); + result->AddProperty(&specularColor, 1, "$mat.blend.specular.color", 0, 0); + + float specularIntensity = source->spec; + result->AddProperty(&specularIntensity, 1, "$mat.blend.specular.intensity", 0, 0); + + int specularShader = source->spec_shader; + result->AddProperty(&specularShader, 1, "$mat.blend.specular.shader", 0, 0); + + int specularRamp = 0; + result->AddProperty(&specularRamp, 1, "$mat.blend.specular.ramp", 0, 0); + + int specularHardness = source->har; + result->AddProperty(&specularHardness, 1, "$mat.blend.specular.hardness", 0, 0); + + + int transparencyUse = source->mode & MA_TRANSPARENCY ? 1 : 0; + result->AddProperty(&transparencyUse, 1, "$mat.blend.transparency.use", 0, 0); + + int transparencyMethod = source->mode & MA_RAYTRANSP ? 2 : (source->mode & MA_ZTRANSP ? 1 : 0); + result->AddProperty(&transparencyMethod, 1, "$mat.blend.transparency.method", 0, 0); + + float transparencyAlpha = source->alpha; + result->AddProperty(&transparencyAlpha, 1, "$mat.blend.transparency.alpha", 0, 0); + + float transparencySpecular = source->spectra; + result->AddProperty(&transparencySpecular, 1, "$mat.blend.transparency.specular", 0, 0); + + float transparencyFresnel = source->fresnel_tra; + result->AddProperty(&transparencyFresnel, 1, "$mat.blend.transparency.fresnel", 0, 0); + + float transparencyBlend = source->fresnel_tra_i; + result->AddProperty(&transparencyBlend, 1, "$mat.blend.transparency.blend", 0, 0); + + float transparencyIor = source->ang; + result->AddProperty(&transparencyIor, 1, "$mat.blend.transparency.ior", 0, 0); + + float transparencyFilter = source->filter; + result->AddProperty(&transparencyFilter, 1, "$mat.blend.transparency.filter", 0, 0); + + float transparencyFalloff = source->tx_falloff; + result->AddProperty(&transparencyFalloff, 1, "$mat.blend.transparency.falloff", 0, 0); + + float transparencyLimit = source->tx_limit; + result->AddProperty(&transparencyLimit, 1, "$mat.blend.transparency.limit", 0, 0); + + int transparencyDepth = source->ray_depth_tra; + result->AddProperty(&transparencyDepth, 1, "$mat.blend.transparency.depth", 0, 0); + + float transparencyGlossAmount = source->gloss_tra; + result->AddProperty(&transparencyGlossAmount, 1, "$mat.blend.transparency.glossAmount", 0, 0); + + float transparencyGlossThreshold = source->adapt_thresh_tra; + result->AddProperty(&transparencyGlossThreshold, 1, "$mat.blend.transparency.glossThreshold", 0, 0); + + int transparencyGlossSamples = source->samp_gloss_tra; + result->AddProperty(&transparencyGlossSamples, 1, "$mat.blend.transparency.glossSamples", 0, 0); + + + int mirrorUse = source->mode & MA_RAYMIRROR ? 1 : 0; + result->AddProperty(&mirrorUse, 1, "$mat.blend.mirror.use", 0, 0); + + float mirrorReflectivity = source->ray_mirror; + result->AddProperty(&mirrorReflectivity, 1, "$mat.blend.mirror.reflectivity", 0, 0); + + aiColor3D mirrorColor(source->mirr, source->mirg, source->mirb); + result->AddProperty(&mirrorColor, 1, "$mat.blend.mirror.color", 0, 0); + + float mirrorFresnel = source->fresnel_mir; + result->AddProperty(&mirrorFresnel, 1, "$mat.blend.mirror.fresnel", 0, 0); + + float mirrorBlend = source->fresnel_mir_i; + result->AddProperty(&mirrorBlend, 1, "$mat.blend.mirror.blend", 0, 0); + + int mirrorDepth = source->ray_depth; + result->AddProperty(&mirrorDepth, 1, "$mat.blend.mirror.depth", 0, 0); + + float mirrorMaxDist = source->dist_mir; + result->AddProperty(&mirrorMaxDist, 1, "$mat.blend.mirror.maxDist", 0, 0); + + int mirrorFadeTo = source->fadeto_mir; + result->AddProperty(&mirrorFadeTo, 1, "$mat.blend.mirror.fadeTo", 0, 0); + + float mirrorGlossAmount = source->gloss_mir; + result->AddProperty(&mirrorGlossAmount, 1, "$mat.blend.mirror.glossAmount", 0, 0); + + float mirrorGlossThreshold = source->adapt_thresh_mir; + result->AddProperty(&mirrorGlossThreshold, 1, "$mat.blend.mirror.glossThreshold", 0, 0); + + int mirrorGlossSamples = source->samp_gloss_mir; + result->AddProperty(&mirrorGlossSamples, 1, "$mat.blend.mirror.glossSamples", 0, 0); + + float mirrorGlossAnisotropic = source->aniso_gloss_mir; + result->AddProperty(&mirrorGlossAnisotropic, 1, "$mat.blend.mirror.glossAnisotropic", 0, 0); +} + +void BlenderImporter::BuildMaterials(ConversionData& conv_data) +{ + conv_data.materials->reserve(conv_data.materials_raw.size()); + + BuildDefaultMaterial(conv_data); + + for(std::shared_ptr<Material> mat : conv_data.materials_raw) { + + // reset per material global counters + for (size_t i = 0; i < sizeof(conv_data.next_texture)/sizeof(conv_data.next_texture[0]);++i) { + conv_data.next_texture[i] = 0 ; + } + + aiMaterial* mout = new aiMaterial(); + conv_data.materials->push_back(mout); + // For any new material field handled here, the default material above must be updated with an appropriate default value. + + // set material name + aiString name = aiString(mat->id.name+2); // skip over the name prefix 'MA' + mout->AddProperty(&name,AI_MATKEY_NAME); + + // basic material colors + aiColor3D col(mat->r,mat->g,mat->b); + if (mat->r || mat->g || mat->b ) { + + // Usually, zero diffuse color means no diffuse color at all in the equation. + // So we omit this member to express this intent. + mout->AddProperty(&col,1,AI_MATKEY_COLOR_DIFFUSE); + + if (mat->emit) { + aiColor3D emit_col(mat->emit * mat->r, mat->emit * mat->g, mat->emit * mat->b) ; + mout->AddProperty(&emit_col, 1, AI_MATKEY_COLOR_EMISSIVE) ; + } + } + + col = aiColor3D(mat->specr,mat->specg,mat->specb); + mout->AddProperty(&col,1,AI_MATKEY_COLOR_SPECULAR); + + // is hardness/shininess set? + if( mat->har ) { + const float har = mat->har; + mout->AddProperty(&har,1,AI_MATKEY_SHININESS); + } + + col = aiColor3D(mat->ambr,mat->ambg,mat->ambb); + mout->AddProperty(&col,1,AI_MATKEY_COLOR_AMBIENT); + + // is mirror enabled? + if( mat->mode & MA_RAYMIRROR ) { + const float ray_mirror = mat->ray_mirror; + mout->AddProperty(&ray_mirror,1,AI_MATKEY_REFLECTIVITY); + } + + col = aiColor3D(mat->mirr,mat->mirg,mat->mirb); + mout->AddProperty(&col,1,AI_MATKEY_COLOR_REFLECTIVE); + + for(size_t i = 0; i < sizeof(mat->mtex) / sizeof(mat->mtex[0]); ++i) { + if (!mat->mtex[i]) { + continue; + } + + ResolveTexture(mout,mat.get(),mat->mtex[i].get(),conv_data); + } + + AddBlendParams(mout, mat.get()); + } +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::CheckActualType(const ElemBase* dt, const char* check) +{ + ai_assert(dt); + if (strcmp(dt->dna_type,check)) { + ThrowException((format(), + "Expected object at ",std::hex,dt," to be of type `",check, + "`, but it claims to be a `",dt->dna_type,"`instead" + )); + } +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::NotSupportedObjectType(const Object* obj, const char* type) +{ + LogWarn((format(), "Object `",obj->id.name,"` - type is unsupported: `",type, "`, skipping" )); +} + +// ------------------------------------------------------------------------------------------------ +void BlenderImporter::ConvertMesh(const Scene& /*in*/, const Object* /*obj*/, const Mesh* mesh, + ConversionData& conv_data, TempArray<std::vector,aiMesh>& temp + ) +{ + // TODO: Resolve various problems with BMesh triangulation before re-enabling. + // See issues #400, #373, #318 #315 and #132. +#if defined(TODO_FIX_BMESH_CONVERSION) + BlenderBMeshConverter BMeshConverter( mesh ); + if ( BMeshConverter.ContainsBMesh( ) ) + { + mesh = BMeshConverter.TriangulateBMesh( ); + } +#endif + + typedef std::pair<const int,size_t> MyPair; + if ((!mesh->totface && !mesh->totloop) || !mesh->totvert) { + return; + } + + // some sanity checks + if (static_cast<size_t> ( mesh->totface ) > mesh->mface.size() ){ + ThrowException("Number of faces is larger than the corresponding array"); + } + + if (static_cast<size_t> ( mesh->totvert ) > mesh->mvert.size()) { + ThrowException("Number of vertices is larger than the corresponding array"); + } + + if (static_cast<size_t> ( mesh->totloop ) > mesh->mloop.size()) { + ThrowException("Number of vertices is larger than the corresponding array"); + } + + // collect per-submesh numbers + std::map<int,size_t> per_mat; + std::map<int,size_t> per_mat_verts; + for (int i = 0; i < mesh->totface; ++i) { + + const MFace& mf = mesh->mface[i]; + per_mat[ mf.mat_nr ]++; + per_mat_verts[ mf.mat_nr ] += mf.v4?4:3; + } + + for (int i = 0; i < mesh->totpoly; ++i) { + const MPoly& mp = mesh->mpoly[i]; + per_mat[ mp.mat_nr ]++; + per_mat_verts[ mp.mat_nr ] += mp.totloop; + } + + // ... and allocate the corresponding meshes + const size_t old = temp->size(); + temp->reserve(temp->size() + per_mat.size()); + + std::map<size_t,size_t> mat_num_to_mesh_idx; + for(MyPair& it : per_mat) { + + mat_num_to_mesh_idx[it.first] = temp->size(); + temp->push_back(new aiMesh()); + + aiMesh* out = temp->back(); + out->mVertices = new aiVector3D[per_mat_verts[it.first]]; + out->mNormals = new aiVector3D[per_mat_verts[it.first]]; + + //out->mNumFaces = 0 + //out->mNumVertices = 0 + out->mFaces = new aiFace[it.second](); + + // all sub-meshes created from this mesh are named equally. this allows + // curious users to recover the original adjacency. + out->mName = aiString(mesh->id.name+2); + // skip over the name prefix 'ME' + + // resolve the material reference and add this material to the set of + // output materials. The (temporary) material index is the index + // of the material entry within the list of resolved materials. + if (mesh->mat) { + + if (static_cast<size_t> ( it.first ) >= mesh->mat.size() ) { + ThrowException("Material index is out of range"); + } + + std::shared_ptr<Material> mat = mesh->mat[it.first]; + const std::deque< std::shared_ptr<Material> >::iterator has = std::find( + conv_data.materials_raw.begin(), + conv_data.materials_raw.end(),mat + ); + + if (has != conv_data.materials_raw.end()) { + out->mMaterialIndex = static_cast<unsigned int>( std::distance(conv_data.materials_raw.begin(),has)); + } + else { + out->mMaterialIndex = static_cast<unsigned int>( conv_data.materials_raw.size() ); + conv_data.materials_raw.push_back(mat); + } + } + else out->mMaterialIndex = static_cast<unsigned int>( -1 ); + } + + for (int i = 0; i < mesh->totface; ++i) { + + const MFace& mf = mesh->mface[i]; + + aiMesh* const out = temp[ mat_num_to_mesh_idx[ mf.mat_nr ] ]; + aiFace& f = out->mFaces[out->mNumFaces++]; + + f.mIndices = new unsigned int[ f.mNumIndices = mf.v4?4:3 ]; + aiVector3D* vo = out->mVertices + out->mNumVertices; + aiVector3D* vn = out->mNormals + out->mNumVertices; + + // XXX we can't fold this easily, because we are restricted + // to the member names from the BLEND file (v1,v2,v3,v4) + // which are assigned by the genblenddna.py script and + // cannot be changed without breaking the entire + // import process. + + if (mf.v1 >= mesh->totvert) { + ThrowException("Vertex index v1 out of range"); + } + const MVert* v = &mesh->mvert[mf.v1]; + vo->x = v->co[0]; + vo->y = v->co[1]; + vo->z = v->co[2]; + vn->x = v->no[0]; + vn->y = v->no[1]; + vn->z = v->no[2]; + f.mIndices[0] = out->mNumVertices++; + ++vo; + ++vn; + + // if (f.mNumIndices >= 2) { + if (mf.v2 >= mesh->totvert) { + ThrowException("Vertex index v2 out of range"); + } + v = &mesh->mvert[mf.v2]; + vo->x = v->co[0]; + vo->y = v->co[1]; + vo->z = v->co[2]; + vn->x = v->no[0]; + vn->y = v->no[1]; + vn->z = v->no[2]; + f.mIndices[1] = out->mNumVertices++; + ++vo; + ++vn; + + if (mf.v3 >= mesh->totvert) { + ThrowException("Vertex index v3 out of range"); + } + // if (f.mNumIndices >= 3) { + v = &mesh->mvert[mf.v3]; + vo->x = v->co[0]; + vo->y = v->co[1]; + vo->z = v->co[2]; + vn->x = v->no[0]; + vn->y = v->no[1]; + vn->z = v->no[2]; + f.mIndices[2] = out->mNumVertices++; + ++vo; + ++vn; + + if (mf.v4 >= mesh->totvert) { + ThrowException("Vertex index v4 out of range"); + } + // if (f.mNumIndices >= 4) { + if (mf.v4) { + v = &mesh->mvert[mf.v4]; + vo->x = v->co[0]; + vo->y = v->co[1]; + vo->z = v->co[2]; + vn->x = v->no[0]; + vn->y = v->no[1]; + vn->z = v->no[2]; + f.mIndices[3] = out->mNumVertices++; + ++vo; + ++vn; + + out->mPrimitiveTypes |= aiPrimitiveType_POLYGON; + } + else out->mPrimitiveTypes |= aiPrimitiveType_TRIANGLE; + + // } + // } + // } + } + + for (int i = 0; i < mesh->totpoly; ++i) { + + const MPoly& mf = mesh->mpoly[i]; + + aiMesh* const out = temp[ mat_num_to_mesh_idx[ mf.mat_nr ] ]; + aiFace& f = out->mFaces[out->mNumFaces++]; + + f.mIndices = new unsigned int[ f.mNumIndices = mf.totloop ]; + aiVector3D* vo = out->mVertices + out->mNumVertices; + aiVector3D* vn = out->mNormals + out->mNumVertices; + + // XXX we can't fold this easily, because we are restricted + // to the member names from the BLEND file (v1,v2,v3,v4) + // which are assigned by the genblenddna.py script and + // cannot be changed without breaking the entire + // import process. + for (int j = 0;j < mf.totloop; ++j) + { + const MLoop& loop = mesh->mloop[mf.loopstart + j]; + + if (loop.v >= mesh->totvert) { + ThrowException("Vertex index out of range"); + } + + const MVert& v = mesh->mvert[loop.v]; + + vo->x = v.co[0]; + vo->y = v.co[1]; + vo->z = v.co[2]; + vn->x = v.no[0]; + vn->y = v.no[1]; + vn->z = v.no[2]; + f.mIndices[j] = out->mNumVertices++; + + ++vo; + ++vn; + + } + if (mf.totloop == 3) + { + out->mPrimitiveTypes |= aiPrimitiveType_TRIANGLE; + } + else + { + out->mPrimitiveTypes |= aiPrimitiveType_POLYGON; + } + } + + // collect texture coordinates, they're stored in a separate per-face buffer + if (mesh->mtface || mesh->mloopuv) { + if (mesh->totface > static_cast<int> ( mesh->mtface.size())) { + ThrowException("Number of UV faces is larger than the corresponding UV face array (#1)"); + } + for (std::vector<aiMesh*>::iterator it = temp->begin()+old; it != temp->end(); ++it) { + ai_assert((*it)->mNumVertices && (*it)->mNumFaces); + + (*it)->mTextureCoords[0] = new aiVector3D[(*it)->mNumVertices]; + (*it)->mNumFaces = (*it)->mNumVertices = 0; + } + + for (int i = 0; i < mesh->totface; ++i) { + const MTFace* v = &mesh->mtface[i]; + + aiMesh* const out = temp[ mat_num_to_mesh_idx[ mesh->mface[i].mat_nr ] ]; + const aiFace& f = out->mFaces[out->mNumFaces++]; + + aiVector3D* vo = &out->mTextureCoords[0][out->mNumVertices]; + for (unsigned int i = 0; i < f.mNumIndices; ++i,++vo,++out->mNumVertices) { + vo->x = v->uv[i][0]; + vo->y = v->uv[i][1]; + } + } + + for (int i = 0; i < mesh->totpoly; ++i) { + const MPoly& v = mesh->mpoly[i]; + aiMesh* const out = temp[ mat_num_to_mesh_idx[ v.mat_nr ] ]; + const aiFace& f = out->mFaces[out->mNumFaces++]; + + aiVector3D* vo = &out->mTextureCoords[0][out->mNumVertices]; + for (unsigned int j = 0; j < f.mNumIndices; ++j,++vo,++out->mNumVertices) { + const MLoopUV& uv = mesh->mloopuv[v.loopstart + j]; + vo->x = uv.uv[0]; + vo->y = uv.uv[1]; + } + + } + } + + // collect texture coordinates, old-style (marked as deprecated in current blender sources) + if (mesh->tface) { + if (mesh->totface > static_cast<int> ( mesh->tface.size())) { + ThrowException("Number of faces is larger than the corresponding UV face array (#2)"); + } + for (std::vector<aiMesh*>::iterator it = temp->begin()+old; it != temp->end(); ++it) { + ai_assert((*it)->mNumVertices && (*it)->mNumFaces); + + (*it)->mTextureCoords[0] = new aiVector3D[(*it)->mNumVertices]; + (*it)->mNumFaces = (*it)->mNumVertices = 0; + } + + for (int i = 0; i < mesh->totface; ++i) { + const TFace* v = &mesh->tface[i]; + + aiMesh* const out = temp[ mat_num_to_mesh_idx[ mesh->mface[i].mat_nr ] ]; + const aiFace& f = out->mFaces[out->mNumFaces++]; + + aiVector3D* vo = &out->mTextureCoords[0][out->mNumVertices]; + for (unsigned int i = 0; i < f.mNumIndices; ++i,++vo,++out->mNumVertices) { + vo->x = v->uv[i][0]; + vo->y = v->uv[i][1]; + } + } + } + + // collect vertex colors, stored separately as well + if (mesh->mcol || mesh->mloopcol) { + if (mesh->totface > static_cast<int> ( (mesh->mcol.size()/4)) ) { + ThrowException("Number of faces is larger than the corresponding color face array"); + } + for (std::vector<aiMesh*>::iterator it = temp->begin()+old; it != temp->end(); ++it) { + ai_assert((*it)->mNumVertices && (*it)->mNumFaces); + + (*it)->mColors[0] = new aiColor4D[(*it)->mNumVertices]; + (*it)->mNumFaces = (*it)->mNumVertices = 0; + } + + for (int i = 0; i < mesh->totface; ++i) { + + aiMesh* const out = temp[ mat_num_to_mesh_idx[ mesh->mface[i].mat_nr ] ]; + const aiFace& f = out->mFaces[out->mNumFaces++]; + + aiColor4D* vo = &out->mColors[0][out->mNumVertices]; + for (unsigned int n = 0; n < f.mNumIndices; ++n, ++vo,++out->mNumVertices) { + const MCol* col = &mesh->mcol[(i<<2)+n]; + + vo->r = col->r; + vo->g = col->g; + vo->b = col->b; + vo->a = col->a; + } + for (unsigned int n = f.mNumIndices; n < 4; ++n); + } + + for (int i = 0; i < mesh->totpoly; ++i) { + const MPoly& v = mesh->mpoly[i]; + aiMesh* const out = temp[ mat_num_to_mesh_idx[ v.mat_nr ] ]; + const aiFace& f = out->mFaces[out->mNumFaces++]; + + aiColor4D* vo = &out->mColors[0][out->mNumVertices]; + const ai_real scaleZeroToOne = 1.f/255.f; + for (unsigned int j = 0; j < f.mNumIndices; ++j,++vo,++out->mNumVertices) { + const MLoopCol& col = mesh->mloopcol[v.loopstart + j]; + vo->r = ai_real(col.r) * scaleZeroToOne; + vo->g = ai_real(col.g) * scaleZeroToOne; + vo->b = ai_real(col.b) * scaleZeroToOne; + vo->a = ai_real(col.a) * scaleZeroToOne; + } + + } + + } + + return; +} + +// ------------------------------------------------------------------------------------------------ +aiCamera* BlenderImporter::ConvertCamera(const Scene& /*in*/, const Object* obj, const Camera* cam, ConversionData& /*conv_data*/) +{ + std::unique_ptr<aiCamera> out(new aiCamera()); + out->mName = obj->id.name+2; + out->mPosition = aiVector3D(0.f, 0.f, 0.f); + out->mUp = aiVector3D(0.f, 1.f, 0.f); + out->mLookAt = aiVector3D(0.f, 0.f, -1.f); + if (cam->sensor_x && cam->lens) { + out->mHorizontalFOV = std::atan2(cam->sensor_x, 2.f * cam->lens); + } + out->mClipPlaneNear = cam->clipsta; + out->mClipPlaneFar = cam->clipend; + + return out.release(); +} + +// ------------------------------------------------------------------------------------------------ +aiLight* BlenderImporter::ConvertLight(const Scene& /*in*/, const Object* obj, const Lamp* lamp, ConversionData& /*conv_data*/) +{ + std::unique_ptr<aiLight> out(new aiLight()); + out->mName = obj->id.name+2; + + switch (lamp->type) + { + case Lamp::Type_Local: + out->mType = aiLightSource_POINT; + break; + case Lamp::Type_Sun: + out->mType = aiLightSource_DIRECTIONAL; + + // blender orients directional lights as facing toward -z + out->mDirection = aiVector3D(0.f, 0.f, -1.f); + out->mUp = aiVector3D(0.f, 1.f, 0.f); + break; + + case Lamp::Type_Area: + out->mType = aiLightSource_AREA; + + if (lamp->area_shape == 0) { + out->mSize = aiVector2D(lamp->area_size, lamp->area_size); + } + else { + out->mSize = aiVector2D(lamp->area_size, lamp->area_sizey); + } + + // blender orients directional lights as facing toward -z + out->mDirection = aiVector3D(0.f, 0.f, -1.f); + out->mUp = aiVector3D(0.f, 1.f, 0.f); + break; + + default: + break; + } + + out->mColorAmbient = aiColor3D(lamp->r, lamp->g, lamp->b) * lamp->energy; + out->mColorSpecular = aiColor3D(lamp->r, lamp->g, lamp->b) * lamp->energy; + out->mColorDiffuse = aiColor3D(lamp->r, lamp->g, lamp->b) * lamp->energy; + return out.release(); +} + +// ------------------------------------------------------------------------------------------------ +aiNode* BlenderImporter::ConvertNode(const Scene& in, const Object* obj, ConversionData& conv_data, const aiMatrix4x4& parentTransform) +{ + std::deque<const Object*> children; + for(ObjectSet::iterator it = conv_data.objects.begin(); it != conv_data.objects.end() ;) { + const Object* object = *it; + if (object->parent == obj) { + children.push_back(object); + + conv_data.objects.erase(it++); + continue; + } + ++it; + } + + std::unique_ptr<aiNode> node(new aiNode(obj->id.name+2)); // skip over the name prefix 'OB' + if (obj->data) { + switch (obj->type) + { + case Object :: Type_EMPTY: + break; // do nothing + + + // supported object types + case Object :: Type_MESH: { + const size_t old = conv_data.meshes->size(); + + CheckActualType(obj->data.get(),"Mesh"); + ConvertMesh(in,obj,static_cast<const Mesh*>(obj->data.get()),conv_data,conv_data.meshes); + + if (conv_data.meshes->size() > old) { + node->mMeshes = new unsigned int[node->mNumMeshes = static_cast<unsigned int>(conv_data.meshes->size()-old)]; + for (unsigned int i = 0; i < node->mNumMeshes; ++i) { + node->mMeshes[i] = static_cast<unsigned int>(i + old); + } + }} + break; + case Object :: Type_LAMP: { + CheckActualType(obj->data.get(),"Lamp"); + aiLight* mesh = ConvertLight(in,obj,static_cast<const Lamp*>( + obj->data.get()),conv_data); + + if (mesh) { + conv_data.lights->push_back(mesh); + }} + break; + case Object :: Type_CAMERA: { + CheckActualType(obj->data.get(),"Camera"); + aiCamera* mesh = ConvertCamera(in,obj,static_cast<const Camera*>( + obj->data.get()),conv_data); + + if (mesh) { + conv_data.cameras->push_back(mesh); + }} + break; + + + // unsupported object types / log, but do not break + case Object :: Type_CURVE: + NotSupportedObjectType(obj,"Curve"); + break; + case Object :: Type_SURF: + NotSupportedObjectType(obj,"Surface"); + break; + case Object :: Type_FONT: + NotSupportedObjectType(obj,"Font"); + break; + case Object :: Type_MBALL: + NotSupportedObjectType(obj,"MetaBall"); + break; + case Object :: Type_WAVE: + NotSupportedObjectType(obj,"Wave"); + break; + case Object :: Type_LATTICE: + NotSupportedObjectType(obj,"Lattice"); + break; + + // invalid or unknown type + default: + break; + } + } + + for(unsigned int x = 0; x < 4; ++x) { + for(unsigned int y = 0; y < 4; ++y) { + node->mTransformation[y][x] = obj->obmat[x][y]; + } + } + + aiMatrix4x4 m = parentTransform; + m = m.Inverse(); + + node->mTransformation = m*node->mTransformation; + + if (children.size()) { + node->mNumChildren = static_cast<unsigned int>(children.size()); + aiNode** nd = node->mChildren = new aiNode*[node->mNumChildren](); + for (const Object* nobj :children) { + *nd = ConvertNode(in,nobj,conv_data,node->mTransformation * parentTransform); + (*nd++)->mParent = node.get(); + } + } + + // apply modifiers + modifier_cache->ApplyModifiers(*node,conv_data,in,*obj); + + return node.release(); +} + +#endif // ASSIMP_BUILD_NO_BLEND_IMPORTER |