v4games
/
assimp
3
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

removed trailing spaces and tabs from source and text 

This commit ignores the “contrib” folder in order to prevent merge conflicts in dependencies, should these be updated via git.
pull/4007/head
Krishty 2021-07-29 13:28:51 +02:00
parent fc22d6cdae
commit 758116b083
185 changed files with 1158 additions and 1158 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
code/AssetLib/3DS/3DSExporter.cpp
View File

@ -291,7 +291,7 @@ void Discreet3DSExporter::WriteMaterials() {
ChunkWriter curChunk(writer, Discreet3DS::CHUNK_MAT_SPECULAR); ChunkWriter curChunk(writer, Discreet3DS::CHUNK_MAT_SPECULAR);
WriteColor(color); WriteColor(color);
} }
if (mat.Get(AI_MATKEY_COLOR_AMBIENT, color) == AI_SUCCESS) { if (mat.Get(AI_MATKEY_COLOR_AMBIENT, color) == AI_SUCCESS) {
ChunkWriter curChunk(writer, Discreet3DS::CHUNK_MAT_AMBIENT); ChunkWriter curChunk(writer, Discreet3DS::CHUNK_MAT_AMBIENT);
WriteColor(color); WriteColor(color);

2
code/AssetLib/3MF/D3MFImporter.cpp
View File

@ -274,7 +274,7 @@ private:
if (ret) { if (ret) {
value = std::atoi(strValue.c_str()); value = std::atoi(strValue.c_str());
return true; return true;
} }
return false; return false;
} }

2
code/AssetLib/AMF/AMFImporter.cpp
View File

@ -303,7 +303,7 @@ void AMFImporter::ParseNode_Root() {
} }
XmlNode node = *root; XmlNode node = *root;
mUnit = ai_tolower(std::string(node.attribute("unit").as_string())); mUnit = ai_tolower(std::string(node.attribute("unit").as_string()));
mVersion = node.attribute("version").as_string(); mVersion = node.attribute("version").as_string();
// Read attributes for node <amf>. // Read attributes for node <amf>.

6
code/AssetLib/AMF/AMFImporter_Geometry.cpp
View File

@ -75,7 +75,7 @@ void AMFImporter::ParseNode_Mesh(XmlNode &node) {
found_volumes = true; found_volumes = true;
} }
ParseHelper_Node_Exit(); ParseHelper_Node_Exit();
} }
if (!found_verts && !found_volumes) { if (!found_verts && !found_volumes) {
mNodeElement_Cur->Child.push_back(ne); mNodeElement_Cur->Child.push_back(ne);
@ -199,9 +199,9 @@ void AMFImporter::ParseNode_Volume(XmlNode &node) {
// Read attributes for node <color>. // Read attributes for node <color>.
// and assign read data // and assign read data
((AMFVolume *)ne)->MaterialID = node.attribute("materialid").as_string(); ((AMFVolume *)ne)->MaterialID = node.attribute("materialid").as_string();
((AMFVolume *)ne)->Type = type; ((AMFVolume *)ne)->Type = type;
// Check for child nodes // Check for child nodes
bool col_read = false; bool col_read = false;

6
code/AssetLib/AMF/AMFImporter_Postprocess.cpp
View File

@ -69,7 +69,7 @@ aiColor4D AMFImporter::SPP_Material::GetColor(const float /*pX*/, const float /*
} }
tcol = Color->Color; tcol = Color->Color;
// Check if default color must be used // Check if default color must be used
if ((tcol.r == 0) && (tcol.g == 0) && (tcol.b == 0) && (tcol.a == 0)) { if ((tcol.r == 0) && (tcol.g == 0) && (tcol.b == 0) && (tcol.a == 0)) {
tcol.r = 0.5f; tcol.r = 0.5f;
@ -99,10 +99,10 @@ void AMFImporter::PostprocessHelper_CreateMeshDataArray(const AMFMesh &nodeEleme
} }
// all coordinates stored as child and we need to reserve space for future push_back's. // all coordinates stored as child and we need to reserve space for future push_back's.
vertexCoordinateArray.reserve(vn->Child.size()); vertexCoordinateArray.reserve(vn->Child.size());
// colors count equal vertices count. // colors count equal vertices count.
pVertexColorArray.resize(vn->Child.size()); pVertexColorArray.resize(vn->Child.size());
col_idx = 0; col_idx = 0;
// Inside vertices collect all data and place to arrays // Inside vertices collect all data and place to arrays

8
code/AssetLib/Assjson/mesh_splitter.cpp
View File

@ -110,7 +110,7 @@ void MeshSplitter :: SplitMesh(unsigned int a, aiMesh* in_mesh, std::vector<std:
// we need to split this mesh into sub meshes. Estimate submesh size // we need to split this mesh into sub meshes. Estimate submesh size
const unsigned int sub_meshes = (in_mesh->mNumVertices / LIMIT) + 1; const unsigned int sub_meshes = (in_mesh->mNumVertices / LIMIT) + 1;
// create a std::vector<unsigned int> to remember which vertices have already // create a std::vector<unsigned int> to remember which vertices have already
// been copied and to which position (i.e. output index) // been copied and to which position (i.e. output index)
std::vector<unsigned int> was_copied_to; std::vector<unsigned int> was_copied_to;
was_copied_to.resize(in_mesh->mNumVertices,WAS_NOT_COPIED); was_copied_to.resize(in_mesh->mNumVertices,WAS_NOT_COPIED);
@ -125,7 +125,7 @@ void MeshSplitter :: SplitMesh(unsigned int a, aiMesh* in_mesh, std::vector<std:
while (true) { while (true) {
const unsigned int out_vertex_index = LIMIT; const unsigned int out_vertex_index = LIMIT;
aiMesh* out_mesh = new aiMesh(); aiMesh* out_mesh = new aiMesh();
out_mesh->mNumVertices = 0; out_mesh->mNumVertices = 0;
out_mesh->mMaterialIndex = in_mesh->mMaterialIndex; out_mesh->mMaterialIndex = in_mesh->mMaterialIndex;
@ -179,7 +179,7 @@ void MeshSplitter :: SplitMesh(unsigned int a, aiMesh* in_mesh, std::vector<std:
// check whether we do already have this vertex // check whether we do already have this vertex
if (WAS_NOT_COPIED == was_copied_to[index]) { if (WAS_NOT_COPIED == was_copied_to[index]) {
iNeed++; iNeed++;
} }
} }
if (out_mesh->mNumVertices + iNeed > out_vertex_index) { if (out_mesh->mNumVertices + iNeed > out_vertex_index) {
@ -240,7 +240,7 @@ void MeshSplitter :: SplitMesh(unsigned int a, aiMesh* in_mesh, std::vector<std:
out_mesh->mTextureCoords[c][out_mesh->mNumVertices] = in_mesh->mTextureCoords[c][index]; out_mesh->mTextureCoords[c][out_mesh->mNumVertices] = in_mesh->mTextureCoords[c][index];
} }
} }
// vertex colors // vertex colors
for (unsigned int c = 0; c < AI_MAX_NUMBER_OF_COLOR_SETS;++c) { for (unsigned int c = 0; c < AI_MAX_NUMBER_OF_COLOR_SETS;++c) {
if (in_mesh->HasVertexColors( c)) { if (in_mesh->HasVertexColors( c)) {
out_mesh->mColors[c][out_mesh->mNumVertices] = in_mesh->mColors[c][index]; out_mesh->mColors[c][out_mesh->mNumVertices] = in_mesh->mColors[c][index];

6
code/AssetLib/Assjson/mesh_splitter.h
View File

@ -22,13 +22,13 @@ struct aiNode;
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
/** Splits meshes of unique vertices into meshes with no more vertices than /** Splits meshes of unique vertices into meshes with no more vertices than
* a given, configurable threshold value. * a given, configurable threshold value.
*/ */
class MeshSplitter class MeshSplitter
{ {
public: public:
void SetLimit(unsigned int l) { void SetLimit(unsigned int l) {
LIMIT = l; LIMIT = l;
} }

2
code/AssetLib/Assxml/AssxmlExporter.cpp
View File

@ -50,7 +50,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <assimp/IOSystem.hpp> #include <assimp/IOSystem.hpp>
#include <assimp/Exporter.hpp> #include <assimp/Exporter.hpp>
namespace Assimp { namespace Assimp {
void ExportSceneAssxml(const char* pFile, IOSystem* pIOSystem, const aiScene* pScene, const ExportProperties* /*pProperties*/) void ExportSceneAssxml(const char* pFile, IOSystem* pIOSystem, const aiScene* pScene, const ExportProperties* /*pProperties*/)
{ {

18
code/AssetLib/Blender/BlenderModifier.h
View File

@ -52,9 +52,9 @@ namespace Assimp {
namespace Blender { namespace Blender {
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
/** /**
* Dummy base class for all blender modifiers. Modifiers are reused between imports, so * Dummy base class for all blender modifiers. Modifiers are reused between imports, so
* they should be stateless and not try to cache model data. * they should be stateless and not try to cache model data.
*/ */
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
class BlenderModifier { class BlenderModifier {
@ -67,7 +67,7 @@ public:
} }
// -------------------- // --------------------
/** /**
* Check if *this* modifier is active, given a ModifierData& block. * Check if *this* modifier is active, given a ModifierData& block.
*/ */
virtual bool IsActive( const ModifierData& /*modin*/) { virtual bool IsActive( const ModifierData& /*modin*/) {
@ -75,10 +75,10 @@ public:
} }
// -------------------- // --------------------
/** /**
* Apply the modifier to a given output node. The original data used * Apply the modifier to a given output node. The original data used
* to construct the node is given as well. Not called unless IsActive() * to construct the node is given as well. Not called unless IsActive()
* was called and gave positive response. * was called and gave positive response.
*/ */
virtual void DoIt(aiNode& /*out*/, virtual void DoIt(aiNode& /*out*/,
ConversionData& /*conv_data*/, ConversionData& /*conv_data*/,
@ -92,8 +92,8 @@ public:
}; };
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
/** /**
* Manage all known modifiers and instance and apply them if necessary * Manage all known modifiers and instance and apply them if necessary
*/ */
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
class BlenderModifierShowcase { class BlenderModifierShowcase {
@ -113,8 +113,8 @@ private:
// MODIFIERS ///////////////////////////////////////////////////////////////////////////////// // MODIFIERS /////////////////////////////////////////////////////////////////////////////////
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
/** /**
* Mirror modifier. Status: implemented. * Mirror modifier. Status: implemented.
*/ */
// ------------------------------------------------------------------------------------------- // -------------------------------------------------------------------------------------------
class BlenderModifier_Mirror : public BlenderModifier { class BlenderModifier_Mirror : public BlenderModifier {

6
code/AssetLib/C4D/C4DImporter.cpp
View File

@ -148,12 +148,12 @@ void C4DImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
// Generate the root-node // Generate the root-node
pScene->mRootNode = new aiNode("<C4DRoot>"); pScene->mRootNode = new aiNode("<C4DRoot>");
// convert left-handed to right-handed // convert left-handed to right-handed
pScene->mRootNode->mTransformation.a1 = 0.01f; pScene->mRootNode->mTransformation.a1 = 0.01f;
pScene->mRootNode->mTransformation.b2 = 0.01f; pScene->mRootNode->mTransformation.b2 = 0.01f;
pScene->mRootNode->mTransformation.c3 = -0.01f; pScene->mRootNode->mTransformation.c3 = -0.01f;
// first convert all materials // first convert all materials
ReadMaterials(doc->GetFirstMaterial()); ReadMaterials(doc->GetFirstMaterial());

2
code/AssetLib/COB/COBLoader.cpp
View File

@ -884,7 +884,7 @@ void COBImporter::ReadBinaryFile(Scene &out, StreamReaderLE *reader) {
std::string type; std::string type;
type += reader->GetI1(); type += reader->GetI1();
type += reader->GetI1(); type += reader->GetI1();
type += reader->GetI1(); type += reader->GetI1();
type += reader->GetI1(); type += reader->GetI1();
ChunkInfo nfo; ChunkInfo nfo;

2
code/AssetLib/COB/COBLoader.h
View File

@ -77,7 +77,7 @@ class COBImporter : public BaseImporter
public: public:
COBImporter(); COBImporter();
~COBImporter(); ~COBImporter();
// -------------------- // --------------------
bool CanRead( const std::string& pFile, IOSystem* pIOHandler, bool CanRead( const std::string& pFile, IOSystem* pIOHandler,
bool checkSig) const; bool checkSig) const;

2
code/AssetLib/Collada/ColladaLoader.cpp
View File

@ -1675,7 +1675,7 @@ void ColladaLoader::BuildMaterials(ColladaParser &pParser, aiScene * /*pScene*/)
const Material &material = matIt->second; const Material &material = matIt->second;
// a material is only a reference to an effect // a material is only a reference to an effect
ColladaParser::EffectLibrary::iterator effIt = pParser.mEffectLibrary.find(material.mEffect); ColladaParser::EffectLibrary::iterator effIt = pParser.mEffectLibrary.find(material.mEffect);
if (effIt == pParser.mEffectLibrary.end()) if (effIt == pParser.mEffectLibrary.end())
continue; continue;
Effect &effect = effIt->second; Effect &effect = effIt->second;

2
code/AssetLib/DXF/DXFLoader.cpp
View File

@ -547,7 +547,7 @@ void DXFImporter::ParseEntities(DXF::LineReader& reader, DXF::FileData& output)
++reader; ++reader;
} }
ASSIMP_LOG_VERBOSE_DEBUG( "DXF: got ", block.lines.size()," polylines and ", block.insertions.size(), ASSIMP_LOG_VERBOSE_DEBUG( "DXF: got ", block.lines.size()," polylines and ", block.insertions.size(),
" inserted blocks in ENTITIES" ); " inserted blocks in ENTITIES" );
} }

2
code/AssetLib/DXF/DXFLoader.h
View File

@ -63,7 +63,7 @@ namespace DXF {
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
/** /**
* @brief DXF importer implementation. * @brief DXF importer implementation.
*/ */
class DXFImporter : public BaseImporter { class DXFImporter : public BaseImporter {

4
code/AssetLib/FBX/FBXConverter.cpp
View File

@ -862,7 +862,7 @@ bool FBXConverter::GenerateTransformationNodeChain(const Model &model, const std
output_nodes.push_back(std::move(nd)); output_nodes.push_back(std::move(nd));
return false; return false;
} }
void FBXConverter::SetupNodeMetadata(const Model &model, aiNode &nd) { void FBXConverter::SetupNodeMetadata(const Model &model, aiNode &nd) {
const PropertyTable &props = model.Props(); const PropertyTable &props = model.Props();
DirectPropertyMap unparsedProperties = props.GetUnparsedProperties(); DirectPropertyMap unparsedProperties = props.GetUnparsedProperties();
@ -3572,7 +3572,7 @@ void FBXConverter::ConvertOrphanedEmbeddedTextures() {
if (texture->Media() && texture->Media()->ContentLength() > 0) { if (texture->Media() && texture->Media()->ContentLength() > 0) {
realTexture = texture; realTexture = texture;
} }
} }
} }
} catch (...) { } catch (...) {
// do nothing // do nothing

4
code/AssetLib/FBX/FBXConverter.h
View File

@ -76,7 +76,7 @@ namespace Assimp {
namespace FBX { namespace FBX {
class Document; class Document;
/** /**
* Convert a FBX #Document to #aiScene * Convert a FBX #Document to #aiScene
* @param out Empty scene to be populated * @param out Empty scene to be populated
* @param doc Parsed FBX document * @param doc Parsed FBX document
@ -182,7 +182,7 @@ private:
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
void ConvertModel(const Model &model, aiNode *parent, aiNode *root_node, void ConvertModel(const Model &model, aiNode *parent, aiNode *root_node,
const aiMatrix4x4 &absolute_transform); const aiMatrix4x4 &absolute_transform);
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
// MeshGeometry -> aiMesh, return mesh index + 1 or 0 if the conversion failed // MeshGeometry -> aiMesh, return mesh index + 1 or 0 if the conversion failed
std::vector<unsigned int> std::vector<unsigned int>

2
code/AssetLib/FBX/FBXDocument.cpp
View File

@ -635,7 +635,7 @@ std::vector<const Connection*> Document::GetConnectionsBySourceSequenced(uint64_
} }
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
std::vector<const Connection*> Document::GetConnectionsBySourceSequenced(uint64_t source, std::vector<const Connection*> Document::GetConnectionsBySourceSequenced(uint64_t source,
const char* const* classnames, size_t count) const const char* const* classnames, size_t count) const
{ {
return GetConnectionsSequenced(source, true, ConnectionsBySource(),classnames, count); return GetConnectionsSequenced(source, true, ConnectionsBySource(),classnames, count);

2
code/AssetLib/FBX/FBXExportNode.h
View File

@ -60,7 +60,7 @@ namespace FBX {
} }
class FBX::Node { class FBX::Node {
public: public:
// TODO: accessors // TODO: accessors
std::string name; // node name std::string name; // node name
std::vector<FBX::FBXExportProperty> properties; // node properties std::vector<FBX::FBXExportProperty> properties; // node properties

12
code/AssetLib/FBX/FBXExporter.cpp
View File

@ -498,7 +498,7 @@ void FBXExporter::WriteDocuments ()
if (!binary) { if (!binary) {
WriteAsciiSectionHeader("Documents Description"); WriteAsciiSectionHeader("Documents Description");
} }
// not sure what the use of multiple documents would be, // not sure what the use of multiple documents would be,
// or whether any end-application supports it // or whether any end-application supports it
FBX::Node docs("Documents"); FBX::Node docs("Documents");
@ -1258,7 +1258,7 @@ void FBXExporter::WriteObjects ()
indent = 2; indent = 2;
vertexcolors.End(outstream, binary, indent, true); vertexcolors.End(outstream, binary, indent, true);
} }
// uvs, if any // uvs, if any
for (size_t uvi = 0; uvi < m->GetNumUVChannels(); ++uvi) { for (size_t uvi = 0; uvi < m->GetNumUVChannels(); ++uvi) {
if (m->mNumUVComponents[uvi] > 2) { if (m->mNumUVComponents[uvi] > 2) {
@ -1751,7 +1751,7 @@ void FBXExporter::WriteObjects ()
bsnode.AddProperty(blendshape_uid); bsnode.AddProperty(blendshape_uid);
bsnode.AddProperty(blendshape_name + FBX::SEPARATOR + "Blendshape"); bsnode.AddProperty(blendshape_name + FBX::SEPARATOR + "Blendshape");
bsnode.AddProperty("Shape"); bsnode.AddProperty("Shape");
bsnode.AddChild("Version", int32_t(100)); bsnode.AddChild("Version", int32_t(100));
bsnode.Begin(outstream, binary, indent); bsnode.Begin(outstream, binary, indent);
bsnode.DumpProperties(outstream, binary, indent); bsnode.DumpProperties(outstream, binary, indent);
bsnode.EndProperties(outstream, binary, indent); bsnode.EndProperties(outstream, binary, indent);
@ -1877,7 +1877,7 @@ void FBXExporter::WriteObjects ()
// at the same time we can build a list of all the skeleton nodes, // at the same time we can build a list of all the skeleton nodes,
// which will be used later to mark them as type "limbNode". // which will be used later to mark them as type "limbNode".
std::unordered_set<const aiNode*> limbnodes; std::unordered_set<const aiNode*> limbnodes;
//actual bone nodes in fbx, without parenting-up //actual bone nodes in fbx, without parenting-up
std::unordered_set<std::string> setAllBoneNamesInScene; std::unordered_set<std::string> setAllBoneNamesInScene;
for(unsigned int m = 0; m < mScene->mNumMeshes; ++ m) for(unsigned int m = 0; m < mScene->mNumMeshes; ++ m)
@ -1887,7 +1887,7 @@ void FBXExporter::WriteObjects ()
setAllBoneNamesInScene.insert(pMesh->mBones[b]->mName.data); setAllBoneNamesInScene.insert(pMesh->mBones[b]->mName.data);
} }
aiMatrix4x4 mxTransIdentity; aiMatrix4x4 mxTransIdentity;
// and a map of nodes by bone name, as finding them is annoying. // and a map of nodes by bone name, as finding them is annoying.
std::map<std::string,aiNode*> node_by_bone; std::map<std::string,aiNode*> node_by_bone;
for (size_t mi = 0; mi < mScene->mNumMeshes; ++mi) { for (size_t mi = 0; mi < mScene->mNumMeshes; ++mi) {
@ -1956,7 +1956,7 @@ void FBXExporter::WriteObjects ()
} }
if (end) { break; } if (end) { break; }
} }
// if it was the skeleton root we can finish here // if it was the skeleton root we can finish here
if (end) { break; } if (end) { break; }
} }

8
code/AssetLib/FBX/FBXMaterial.cpp
View File

@ -142,8 +142,8 @@ Material::~Material() {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
Texture::Texture(uint64_t id, const Element& element, const Document& doc, const std::string& name) : Texture::Texture(uint64_t id, const Element& element, const Document& doc, const std::string& name) :
Object(id,element,name), Object(id,element,name),
uvScaling(1.0f,1.0f), uvScaling(1.0f,1.0f),
media(0) { media(0) {
const Scope& sc = GetRequiredScope(element); const Scope& sc = GetRequiredScope(element);
@ -278,8 +278,8 @@ void LayeredTexture::fillTexture(const Document& doc) {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
Video::Video(uint64_t id, const Element& element, const Document& doc, const std::string& name) : Video::Video(uint64_t id, const Element& element, const Document& doc, const std::string& name) :
Object(id,element,name), Object(id,element,name),
contentLength(0), contentLength(0),
content(0) { content(0) {
const Scope& sc = GetRequiredScope(element); const Scope& sc = GetRequiredScope(element);

2
code/AssetLib/FBX/FBXMeshGeometry.cpp
View File

@ -633,7 +633,7 @@ void MeshGeometry::ReadVertexDataMaterials(std::vector<int>& materials_out, cons
{ {
return; return;
} }
// materials are handled separately. First of all, they are assigned per-face // materials are handled separately. First of all, they are assigned per-face
// and not per polyvert. Secondly, ReferenceInformationType=IndexToDirect // and not per polyvert. Secondly, ReferenceInformationType=IndexToDirect
// has a slightly different meaning for materials. // has a slightly different meaning for materials.

8
code/AssetLib/FBX/FBXMeshGeometry.h
View File

@ -52,8 +52,8 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
namespace Assimp { namespace Assimp {
namespace FBX { namespace FBX {
/** /**
* DOM base class for all kinds of FBX geometry * DOM base class for all kinds of FBX geometry
*/ */
class Geometry : public Object class Geometry : public Object
{ {
@ -76,7 +76,7 @@ private:
typedef std::vector<int> MatIndexArray; typedef std::vector<int> MatIndexArray;
/** /**
* DOM class for FBX geometry of type "Mesh" * DOM class for FBX geometry of type "Mesh"
*/ */
class MeshGeometry : public Geometry class MeshGeometry : public Geometry
@ -84,7 +84,7 @@ class MeshGeometry : public Geometry
public: public:
/** The class constructor */ /** The class constructor */
MeshGeometry( uint64_t id, const Element& element, const std::string& name, const Document& doc ); MeshGeometry( uint64_t id, const Element& element, const std::string& name, const Document& doc );
/** The class destructor */ /** The class destructor */
virtual ~MeshGeometry(); virtual ~MeshGeometry();

6
code/AssetLib/FBX/FBXProperties.h
View File

@ -98,7 +98,7 @@ typedef std::fbx_unordered_map<std::string,std::shared_ptr<Property> > DirectPro
typedef std::fbx_unordered_map<std::string,const Property*> PropertyMap; typedef std::fbx_unordered_map<std::string,const Property*> PropertyMap;
typedef std::fbx_unordered_map<std::string,const Element*> LazyPropertyMap; typedef std::fbx_unordered_map<std::string,const Element*> LazyPropertyMap;
/** /**
* Represents a property table as can be found in the newer FBX files (Properties60, Properties70) * Represents a property table as can be found in the newer FBX files (Properties60, Properties70)
*/ */
class PropertyTable { class PropertyTable {
@ -130,7 +130,7 @@ private:
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
template <typename T> template <typename T>
inline inline
T PropertyGet(const PropertyTable& in, const std::string& name, const T& defaultValue) { T PropertyGet(const PropertyTable& in, const std::string& name, const T& defaultValue) {
const Property* const prop = in.Get(name); const Property* const prop = in.Get(name);
if( nullptr == prop) { if( nullptr == prop) {
@ -148,7 +148,7 @@ T PropertyGet(const PropertyTable& in, const std::string& name, const T& default
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
template <typename T> template <typename T>
inline inline
T PropertyGet(const PropertyTable& in, const std::string& name, bool& result, bool useTemplate=false ) { T PropertyGet(const PropertyTable& in, const std::string& name, bool& result, bool useTemplate=false ) {
const Property* prop = in.Get(name); const Property* prop = in.Get(name);
if( nullptr == prop) { if( nullptr == prop) {

2
code/AssetLib/FBX/FBXUtil.cpp
View File

@ -101,7 +101,7 @@ std::string GetLineAndColumnText(unsigned int line, unsigned int column)
std::string GetTokenText(const Token* tok) std::string GetTokenText(const Token* tok)
{ {
if(tok->IsBinary()) { if(tok->IsBinary()) {
return static_cast<std::string>( Formatter::format() << return static_cast<std::string>( Formatter::format() <<
" (" << TokenTypeString(tok->Type()) << " (" << TokenTypeString(tok->Type()) <<
", offset 0x" << std::hex << tok->Offset() << ") " ); ", offset 0x" << std::hex << tok->Offset() << ") " );
} }

4
code/AssetLib/HMP/HMPLoader.cpp
View File

@ -153,10 +153,10 @@ void HMPImporter::InternReadFile(const std::string &pFile,
} else { } else {
// Print the magic word to the logger // Print the magic word to the logger
std::string szBuffer = ai_str_toprintable((const char *)&iMagic, sizeof(iMagic)); std::string szBuffer = ai_str_toprintable((const char *)&iMagic, sizeof(iMagic));
delete[] mBuffer; delete[] mBuffer;
mBuffer = nullptr; mBuffer = nullptr;
// We're definitely unable to load this file // We're definitely unable to load this file
throw DeadlyImportError("Unknown HMP subformat ", pFile, throw DeadlyImportError("Unknown HMP subformat ", pFile,
". Magic word (", szBuffer, ") is not known"); ". Magic word (", szBuffer, ") is not known");

2
code/AssetLib/IFC/IFCCurve.cpp
View File

@ -514,7 +514,7 @@ IfcFloat Curve::GetParametricRangeDelta() const {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
size_t Curve::EstimateSampleCount(IfcFloat a, IfcFloat b) const { size_t Curve::EstimateSampleCount(IfcFloat a, IfcFloat b) const {
(void)(a); (void)(b); (void)(a); (void)(b);
ai_assert( InRange( a ) ); ai_assert( InRange( a ) );
ai_assert( InRange( b ) ); ai_assert( InRange( b ) );

8
code/AssetLib/IFC/IFCOpenings.cpp
View File

@ -911,14 +911,14 @@ size_t CloseWindows(ContourVector& contours,
// compare base poly normal and contour normal to detect if we need to reverse the face winding // compare base poly normal and contour normal to detect if we need to reverse the face winding
if(curmesh.mVertcnt.size() > 0) { if(curmesh.mVertcnt.size() > 0) {
IfcVector3 basePolyNormal = TempMesh::ComputePolygonNormal(curmesh.mVerts.data(), curmesh.mVertcnt.front()); IfcVector3 basePolyNormal = TempMesh::ComputePolygonNormal(curmesh.mVerts.data(), curmesh.mVertcnt.front());
std::vector<IfcVector3> worldSpaceContourVtx(it->contour.size()); std::vector<IfcVector3> worldSpaceContourVtx(it->contour.size());
for(size_t a = 0; a < it->contour.size(); ++a) for(size_t a = 0; a < it->contour.size(); ++a)
worldSpaceContourVtx[a] = minv * IfcVector3(it->contour[a].x, it->contour[a].y, 0.0); worldSpaceContourVtx[a] = minv * IfcVector3(it->contour[a].x, it->contour[a].y, 0.0);
IfcVector3 contourNormal = TempMesh::ComputePolygonNormal(worldSpaceContourVtx.data(), worldSpaceContourVtx.size()); IfcVector3 contourNormal = TempMesh::ComputePolygonNormal(worldSpaceContourVtx.data(), worldSpaceContourVtx.size());
reverseCountourFaces = (contourNormal * basePolyNormal) > 0.0; reverseCountourFaces = (contourNormal * basePolyNormal) > 0.0;
} }

232
code/AssetLib/IFC/IFCReaderGen1_2x3.cpp
View File

@ -5,8 +5,8 @@ Open Asset Import Library (ASSIMP)
Copyright (c) 2006-2020, ASSIMP Development Team Copyright (c) 2006-2020, ASSIMP Development Team
All rights reserved. All rights reserved.
Redistribution and use of this software in source and binary forms, Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the with or without modification, are permitted provided that the
following conditions are met: following conditions are met:
* Redistributions of source code must retain the above * Redistributions of source code must retain the above
@ -23,16 +23,16 @@ following conditions are met:
derived from this software without specific prior derived from this software without specific prior
written permission of the ASSIMP Development Team. written permission of the ASSIMP Development Team.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------- ----------------------------------------------------------------------
@ -1063,27 +1063,27 @@ template <> size_t GenericFill<IfcRoot>(const DB& db, const LIST& params, IfcRoo
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRoot"); } do { // convert the 'GlobalId' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRoot"); } do { // convert the 'GlobalId' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->GlobalId, arg, db ); break; } try { GenericConvert( in->GlobalId, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRoot to be a `IfcGloballyUniqueId`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRoot to be a `IfcGloballyUniqueId`")); }
} while(0); } while(0);
do { // convert the 'OwnerHistory' argument do { // convert the 'OwnerHistory' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->OwnerHistory, arg, db ); break; } try { GenericConvert( in->OwnerHistory, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRoot to be a `IfcOwnerHistory`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRoot to be a `IfcOwnerHistory`")); }
} while(0); } while(0);
do { // convert the 'Name' argument do { // convert the 'Name' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[2]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRoot to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRoot to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'Description' argument do { // convert the 'Description' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[3]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Description, arg, db ); break; } try { GenericConvert( in->Description, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRoot to be a `IfcText`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRoot to be a `IfcText`")); }
} while(0); } while(0);
return base; return base;
@ -1150,27 +1150,27 @@ template <> size_t GenericFill<IfcRepresentation>(const DB& db, const LIST& para
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRepresentation"); } do { // convert the 'ContextOfItems' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRepresentation"); } do { // convert the 'ContextOfItems' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->ContextOfItems, arg, db ); break; } try { GenericConvert( in->ContextOfItems, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentation to be a `IfcRepresentationContext`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentation to be a `IfcRepresentationContext`")); }
} while(0); } while(0);
do { // convert the 'RepresentationIdentifier' argument do { // convert the 'RepresentationIdentifier' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RepresentationIdentifier, arg, db ); break; } try { GenericConvert( in->RepresentationIdentifier, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentation to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentation to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'RepresentationType' argument do { // convert the 'RepresentationType' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[2]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RepresentationType, arg, db ); break; } try { GenericConvert( in->RepresentationType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRepresentation to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRepresentation to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'Items' argument do { // convert the 'Items' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[3]=true; break; }
try { GenericConvert( in->Items, arg, db ); break; } try { GenericConvert( in->Items, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRepresentation to be a `SET [1:?] OF IfcRepresentationItem`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRepresentation to be a `SET [1:?] OF IfcRepresentationItem`")); }
} while(0); } while(0);
return base; return base;
@ -1237,7 +1237,7 @@ template <> size_t GenericFill<IfcObject>(const DB& db, const LIST& params, IfcO
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcObject,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcObject,1>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ObjectType, arg, db ); break; } try { GenericConvert( in->ObjectType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcObject to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcObject to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -1290,20 +1290,20 @@ template <> size_t GenericFill<IfcProductRepresentation>(const DB& db, const LIS
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProductRepresentation to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProductRepresentation to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'Description' argument do { // convert the 'Description' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Description, arg, db ); break; } try { GenericConvert( in->Description, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProductRepresentation to be a `IfcText`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProductRepresentation to be a `IfcText`")); }
} while(0); } while(0);
do { // convert the 'Representations' argument do { // convert the 'Representations' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->Representations, arg, db ); break; } try { GenericConvert( in->Representations, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcProductRepresentation to be a `LIST [1:?] OF IfcRepresentation`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcProductRepresentation to be a `LIST [1:?] OF IfcRepresentation`")); }
} while(0); } while(0);
return base; return base;
@ -1316,14 +1316,14 @@ template <> size_t GenericFill<IfcProduct>(const DB& db, const LIST& params, Ifc
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ObjectPlacement, arg, db ); break; } try { GenericConvert( in->ObjectPlacement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProduct to be a `IfcObjectPlacement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProduct to be a `IfcObjectPlacement`")); }
} while(0); } while(0);
do { // convert the 'Representation' argument do { // convert the 'Representation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Representation, arg, db ); break; } try { GenericConvert( in->Representation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProduct to be a `IfcProductRepresentation`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProduct to be a `IfcProductRepresentation`")); }
} while(0); } while(0);
return base; return base;
@ -1336,7 +1336,7 @@ template <> size_t GenericFill<IfcElement>(const DB& db, const LIST& params, Ifc
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElement,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElement,1>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Tag, arg, db ); break; } try { GenericConvert( in->Tag, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcElement to be a `IfcIdentifier`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcElement to be a `IfcIdentifier`")); }
} while(0); } while(0);
return base; return base;
@ -1374,13 +1374,13 @@ template <> size_t GenericFill<IfcCompositeCurve>(const DB& db, const LIST& para
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCompositeCurve"); } do { // convert the 'Segments' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCompositeCurve"); } do { // convert the 'Segments' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Segments, arg, db ); break; } try { GenericConvert( in->Segments, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurve to be a `LIST [1:?] OF IfcCompositeCurveSegment`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurve to be a `LIST [1:?] OF IfcCompositeCurveSegment`")); }
} while(0); } while(0);
do { // convert the 'SelfIntersect' argument do { // convert the 'SelfIntersect' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->SelfIntersect, arg, db ); break; } try { GenericConvert( in->SelfIntersect, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurve to be a `LOGICAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurve to be a `LOGICAL`")); }
} while(0); } while(0);
return base; return base;
@ -1400,27 +1400,27 @@ template <> size_t GenericFill<IfcCartesianTransformationOperator>(const DB& db,
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Axis1, arg, db ); break; } try { GenericConvert( in->Axis1, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianTransformationOperator to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
} while(0); } while(0);
do { // convert the 'Axis2' argument do { // convert the 'Axis2' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Axis2, arg, db ); break; } try { GenericConvert( in->Axis2, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCartesianTransformationOperator to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
} while(0); } while(0);
do { // convert the 'LocalOrigin' argument do { // convert the 'LocalOrigin' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->LocalOrigin, arg, db ); break; } try { GenericConvert( in->LocalOrigin, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCartesianTransformationOperator to be a `IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCartesianTransformationOperator to be a `IfcCartesianPoint`")); }
} while(0); } while(0);
do { // convert the 'Scale' argument do { // convert the 'Scale' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[3]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Scale, arg, db ); break; } try { GenericConvert( in->Scale, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCartesianTransformationOperator to be a `REAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCartesianTransformationOperator to be a `REAL`")); }
} while(0); } while(0);
return base; return base;
@ -1433,7 +1433,7 @@ template <> size_t GenericFill<IfcCartesianTransformationOperator3D>(const DB& d
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator3D,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator3D,1>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Axis3, arg, db ); break; } try { GenericConvert( in->Axis3, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCartesianTransformationOperator3D to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCartesianTransformationOperator3D to be a `IfcDirection`")); }
} while(0); } while(0);
return base; return base;
@ -1445,14 +1445,14 @@ template <> size_t GenericFill<IfcProperty>(const DB& db, const LIST& params, If
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProperty"); } do { // convert the 'Name' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProperty"); } do { // convert the 'Name' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProperty to be a `IfcIdentifier`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProperty to be a `IfcIdentifier`")); }
} while(0); } while(0);
do { // convert the 'Description' argument do { // convert the 'Description' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Description, arg, db ); break; } try { GenericConvert( in->Description, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProperty to be a `IfcText`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProperty to be a `IfcText`")); }
} while(0); } while(0);
return base; return base;
@ -1497,7 +1497,7 @@ template <> size_t GenericFill<IfcElementarySurface>(const DB& db, const LIST& p
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcElementarySurface"); } do { // convert the 'Position' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcElementarySurface"); } do { // convert the 'Position' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElementarySurface,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElementarySurface,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Position, arg, db ); break; } try { GenericConvert( in->Position, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcElementarySurface to be a `IfcAxis2Placement3D`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcElementarySurface to be a `IfcAxis2Placement3D`")); }
} while(0); } while(0);
return base; return base;
@ -1515,19 +1515,19 @@ template <> size_t GenericFill<IfcBooleanResult>(const DB& db, const LIST& param
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanResult"); } do { // convert the 'Operator' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanResult"); } do { // convert the 'Operator' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Operator, arg, db ); break; } try { GenericConvert( in->Operator, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBooleanResult to be a `IfcBooleanOperator`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBooleanResult to be a `IfcBooleanOperator`")); }
} while(0); } while(0);
do { // convert the 'FirstOperand' argument do { // convert the 'FirstOperand' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->FirstOperand, arg, db ); break; } try { GenericConvert( in->FirstOperand, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBooleanResult to be a `IfcBooleanOperand`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
} while(0); } while(0);
do { // convert the 'SecondOperand' argument do { // convert the 'SecondOperand' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->SecondOperand, arg, db ); break; } try { GenericConvert( in->SecondOperand, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBooleanResult to be a `IfcBooleanOperand`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
} while(0); } while(0);
return base; return base;
@ -1551,7 +1551,7 @@ template <> size_t GenericFill<IfcManifoldSolidBrep>(const DB& db, const LIST& p
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcManifoldSolidBrep"); } do { // convert the 'Outer' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcManifoldSolidBrep"); } do { // convert the 'Outer' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcManifoldSolidBrep,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcManifoldSolidBrep,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Outer, arg, db ); break; } try { GenericConvert( in->Outer, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcManifoldSolidBrep to be a `IfcClosedShell`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcManifoldSolidBrep to be a `IfcClosedShell`")); }
} while(0); } while(0);
return base; return base;
@ -1630,12 +1630,12 @@ template <> size_t GenericFill<IfcRelFillsElement>(const DB& db, const LIST& par
size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in)); size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelFillsElement"); } do { // convert the 'RelatingOpeningElement' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelFillsElement"); } do { // convert the 'RelatingOpeningElement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatingOpeningElement, arg, db ); break; } try { GenericConvert( in->RelatingOpeningElement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelFillsElement to be a `IfcOpeningElement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelFillsElement to be a `IfcOpeningElement`")); }
} while(0); } while(0);
do { // convert the 'RelatedBuildingElement' argument do { // convert the 'RelatedBuildingElement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatedBuildingElement, arg, db ); break; } try { GenericConvert( in->RelatedBuildingElement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelFillsElement to be a `IfcElement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelFillsElement to be a `IfcElement`")); }
} while(0); } while(0);
return base; return base;
@ -1681,12 +1681,12 @@ template <> size_t GenericFill<IfcRelContainedInSpatialStructure>(const DB& db,
size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in)); size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelContainedInSpatialStructure"); } do { // convert the 'RelatedElements' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelContainedInSpatialStructure"); } do { // convert the 'RelatedElements' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatedElements, arg, db ); break; } try { GenericConvert( in->RelatedElements, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelContainedInSpatialStructure to be a `SET [1:?] OF IfcProduct`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelContainedInSpatialStructure to be a `SET [1:?] OF IfcProduct`")); }
} while(0); } while(0);
do { // convert the 'RelatingStructure' argument do { // convert the 'RelatingStructure' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatingStructure, arg, db ); break; } try { GenericConvert( in->RelatingStructure, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelContainedInSpatialStructure to be a `IfcSpatialStructureElement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelContainedInSpatialStructure to be a `IfcSpatialStructureElement`")); }
} while(0); } while(0);
return base; return base;
@ -1772,7 +1772,7 @@ template <> size_t GenericFill<IfcDirection>(const DB& db, const LIST& params, I
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcDirection"); } do { // convert the 'DirectionRatios' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcDirection"); } do { // convert the 'DirectionRatios' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->DirectionRatios, arg, db ); break; } try { GenericConvert( in->DirectionRatios, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcDirection to be a `LIST [2:3] OF REAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcDirection to be a `LIST [2:3] OF REAL`")); }
} while(0); } while(0);
return base; return base;
@ -1784,14 +1784,14 @@ template <> size_t GenericFill<IfcProfileDef>(const DB& db, const LIST& params,
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProfileDef"); } do { // convert the 'ProfileType' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProfileDef"); } do { // convert the 'ProfileType' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->ProfileType, arg, db ); break; } try { GenericConvert( in->ProfileType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProfileDef to be a `IfcProfileTypeEnum`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProfileDef to be a `IfcProfileTypeEnum`")); }
} while(0); } while(0);
do { // convert the 'ProfileName' argument do { // convert the 'ProfileName' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ProfileName, arg, db ); break; } try { GenericConvert( in->ProfileName, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProfileDef to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProfileDef to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -1803,7 +1803,7 @@ template <> size_t GenericFill<IfcParameterizedProfileDef>(const DB& db, const L
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcParameterizedProfileDef"); } do { // convert the 'Position' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcParameterizedProfileDef"); } do { // convert the 'Position' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcParameterizedProfileDef,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcParameterizedProfileDef,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Position, arg, db ); break; } try { GenericConvert( in->Position, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcParameterizedProfileDef to be a `IfcAxis2Placement2D`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcParameterizedProfileDef to be a `IfcAxis2Placement2D`")); }
} while(0); } while(0);
return base; return base;
@ -1910,7 +1910,7 @@ template <> size_t GenericFill<IfcCircleProfileDef>(const DB& db, const LIST& pa
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCircleProfileDef"); } do { // convert the 'Radius' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCircleProfileDef"); } do { // convert the 'Radius' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCircleProfileDef,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCircleProfileDef,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Radius, arg, db ); break; } try { GenericConvert( in->Radius, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCircleProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCircleProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1921,7 +1921,7 @@ template <> size_t GenericFill<IfcCircleHollowProfileDef>(const DB& db, const LI
size_t base = GenericFill(db,params,static_cast<IfcCircleProfileDef*>(in)); size_t base = GenericFill(db,params,static_cast<IfcCircleProfileDef*>(in));
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCircleHollowProfileDef"); } do { // convert the 'WallThickness' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCircleHollowProfileDef"); } do { // convert the 'WallThickness' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->WallThickness, arg, db ); break; } try { GenericConvert( in->WallThickness, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCircleHollowProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCircleHollowProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1933,7 +1933,7 @@ template <> size_t GenericFill<IfcPlacement>(const DB& db, const LIST& params, I
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlacement"); } do { // convert the 'Location' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlacement"); } do { // convert the 'Location' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPlacement,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPlacement,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Location, arg, db ); break; } try { GenericConvert( in->Location, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPlacement to be a `IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPlacement to be a `IfcCartesianPoint`")); }
} while(0); } while(0);
return base; return base;
@ -1945,13 +1945,13 @@ template <> size_t GenericFill<IfcAxis2Placement3D>(const DB& db, const LIST& pa
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcAxis2Placement3D"); } do { // convert the 'Axis' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcAxis2Placement3D"); } do { // convert the 'Axis' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Axis, arg, db ); break; } try { GenericConvert( in->Axis, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement3D to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement3D to be a `IfcDirection`")); }
} while(0); } while(0);
do { // convert the 'RefDirection' argument do { // convert the 'RefDirection' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RefDirection, arg, db ); break; } try { GenericConvert( in->RefDirection, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcAxis2Placement3D to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcAxis2Placement3D to be a `IfcDirection`")); }
} while(0); } while(0);
return base; return base;
@ -1964,7 +1964,7 @@ template <> size_t GenericFill<IfcPresentationStyle>(const DB& db, const LIST& p
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPresentationStyle,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPresentationStyle,1>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyle to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyle to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -1982,17 +1982,17 @@ template <> size_t GenericFill<IfcCompositeCurveSegment>(const DB& db, const LIS
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcCompositeCurveSegment"); } do { // convert the 'Transition' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcCompositeCurveSegment"); } do { // convert the 'Transition' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Transition, arg, db ); break; } try { GenericConvert( in->Transition, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurveSegment to be a `IfcTransitionCode`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurveSegment to be a `IfcTransitionCode`")); }
} while(0); } while(0);
do { // convert the 'SameSense' argument do { // convert the 'SameSense' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->SameSense, arg, db ); break; } try { GenericConvert( in->SameSense, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurveSegment to be a `BOOLEAN`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurveSegment to be a `BOOLEAN`")); }
} while(0); } while(0);
do { // convert the 'ParentCurve' argument do { // convert the 'ParentCurve' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ParentCurve, arg, db ); break; } try { GenericConvert( in->ParentCurve, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCompositeCurveSegment to be a `IfcCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCompositeCurveSegment to be a `IfcCurve`")); }
} while(0); } while(0);
return base; return base;
@ -2004,13 +2004,13 @@ template <> size_t GenericFill<IfcRectangleProfileDef>(const DB& db, const LIST&
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRectangleProfileDef"); } do { // convert the 'XDim' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRectangleProfileDef"); } do { // convert the 'XDim' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->XDim, arg, db ); break; } try { GenericConvert( in->XDim, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'YDim' argument do { // convert the 'YDim' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->YDim, arg, db ); break; } try { GenericConvert( in->YDim, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -2106,12 +2106,12 @@ template <> size_t GenericFill<IfcLocalPlacement>(const DB& db, const LIST& para
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLocalPlacement"); } do { // convert the 'PlacementRelTo' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLocalPlacement"); } do { // convert the 'PlacementRelTo' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->PlacementRelTo, arg, db ); break; } try { GenericConvert( in->PlacementRelTo, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLocalPlacement to be a `IfcObjectPlacement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLocalPlacement to be a `IfcObjectPlacement`")); }
} while(0); } while(0);
do { // convert the 'RelativePlacement' argument do { // convert the 'RelativePlacement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelativePlacement, arg, db ); break; } try { GenericConvert( in->RelativePlacement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLocalPlacement to be a `IfcAxis2Placement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLocalPlacement to be a `IfcAxis2Placement`")); }
} while(0); } while(0);
return base; return base;
@ -2123,13 +2123,13 @@ template <> size_t GenericFill<IfcSweptAreaSolid>(const DB& db, const LIST& para
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSweptAreaSolid"); } do { // convert the 'SweptArea' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSweptAreaSolid"); } do { // convert the 'SweptArea' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->SweptArea, arg, db ); break; } try { GenericConvert( in->SweptArea, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptAreaSolid to be a `IfcProfileDef`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptAreaSolid to be a `IfcProfileDef`")); }
} while(0); } while(0);
do { // convert the 'Position' argument do { // convert the 'Position' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->Position, arg, db ); break; } try { GenericConvert( in->Position, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptAreaSolid to be a `IfcAxis2Placement3D`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptAreaSolid to be a `IfcAxis2Placement3D`")); }
} while(0); } while(0);
return base; return base;
@ -2140,12 +2140,12 @@ template <> size_t GenericFill<IfcRevolvedAreaSolid>(const DB& db, const LIST& p
size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in)); size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRevolvedAreaSolid"); } do { // convert the 'Axis' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRevolvedAreaSolid"); } do { // convert the 'Axis' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Axis, arg, db ); break; } try { GenericConvert( in->Axis, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRevolvedAreaSolid to be a `IfcAxis1Placement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRevolvedAreaSolid to be a `IfcAxis1Placement`")); }
} while(0); } while(0);
do { // convert the 'Angle' argument do { // convert the 'Angle' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Angle, arg, db ); break; } try { GenericConvert( in->Angle, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRevolvedAreaSolid to be a `IfcPlaneAngleMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRevolvedAreaSolid to be a `IfcPlaneAngleMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -2170,28 +2170,28 @@ template <> size_t GenericFill<IfcSweptDiskSolid>(const DB& db, const LIST& para
size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in)); size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcSweptDiskSolid"); } do { // convert the 'Directrix' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcSweptDiskSolid"); } do { // convert the 'Directrix' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Directrix, arg, db ); break; } try { GenericConvert( in->Directrix, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptDiskSolid to be a `IfcCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptDiskSolid to be a `IfcCurve`")); }
} while(0); } while(0);
do { // convert the 'Radius' argument do { // convert the 'Radius' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Radius, arg, db ); break; } try { GenericConvert( in->Radius, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'InnerRadius' argument do { // convert the 'InnerRadius' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->InnerRadius, arg, db ); break; } try { GenericConvert( in->InnerRadius, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'StartParam' argument do { // convert the 'StartParam' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->StartParam, arg, db ); break; } try { GenericConvert( in->StartParam, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSweptDiskSolid to be a `IfcParameterValue`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
} while(0); } while(0);
do { // convert the 'EndParam' argument do { // convert the 'EndParam' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->EndParam, arg, db ); break; } try { GenericConvert( in->EndParam, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSweptDiskSolid to be a `IfcParameterValue`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
} while(0); } while(0);
return base; return base;
@ -2203,13 +2203,13 @@ template <> size_t GenericFill<IfcHalfSpaceSolid>(const DB& db, const LIST& para
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcHalfSpaceSolid"); } do { // convert the 'BaseSurface' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcHalfSpaceSolid"); } do { // convert the 'BaseSurface' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->BaseSurface, arg, db ); break; } try { GenericConvert( in->BaseSurface, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcHalfSpaceSolid to be a `IfcSurface`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcHalfSpaceSolid to be a `IfcSurface`")); }
} while(0); } while(0);
do { // convert the 'AgreementFlag' argument do { // convert the 'AgreementFlag' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->AgreementFlag, arg, db ); break; } try { GenericConvert( in->AgreementFlag, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcHalfSpaceSolid to be a `BOOLEAN`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcHalfSpaceSolid to be a `BOOLEAN`")); }
} while(0); } while(0);
return base; return base;
@ -2220,12 +2220,12 @@ template <> size_t GenericFill<IfcPolygonalBoundedHalfSpace>(const DB& db, const
size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in)); size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPolygonalBoundedHalfSpace"); } do { // convert the 'Position' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPolygonalBoundedHalfSpace"); } do { // convert the 'Position' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Position, arg, db ); break; } try { GenericConvert( in->Position, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPolygonalBoundedHalfSpace to be a `IfcAxis2Placement3D`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPolygonalBoundedHalfSpace to be a `IfcAxis2Placement3D`")); }
} while(0); } while(0);
do { // convert the 'PolygonalBoundary' argument do { // convert the 'PolygonalBoundary' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->PolygonalBoundary, arg, db ); break; } try { GenericConvert( in->PolygonalBoundary, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPolygonalBoundedHalfSpace to be a `IfcBoundedCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPolygonalBoundedHalfSpace to be a `IfcBoundedCurve`")); }
} while(0); } while(0);
return base; return base;
@ -2251,23 +2251,23 @@ template <> size_t GenericFill<IfcProject>(const DB& db, const LIST& params, Ifc
if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcProject"); } do { // convert the 'LongName' argument if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcProject"); } do { // convert the 'LongName' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->LongName, arg, db ); break; } try { GenericConvert( in->LongName, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProject to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProject to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'Phase' argument do { // convert the 'Phase' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Phase, arg, db ); break; } try { GenericConvert( in->Phase, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProject to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProject to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'RepresentationContexts' argument do { // convert the 'RepresentationContexts' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RepresentationContexts, arg, db ); break; } try { GenericConvert( in->RepresentationContexts, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcProject to be a `SET [1:?] OF IfcRepresentationContext`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcProject to be a `SET [1:?] OF IfcRepresentationContext`")); }
} while(0); } while(0);
do { // convert the 'UnitsInContext' argument do { // convert the 'UnitsInContext' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->UnitsInContext, arg, db ); break; } try { GenericConvert( in->UnitsInContext, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcProject to be a `IfcUnitAssignment`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcProject to be a `IfcUnitAssignment`")); }
} while(0); } while(0);
return base; return base;
@ -2327,27 +2327,27 @@ template <> size_t GenericFill<IfcTrimmedCurve>(const DB& db, const LIST& params
size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in)); size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcTrimmedCurve"); } do { // convert the 'BasisCurve' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcTrimmedCurve"); } do { // convert the 'BasisCurve' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->BasisCurve, arg, db ); break; } try { GenericConvert( in->BasisCurve, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcTrimmedCurve to be a `IfcCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcTrimmedCurve to be a `IfcCurve`")); }
} while(0); } while(0);
do { // convert the 'Trim1' argument do { // convert the 'Trim1' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Trim1, arg, db ); break; } try { GenericConvert( in->Trim1, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
} while(0); } while(0);
do { // convert the 'Trim2' argument do { // convert the 'Trim2' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Trim2, arg, db ); break; } try { GenericConvert( in->Trim2, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
} while(0); } while(0);
do { // convert the 'SenseAgreement' argument do { // convert the 'SenseAgreement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->SenseAgreement, arg, db ); break; } try { GenericConvert( in->SenseAgreement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcTrimmedCurve to be a `BOOLEAN`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcTrimmedCurve to be a `BOOLEAN`")); }
} while(0); } while(0);
do { // convert the 'MasterRepresentation' argument do { // convert the 'MasterRepresentation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->MasterRepresentation, arg, db ); break; } try { GenericConvert( in->MasterRepresentation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcTrimmedCurve to be a `IfcTrimmingPreference`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcTrimmedCurve to be a `IfcTrimmingPreference`")); }
} while(0); } while(0);
return base; return base;
@ -2359,7 +2359,7 @@ template <> size_t GenericFill<IfcRelDefines>(const DB& db, const LIST& params,
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRelDefines"); } do { // convert the 'RelatedObjects' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRelDefines"); } do { // convert the 'RelatedObjects' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefines,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefines,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->RelatedObjects, arg, db ); break; } try { GenericConvert( in->RelatedObjects, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDefines to be a `SET [1:?] OF IfcObject`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDefines to be a `SET [1:?] OF IfcObject`")); }
} while(0); } while(0);
return base; return base;
@ -2371,7 +2371,7 @@ template <> size_t GenericFill<IfcRelDefinesByProperties>(const DB& db, const LI
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDefinesByProperties"); } do { // convert the 'RelatingPropertyDefinition' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDefinesByProperties"); } do { // convert the 'RelatingPropertyDefinition' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefinesByProperties,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefinesByProperties,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->RelatingPropertyDefinition, arg, db ); break; } try { GenericConvert( in->RelatingPropertyDefinition, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDefinesByProperties to be a `IfcPropertySetDefinition`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDefinesByProperties to be a `IfcPropertySetDefinition`")); }
} while(0); } while(0);
return base; return base;
@ -2404,7 +2404,7 @@ template <> size_t GenericFill<IfcArbitraryOpenProfileDef>(const DB& db, const L
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryOpenProfileDef"); } do { // convert the 'Curve' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryOpenProfileDef"); } do { // convert the 'Curve' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryOpenProfileDef,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryOpenProfileDef,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Curve, arg, db ); break; } try { GenericConvert( in->Curve, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryOpenProfileDef to be a `IfcBoundedCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryOpenProfileDef to be a `IfcBoundedCurve`")); }
} while(0); } while(0);
return base; return base;
@ -2570,13 +2570,13 @@ template <> size_t GenericFill<IfcRelDecomposes>(const DB& db, const LIST& param
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDecomposes"); } do { // convert the 'RelatingObject' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDecomposes"); } do { // convert the 'RelatingObject' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->RelatingObject, arg, db ); break; } try { GenericConvert( in->RelatingObject, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDecomposes to be a `IfcObjectDefinition`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDecomposes to be a `IfcObjectDefinition`")); }
} while(0); } while(0);
do { // convert the 'RelatedObjects' argument do { // convert the 'RelatedObjects' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->RelatedObjects, arg, db ); break; } try { GenericConvert( in->RelatedObjects, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDecomposes to be a `SET [1:?] OF IfcObjectDefinition`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDecomposes to be a `SET [1:?] OF IfcObjectDefinition`")); }
} while(0); } while(0);
return base; return base;
@ -2594,7 +2594,7 @@ template <> size_t GenericFill<IfcPolyline>(const DB& db, const LIST& params, If
size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in)); size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyline"); } do { // convert the 'Points' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyline"); } do { // convert the 'Points' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Points, arg, db ); break; } try { GenericConvert( in->Points, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyline to be a `LIST [2:?] OF IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyline to be a `LIST [2:?] OF IfcCartesianPoint`")); }
} while(0); } while(0);
return base; return base;
@ -2626,12 +2626,12 @@ template <> size_t GenericFill<IfcMappedItem>(const DB& db, const LIST& params,
size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMappedItem"); } do { // convert the 'MappingSource' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMappedItem"); } do { // convert the 'MappingSource' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->MappingSource, arg, db ); break; } try { GenericConvert( in->MappingSource, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMappedItem to be a `IfcRepresentationMap`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMappedItem to be a `IfcRepresentationMap`")); }
} while(0); } while(0);
do { // convert the 'MappingTarget' argument do { // convert the 'MappingTarget' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->MappingTarget, arg, db ); break; } try { GenericConvert( in->MappingTarget, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMappedItem to be a `IfcCartesianTransformationOperator`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMappedItem to be a `IfcCartesianTransformationOperator`")); }
} while(0); } while(0);
return base; return base;
@ -2658,13 +2658,13 @@ template <> size_t GenericFill<IfcNamedUnit>(const DB& db, const LIST& params, I
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Dimensions, arg, db ); break; } try { GenericConvert( in->Dimensions, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcNamedUnit to be a `IfcDimensionalExponents`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcNamedUnit to be a `IfcDimensionalExponents`")); }
} while(0); } while(0);
do { // convert the 'UnitType' argument do { // convert the 'UnitType' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->UnitType, arg, db ); break; } try { GenericConvert( in->UnitType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcNamedUnit to be a `IfcUnitEnum`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcNamedUnit to be a `IfcUnitEnum`")); }
} while(0); } while(0);
return base; return base;
@ -2719,13 +2719,13 @@ template <> size_t GenericFill<IfcSpatialStructureElement>(const DB& db, const L
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->LongName, arg, db ); break; } try { GenericConvert( in->LongName, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSpatialStructureElement to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSpatialStructureElement to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'CompositionType' argument do { // convert the 'CompositionType' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->CompositionType, arg, db ); break; } try { GenericConvert( in->CompositionType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSpatialStructureElement to be a `IfcElementCompositionEnum`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSpatialStructureElement to be a `IfcElementCompositionEnum`")); }
} while(0); } while(0);
return base; return base;
@ -2737,19 +2737,19 @@ template <> size_t GenericFill<IfcBuilding>(const DB& db, const LIST& params, If
if (params.GetSize() < 12) { throw STEP::TypeError("expected 12 arguments to IfcBuilding"); } do { // convert the 'ElevationOfRefHeight' argument if (params.GetSize() < 12) { throw STEP::TypeError("expected 12 arguments to IfcBuilding"); } do { // convert the 'ElevationOfRefHeight' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ElevationOfRefHeight, arg, db ); break; } try { GenericConvert( in->ElevationOfRefHeight, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcBuilding to be a `IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcBuilding to be a `IfcLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'ElevationOfTerrain' argument do { // convert the 'ElevationOfTerrain' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ElevationOfTerrain, arg, db ); break; } try { GenericConvert( in->ElevationOfTerrain, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcBuilding to be a `IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcBuilding to be a `IfcLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'BuildingAddress' argument do { // convert the 'BuildingAddress' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->BuildingAddress, arg, db ); break; } try { GenericConvert( in->BuildingAddress, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcBuilding to be a `IfcPostalAddress`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcBuilding to be a `IfcPostalAddress`")); }
} while(0); } while(0);
return base; return base;
@ -2761,7 +2761,7 @@ template <> size_t GenericFill<IfcConnectedFaceSet>(const DB& db, const LIST& pa
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConnectedFaceSet"); } do { // convert the 'CfsFaces' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConnectedFaceSet"); } do { // convert the 'CfsFaces' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConnectedFaceSet,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConnectedFaceSet,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->CfsFaces, arg, db ); break; } try { GenericConvert( in->CfsFaces, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConnectedFaceSet to be a `SET [1:?] OF IfcFace`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConnectedFaceSet to be a `SET [1:?] OF IfcFace`")); }
} while(0); } while(0);
return base; return base;
@ -2787,7 +2787,7 @@ template <> size_t GenericFill<IfcConic>(const DB& db, const LIST& params, IfcCo
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConic"); } do { // convert the 'Position' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConic"); } do { // convert the 'Position' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConic,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConic,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Position, arg, db ); break; } try { GenericConvert( in->Position, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConic to be a `IfcAxis2Placement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConic to be a `IfcAxis2Placement`")); }
} while(0); } while(0);
return base; return base;
@ -2834,32 +2834,32 @@ template <> size_t GenericFill<IfcIShapeProfileDef>(const DB& db, const LIST& pa
if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcIShapeProfileDef"); } do { // convert the 'OverallWidth' argument if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcIShapeProfileDef"); } do { // convert the 'OverallWidth' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->OverallWidth, arg, db ); break; } try { GenericConvert( in->OverallWidth, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'OverallDepth' argument do { // convert the 'OverallDepth' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->OverallDepth, arg, db ); break; } try { GenericConvert( in->OverallDepth, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'WebThickness' argument do { // convert the 'WebThickness' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->WebThickness, arg, db ); break; } try { GenericConvert( in->WebThickness, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'FlangeThickness' argument do { // convert the 'FlangeThickness' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[3]=true; break; }
try { GenericConvert( in->FlangeThickness, arg, db ); break; } try { GenericConvert( in->FlangeThickness, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'FilletRadius' argument do { // convert the 'FilletRadius' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[4]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[4]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->FilletRadius, arg, db ); break; } try { GenericConvert( in->FilletRadius, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -2933,13 +2933,13 @@ template <> size_t GenericFill<IfcPropertyListValue>(const DB& db, const LIST& p
size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in)); size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyListValue"); } do { // convert the 'ListValues' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyListValue"); } do { // convert the 'ListValues' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ListValues, arg, db ); break; } try { GenericConvert( in->ListValues, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertyListValue to be a `LIST [1:?] OF IfcValue`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertyListValue to be a `LIST [1:?] OF IfcValue`")); }
} while(0); } while(0);
do { // convert the 'Unit' argument do { // convert the 'Unit' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Unit, arg, db ); break; } try { GenericConvert( in->Unit, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertyListValue to be a `IfcUnit`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertyListValue to be a `IfcUnit`")); }
} while(0); } while(0);
return base; return base;
@ -2965,13 +2965,13 @@ template <> size_t GenericFill<IfcDoor>(const DB& db, const LIST& params, IfcDoo
if (params.GetSize() < 10) { throw STEP::TypeError("expected 10 arguments to IfcDoor"); } do { // convert the 'OverallHeight' argument if (params.GetSize() < 10) { throw STEP::TypeError("expected 10 arguments to IfcDoor"); } do { // convert the 'OverallHeight' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->OverallHeight, arg, db ); break; } try { GenericConvert( in->OverallHeight, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcDoor to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'OverallWidth' argument do { // convert the 'OverallWidth' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->OverallWidth, arg, db ); break; } try { GenericConvert( in->OverallWidth, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcDoor to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -2984,20 +2984,20 @@ template <> size_t GenericFill<IfcStyledItem>(const DB& db, const LIST& params,
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Item, arg, db ); break; } try { GenericConvert( in->Item, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcStyledItem to be a `IfcRepresentationItem`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcStyledItem to be a `IfcRepresentationItem`")); }
} while(0); } while(0);
do { // convert the 'Styles' argument do { // convert the 'Styles' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->Styles, arg, db ); break; } try { GenericConvert( in->Styles, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcStyledItem to be a `SET [1:?] OF IfcPresentationStyleAssignment`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcStyledItem to be a `SET [1:?] OF IfcPresentationStyleAssignment`")); }
} while(0); } while(0);
do { // convert the 'Name' argument do { // convert the 'Name' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[2]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcStyledItem to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcStyledItem to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -3023,7 +3023,7 @@ template <> size_t GenericFill<IfcArbitraryClosedProfileDef>(const DB& db, const
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryClosedProfileDef"); } do { // convert the 'OuterCurve' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryClosedProfileDef"); } do { // convert the 'OuterCurve' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryClosedProfileDef,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryClosedProfileDef,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->OuterCurve, arg, db ); break; } try { GenericConvert( in->OuterCurve, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryClosedProfileDef to be a `IfcCurve`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryClosedProfileDef to be a `IfcCurve`")); }
} while(0); } while(0);
return base; return base;
@ -3041,12 +3041,12 @@ template <> size_t GenericFill<IfcLine>(const DB& db, const LIST& params, IfcLin
size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in)); size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLine"); } do { // convert the 'Pnt' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLine"); } do { // convert the 'Pnt' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Pnt, arg, db ); break; } try { GenericConvert( in->Pnt, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLine to be a `IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLine to be a `IfcCartesianPoint`")); }
} while(0); } while(0);
do { // convert the 'Dir' argument do { // convert the 'Dir' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Dir, arg, db ); break; } try { GenericConvert( in->Dir, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLine to be a `IfcVector`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLine to be a `IfcVector`")); }
} while(0); } while(0);
return base; return base;
@ -3072,13 +3072,13 @@ template <> size_t GenericFill<IfcPropertySingleValue>(const DB& db, const LIST&
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySingleValue"); } do { // convert the 'NominalValue' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySingleValue"); } do { // convert the 'NominalValue' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->NominalValue, arg, db ); break; } try { GenericConvert( in->NominalValue, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertySingleValue to be a `IfcValue`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertySingleValue to be a `IfcValue`")); }
} while(0); } while(0);
do { // convert the 'Unit' argument do { // convert the 'Unit' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Unit, arg, db ); break; } try { GenericConvert( in->Unit, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertySingleValue to be a `IfcUnit`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertySingleValue to be a `IfcUnit`")); }
} while(0); } while(0);
return base; return base;
@ -3111,7 +3111,7 @@ template <> size_t GenericFill<IfcSurfaceStyleShading>(const DB& db, const LIST&
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleShading"); } do { // convert the 'SurfaceColour' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleShading"); } do { // convert the 'SurfaceColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSurfaceStyleShading,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSurfaceStyleShading,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->SurfaceColour, arg, db ); break; } try { GenericConvert( in->SurfaceColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleShading to be a `IfcColourRgb`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleShading to be a `IfcColourRgb`")); }
} while(0); } while(0);
return base; return base;

162
code/AssetLib/IFC/IFCReaderGen2_2x3.cpp
View File

@ -5,8 +5,8 @@ Open Asset Import Library (ASSIMP)
Copyright (c) 2006-2020, ASSIMP Development Team Copyright (c) 2006-2020, ASSIMP Development Team
All rights reserved. All rights reserved.
Redistribution and use of this software in source and binary forms, Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the with or without modification, are permitted provided that the
following conditions are met: following conditions are met:
* Redistributions of source code must retain the above * Redistributions of source code must retain the above
@ -23,16 +23,16 @@ following conditions are met:
derived from this software without specific prior derived from this software without specific prior
written permission of the ASSIMP Development Team. written permission of the ASSIMP Development Team.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------- ----------------------------------------------------------------------
@ -59,12 +59,12 @@ template <> size_t GenericFill<IfcSurfaceStyle>(const DB& db, const LIST& params
size_t base = GenericFill(db,params,static_cast<IfcPresentationStyle*>(in)); size_t base = GenericFill(db,params,static_cast<IfcPresentationStyle*>(in));
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcSurfaceStyle"); } do { // convert the 'Side' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcSurfaceStyle"); } do { // convert the 'Side' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Side, arg, db ); break; } try { GenericConvert( in->Side, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyle to be a `IfcSurfaceSide`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyle to be a `IfcSurfaceSide`")); }
} while(0); } while(0);
do { // convert the 'Styles' argument do { // convert the 'Styles' argument
std::shared_ptr<const DataType> arg = params[ base++ ]; std::shared_ptr<const DataType> arg = params[ base++ ];
try { GenericConvert( in->Styles, arg, db ); break; } try { GenericConvert( in->Styles, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyle to be a `SET [1:5] OF IfcSurfaceStyleElementSelect`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyle to be a `SET [1:5] OF IfcSurfaceStyleElementSelect`")); }
} while(0); } while(0);
return base; return base;
@ -118,7 +118,7 @@ template <> size_t GenericFill<IfcFace>(const DB& db, const LIST& params, IfcFac
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFace"); } do { // convert the 'Bounds' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFace"); } do { // convert the 'Bounds' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFace,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFace,1>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Bounds, arg, db ); break; } try { GenericConvert( in->Bounds, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFace to be a `SET [1:?] OF IfcFaceBound`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFace to be a `SET [1:?] OF IfcFaceBound`")); }
} while(0); } while(0);
return base; return base;
@ -173,7 +173,7 @@ template <> size_t GenericFill<IfcColourSpecification>(const DB& db, const LIST&
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcColourSpecification,1>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcColourSpecification,1>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcColourSpecification to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcColourSpecification to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -184,12 +184,12 @@ template <> size_t GenericFill<IfcVector>(const DB& db, const LIST& params, IfcV
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcVector"); } do { // convert the 'Orientation' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcVector"); } do { // convert the 'Orientation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Orientation, arg, db ); break; } try { GenericConvert( in->Orientation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcVector to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcVector to be a `IfcDirection`")); }
} while(0); } while(0);
do { // convert the 'Magnitude' argument do { // convert the 'Magnitude' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Magnitude, arg, db ); break; } try { GenericConvert( in->Magnitude, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcVector to be a `IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcVector to be a `IfcLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -207,17 +207,17 @@ template <> size_t GenericFill<IfcColourRgb>(const DB& db, const LIST& params, I
size_t base = GenericFill(db,params,static_cast<IfcColourSpecification*>(in)); size_t base = GenericFill(db,params,static_cast<IfcColourSpecification*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcColourRgb"); } do { // convert the 'Red' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcColourRgb"); } do { // convert the 'Red' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Red, arg, db ); break; } try { GenericConvert( in->Red, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
} while(0); } while(0);
do { // convert the 'Green' argument do { // convert the 'Green' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Green, arg, db ); break; } try { GenericConvert( in->Green, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
} while(0); } while(0);
do { // convert the 'Blue' argument do { // convert the 'Blue' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Blue, arg, db ); break; } try { GenericConvert( in->Blue, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -243,31 +243,31 @@ template <> size_t GenericFill<IfcSite>(const DB& db, const LIST& params, IfcSit
if (params.GetSize() < 14) { throw STEP::TypeError("expected 14 arguments to IfcSite"); } do { // convert the 'RefLatitude' argument if (params.GetSize() < 14) { throw STEP::TypeError("expected 14 arguments to IfcSite"); } do { // convert the 'RefLatitude' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RefLatitude, arg, db ); break; } try { GenericConvert( in->RefLatitude, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
} while(0); } while(0);
do { // convert the 'RefLongitude' argument do { // convert the 'RefLongitude' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RefLongitude, arg, db ); break; } try { GenericConvert( in->RefLongitude, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
} while(0); } while(0);
do { // convert the 'RefElevation' argument do { // convert the 'RefElevation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RefElevation, arg, db ); break; } try { GenericConvert( in->RefElevation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcSite to be a `IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcSite to be a `IfcLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'LandTitleNumber' argument do { // convert the 'LandTitleNumber' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->LandTitleNumber, arg, db ); break; } try { GenericConvert( in->LandTitleNumber, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 12 to IfcSite to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 12 to IfcSite to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'SiteAddress' argument do { // convert the 'SiteAddress' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->SiteAddress, arg, db ); break; } try { GenericConvert( in->SiteAddress, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 13 to IfcSite to be a `IfcPostalAddress`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 13 to IfcSite to be a `IfcPostalAddress`")); }
} while(0); } while(0);
return base; return base;
@ -412,31 +412,31 @@ template <> size_t GenericFill<IfcBSplineCurve>(const DB& db, const LIST& params
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcBSplineCurve"); } do { // convert the 'Degree' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcBSplineCurve"); } do { // convert the 'Degree' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Degree, arg, db ); break; } try { GenericConvert( in->Degree, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBSplineCurve to be a `INTEGER`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBSplineCurve to be a `INTEGER`")); }
} while(0); } while(0);
do { // convert the 'ControlPointsList' argument do { // convert the 'ControlPointsList' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->ControlPointsList, arg, db ); break; } try { GenericConvert( in->ControlPointsList, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBSplineCurve to be a `LIST [2:?] OF IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBSplineCurve to be a `LIST [2:?] OF IfcCartesianPoint`")); }
} while(0); } while(0);
do { // convert the 'CurveForm' argument do { // convert the 'CurveForm' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->CurveForm, arg, db ); break; } try { GenericConvert( in->CurveForm, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBSplineCurve to be a `IfcBSplineCurveForm`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBSplineCurve to be a `IfcBSplineCurveForm`")); }
} while(0); } while(0);
do { // convert the 'ClosedCurve' argument do { // convert the 'ClosedCurve' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[3]=true; break; }
try { GenericConvert( in->ClosedCurve, arg, db ); break; } try { GenericConvert( in->ClosedCurve, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBSplineCurve to be a `LOGICAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBSplineCurve to be a `LOGICAL`")); }
} while(0); } while(0);
do { // convert the 'SelfIntersect' argument do { // convert the 'SelfIntersect' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[4]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[4]=true; break; }
try { GenericConvert( in->SelfIntersect, arg, db ); break; } try { GenericConvert( in->SelfIntersect, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcBSplineCurve to be a `LOGICAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcBSplineCurve to be a `LOGICAL`")); }
} while(0); } while(0);
return base; return base;
@ -474,7 +474,7 @@ template <> size_t GenericFill<IfcShellBasedSurfaceModel>(const DB& db, const LI
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcShellBasedSurfaceModel"); } do { // convert the 'SbsmBoundary' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcShellBasedSurfaceModel"); } do { // convert the 'SbsmBoundary' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->SbsmBoundary, arg, db ); break; } try { GenericConvert( in->SbsmBoundary, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcShellBasedSurfaceModel to be a `SET [1:?] OF IfcShell`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcShellBasedSurfaceModel to be a `SET [1:?] OF IfcShell`")); }
} while(0); } while(0);
return base; return base;
@ -492,12 +492,12 @@ template <> size_t GenericFill<IfcExtrudedAreaSolid>(const DB& db, const LIST& p
size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in)); size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcExtrudedAreaSolid"); } do { // convert the 'ExtrudedDirection' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcExtrudedAreaSolid"); } do { // convert the 'ExtrudedDirection' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ExtrudedDirection, arg, db ); break; } try { GenericConvert( in->ExtrudedDirection, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcExtrudedAreaSolid to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcExtrudedAreaSolid to be a `IfcDirection`")); }
} while(0); } while(0);
do { // convert the 'Depth' argument do { // convert the 'Depth' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Depth, arg, db ); break; } try { GenericConvert( in->Depth, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcExtrudedAreaSolid to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcExtrudedAreaSolid to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -522,12 +522,12 @@ template <> size_t GenericFill<IfcRelVoidsElement>(const DB& db, const LIST& par
size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in)); size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelVoidsElement"); } do { // convert the 'RelatingBuildingElement' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelVoidsElement"); } do { // convert the 'RelatingBuildingElement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatingBuildingElement, arg, db ); break; } try { GenericConvert( in->RelatingBuildingElement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelVoidsElement to be a `IfcElement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelVoidsElement to be a `IfcElement`")); }
} while(0); } while(0);
do { // convert the 'RelatedOpeningElement' argument do { // convert the 'RelatedOpeningElement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->RelatedOpeningElement, arg, db ); break; } try { GenericConvert( in->RelatedOpeningElement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelVoidsElement to be a `IfcFeatureElementSubtraction`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelVoidsElement to be a `IfcFeatureElementSubtraction`")); }
} while(0); } while(0);
return base; return base;
@ -546,13 +546,13 @@ template <> size_t GenericFill<IfcCartesianTransformationOperator3DnonUniform>(c
if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcCartesianTransformationOperator3DnonUniform"); } do { // convert the 'Scale2' argument if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcCartesianTransformationOperator3DnonUniform"); } do { // convert the 'Scale2' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Scale2, arg, db ); break; } try { GenericConvert( in->Scale2, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); }
} while(0); } while(0);
do { // convert the 'Scale3' argument do { // convert the 'Scale3' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Scale3, arg, db ); break; } try { GenericConvert( in->Scale3, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); }
} while(0); } while(0);
return base; return base;
@ -634,7 +634,7 @@ template <> size_t GenericFill<IfcAxis2Placement2D>(const DB& db, const LIST& pa
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis2Placement2D"); } do { // convert the 'RefDirection' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis2Placement2D"); } do { // convert the 'RefDirection' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->RefDirection, arg, db ); break; } try { GenericConvert( in->RefDirection, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement2D to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement2D to be a `IfcDirection`")); }
} while(0); } while(0);
return base; return base;
@ -658,7 +658,7 @@ template <> size_t GenericFill<IfcCartesianPoint>(const DB& db, const LIST& para
size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in)); size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcCartesianPoint"); } do { // convert the 'Coordinates' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcCartesianPoint"); } do { // convert the 'Coordinates' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Coordinates, arg, db ); break; } try { GenericConvert( in->Coordinates, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianPoint to be a `LIST [1:3] OF IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianPoint to be a `LIST [1:3] OF IfcLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -682,7 +682,7 @@ template <> size_t GenericFill<IfcPolyLoop>(const DB& db, const LIST& params, If
size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in)); size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyLoop"); } do { // convert the 'Polygon' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyLoop"); } do { // convert the 'Polygon' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Polygon, arg, db ); break; } try { GenericConvert( in->Polygon, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyLoop to be a `LIST [3:?] OF IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyLoop to be a `LIST [3:?] OF IfcCartesianPoint`")); }
} while(0); } while(0);
return base; return base;
@ -716,14 +716,14 @@ template <> size_t GenericFill<IfcRepresentationContext>(const DB& db, const LIS
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[0]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ContextIdentifier, arg, db ); break; } try { GenericConvert( in->ContextIdentifier, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationContext to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationContext to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'ContextType' argument do { // convert the 'ContextType' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ContextType, arg, db ); break; } try { GenericConvert( in->ContextType, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationContext to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationContext to be a `IfcLabel`")); }
} while(0); } while(0);
return base; return base;
@ -735,27 +735,27 @@ template <> size_t GenericFill<IfcGeometricRepresentationContext>(const DB& db,
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcGeometricRepresentationContext"); } do { // convert the 'CoordinateSpaceDimension' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcGeometricRepresentationContext"); } do { // convert the 'CoordinateSpaceDimension' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->CoordinateSpaceDimension, arg, db ); break; } try { GenericConvert( in->CoordinateSpaceDimension, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcGeometricRepresentationContext to be a `IfcDimensionCount`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcGeometricRepresentationContext to be a `IfcDimensionCount`")); }
} while(0); } while(0);
do { // convert the 'Precision' argument do { // convert the 'Precision' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[1]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Precision, arg, db ); break; } try { GenericConvert( in->Precision, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcGeometricRepresentationContext to be a `REAL`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcGeometricRepresentationContext to be a `REAL`")); }
} while(0); } while(0);
do { // convert the 'WorldCoordinateSystem' argument do { // convert the 'WorldCoordinateSystem' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[2]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[2]=true; break; }
try { GenericConvert( in->WorldCoordinateSystem, arg, db ); break; } try { GenericConvert( in->WorldCoordinateSystem, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcGeometricRepresentationContext to be a `IfcAxis2Placement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcGeometricRepresentationContext to be a `IfcAxis2Placement`")); }
} while(0); } while(0);
do { // convert the 'TrueNorth' argument do { // convert the 'TrueNorth' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[3]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[3]=true; break; }
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->TrueNorth, arg, db ); break; } try { GenericConvert( in->TrueNorth, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcGeometricRepresentationContext to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcGeometricRepresentationContext to be a `IfcDirection`")); }
} while(0); } while(0);
return base; return base;
@ -774,12 +774,12 @@ template <> size_t GenericFill<IfcSIUnit>(const DB& db, const LIST& params, IfcS
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcSIUnit"); } do { // convert the 'Prefix' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcSIUnit"); } do { // convert the 'Prefix' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Prefix, arg, db ); break; } try { GenericConvert( in->Prefix, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSIUnit to be a `IfcSIPrefix`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSIUnit to be a `IfcSIPrefix`")); }
} while(0); } while(0);
do { // convert the 'Name' argument do { // convert the 'Name' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSIUnit to be a `IfcSIUnitName`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSIUnit to be a `IfcSIUnitName`")); }
} while(0); } while(0);
return base; return base;
@ -805,7 +805,7 @@ template <> size_t GenericFill<IfcAxis1Placement>(const DB& db, const LIST& para
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis1Placement"); } do { // convert the 'Axis' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis1Placement"); } do { // convert the 'Axis' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Axis, arg, db ); break; } try { GenericConvert( in->Axis, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis1Placement to be a `IfcDirection`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis1Placement to be a `IfcDirection`")); }
} while(0); } while(0);
return base; return base;
@ -858,12 +858,12 @@ template <> size_t GenericFill<IfcRepresentationMap>(const DB& db, const LIST& p
size_t base = 0; size_t base = 0;
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationMap"); } do { // convert the 'MappingOrigin' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationMap"); } do { // convert the 'MappingOrigin' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->MappingOrigin, arg, db ); break; } try { GenericConvert( in->MappingOrigin, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationMap to be a `IfcAxis2Placement`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationMap to be a `IfcAxis2Placement`")); }
} while(0); } while(0);
do { // convert the 'MappedRepresentation' argument do { // convert the 'MappedRepresentation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->MappedRepresentation, arg, db ); break; } try { GenericConvert( in->MappedRepresentation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationMap to be a `IfcRepresentation`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationMap to be a `IfcRepresentation`")); }
} while(0); } while(0);
return base; return base;
@ -1012,12 +1012,12 @@ template <> size_t GenericFill<IfcMeasureWithUnit>(const DB& db, const LIST& par
size_t base = 0; size_t base = 0;
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMeasureWithUnit"); } do { // convert the 'ValueComponent' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMeasureWithUnit"); } do { // convert the 'ValueComponent' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ValueComponent, arg, db ); break; } try { GenericConvert( in->ValueComponent, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMeasureWithUnit to be a `IfcValue`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMeasureWithUnit to be a `IfcValue`")); }
} while(0); } while(0);
do { // convert the 'UnitComponent' argument do { // convert the 'UnitComponent' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->UnitComponent, arg, db ); break; } try { GenericConvert( in->UnitComponent, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMeasureWithUnit to be a `IfcUnit`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMeasureWithUnit to be a `IfcUnit`")); }
} while(0); } while(0);
return base; return base;
@ -1125,7 +1125,7 @@ template <> size_t GenericFill<IfcFaceBasedSurfaceModel>(const DB& db, const LIS
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFaceBasedSurfaceModel"); } do { // convert the 'FbsmFaces' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFaceBasedSurfaceModel"); } do { // convert the 'FbsmFaces' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->FbsmFaces, arg, db ); break; } try { GenericConvert( in->FbsmFaces, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBasedSurfaceModel to be a `SET [1:?] OF IfcConnectedFaceSet`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBasedSurfaceModel to be a `SET [1:?] OF IfcConnectedFaceSet`")); }
} while(0); } while(0);
return base; return base;
@ -1172,13 +1172,13 @@ template <> size_t GenericFill<IfcFaceBound>(const DB& db, const LIST& params, I
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceBound"); } do { // convert the 'Bound' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceBound"); } do { // convert the 'Bound' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[0]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[0]=true; break; }
try { GenericConvert( in->Bound, arg, db ); break; } try { GenericConvert( in->Bound, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBound to be a `IfcLoop`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBound to be a `IfcLoop`")); }
} while(0); } while(0);
do { // convert the 'Orientation' argument do { // convert the 'Orientation' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[1]=true; break; } if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[1]=true; break; }
try { GenericConvert( in->Orientation, arg, db ); break; } try { GenericConvert( in->Orientation, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcFaceBound to be a `BOOLEAN`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcFaceBound to be a `BOOLEAN`")); }
} while(0); } while(0);
return base; return base;
@ -1216,12 +1216,12 @@ template <> size_t GenericFill<IfcComplexProperty>(const DB& db, const LIST& par
size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in)); size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcComplexProperty"); } do { // convert the 'UsageName' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcComplexProperty"); } do { // convert the 'UsageName' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->UsageName, arg, db ); break; } try { GenericConvert( in->UsageName, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcComplexProperty to be a `IfcIdentifier`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcComplexProperty to be a `IfcIdentifier`")); }
} while(0); } while(0);
do { // convert the 'HasProperties' argument do { // convert the 'HasProperties' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->HasProperties, arg, db ); break; } try { GenericConvert( in->HasProperties, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcComplexProperty to be a `SET [1:?] OF IfcProperty`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcComplexProperty to be a `SET [1:?] OF IfcProperty`")); }
} while(0); } while(0);
return base; return base;
@ -1274,7 +1274,7 @@ template <> size_t GenericFill<IfcUnitAssignment>(const DB& db, const LIST& para
size_t base = 0; size_t base = 0;
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcUnitAssignment"); } do { // convert the 'Units' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcUnitAssignment"); } do { // convert the 'Units' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Units, arg, db ); break; } try { GenericConvert( in->Units, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcUnitAssignment to be a `SET [1:?] OF IfcUnit`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcUnitAssignment to be a `SET [1:?] OF IfcUnit`")); }
} while(0); } while(0);
return base; return base;
@ -1307,12 +1307,12 @@ template <> size_t GenericFill<IfcElementQuantity>(const DB& db, const LIST& par
if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcElementQuantity"); } do { // convert the 'MethodOfMeasurement' argument if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcElementQuantity"); } do { // convert the 'MethodOfMeasurement' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->MethodOfMeasurement, arg, db ); break; } try { GenericConvert( in->MethodOfMeasurement, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcElementQuantity to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcElementQuantity to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'Quantities' argument do { // convert the 'Quantities' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Quantities, arg, db ); break; } try { GenericConvert( in->Quantities, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcElementQuantity to be a `SET [1:?] OF IfcPhysicalQuantity`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcElementQuantity to be a `SET [1:?] OF IfcPhysicalQuantity`")); }
} while(0); } while(0);
return base; return base;
@ -1379,7 +1379,7 @@ template <> size_t GenericFill<IfcPresentationStyleAssignment>(const DB& db, con
size_t base = 0; size_t base = 0;
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyleAssignment"); } do { // convert the 'Styles' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyleAssignment"); } do { // convert the 'Styles' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Styles, arg, db ); break; } try { GenericConvert( in->Styles, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyleAssignment to be a `SET [1:?] OF IfcPresentationStyleSelect`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyleAssignment to be a `SET [1:?] OF IfcPresentationStyleSelect`")); }
} while(0); } while(0);
return base; return base;
@ -1418,13 +1418,13 @@ template <> size_t GenericFill<IfcSpace>(const DB& db, const LIST& params, IfcSp
size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in)); size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
if (params.GetSize() < 11) { throw STEP::TypeError("expected 11 arguments to IfcSpace"); } do { // convert the 'InteriorOrExteriorSpace' argument if (params.GetSize() < 11) { throw STEP::TypeError("expected 11 arguments to IfcSpace"); } do { // convert the 'InteriorOrExteriorSpace' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->InteriorOrExteriorSpace, arg, db ); break; } try { GenericConvert( in->InteriorOrExteriorSpace, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSpace to be a `IfcInternalOrExternalEnum`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSpace to be a `IfcInternalOrExternalEnum`")); }
} while(0); } while(0);
do { // convert the 'ElevationWithFlooring' argument do { // convert the 'ElevationWithFlooring' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ElevationWithFlooring, arg, db ); break; } try { GenericConvert( in->ElevationWithFlooring, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSpace to be a `IfcLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSpace to be a `IfcLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1484,7 +1484,7 @@ template <> size_t GenericFill<IfcSurfaceStyleWithTextures>(const DB& db, const
size_t base = 0; size_t base = 0;
if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleWithTextures"); } do { // convert the 'Textures' argument if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleWithTextures"); } do { // convert the 'Textures' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Textures, arg, db ); break; } try { GenericConvert( in->Textures, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleWithTextures to be a `LIST [1:?] OF IfcSurfaceTexture`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleWithTextures to be a `LIST [1:?] OF IfcSurfaceTexture`")); }
} while(0); } while(0);
return base; return base;
@ -1495,22 +1495,22 @@ template <> size_t GenericFill<IfcBoundingBox>(const DB& db, const LIST& params,
size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in)); size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcBoundingBox"); } do { // convert the 'Corner' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcBoundingBox"); } do { // convert the 'Corner' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Corner, arg, db ); break; } try { GenericConvert( in->Corner, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBoundingBox to be a `IfcCartesianPoint`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBoundingBox to be a `IfcCartesianPoint`")); }
} while(0); } while(0);
do { // convert the 'XDim' argument do { // convert the 'XDim' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->XDim, arg, db ); break; } try { GenericConvert( in->XDim, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'YDim' argument do { // convert the 'YDim' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->YDim, arg, db ); break; } try { GenericConvert( in->YDim, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'ZDim' argument do { // convert the 'ZDim' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ZDim, arg, db ); break; } try { GenericConvert( in->ZDim, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1535,7 +1535,7 @@ template <> size_t GenericFill<IfcCircle>(const DB& db, const LIST& params, IfcC
size_t base = GenericFill(db,params,static_cast<IfcConic*>(in)); size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCircle"); } do { // convert the 'Radius' argument if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCircle"); } do { // convert the 'Radius' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Radius, arg, db ); break; } try { GenericConvert( in->Radius, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCircle to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCircle to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1623,12 +1623,12 @@ template <> size_t GenericFill<IfcConversionBasedUnit>(const DB& db, const LIST&
size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in)); size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcConversionBasedUnit"); } do { // convert the 'Name' argument if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcConversionBasedUnit"); } do { // convert the 'Name' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->Name, arg, db ); break; } try { GenericConvert( in->Name, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcConversionBasedUnit to be a `IfcLabel`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcConversionBasedUnit to be a `IfcLabel`")); }
} while(0); } while(0);
do { // convert the 'ConversionFactor' argument do { // convert the 'ConversionFactor' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ConversionFactor, arg, db ); break; } try { GenericConvert( in->ConversionFactor, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcConversionBasedUnit to be a `IfcMeasureWithUnit`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcConversionBasedUnit to be a `IfcMeasureWithUnit`")); }
} while(0); } while(0);
return base; return base;
@ -1744,12 +1744,12 @@ template <> size_t GenericFill<IfcEllipse>(const DB& db, const LIST& params, Ifc
size_t base = GenericFill(db,params,static_cast<IfcConic*>(in)); size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcEllipse"); } do { // convert the 'SemiAxis1' argument if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcEllipse"); } do { // convert the 'SemiAxis1' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->SemiAxis1, arg, db ); break; } try { GenericConvert( in->SemiAxis1, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
do { // convert the 'SemiAxis2' argument do { // convert the 'SemiAxis2' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->SemiAxis2, arg, db ); break; } try { GenericConvert( in->SemiAxis2, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
} while(0); } while(0);
return base; return base;
@ -1816,7 +1816,7 @@ template <> size_t GenericFill<IfcPropertySet>(const DB& db, const LIST& params,
size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in)); size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in));
if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcPropertySet"); } do { // convert the 'HasProperties' argument if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcPropertySet"); } do { // convert the 'HasProperties' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->HasProperties, arg, db ); break; } try { GenericConvert( in->HasProperties, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcPropertySet to be a `SET [1:?] OF IfcProperty`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcPropertySet to be a `SET [1:?] OF IfcProperty`")); }
} while(0); } while(0);
return base; return base;
@ -1828,48 +1828,48 @@ template <> size_t GenericFill<IfcSurfaceStyleRendering>(const DB& db, const LIS
if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSurfaceStyleRendering"); } do { // convert the 'Transparency' argument if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSurfaceStyleRendering"); } do { // convert the 'Transparency' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->Transparency, arg, db ); break; } try { GenericConvert( in->Transparency, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyleRendering to be a `IfcNormalisedRatioMeasure`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyleRendering to be a `IfcNormalisedRatioMeasure`")); }
} while(0); } while(0);
do { // convert the 'DiffuseColour' argument do { // convert the 'DiffuseColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->DiffuseColour, arg, db ); break; } try { GenericConvert( in->DiffuseColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
} while(0); } while(0);
do { // convert the 'TransmissionColour' argument do { // convert the 'TransmissionColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->TransmissionColour, arg, db ); break; } try { GenericConvert( in->TransmissionColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
} while(0); } while(0);
do { // convert the 'DiffuseTransmissionColour' argument do { // convert the 'DiffuseTransmissionColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->DiffuseTransmissionColour, arg, db ); break; } try { GenericConvert( in->DiffuseTransmissionColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
} while(0); } while(0);
do { // convert the 'ReflectionColour' argument do { // convert the 'ReflectionColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->ReflectionColour, arg, db ); break; } try { GenericConvert( in->ReflectionColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
} while(0); } while(0);
do { // convert the 'SpecularColour' argument do { // convert the 'SpecularColour' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->SpecularColour, arg, db ); break; } try { GenericConvert( in->SpecularColour, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
} while(0); } while(0);
do { // convert the 'SpecularHighlight' argument do { // convert the 'SpecularHighlight' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
if (dynamic_cast<const UNSET*>(&*arg)) break; if (dynamic_cast<const UNSET*>(&*arg)) break;
try { GenericConvert( in->SpecularHighlight, arg, db ); break; } try { GenericConvert( in->SpecularHighlight, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSurfaceStyleRendering to be a `IfcSpecularHighlightSelect`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSurfaceStyleRendering to be a `IfcSpecularHighlightSelect`")); }
} while(0); } while(0);
do { // convert the 'ReflectanceMethod' argument do { // convert the 'ReflectanceMethod' argument
std::shared_ptr<const DataType> arg = params[base++]; std::shared_ptr<const DataType> arg = params[base++];
try { GenericConvert( in->ReflectanceMethod, arg, db ); break; } try { GenericConvert( in->ReflectanceMethod, arg, db ); break; }
catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSurfaceStyleRendering to be a `IfcReflectanceMethodEnum`")); } catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSurfaceStyleRendering to be a `IfcReflectanceMethodEnum`")); }
} while(0); } while(0);
return base; return base;

392
code/AssetLib/IFC/IFCReaderGen_4.cpp
View File

File diff suppressed because it is too large Load Diff

26
code/AssetLib/IFC/IFCReaderGen_4.h
View File

@ -5,8 +5,8 @@ Open Asset Import Library (ASSIMP)
Copyright (c) 2006-2020, ASSIMP Development Team Copyright (c) 2006-2020, ASSIMP Development Team
All rights reserved. All rights reserved.
Redistribution and use of this software in source and binary forms, Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the with or without modification, are permitted provided that the
following conditions are met: following conditions are met:
* Redistributions of source code must retain the above * Redistributions of source code must retain the above
@ -23,16 +23,16 @@ following conditions are met:
derived from this software without specific prior derived from this software without specific prior
written permission of the ASSIMP Development Team. written permission of the ASSIMP Development Team.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------- ----------------------------------------------------------------------
@ -51,12 +51,12 @@ namespace Schema_4 {
using namespace STEP; using namespace STEP;
using namespace STEP::EXPRESS; using namespace STEP::EXPRESS;
struct NotImplemented : public ObjectHelper<NotImplemented,0> { struct NotImplemented : public ObjectHelper<NotImplemented,0> {
}; };
// ****************************************************************************** // ******************************************************************************
// IFC Custom data types // IFC Custom data types

2
code/AssetLib/Irr/IRRLoader.h
View File

@ -273,7 +273,7 @@ private:
std::vector<aiNodeAnim*>& anims); std::vector<aiNodeAnim*>& anims);
private: private:
/// Configuration option: desired output FPS /// Configuration option: desired output FPS
double fps; double fps;
/// Configuration option: speed flag was set? /// Configuration option: speed flag was set?

2
code/AssetLib/LWO/LWOAnimation.h
View File

@ -114,7 +114,7 @@ enum PrePostBehaviour
/** \brief Data structure for a LWO animation keyframe /** \brief Data structure for a LWO animation keyframe
*/ */
struct Key { struct Key {
Key() AI_NO_EXCEPT Key() AI_NO_EXCEPT
: time() : time()
, value() , value()
, inter(IT_LINE) , inter(IT_LINE)

4
code/AssetLib/LWS/LWSLoader.cpp
View File

@ -200,7 +200,7 @@ void LWSImporter::ReadEnvelope(const LWS::Element &dad, LWO::Envelope &fill) {
// reserve enough storage // reserve enough storage
std::list<LWS::Element>::const_iterator it = dad.children.begin(); std::list<LWS::Element>::const_iterator it = dad.children.begin();
fill.keys.reserve(strtoul10(it->tokens[1].c_str())); fill.keys.reserve(strtoul10(it->tokens[1].c_str()));
for (++it; it != dad.children.end(); ++it) { for (++it; it != dad.children.end(); ++it) {
@ -466,7 +466,7 @@ std::string LWSImporter::FindLWOFile(const std::string &in) {
std::string tmp(in); std::string tmp(in);
if (in.length() > 3 && in[1] == ':' && in[2] != '\\' && in[2] != '/') { if (in.length() > 3 && in[1] == ':' && in[2] != '\\' && in[2] != '/') {
tmp = in[0] + (std::string(":\\") + in.substr(2)); tmp = in[0] + (std::string(":\\") + in.substr(2));
} }
if (io->Exists(tmp)) { if (io->Exists(tmp)) {
return in; return in;

12
code/AssetLib/M3D/M3DWrapper.h
View File

@ -84,11 +84,11 @@ public:
void reset(); void reset();
// The Name access, empty string returned when no m3d instance. // The Name access, empty string returned when no m3d instance.
std::string Name() const; std::string Name() const;
/// Executes a save. /// Executes a save.
unsigned char *Save(int quality, int flags, unsigned int &size); unsigned char *Save(int quality, int flags, unsigned int &size);
/// Clearer /// Clearer
void ClearSave(); void ClearSave();
@ -113,16 +113,16 @@ inline std::string M3DWrapper::Name() const {
return std::string(); return std::string();
} }
inline M3DWrapper::operator bool() const { inline M3DWrapper::operator bool() const {
return m3d_ != nullptr; return m3d_ != nullptr;
} }
inline m3d_t *M3DWrapper::operator->() const { inline m3d_t *M3DWrapper::operator->() const {
return m3d_; return m3d_;
} }
inline m3d_t *M3DWrapper::M3D() const { inline m3d_t *M3DWrapper::M3D() const {
return m3d_; return m3d_;
} }
} // namespace Assimp } // namespace Assimp

6
code/AssetLib/M3D/m3d.h
View File

@ -829,7 +829,7 @@ unsigned char *_m3dstbi_zlib_compress(unsigned char *data, int data_len, int *ou
#include <sys/time.h> #include <sys/time.h>
#endif #endif
#if !defined(M3D_NOIMPORTER) #if !defined(M3D_NOIMPORTER)
/* helper functions for the ASCII parser */ /* helper functions for the ASCII parser */
static char *_m3d_findarg(char *s) { static char *_m3d_findarg(char *s) {
while (s && *s && *s != ' ' && *s != '\t' && *s != '\r' && *s != '\n') while (s && *s && *s != ' ' && *s != '\t' && *s != '\r' && *s != '\n')
@ -4516,7 +4516,7 @@ unsigned char *m3d_save(m3d_t *model, int quality, int flags, unsigned int *size
} }
if (length) { if (length) {
uint32_t v = (uint32_t)((uintptr_t)out - (uintptr_t)((uint8_t *)h + len)); uint32_t v = (uint32_t)((uintptr_t)out - (uintptr_t)((uint8_t *)h + len));
memcpy( length, &v, sizeof(uint32_t)); memcpy( length, &v, sizeof(uint32_t));
len += v; len += v;
} }
out = NULL; out = NULL;
@ -4548,7 +4548,7 @@ unsigned char *m3d_save(m3d_t *model, int quality, int flags, unsigned int *size
} }
} }
uint32_t v = (uint32_t)((uintptr_t)out - (uintptr_t)((uint8_t *)h + len)); uint32_t v = (uint32_t)((uintptr_t)out - (uintptr_t)((uint8_t *)h + len));
memcpy( length, &v, sizeof(uint32_t)); memcpy( length, &v, sizeof(uint32_t));
len += v; len += v;
out = NULL; out = NULL;
} }

2
code/AssetLib/MD5/MD5Loader.cpp
View File

@ -485,7 +485,7 @@ void MD5Importer::LoadMD5MeshFile() {
} }
MD5::WeightDesc &weightDesc = meshSrc.mWeights[w]; MD5::WeightDesc &weightDesc = meshSrc.mWeights[w];
if (weightDesc.mWeight < AI_MD5_WEIGHT_EPSILON && weightDesc.mWeight >= -AI_MD5_WEIGHT_EPSILON) { if (weightDesc.mWeight < AI_MD5_WEIGHT_EPSILON && weightDesc.mWeight >= -AI_MD5_WEIGHT_EPSILON) {
continue; continue;
} }

4
code/AssetLib/MDC/MDCFileData.h
View File

@ -120,13 +120,13 @@ struct Surface {
, ulFlags() , ulFlags()
, ulNumCompFrames() , ulNumCompFrames()
, ulNumBaseFrames() , ulNumBaseFrames()
, ulNumShaders() , ulNumShaders()
, ulNumVertices() , ulNumVertices()
, ulNumTriangles() , ulNumTriangles()
, ulOffsetTriangles() , ulOffsetTriangles()
, ulOffsetShaders() , ulOffsetShaders()
, ulOffsetTexCoords() , ulOffsetTexCoords()
, ulOffsetBaseVerts() , ulOffsetBaseVerts()
, ulOffsetCompVerts() , ulOffsetCompVerts()
, ulOffsetFrameBaseFrames() , ulOffsetFrameBaseFrames()
, ulOffsetFrameCompFrames() , ulOffsetFrameCompFrames()

4
code/AssetLib/MDL/HalfLife/HL1MDLLoader.cpp
View File

@ -629,7 +629,7 @@ void HL1MDLLoader::read_meshes() {
+-- bodypart --+-- model -- [mesh index, mesh index, ...] +-- bodypart --+-- model -- [mesh index, mesh index, ...]
| | | |
| +-- model -- [mesh index, mesh index, ...] | +-- model -- [mesh index, mesh index, ...]
| | | |
| ... | ...
| |
|-- bodypart -- ... |-- bodypart -- ...
@ -1298,7 +1298,7 @@ void HL1MDLLoader::read_global_info() {
* @note The structure of this method is taken from HL2 source code. * @note The structure of this method is taken from HL2 source code.
* Although this is from HL2, it's implementation is almost identical * Although this is from HL2, it's implementation is almost identical
* to code found in HL1 SDK. See HL1 and HL2 SDKs for more info. * to code found in HL1 SDK. See HL1 and HL2 SDKs for more info.
* *
* source: * source:
* HL1 source code. * HL1 source code.
* file: studio_render.cpp * file: studio_render.cpp

2
code/AssetLib/MMD/MMDPmxParser.cpp
View File

@ -102,7 +102,7 @@ namespace pmx
const unsigned int targetSize = size * 3; // enough to encode const unsigned int targetSize = size * 3; // enough to encode
char *targetStart = new char[targetSize]; char *targetStart = new char[targetSize];
std::memset(targetStart, 0, targetSize * sizeof(char)); std::memset(targetStart, 0, targetSize * sizeof(char));
utf8::utf16to8( sourceStart, sourceStart + size/2, targetStart ); utf8::utf16to8( sourceStart, sourceStart + size/2, targetStart );
std::string result(targetStart); std::string result(targetStart);

10
code/AssetLib/OFF/OFFLoader.cpp
View File

@ -138,7 +138,7 @@ void OFFImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
const char* car = buffer; const char* car = buffer;
const char* end = buffer + mBuffer2.size(); const char* end = buffer + mBuffer2.size();
NextToken(&car, end); NextToken(&car, end);
if (car < end - 2 && car[0] == 'S' && car[1] == 'T') { if (car < end - 2 && car[0] == 'S' && car[1] == 'T') {
hasTexCoord = true; car += 2; hasTexCoord = true; car += 2;
} }
@ -164,7 +164,7 @@ void OFFImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
dimensions = 3; dimensions = 3;
hasHomogenous = false; hasHomogenous = false;
NextToken(&car, end); NextToken(&car, end);
// at this point the next token should be an integer number // at this point the next token should be an integer number
if (car >= end - 1 || *car < '0' || *car > '9') { if (car >= end - 1 || *car < '0' || *car > '9') {
throw DeadlyImportError("OFF: Header is invalid"); throw DeadlyImportError("OFF: Header is invalid");
@ -223,7 +223,7 @@ void OFFImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
ASSIMP_LOG_ERROR("OFF: The number of verts in the header is incorrect"); ASSIMP_LOG_ERROR("OFF: The number of verts in the header is incorrect");
break; break;
} }
aiVector3D& v = mesh->mVertices[i]; aiVector3D& v = mesh->mVertices[i];
sz = line; sz = line;
// helper array to write a for loop over possible dimension values // helper array to write a for loop over possible dimension values
@ -255,7 +255,7 @@ void OFFImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
SkipSpaces(&sz); SkipSpaces(&sz);
fast_atoreal_move<ai_real>(sz,(ai_real&)n.z); fast_atoreal_move<ai_real>(sz,(ai_real&)n.z);
} }
// reading colors is a pain because the specification says it can be // reading colors is a pain because the specification says it can be
// integers or floats, and any number of them between 1 and 4 included, // integers or floats, and any number of them between 1 and 4 included,
// until the next comment or end of line // until the next comment or end of line
@ -321,7 +321,7 @@ void OFFImporter::InternReadFile( const std::string& pFile, aiScene* pScene, IOS
++i; ++i;
++faces; ++faces;
} }
// generate the output node graph // generate the output node graph
pScene->mRootNode = new aiNode(); pScene->mRootNode = new aiNode();
pScene->mRootNode->mName.Set("<OFFRoot>"); pScene->mRootNode->mName.Set("<OFFRoot>");

18
code/AssetLib/Obj/ObjExporter.h
View File

@ -67,7 +67,7 @@ public:
~ObjExporter(); ~ObjExporter();
std::string GetMaterialLibName(); std::string GetMaterialLibName();
std::string GetMaterialLibFileName(); std::string GetMaterialLibFileName();
/// public string-streams to write all output into /// public string-streams to write all output into
std::ostringstream mOutput, mOutputMat; std::ostringstream mOutput, mOutputMat;
@ -137,13 +137,13 @@ private:
} }
}; };
struct aiVectorCompare { struct aiVectorCompare {
bool operator() (const aiVector3D& a, const aiVector3D& b) const { bool operator() (const aiVector3D& a, const aiVector3D& b) const {
if(a.x < b.x) return true; if(a.x < b.x) return true;
if(a.x > b.x) return false; if(a.x > b.x) return false;
if(a.y < b.y) return true; if(a.y < b.y) return true;
if(a.y > b.y) return false; if(a.y > b.y) return false;
if(a.z < b.z) return true; if(a.z < b.z) return true;
return false; return false;
} }
}; };
@ -153,7 +153,7 @@ private:
int mNextIndex; int mNextIndex;
typedef std::map<T, int, Compare> dataType; typedef std::map<T, int, Compare> dataType;
dataType vecMap; dataType vecMap;
public: public:
indexMap() indexMap()
: mNextIndex(1) { : mNextIndex(1) {

2
code/AssetLib/Obj/ObjFileMtlImporter.cpp
View File

@ -146,7 +146,7 @@ void ObjFileMtlImporter::load() {
++m_DataIt; ++m_DataIt;
ai_real d; ai_real d;
getFloatValue(d); getFloatValue(d);
m_pModel->m_pCurrentMaterial->alpha = static_cast<ai_real>(1.0) - d; m_pModel->m_pCurrentMaterial->alpha = static_cast<ai_real>(1.0) - d;
} }
m_DataIt = skipLine<DataArrayIt>(m_DataIt, m_DataItEnd, m_uiLine); m_DataIt = skipLine<DataArrayIt>(m_DataIt, m_DataItEnd, m_uiLine);
} break; } break;

2
code/AssetLib/SMD/SMDLoader.cpp
View File

@ -438,7 +438,7 @@ void SMDImporter::AddBoneChildren(aiNode* pcNode, uint32_t iParent) {
pc->mTransformation = bone.sAnim.asKeys[0].matrix; pc->mTransformation = bone.sAnim.asKeys[0].matrix;
} }
if (bone.iParent == static_cast<uint32_t>(-1)) { if (bone.iParent == static_cast<uint32_t>(-1)) {
bone.mOffsetMatrix = pc->mTransformation; bone.mOffsetMatrix = pc->mTransformation;
} else { } else {
bone.mOffsetMatrix = asBones[bone.iParent].mOffsetMatrix * pc->mTransformation; bone.mOffsetMatrix = asBones[bone.iParent].mOffsetMatrix * pc->mTransformation;

8
code/AssetLib/STL/STLExporter.cpp
View File

@ -69,7 +69,7 @@ void ExportSceneSTL(const char* pFile,IOSystem* pIOSystem, const aiScene* pScene
if (exporter.mOutput.fail()) { if (exporter.mOutput.fail()) {
throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile)); throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile));
} }
// we're still here - export successfully completed. Write the file. // we're still here - export successfully completed. Write the file.
std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wt")); std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wt"));
if (outfile == nullptr) { if (outfile == nullptr) {
@ -88,7 +88,7 @@ void ExportSceneSTLBinary(const char* pFile,IOSystem* pIOSystem, const aiScene*
if (exporter.mOutput.fail()) { if (exporter.mOutput.fail()) {
throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile)); throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile));
} }
// we're still here - export successfully completed. Write the file. // we're still here - export successfully completed. Write the file.
std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wb")); std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wb"));
if (outfile == nullptr) { if (outfile == nullptr) {
@ -139,9 +139,9 @@ STLExporter::STLExporter(const char* _filename, const aiScene* pScene, bool expo
if (exportPointClouds) { if (exportPointClouds) {
WritePointCloud("Assimp_Pointcloud", pScene ); WritePointCloud("Assimp_Pointcloud", pScene );
return; return;
} }
// Export the assimp mesh // Export the assimp mesh
const std::string name = "AssimpScene"; const std::string name = "AssimpScene";
mOutput << SolidToken << " " << name << endl; mOutput << SolidToken << " " << name << endl;
for(unsigned int i = 0; i < pScene->mNumMeshes; ++i) { for(unsigned int i = 0; i < pScene->mNumMeshes; ++i) {

4
code/AssetLib/STL/STLLoader.cpp
View File

@ -372,7 +372,7 @@ void STLImporter::LoadASCIIFile(aiNode *root) {
pMesh->mVertices = new aiVector3D[pMesh->mNumVertices]; pMesh->mVertices = new aiVector3D[pMesh->mNumVertices];
for (size_t i=0; i<pMesh->mNumVertices; ++i ) { for (size_t i=0; i<pMesh->mNumVertices; ++i ) {
pMesh->mVertices[i].x = positionBuffer[i].x; pMesh->mVertices[i].x = positionBuffer[i].x;
pMesh->mVertices[i].y = positionBuffer[i].y; pMesh->mVertices[i].y = positionBuffer[i].y;
pMesh->mVertices[i].z = positionBuffer[i].z; pMesh->mVertices[i].z = positionBuffer[i].z;
} }
positionBuffer.clear(); positionBuffer.clear();
@ -382,7 +382,7 @@ void STLImporter::LoadASCIIFile(aiNode *root) {
pMesh->mNormals = new aiVector3D[pMesh->mNumVertices]; pMesh->mNormals = new aiVector3D[pMesh->mNumVertices];
for (size_t i=0; i<pMesh->mNumVertices; ++i ) { for (size_t i=0; i<pMesh->mNumVertices; ++i ) {
pMesh->mNormals[i].x = normalBuffer[i].x; pMesh->mNormals[i].x = normalBuffer[i].x;
pMesh->mNormals[i].y = normalBuffer[i].y; pMesh->mNormals[i].y = normalBuffer[i].y;
pMesh->mNormals[i].z = normalBuffer[i].z; pMesh->mNormals[i].z = normalBuffer[i].z;
} }
normalBuffer.clear(); normalBuffer.clear();

2
code/AssetLib/X/XFileExporter.cpp
View File

@ -86,7 +86,7 @@ void ExportSceneXFile(const char* pFile,IOSystem* pIOSystem, const aiScene* pSce
if (iDoTheExportThing.mOutput.fail()) { if (iDoTheExportThing.mOutput.fail()) {
throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile)); throw DeadlyExportError("output data creation failed. Most likely the file became too large: " + std::string(pFile));
} }
// we're still here - export successfully completed. Write result to the given IOSYstem // we're still here - export successfully completed. Write result to the given IOSYstem
std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wt")); std::unique_ptr<IOStream> outfile (pIOSystem->Open(pFile,"wt"));
if (outfile == nullptr) { if (outfile == nullptr) {

6
code/AssetLib/X/XFileExporter.h
View File

@ -94,9 +94,9 @@ protected:
void PushTag() { startstr.append( " "); } void PushTag() { startstr.append( " "); }
/// Leaves an element, decreasing the indentation /// Leaves an element, decreasing the indentation
void PopTag() { void PopTag() {
ai_assert( startstr.length() > 1); ai_assert( startstr.length() > 1);
startstr.erase( startstr.length() - 2); startstr.erase( startstr.length() - 2);
} }
public: public:

2
code/AssetLib/X3D/X3DImporter.cpp
View File

@ -180,6 +180,6 @@ const aiImporterDesc *X3DImporter::GetInfo() const {
return &Description; return &Description;
} }
} }
#endif // !ASSIMP_BUILD_NO_X3D_IMPORTER #endif // !ASSIMP_BUILD_NO_X3D_IMPORTER

2
code/AssetLib/XGL/XGLLoader.cpp
View File

@ -240,7 +240,7 @@ void XGLImporter::InternReadFile(const std::string &pFile, aiScene *pScene, IOSy
void XGLImporter::ReadWorld(XmlNode &node, TempScope &scope) { void XGLImporter::ReadWorld(XmlNode &node, TempScope &scope) {
for (XmlNode &currentNode : node.children()) { for (XmlNode &currentNode : node.children()) {
const std::string &s = ai_stdStrToLower(currentNode.name()); const std::string &s = ai_stdStrToLower(currentNode.name());
// XXX right now we'd skip <lighting> if it comes after // XXX right now we'd skip <lighting> if it comes after
// <object> or <mesh> // <object> or <mesh>
if (s == "lighting") { if (s == "lighting") {

4
code/AssetLib/glTF2/glTF2Asset.h
View File

@ -388,9 +388,9 @@ struct CustomExtension {
} }
CustomExtension() = default; CustomExtension() = default;
~CustomExtension() = default; ~CustomExtension() = default;
CustomExtension(const CustomExtension &other) : CustomExtension(const CustomExtension &other) :
name(other.name), name(other.name),
mStringValue(other.mStringValue), mStringValue(other.mStringValue),

32
code/AssetLib/glTF2/glTF2Asset.inl
View File

@ -410,14 +410,14 @@ inline void SetDecodedIndexBuffer_Draco(const draco::Mesh &dracoMesh, Mesh::Prim
// Not same size, convert // Not same size, convert
switch (componentBytes) { switch (componentBytes) {
case sizeof(uint32_t): case sizeof(uint32_t):
CopyFaceIndex_Draco<uint32_t>(*decodedIndexBuffer, dracoMesh); CopyFaceIndex_Draco<uint32_t>(*decodedIndexBuffer, dracoMesh);
break; break;
case sizeof(uint16_t): case sizeof(uint16_t):
CopyFaceIndex_Draco<uint16_t>(*decodedIndexBuffer, dracoMesh); CopyFaceIndex_Draco<uint16_t>(*decodedIndexBuffer, dracoMesh);
break; break;
case sizeof(uint8_t): case sizeof(uint8_t):
CopyFaceIndex_Draco<uint8_t>(*decodedIndexBuffer, dracoMesh); CopyFaceIndex_Draco<uint8_t>(*decodedIndexBuffer, dracoMesh);
break; break;
default: default:
ai_assert(false); ai_assert(false);
@ -460,23 +460,23 @@ inline void SetDecodedAttributeBuffer_Draco(const draco::Mesh &dracoMesh, uint32
decodedAttribBuffer->Grow(dracoMesh.num_points() * pDracoAttribute->num_components() * componentBytes); decodedAttribBuffer->Grow(dracoMesh.num_points() * pDracoAttribute->num_components() * componentBytes);
switch (accessor.componentType) { switch (accessor.componentType) {
case ComponentType_BYTE: case ComponentType_BYTE:
GetAttributeForAllPoints_Draco<int8_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<int8_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
case ComponentType_UNSIGNED_BYTE: case ComponentType_UNSIGNED_BYTE:
GetAttributeForAllPoints_Draco<uint8_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<uint8_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
case ComponentType_SHORT: case ComponentType_SHORT:
GetAttributeForAllPoints_Draco<int16_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<int16_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
case ComponentType_UNSIGNED_SHORT: case ComponentType_UNSIGNED_SHORT:
GetAttributeForAllPoints_Draco<uint16_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<uint16_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
case ComponentType_UNSIGNED_INT: case ComponentType_UNSIGNED_INT:
GetAttributeForAllPoints_Draco<uint32_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<uint32_t>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
case ComponentType_FLOAT: case ComponentType_FLOAT:
GetAttributeForAllPoints_Draco<float>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer); GetAttributeForAllPoints_Draco<float>(dracoMesh, *pDracoAttribute, *decodedAttribBuffer);
break; break;
default: default:
ai_assert(false); ai_assert(false);
@ -840,7 +840,7 @@ inline bool Buffer::ReplaceData_joint(const size_t pBufferData_Offset, const siz
inline size_t Buffer::AppendData(uint8_t *data, size_t length) { inline size_t Buffer::AppendData(uint8_t *data, size_t length) {
const size_t offset = this->byteLength; const size_t offset = this->byteLength;
// Force alignment to 4 bits // Force alignment to 4 bits
const size_t paddedLength = (length + 3) & ~3; const size_t paddedLength = (length + 3) & ~3;
Grow(paddedLength); Grow(paddedLength);

16
code/AssetLib/glTF2/glTF2AssetWriter.inl
View File

@ -452,7 +452,7 @@ namespace glTF2 {
WriteTex(materialClearcoat, clearcoat.clearcoatTexture, "clearcoatTexture", w.mAl); WriteTex(materialClearcoat, clearcoat.clearcoatTexture, "clearcoatTexture", w.mAl);
WriteTex(materialClearcoat, clearcoat.clearcoatRoughnessTexture, "clearcoatRoughnessTexture", w.mAl); WriteTex(materialClearcoat, clearcoat.clearcoatRoughnessTexture, "clearcoatRoughnessTexture", w.mAl);
WriteTex(materialClearcoat, clearcoat.clearcoatNormalTexture, "clearcoatNormalTexture", w.mAl); WriteTex(materialClearcoat, clearcoat.clearcoatNormalTexture, "clearcoatNormalTexture", w.mAl);
if (!materialClearcoat.ObjectEmpty()) { if (!materialClearcoat.ObjectEmpty()) {
exts.AddMember("KHR_materials_clearcoat", materialClearcoat, w.mAl); exts.AddMember("KHR_materials_clearcoat", materialClearcoat, w.mAl);
} }
@ -468,7 +468,7 @@ namespace glTF2 {
} }
WriteTex(materialTransmission, transmission.transmissionTexture, "transmissionTexture", w.mAl); WriteTex(materialTransmission, transmission.transmissionTexture, "transmissionTexture", w.mAl);
if (!materialTransmission.ObjectEmpty()) { if (!materialTransmission.ObjectEmpty()) {
exts.AddMember("KHR_materials_transmission", materialTransmission, w.mAl); exts.AddMember("KHR_materials_transmission", materialTransmission, w.mAl);
} }
@ -613,7 +613,7 @@ namespace glTF2 {
if (n.skin) { if (n.skin) {
obj.AddMember("skin", n.skin->index, w.mAl); obj.AddMember("skin", n.skin->index, w.mAl);
} }
//gltf2 spec does not support "skeletons" under node //gltf2 spec does not support "skeletons" under node
if(n.skeletons.size()) { if(n.skeletons.size()) {
AddRefsVector(obj, "skeletons", n.skeletons, w.mAl); AddRefsVector(obj, "skeletons", n.skeletons, w.mAl);
@ -711,7 +711,7 @@ namespace glTF2 {
if (mAsset.scene) { if (mAsset.scene) {
mDoc.AddMember("scene", mAsset.scene->index, mAl); mDoc.AddMember("scene", mAsset.scene->index, mAl);
} }
if(mAsset.extras) { if(mAsset.extras) {
mDoc.AddMember("extras", *mAsset.extras, mAl); mDoc.AddMember("extras", *mAsset.extras, mAl);
} }
@ -812,7 +812,7 @@ namespace glTF2 {
uint32_t binaryChunkLength = 0; uint32_t binaryChunkLength = 0;
if (bodyBuffer->byteLength > 0) { if (bodyBuffer->byteLength > 0) {
binaryChunkLength = (bodyBuffer->byteLength + 3) & ~3; // Round up to next multiple of 4 binaryChunkLength = (bodyBuffer->byteLength + 3) & ~3; // Round up to next multiple of 4
auto curPaddingLength = binaryChunkLength - bodyBuffer->byteLength; auto curPaddingLength = binaryChunkLength - bodyBuffer->byteLength;
++GLB_Chunk_count; ++GLB_Chunk_count;
@ -881,7 +881,7 @@ namespace glTF2 {
if (this->mAsset.extensionsUsed.KHR_materials_sheen) { if (this->mAsset.extensionsUsed.KHR_materials_sheen) {
exts.PushBack(StringRef("KHR_materials_sheen"), mAl); exts.PushBack(StringRef("KHR_materials_sheen"), mAl);
} }
if (this->mAsset.extensionsUsed.KHR_materials_clearcoat) { if (this->mAsset.extensionsUsed.KHR_materials_clearcoat) {
exts.PushBack(StringRef("KHR_materials_clearcoat"), mAl); exts.PushBack(StringRef("KHR_materials_clearcoat"), mAl);
} }
@ -893,7 +893,7 @@ namespace glTF2 {
if (this->mAsset.extensionsUsed.FB_ngon_encoding) { if (this->mAsset.extensionsUsed.FB_ngon_encoding) {
exts.PushBack(StringRef("FB_ngon_encoding"), mAl); exts.PushBack(StringRef("FB_ngon_encoding"), mAl);
} }
if (this->mAsset.extensionsUsed.KHR_texture_basisu) { if (this->mAsset.extensionsUsed.KHR_texture_basisu) {
exts.PushBack(StringRef("KHR_texture_basisu"), mAl); exts.PushBack(StringRef("KHR_texture_basisu"), mAl);
} }
@ -901,7 +901,7 @@ namespace glTF2 {
if (!exts.Empty()) if (!exts.Empty())
mDoc.AddMember("extensionsUsed", exts, mAl); mDoc.AddMember("extensionsUsed", exts, mAl);
//basisu extensionRequired //basisu extensionRequired
Value extsReq; Value extsReq;
extsReq.SetArray(); extsReq.SetArray();

6
code/Common/DefaultIOStream.cpp
View File

@ -62,7 +62,7 @@ inline int select_fseek(FILE *file, int64_t offset, int origin) {
} }
#if defined _WIN32 && (!defined __GNUC__ || __MSVCRT_VERSION__ >= 0x0601) #if defined _WIN32 && (!defined __GNUC__ || __MSVCRT_VERSION__ >= 0x0601)
template <> template <>
inline size_t select_ftell<8>(FILE *file) { inline size_t select_ftell<8>(FILE *file) {
@ -75,7 +75,7 @@ inline int select_fseek<8>(FILE *file, int64_t offset, int origin) {
} }
#endif // #if defined _WIN32 && (!defined __GNUC__ || __MSVCRT_VERSION__ >= 0x0601) #endif // #if defined _WIN32 && (!defined __GNUC__ || __MSVCRT_VERSION__ >= 0x0601)
} // namespace } // namespace
// ---------------------------------------------------------------------------------- // ----------------------------------------------------------------------------------
@ -95,7 +95,7 @@ size_t DefaultIOStream::Read(void *pvBuffer,
} }
ai_assert(nullptr != pvBuffer); ai_assert(nullptr != pvBuffer);
ai_assert(0 != pSize); ai_assert(0 != pSize);
return (mFile ? ::fread(pvBuffer, pSize, pCount, mFile) : 0); return (mFile ? ::fread(pvBuffer, pSize, pCount, mFile) : 0);
} }

6
code/Common/DefaultIOSystem.cpp
View File

@ -71,7 +71,7 @@ static std::wstring Utf8ToWide(const char *in) {
// size includes terminating null; std::wstring adds null automatically // size includes terminating null; std::wstring adds null automatically
std::wstring out(static_cast<size_t>(size) - 1, L'\0'); std::wstring out(static_cast<size_t>(size) - 1, L'\0');
MultiByteToWideChar(CP_UTF8, 0, in, -1, &out[0], size); MultiByteToWideChar(CP_UTF8, 0, in, -1, &out[0], size);
return out; return out;
} }
@ -85,7 +85,7 @@ static std::string WideToUtf8(const wchar_t *in) {
// size includes terminating null; std::string adds null automatically // size includes terminating null; std::string adds null automatically
std::string out(static_cast<size_t>(size) - 1, '\0'); std::string out(static_cast<size_t>(size) - 1, '\0');
WideCharToMultiByte(CP_UTF8, 0, in, -1, &out[0], size, nullptr, nullptr); WideCharToMultiByte(CP_UTF8, 0, in, -1, &out[0], size, nullptr, nullptr);
return out; return out;
} }
#endif #endif
@ -121,7 +121,7 @@ IOStream *DefaultIOSystem::Open(const char *strFile, const char *strMode) {
if (name.empty()) { if (name.empty()) {
return nullptr; return nullptr;
} }
file = ::_wfopen(name.c_str(), Utf8ToWide(strMode).c_str()); file = ::_wfopen(name.c_str(), Utf8ToWide(strMode).c_str());
#else #else
file = ::fopen(strFile, strMode); file = ::fopen(strFile, strMode);

4
code/Common/Exporter.cpp
View File

@ -83,7 +83,7 @@ namespace Assimp {
void GetPostProcessingStepInstanceList(std::vector< BaseProcess* >& out); void GetPostProcessingStepInstanceList(std::vector< BaseProcess* >& out);
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
// Exporter worker function prototypes. Do not use const, because some exporter need to convert // Exporter worker function prototypes. Do not use const, because some exporter need to convert
// the scene temporary // the scene temporary
#ifndef ASSIMP_BUILD_NO_COLLADA_EXPORTER #ifndef ASSIMP_BUILD_NO_COLLADA_EXPORTER
void ExportSceneCollada(const char*,IOSystem*, const aiScene*, const ExportProperties*); void ExportSceneCollada(const char*,IOSystem*, const aiScene*, const ExportProperties*);
@ -343,7 +343,7 @@ const aiExportDataBlob* Exporter::ExportToBlob( const aiScene* pScene, const cha
delete pimpl->blob; delete pimpl->blob;
pimpl->blob = nullptr; pimpl->blob = nullptr;
} }
auto baseName = pProperties ? pProperties->GetPropertyString(AI_CONFIG_EXPORT_BLOB_NAME, AI_BLOBIO_MAGIC) : AI_BLOBIO_MAGIC; auto baseName = pProperties ? pProperties->GetPropertyString(AI_CONFIG_EXPORT_BLOB_NAME, AI_BLOBIO_MAGIC) : AI_BLOBIO_MAGIC;
std::shared_ptr<IOSystem> old = pimpl->mIOSystem; std::shared_ptr<IOSystem> old = pimpl->mIOSystem;

4
code/Common/FileSystemFilter.h
View File

@ -101,7 +101,7 @@ public:
/** Tests for the existence of a file at the given path. */ /** Tests for the existence of a file at the given path. */
bool Exists( const char* pFile) const { bool Exists( const char* pFile) const {
ai_assert( nullptr != mWrapped ); ai_assert( nullptr != mWrapped );
std::string tmp = pFile; std::string tmp = pFile;
// Currently this IOSystem is also used to open THE ONE FILE. // Currently this IOSystem is also used to open THE ONE FILE.
@ -126,7 +126,7 @@ public:
if ( nullptr == pFile || nullptr == pMode ) { if ( nullptr == pFile || nullptr == pMode ) {
return nullptr; return nullptr;
} }
ai_assert( nullptr != pFile ); ai_assert( nullptr != pFile );
ai_assert( nullptr != pMode ); ai_assert( nullptr != pMode );

80
code/Common/Importer.cpp
View File

@ -201,7 +201,7 @@ Importer::~Importer() {
// Register a custom post-processing step // Register a custom post-processing step
aiReturn Importer::RegisterPPStep(BaseProcess* pImp) { aiReturn Importer::RegisterPPStep(BaseProcess* pImp) {
ai_assert( nullptr != pImp ); ai_assert( nullptr != pImp );
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
pimpl->mPostProcessingSteps.push_back(pImp); pimpl->mPostProcessingSteps.push_back(pImp);
@ -215,7 +215,7 @@ aiReturn Importer::RegisterPPStep(BaseProcess* pImp) {
// Register a custom loader plugin // Register a custom loader plugin
aiReturn Importer::RegisterLoader(BaseImporter* pImp) { aiReturn Importer::RegisterLoader(BaseImporter* pImp) {
ai_assert(nullptr != pImp); ai_assert(nullptr != pImp);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
// -------------------------------------------------------------------- // --------------------------------------------------------------------
@ -242,7 +242,7 @@ aiReturn Importer::RegisterLoader(BaseImporter* pImp) {
pimpl->mImporter.push_back(pImp); pimpl->mImporter.push_back(pImp);
ASSIMP_LOG_INFO("Registering custom importer for these file extensions: ", baked); ASSIMP_LOG_INFO("Registering custom importer for these file extensions: ", baked);
ASSIMP_END_EXCEPTION_REGION(aiReturn); ASSIMP_END_EXCEPTION_REGION(aiReturn);
return AI_SUCCESS; return AI_SUCCESS;
} }
@ -296,7 +296,7 @@ aiReturn Importer::UnregisterPPStep(BaseProcess* pImp) {
// Supplies a custom IO handler to the importer to open and access files. // Supplies a custom IO handler to the importer to open and access files.
void Importer::SetIOHandler( IOSystem* pIOHandler) { void Importer::SetIOHandler( IOSystem* pIOHandler) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
// If the new handler is zero, allocate a default IO implementation. // If the new handler is zero, allocate a default IO implementation.
if (!pIOHandler) { if (!pIOHandler) {
@ -315,7 +315,7 @@ void Importer::SetIOHandler( IOSystem* pIOHandler) {
// Get the currently set IO handler // Get the currently set IO handler
IOSystem* Importer::GetIOHandler() const { IOSystem* Importer::GetIOHandler() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mIOHandler; return pimpl->mIOHandler;
} }
@ -323,7 +323,7 @@ IOSystem* Importer::GetIOHandler() const {
// Check whether a custom IO handler is currently set // Check whether a custom IO handler is currently set
bool Importer::IsDefaultIOHandler() const { bool Importer::IsDefaultIOHandler() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mIsDefaultHandler; return pimpl->mIsDefaultHandler;
} }
@ -331,9 +331,9 @@ bool Importer::IsDefaultIOHandler() const {
// Supplies a custom progress handler to get regular callbacks during importing // Supplies a custom progress handler to get regular callbacks during importing
void Importer::SetProgressHandler ( ProgressHandler* pHandler ) { void Importer::SetProgressHandler ( ProgressHandler* pHandler ) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
// If the new handler is zero, allocate a default implementation. // If the new handler is zero, allocate a default implementation.
if (!pHandler) { if (!pHandler) {
// Release pointer in the possession of the caller // Release pointer in the possession of the caller
@ -351,7 +351,7 @@ void Importer::SetProgressHandler ( ProgressHandler* pHandler ) {
// Get the currently set progress handler // Get the currently set progress handler
ProgressHandler* Importer::GetProgressHandler() const { ProgressHandler* Importer::GetProgressHandler() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mProgressHandler; return pimpl->mProgressHandler;
} }
@ -359,7 +359,7 @@ ProgressHandler* Importer::GetProgressHandler() const {
// Check whether a custom progress handler is currently set // Check whether a custom progress handler is currently set
bool Importer::IsDefaultProgressHandler() const { bool Importer::IsDefaultProgressHandler() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mIsDefaultProgressHandler; return pimpl->mIsDefaultProgressHandler;
} }
@ -381,7 +381,7 @@ bool _ValidateFlags(unsigned int pFlags) {
// Free the current scene // Free the current scene
void Importer::FreeScene( ) { void Importer::FreeScene( ) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
delete pimpl->mScene; delete pimpl->mScene;
@ -396,14 +396,14 @@ void Importer::FreeScene( ) {
// Get the current error string, if any // Get the current error string, if any
const char* Importer::GetErrorString() const { const char* Importer::GetErrorString() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
// Must remain valid as long as ReadFile() or FreeFile() are not called // Must remain valid as long as ReadFile() or FreeFile() are not called
return pimpl->mErrorString.c_str(); return pimpl->mErrorString.c_str();
} }
const std::exception_ptr& Importer::GetException() const { const std::exception_ptr& Importer::GetException() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
// Must remain valid as long as ReadFile() or FreeFile() are not called // Must remain valid as long as ReadFile() or FreeFile() are not called
return pimpl->mException; return pimpl->mException;
} }
@ -412,7 +412,7 @@ const std::exception_ptr& Importer::GetException() const {
// Enable extra-verbose mode // Enable extra-verbose mode
void Importer::SetExtraVerbose(bool bDo) { void Importer::SetExtraVerbose(bool bDo) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
pimpl->bExtraVerbose = bDo; pimpl->bExtraVerbose = bDo;
} }
@ -420,7 +420,7 @@ void Importer::SetExtraVerbose(bool bDo) {
// Get the current scene // Get the current scene
const aiScene* Importer::GetScene() const { const aiScene* Importer::GetScene() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mScene; return pimpl->mScene;
} }
@ -428,7 +428,7 @@ const aiScene* Importer::GetScene() const {
// Orphan the current scene and return it. // Orphan the current scene and return it.
aiScene* Importer::GetOrphanedScene() { aiScene* Importer::GetOrphanedScene() {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
aiScene* s = pimpl->mScene; aiScene* s = pimpl->mScene;
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
@ -437,7 +437,7 @@ aiScene* Importer::GetOrphanedScene() {
pimpl->mErrorString = std::string(); pimpl->mErrorString = std::string();
pimpl->mException = std::exception_ptr(); pimpl->mException = std::exception_ptr();
ASSIMP_END_EXCEPTION_REGION(aiScene*); ASSIMP_END_EXCEPTION_REGION(aiScene*);
return s; return s;
} }
@ -487,7 +487,7 @@ const aiScene* Importer::ReadFileFromMemory( const void* pBuffer,
unsigned int pFlags, unsigned int pFlags,
const char* pHint /*= ""*/) { const char* pHint /*= ""*/) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
if (!pHint) { if (!pHint) {
pHint = ""; pHint = "";
@ -518,7 +518,7 @@ const aiScene* Importer::ReadFileFromMemory( const void* pBuffer,
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
void WriteLogOpening(const std::string& file) { void WriteLogOpening(const std::string& file) {
ASSIMP_LOG_INFO("Load ", file); ASSIMP_LOG_INFO("Load ", file);
// print a full version dump. This is nice because we don't // print a full version dump. This is nice because we don't
@ -580,7 +580,7 @@ void WriteLogOpening(const std::string& file) {
// Reads the given file and returns its contents if successful. // Reads the given file and returns its contents if successful.
const aiScene* Importer::ReadFile( const char* _pFile, unsigned int pFlags) { const aiScene* Importer::ReadFile( const char* _pFile, unsigned int pFlags) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
const std::string pFile(_pFile); const std::string pFile(_pFile);
@ -745,7 +745,7 @@ const aiScene* Importer::ReadFile( const char* _pFile, unsigned int pFlags) {
// either successful or failure - the pointer expresses it anyways // either successful or failure - the pointer expresses it anyways
ASSIMP_END_EXCEPTION_REGION_WITH_ERROR_STRING(const aiScene*, pimpl->mErrorString, pimpl->mException); ASSIMP_END_EXCEPTION_REGION_WITH_ERROR_STRING(const aiScene*, pimpl->mErrorString, pimpl->mException);
return pimpl->mScene; return pimpl->mScene;
} }
@ -754,7 +754,7 @@ const aiScene* Importer::ReadFile( const char* _pFile, unsigned int pFlags) {
// Apply post-processing to the currently bound scene // Apply post-processing to the currently bound scene
const aiScene* Importer::ApplyPostProcessing(unsigned int pFlags) { const aiScene* Importer::ApplyPostProcessing(unsigned int pFlags) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
// Return immediately if no scene is active // Return immediately if no scene is active
if (!pimpl->mScene) { if (!pimpl->mScene) {
@ -832,7 +832,7 @@ const aiScene* Importer::ApplyPostProcessing(unsigned int pFlags) {
} }
#endif // ! DEBUG #endif // ! DEBUG
} }
pimpl->mProgressHandler->UpdatePostProcess( static_cast<int>(pimpl->mPostProcessingSteps.size()), pimpl->mProgressHandler->UpdatePostProcess( static_cast<int>(pimpl->mPostProcessingSteps.size()),
static_cast<int>(pimpl->mPostProcessingSteps.size()) ); static_cast<int>(pimpl->mPostProcessingSteps.size()) );
// update private scene flags // update private scene flags
@ -845,14 +845,14 @@ const aiScene* Importer::ApplyPostProcessing(unsigned int pFlags) {
ASSIMP_LOG_INFO("Leaving post processing pipeline"); ASSIMP_LOG_INFO("Leaving post processing pipeline");
ASSIMP_END_EXCEPTION_REGION(const aiScene*); ASSIMP_END_EXCEPTION_REGION(const aiScene*);
return pimpl->mScene; return pimpl->mScene;
} }
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
const aiScene* Importer::ApplyCustomizedPostProcessing( BaseProcess *rootProcess, bool requestValidation ) { const aiScene* Importer::ApplyCustomizedPostProcessing( BaseProcess *rootProcess, bool requestValidation ) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
// Return immediately if no scene is active // Return immediately if no scene is active
@ -934,14 +934,14 @@ bool Importer::IsExtensionSupported(const char* szExtension) const {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
size_t Importer::GetImporterCount() const { size_t Importer::GetImporterCount() const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return pimpl->mImporter.size(); return pimpl->mImporter.size();
} }
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
const aiImporterDesc* Importer::GetImporterInfo(size_t index) const { const aiImporterDesc* Importer::GetImporterInfo(size_t index) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
if (index >= pimpl->mImporter.size()) { if (index >= pimpl->mImporter.size()) {
return nullptr; return nullptr;
} }
@ -952,7 +952,7 @@ const aiImporterDesc* Importer::GetImporterInfo(size_t index) const {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
BaseImporter* Importer::GetImporter (size_t index) const { BaseImporter* Importer::GetImporter (size_t index) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
if (index >= pimpl->mImporter.size()) { if (index >= pimpl->mImporter.size()) {
return nullptr; return nullptr;
} }
@ -963,7 +963,7 @@ BaseImporter* Importer::GetImporter (size_t index) const {
// Find a loader plugin for a given file extension // Find a loader plugin for a given file extension
BaseImporter* Importer::GetImporter (const char* szExtension) const { BaseImporter* Importer::GetImporter (const char* szExtension) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return GetImporter(GetImporterIndex(szExtension)); return GetImporter(GetImporterIndex(szExtension));
} }
@ -1002,7 +1002,7 @@ size_t Importer::GetImporterIndex (const char* szExtension) const {
// Helper function to build a list of all file extensions supported by ASSIMP // Helper function to build a list of all file extensions supported by ASSIMP
void Importer::GetExtensionList(aiString& szOut) const { void Importer::GetExtensionList(aiString& szOut) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
std::set<std::string> str; std::set<std::string> str;
for (std::vector<BaseImporter*>::const_iterator i = pimpl->mImporter.begin();i != pimpl->mImporter.end();++i) { for (std::vector<BaseImporter*>::const_iterator i = pimpl->mImporter.begin();i != pimpl->mImporter.end();++i) {
@ -1028,7 +1028,7 @@ void Importer::GetExtensionList(aiString& szOut) const {
// Set a configuration property // Set a configuration property
bool Importer::SetPropertyInteger(const char* szName, int iValue) { bool Importer::SetPropertyInteger(const char* szName, int iValue) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
bool existing; bool existing;
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
existing = SetGenericProperty<int>(pimpl->mIntProperties, szName,iValue); existing = SetGenericProperty<int>(pimpl->mIntProperties, szName,iValue);
@ -1040,7 +1040,7 @@ bool Importer::SetPropertyInteger(const char* szName, int iValue) {
// Set a configuration property // Set a configuration property
bool Importer::SetPropertyFloat(const char* szName, ai_real iValue) { bool Importer::SetPropertyFloat(const char* szName, ai_real iValue) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
bool existing; bool existing;
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
existing = SetGenericProperty<ai_real>(pimpl->mFloatProperties, szName,iValue); existing = SetGenericProperty<ai_real>(pimpl->mFloatProperties, szName,iValue);
@ -1052,7 +1052,7 @@ bool Importer::SetPropertyFloat(const char* szName, ai_real iValue) {
// Set a configuration property // Set a configuration property
bool Importer::SetPropertyString(const char* szName, const std::string& value) { bool Importer::SetPropertyString(const char* szName, const std::string& value) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
bool existing; bool existing;
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
existing = SetGenericProperty<std::string>(pimpl->mStringProperties, szName,value); existing = SetGenericProperty<std::string>(pimpl->mStringProperties, szName,value);
@ -1064,7 +1064,7 @@ bool Importer::SetPropertyString(const char* szName, const std::string& value) {
// Set a configuration property // Set a configuration property
bool Importer::SetPropertyMatrix(const char* szName, const aiMatrix4x4& value) { bool Importer::SetPropertyMatrix(const char* szName, const aiMatrix4x4& value) {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
bool existing; bool existing;
ASSIMP_BEGIN_EXCEPTION_REGION(); ASSIMP_BEGIN_EXCEPTION_REGION();
existing = SetGenericProperty<aiMatrix4x4>(pimpl->mMatrixProperties, szName,value); existing = SetGenericProperty<aiMatrix4x4>(pimpl->mMatrixProperties, szName,value);
@ -1076,7 +1076,7 @@ bool Importer::SetPropertyMatrix(const char* szName, const aiMatrix4x4& value) {
// Get a configuration property // Get a configuration property
int Importer::GetPropertyInteger(const char* szName, int iErrorReturn /*= 0xffffffff*/) const { int Importer::GetPropertyInteger(const char* szName, int iErrorReturn /*= 0xffffffff*/) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return GetGenericProperty<int>(pimpl->mIntProperties,szName,iErrorReturn); return GetGenericProperty<int>(pimpl->mIntProperties,szName,iErrorReturn);
} }
@ -1084,7 +1084,7 @@ int Importer::GetPropertyInteger(const char* szName, int iErrorReturn /*= 0xffff
// Get a configuration property // Get a configuration property
ai_real Importer::GetPropertyFloat(const char* szName, ai_real iErrorReturn /*= 10e10*/) const { ai_real Importer::GetPropertyFloat(const char* szName, ai_real iErrorReturn /*= 10e10*/) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return GetGenericProperty<ai_real>(pimpl->mFloatProperties,szName,iErrorReturn); return GetGenericProperty<ai_real>(pimpl->mFloatProperties,szName,iErrorReturn);
} }
@ -1092,7 +1092,7 @@ ai_real Importer::GetPropertyFloat(const char* szName, ai_real iErrorReturn /*=
// Get a configuration property // Get a configuration property
std::string Importer::GetPropertyString(const char* szName, const std::string& iErrorReturn /*= ""*/) const { std::string Importer::GetPropertyString(const char* szName, const std::string& iErrorReturn /*= ""*/) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return GetGenericProperty<std::string>(pimpl->mStringProperties,szName,iErrorReturn); return GetGenericProperty<std::string>(pimpl->mStringProperties,szName,iErrorReturn);
} }
@ -1100,13 +1100,13 @@ std::string Importer::GetPropertyString(const char* szName, const std::string& i
// Get a configuration property // Get a configuration property
aiMatrix4x4 Importer::GetPropertyMatrix(const char* szName, const aiMatrix4x4& iErrorReturn /*= aiMatrix4x4()*/) const { aiMatrix4x4 Importer::GetPropertyMatrix(const char* szName, const aiMatrix4x4& iErrorReturn /*= aiMatrix4x4()*/) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
return GetGenericProperty<aiMatrix4x4>(pimpl->mMatrixProperties,szName,iErrorReturn); return GetGenericProperty<aiMatrix4x4>(pimpl->mMatrixProperties,szName,iErrorReturn);
} }
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
// Get the memory requirements of a single node // Get the memory requirements of a single node
inline inline
void AddNodeWeight(unsigned int& iScene,const aiNode* pcNode) { void AddNodeWeight(unsigned int& iScene,const aiNode* pcNode) {
if ( nullptr == pcNode ) { if ( nullptr == pcNode ) {
return; return;
@ -1124,7 +1124,7 @@ void AddNodeWeight(unsigned int& iScene,const aiNode* pcNode) {
// Get the memory requirements of the scene // Get the memory requirements of the scene
void Importer::GetMemoryRequirements(aiMemoryInfo& in) const { void Importer::GetMemoryRequirements(aiMemoryInfo& in) const {
ai_assert(nullptr != pimpl); ai_assert(nullptr != pimpl);
in = aiMemoryInfo(); in = aiMemoryInfo();
aiScene* mScene = pimpl->mScene; aiScene* mScene = pimpl->mScene;

6
code/Common/Importer.h
View File

@ -183,7 +183,7 @@ public:
// ------------------------------------------------------------------- // -------------------------------------------------------------------
/** Construct a batch loader from a given IO system to be used /** Construct a batch loader from a given IO system to be used
* to access external files * to access external files
*/ */
explicit BatchLoader(IOSystem* pIO, bool validate = false ); explicit BatchLoader(IOSystem* pIO, bool validate = false );
@ -197,13 +197,13 @@ public:
* @param enable True for validation. * @param enable True for validation.
*/ */
void setValidation( bool enabled ); void setValidation( bool enabled );
// ------------------------------------------------------------------- // -------------------------------------------------------------------
/** Returns the current validation step. /** Returns the current validation step.
* @return The current validation step. * @return The current validation step.
*/ */
bool getValidation() const; bool getValidation() const;
// ------------------------------------------------------------------- // -------------------------------------------------------------------
/** Add a new file to the list of files to be loaded. /** Add a new file to the list of files to be loaded.
* @param file File to be loaded * @param file File to be loaded

4
code/Common/ImporterRegistry.cpp
View File

@ -205,8 +205,8 @@ corresponding preprocessor flag to selectively disable formats.
namespace Assimp { namespace Assimp {
// ------------------------------------------------------------------------------------------------ // ------------------------------------------------------------------------------------------------
void GetImporterInstanceList(std::vector<BaseImporter *> &out) { void GetImporterInstanceList(std::vector<BaseImporter *> &out) {
// Some importers may be unimplemented or otherwise unsuitable for general use // Some importers may be unimplemented or otherwise unsuitable for general use
// in their current state. Devs can set ASSIMP_ENABLE_DEV_IMPORTERS in their // in their current state. Devs can set ASSIMP_ENABLE_DEV_IMPORTERS in their
// local environment to enable them, otherwise they're left out of the registry. // local environment to enable them, otherwise they're left out of the registry.

8
code/Common/Win32DebugLogStream.h
View File

@ -71,19 +71,19 @@ public:
}; };
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
inline inline
Win32DebugLogStream::Win32DebugLogStream(){ Win32DebugLogStream::Win32DebugLogStream(){
// empty // empty
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
inline inline
Win32DebugLogStream::~Win32DebugLogStream(){ Win32DebugLogStream::~Win32DebugLogStream(){
// empty // empty
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
inline inline
void Win32DebugLogStream::write(const char* message) { void Win32DebugLogStream::write(const char* message) {
::OutputDebugStringA( message); ::OutputDebugStringA( message);
} }

2
code/PostProcessing/ArmaturePopulate.h
View File

@ -97,7 +97,7 @@ public:
static void BuildBoneList(aiNode *current_node, const aiNode *root_node, static void BuildBoneList(aiNode *current_node, const aiNode *root_node,
const aiScene *scene, const aiScene *scene,
std::vector<aiBone *> &bones); std::vector<aiBone *> &bones);
static void BuildBoneStack(aiNode *current_node, const aiNode *root_node, static void BuildBoneStack(aiNode *current_node, const aiNode *root_node,
const aiScene *scene, const aiScene *scene,

2
code/PostProcessing/DropFaceNormalsProcess.cpp
View File

@ -104,7 +104,7 @@ bool DropFaceNormalsProcess::DropMeshFaceNormals (aiMesh* mesh) {
if (nullptr == mesh->mNormals) { if (nullptr == mesh->mNormals) {
return false; return false;
} }
delete[] mesh->mNormals; delete[] mesh->mNormals;
mesh->mNormals = nullptr; mesh->mNormals = nullptr;
return true; return true;

2
code/PostProcessing/EmbedTexturesProcess.cpp
View File

@ -137,7 +137,7 @@ bool EmbedTexturesProcess::addTexture(aiScene *pScene, const std::string &path)
pScene->mTextures = new aiTexture*[pScene->mNumTextures]; pScene->mTextures = new aiTexture*[pScene->mNumTextures];
::memmove(pScene->mTextures, oldTextures, sizeof(aiTexture*) * (pScene->mNumTextures - 1u)); ::memmove(pScene->mTextures, oldTextures, sizeof(aiTexture*) * (pScene->mNumTextures - 1u));
delete [] oldTextures; delete [] oldTextures;
// Add the new texture // Add the new texture
auto pTexture = new aiTexture; auto pTexture = new aiTexture;
pTexture->mHeight = 0; // Means that this is still compressed pTexture->mHeight = 0; // Means that this is still compressed

2
code/PostProcessing/FindDegenerates.cpp
View File

@ -90,7 +90,7 @@ void FindDegeneratesProcess::Execute( aiScene* pScene) {
if ( nullptr == pScene) { if ( nullptr == pScene) {
return; return;
} }
std::unordered_map<unsigned int, unsigned int> meshMap; std::unordered_map<unsigned int, unsigned int> meshMap;
meshMap.reserve(pScene->mNumMeshes); meshMap.reserve(pScene->mNumMeshes);

2
code/PostProcessing/FindInstancesProcess.cpp
View File

@ -137,7 +137,7 @@ void FindInstancesProcess::Execute( aiScene* pScene)
aiMesh* inst = pScene->mMeshes[i]; aiMesh* inst = pScene->mMeshes[i];
hashes[i] = GetMeshHash(inst); hashes[i] = GetMeshHash(inst);
// Find an appropriate epsilon // Find an appropriate epsilon
// to compare position differences against // to compare position differences against
float epsilon = ComputePositionEpsilon(inst); float epsilon = ComputePositionEpsilon(inst);
epsilon *= epsilon; epsilon *= epsilon;

2
code/PostProcessing/MakeVerboseFormat.h
View File

@ -98,7 +98,7 @@ public:
// ------------------------------------------------------------------- // -------------------------------------------------------------------
/** Checks whether the scene is already in verbose format. /** Checks whether the scene is already in verbose format.
* @param pScene The data to check. * @param pScene The data to check.
* @return true if the scene is already in verbose format. */ * @return true if the scene is already in verbose format. */
static bool IsVerboseFormat(const aiScene* pScene); static bool IsVerboseFormat(const aiScene* pScene);

2
code/PostProcessing/RemoveRedundantMaterials.cpp
View File

@ -215,7 +215,7 @@ void RemoveRedundantMatsProcess::Execute( aiScene* pScene)
} }
else else
{ {
ASSIMP_LOG_INFO("RemoveRedundantMatsProcess finished. Removed ", redundantRemoved, " redundant and ", ASSIMP_LOG_INFO("RemoveRedundantMatsProcess finished. Removed ", redundantRemoved, " redundant and ",
unreferencedRemoved, " unused materials."); unreferencedRemoved, " unused materials.");
} }
} }

38
code/PostProcessing/ScaleProcess.cpp
View File

@ -75,7 +75,7 @@ void ScaleProcess::SetupProperties( const Importer* pImp ) {
// File scaling * Application Scaling // File scaling * Application Scaling
float importerScale = pImp->GetPropertyFloat( AI_CONFIG_APP_SCALE_KEY, 1.0f ); float importerScale = pImp->GetPropertyFloat( AI_CONFIG_APP_SCALE_KEY, 1.0f );
// apply scale to the scale // apply scale to the scale
// helps prevent bugs with backward compatibility for anyone using normal scaling. // helps prevent bugs with backward compatibility for anyone using normal scaling.
mScale *= importerScale; mScale *= importerScale;
} }
@ -84,7 +84,7 @@ void ScaleProcess::Execute( aiScene* pScene ) {
if(mScale == 1.0f) { if(mScale == 1.0f) {
return; // nothing to scale return; // nothing to scale
} }
ai_assert( mScale != 0 ); ai_assert( mScale != 0 );
ai_assert( nullptr != pScene ); ai_assert( nullptr != pScene );
ai_assert( nullptr != pScene->mRootNode ); ai_assert( nullptr != pScene->mRootNode );
@ -96,7 +96,7 @@ void ScaleProcess::Execute( aiScene* pScene ) {
if ( nullptr == pScene->mRootNode ) { if ( nullptr == pScene->mRootNode ) {
return; return;
} }
// Process animations and update position transform to new unit system // Process animations and update position transform to new unit system
for( unsigned int animationID = 0; animationID < pScene->mNumAnimations; animationID++ ) for( unsigned int animationID = 0; animationID < pScene->mNumAnimations; animationID++ )
{ {
@ -105,7 +105,7 @@ void ScaleProcess::Execute( aiScene* pScene ) {
for( unsigned int animationChannel = 0; animationChannel < animation->mNumChannels; animationChannel++) for( unsigned int animationChannel = 0; animationChannel < animation->mNumChannels; animationChannel++)
{ {
aiNodeAnim* anim = animation->mChannels[animationChannel]; aiNodeAnim* anim = animation->mChannels[animationChannel];
for( unsigned int posKey = 0; posKey < anim->mNumPositionKeys; posKey++) for( unsigned int posKey = 0; posKey < anim->mNumPositionKeys; posKey++)
{ {
aiVectorKey& vectorKey = anim->mPositionKeys[posKey]; aiVectorKey& vectorKey = anim->mPositionKeys[posKey];
@ -116,8 +116,8 @@ void ScaleProcess::Execute( aiScene* pScene ) {
for( unsigned int meshID = 0; meshID < pScene->mNumMeshes; meshID++) for( unsigned int meshID = 0; meshID < pScene->mNumMeshes; meshID++)
{ {
aiMesh *mesh = pScene->mMeshes[meshID]; aiMesh *mesh = pScene->mMeshes[meshID];
// Reconstruct mesh vertexes to the new unit system // Reconstruct mesh vertexes to the new unit system
for( unsigned int vertexID = 0; vertexID < mesh->mNumVertices; vertexID++) for( unsigned int vertexID = 0; vertexID < mesh->mNumVertices; vertexID++)
{ {
@ -129,9 +129,9 @@ void ScaleProcess::Execute( aiScene* pScene ) {
// bone placement / scaling // bone placement / scaling
for( unsigned int boneID = 0; boneID < mesh->mNumBones; boneID++) for( unsigned int boneID = 0; boneID < mesh->mNumBones; boneID++)
{ {
// Reconstruct matrix by transform rather than by scale // Reconstruct matrix by transform rather than by scale
// This prevent scale values being changed which can // This prevent scale values being changed which can
// be meaningful in some cases // be meaningful in some cases
// like when you want the modeller to see 1:1 compatibility. // like when you want the modeller to see 1:1 compatibility.
aiBone* bone = mesh->mBones[boneID]; aiBone* bone = mesh->mBones[boneID];
@ -139,10 +139,10 @@ void ScaleProcess::Execute( aiScene* pScene ) {
aiQuaternion rotation; aiQuaternion rotation;
bone->mOffsetMatrix.Decompose( scale, rotation, pos); bone->mOffsetMatrix.Decompose( scale, rotation, pos);
aiMatrix4x4 translation; aiMatrix4x4 translation;
aiMatrix4x4::Translation( pos * mScale, translation ); aiMatrix4x4::Translation( pos * mScale, translation );
aiMatrix4x4 scaling; aiMatrix4x4 scaling;
aiMatrix4x4::Scaling( aiVector3D(scale), scaling ); aiMatrix4x4::Scaling( aiVector3D(scale), scaling );
@ -157,7 +157,7 @@ void ScaleProcess::Execute( aiScene* pScene ) {
for( unsigned int animMeshID = 0; animMeshID < mesh->mNumAnimMeshes; animMeshID++) for( unsigned int animMeshID = 0; animMeshID < mesh->mNumAnimMeshes; animMeshID++)
{ {
aiAnimMesh * animMesh = mesh->mAnimMeshes[animMeshID]; aiAnimMesh * animMesh = mesh->mAnimMeshes[animMeshID];
for( unsigned int vertexID = 0; vertexID < animMesh->mNumVertices; vertexID++) for( unsigned int vertexID = 0; vertexID < animMesh->mNumVertices; vertexID++)
{ {
aiVector3D& vertex = animMesh->mVertices[vertexID]; aiVector3D& vertex = animMesh->mVertices[vertexID];
@ -169,31 +169,31 @@ void ScaleProcess::Execute( aiScene* pScene ) {
traverseNodes( pScene->mRootNode ); traverseNodes( pScene->mRootNode );
} }
void ScaleProcess::traverseNodes( aiNode *node, unsigned int nested_node_id ) { void ScaleProcess::traverseNodes( aiNode *node, unsigned int nested_node_id ) {
applyScaling( node ); applyScaling( node );
for( size_t i = 0; i < node->mNumChildren; i++) for( size_t i = 0; i < node->mNumChildren; i++)
{ {
// recurse into the tree until we are done! // recurse into the tree until we are done!
traverseNodes( node->mChildren[i], nested_node_id+1 ); traverseNodes( node->mChildren[i], nested_node_id+1 );
} }
} }
void ScaleProcess::applyScaling( aiNode *currentNode ) { void ScaleProcess::applyScaling( aiNode *currentNode ) {
if ( nullptr != currentNode ) { if ( nullptr != currentNode ) {
// Reconstruct matrix by transform rather than by scale // Reconstruct matrix by transform rather than by scale
// This prevent scale values being changed which can // This prevent scale values being changed which can
// be meaningful in some cases // be meaningful in some cases
// like when you want the modeller to // like when you want the modeller to
// see 1:1 compatibility. // see 1:1 compatibility.
aiVector3D pos, scale; aiVector3D pos, scale;
aiQuaternion rotation; aiQuaternion rotation;
currentNode->mTransformation.Decompose( scale, rotation, pos); currentNode->mTransformation.Decompose( scale, rotation, pos);
aiMatrix4x4 translation; aiMatrix4x4 translation;
aiMatrix4x4::Translation( pos * mScale, translation ); aiMatrix4x4::Translation( pos * mScale, translation );
aiMatrix4x4 scaling; aiMatrix4x4 scaling;
// note: we do not use mScale here, this is on purpose. // note: we do not use mScale here, this is on purpose.

4
code/PostProcessing/ScaleProcess.h
View File

@ -55,8 +55,8 @@ namespace Assimp {
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
/** ScaleProcess: Class to rescale the whole model. /** ScaleProcess: Class to rescale the whole model.
* Now rescales animations, bones, and blend shapes properly. * Now rescales animations, bones, and blend shapes properly.
* Please note this will not write to 'scale' transform it will rewrite mesh * Please note this will not write to 'scale' transform it will rewrite mesh
* and matrixes so that your scale values * and matrixes so that your scale values
* from your model package are preserved, so this is completely intentional * from your model package are preserved, so this is completely intentional
* bugs should be reported as soon as they are found. * bugs should be reported as soon as they are found.
*/ */

12
code/PostProcessing/SplitByBoneCountProcess.cpp
View File

@ -209,7 +209,7 @@ void SplitByBoneCountProcess::SplitMesh( const aiMesh* pMesh, std::vector<aiMesh
// a small local set of new bones for the current face. State of all used bones for that face // a small local set of new bones for the current face. State of all used bones for that face
// can only be updated AFTER the face is completely analysed. Thanks to imre for the fix. // can only be updated AFTER the face is completely analysed. Thanks to imre for the fix.
std::set<unsigned int> newBonesAtCurrentFace; std::set<unsigned int> newBonesAtCurrentFace;
const aiFace& face = pMesh->mFaces[a]; const aiFace& face = pMesh->mFaces[a];
// check every vertex if its bones would still fit into the current submesh // check every vertex if its bones would still fit into the current submesh
for( unsigned int b = 0; b < face.mNumIndices; ++b ) for( unsigned int b = 0; b < face.mNumIndices; ++b )
@ -221,7 +221,7 @@ void SplitByBoneCountProcess::SplitMesh( const aiMesh* pMesh, std::vector<aiMesh
if( !isBoneUsed[boneIndex] ) if( !isBoneUsed[boneIndex] )
{ {
newBonesAtCurrentFace.insert(boneIndex); newBonesAtCurrentFace.insert(boneIndex);
} }
} }
} }
@ -412,7 +412,7 @@ void SplitByBoneCountProcess::SplitMesh( const aiMesh* pMesh, std::vector<aiMesh
if (pMesh->mNumAnimMeshes > 0) { if (pMesh->mNumAnimMeshes > 0) {
newMesh->mNumAnimMeshes = pMesh->mNumAnimMeshes; newMesh->mNumAnimMeshes = pMesh->mNumAnimMeshes;
newMesh->mAnimMeshes = new aiAnimMesh*[newMesh->mNumAnimMeshes]; newMesh->mAnimMeshes = new aiAnimMesh*[newMesh->mNumAnimMeshes];
for (unsigned int morphIdx = 0; morphIdx < newMesh->mNumAnimMeshes; ++morphIdx) { for (unsigned int morphIdx = 0; morphIdx < newMesh->mNumAnimMeshes; ++morphIdx) {
aiAnimMesh* origTarget = pMesh->mAnimMeshes[morphIdx]; aiAnimMesh* origTarget = pMesh->mAnimMeshes[morphIdx];
aiAnimMesh* newTarget = new aiAnimMesh; aiAnimMesh* newTarget = new aiAnimMesh;
@ -421,16 +421,16 @@ void SplitByBoneCountProcess::SplitMesh( const aiMesh* pMesh, std::vector<aiMesh
newTarget->mNumVertices = numSubMeshVertices; newTarget->mNumVertices = numSubMeshVertices;
newTarget->mVertices = new aiVector3D[numSubMeshVertices]; newTarget->mVertices = new aiVector3D[numSubMeshVertices];
newMesh->mAnimMeshes[morphIdx] = newTarget; newMesh->mAnimMeshes[morphIdx] = newTarget;
if (origTarget->HasNormals()) { if (origTarget->HasNormals()) {
newTarget->mNormals = new aiVector3D[numSubMeshVertices]; newTarget->mNormals = new aiVector3D[numSubMeshVertices];
} }
if (origTarget->HasTangentsAndBitangents()) { if (origTarget->HasTangentsAndBitangents()) {
newTarget->mTangents = new aiVector3D[numSubMeshVertices]; newTarget->mTangents = new aiVector3D[numSubMeshVertices];
newTarget->mBitangents = new aiVector3D[numSubMeshVertices]; newTarget->mBitangents = new aiVector3D[numSubMeshVertices];
} }
for( unsigned int vi = 0; vi < numSubMeshVertices; ++vi) { for( unsigned int vi = 0; vi < numSubMeshVertices; ++vi) {
// find the source vertex for it in the source mesh // find the source vertex for it in the source mesh
unsigned int previousIndex = previousVertexIndices[vi]; unsigned int previousIndex = previousVertexIndices[vi];

4
code/PostProcessing/SplitLargeMeshes.cpp
View File

@ -40,7 +40,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------- ----------------------------------------------------------------------
*/ */
/** /**
* @file Implementation of the SplitLargeMeshes postprocessing step * @file Implementation of the SplitLargeMeshes postprocessing step
*/ */
@ -353,7 +353,7 @@ void SplitLargeMeshesProcess_Vertex::Execute( aiScene* pScene) {
std::vector<std::pair<aiMesh*, unsigned int> > avList; std::vector<std::pair<aiMesh*, unsigned int> > avList;
//Check for point cloud first, //Check for point cloud first,
//Do not process point cloud, splitMesh works only with faces data //Do not process point cloud, splitMesh works only with faces data
for (unsigned int a = 0; a < pScene->mNumMeshes; a++) { for (unsigned int a = 0; a < pScene->mNumMeshes; a++) {
if ( pScene->mMeshes[a]->mPrimitiveTypes == aiPrimitiveType_POINT ) { if ( pScene->mMeshes[a]->mPrimitiveTypes == aiPrimitiveType_POINT ) {

2
code/PostProcessing/TextureTransform.cpp
View File

@ -448,7 +448,7 @@ void TextureTransformStep::Execute( aiScene* pScene)
if (size > AI_MAX_NUMBER_OF_TEXTURECOORDS) { if (size > AI_MAX_NUMBER_OF_TEXTURECOORDS) {
if (!DefaultLogger::isNullLogger()) { if (!DefaultLogger::isNullLogger()) {
ASSIMP_LOG_ERROR(static_cast<unsigned int>(trafo.size()), " UV channels required but just ", ASSIMP_LOG_ERROR(static_cast<unsigned int>(trafo.size()), " UV channels required but just ",
AI_MAX_NUMBER_OF_TEXTURECOORDS, " available"); AI_MAX_NUMBER_OF_TEXTURECOORDS, " available");
} }
size = AI_MAX_NUMBER_OF_TEXTURECOORDS; size = AI_MAX_NUMBER_OF_TEXTURECOORDS;

12
code/PostProcessing/TriangulateProcess.cpp
View File

@ -86,11 +86,11 @@ namespace {
/** /**
* @brief Encode the current triangle, and make sure it is recognized as a triangle. * @brief Encode the current triangle, and make sure it is recognized as a triangle.
* *
* This method will rotate indices in tri if needed in order to avoid tri to be considered * This method will rotate indices in tri if needed in order to avoid tri to be considered
* part of the previous ngon. This method is to be used whenever you want to emit a real triangle, * part of the previous ngon. This method is to be used whenever you want to emit a real triangle,
* and make sure it is seen as a triangle. * and make sure it is seen as a triangle.
* *
* @param tri Triangle to encode. * @param tri Triangle to encode.
*/ */
void ngonEncodeTriangle(aiFace * tri) { void ngonEncodeTriangle(aiFace * tri) {
@ -108,10 +108,10 @@ namespace {
/** /**
* @brief Encode a quad (2 triangles) in ngon encoding, and make sure they are seen as a single ngon. * @brief Encode a quad (2 triangles) in ngon encoding, and make sure they are seen as a single ngon.
* *
* @param tri1 First quad triangle * @param tri1 First quad triangle
* @param tri2 Second quad triangle * @param tri2 Second quad triangle
* *
* @pre Triangles must be properly fanned from the most appropriate vertex. * @pre Triangles must be properly fanned from the most appropriate vertex.
*/ */
void ngonEncodeQuad(aiFace *tri1, aiFace *tri2) { void ngonEncodeQuad(aiFace *tri1, aiFace *tri2) {
@ -140,7 +140,7 @@ namespace {
/** /**
* @brief Check whether this triangle would be considered part of the lastly emitted ngon or not. * @brief Check whether this triangle would be considered part of the lastly emitted ngon or not.
* *
* @param tri Current triangle. * @param tri Current triangle.
* @return true If used as is, this triangle will be part of last ngon. * @return true If used as is, this triangle will be part of last ngon.
* @return false If used as is, this triangle is not considered part of the last ngon. * @return false If used as is, this triangle is not considered part of the last ngon.
@ -512,7 +512,7 @@ bool TriangulateProcess::TriangulateMesh( aiMesh* pMesh)
num = 0; num = 0;
break; break;
/*curOut -= (max-num); // undo all previous work /*curOut -= (max-num); // undo all previous work
for (tmp = 0; tmp < max-2; ++tmp) { for (tmp = 0; tmp < max-2; ++tmp) {
aiFace& nface = *curOut++; aiFace& nface = *curOut++;

18
doc/dox.h
View File

@ -90,8 +90,8 @@ but not all of them are *open-source*. If there's an accompagning '<file>\source
@section main_install Installation @section main_install Installation
assimp can be used in two ways: linking against the pre-built libraries or building the library on your own. The former assimp can be used in two ways: linking against the pre-built libraries or building the library on your own. The former
option is the easiest, but the assimp distribution contains pre-built libraries only for Visual C++ 2013, 2015 and 2017. option is the easiest, but the assimp distribution contains pre-built libraries only for Visual C++ 2013, 2015 and 2017.
For other compilers you'll have to build assimp for yourself. Which is hopefully as hassle-free as the other way, but For other compilers you'll have to build assimp for yourself. Which is hopefully as hassle-free as the other way, but
needs a bit more work. Both ways are described at the @link install Installation page. @endlink needs a bit more work. Both ways are described at the @link install Installation page. @endlink
If you want to use assimp on Ubuntu you can install it via the following command: If you want to use assimp on Ubuntu you can install it via the following command:
@ -145,7 +145,7 @@ to your include paths (Menu-&gt;Extras-&gt;Options-&gt;Projects and Solutions-&g
and the assimp/lib/&lt;Compiler&gt; path to your linker paths (Menu-&gt;Extras-&gt;Options-&gt;Projects and Solutions-&gt;VC++ Directories-&gt;Library files). and the assimp/lib/&lt;Compiler&gt; path to your linker paths (Menu-&gt;Extras-&gt;Options-&gt;Projects and Solutions-&gt;VC++ Directories-&gt;Library files).
This is necessary only once to setup all paths inside you IDE. This is necessary only once to setup all paths inside you IDE.
To use the library in your C++ project you can simply generate a project file via cmake. One way is to add the assimp-folder To use the library in your C++ project you can simply generate a project file via cmake. One way is to add the assimp-folder
as a subdirectory via the cmake-command as a subdirectory via the cmake-command
@code @code
@ -158,7 +158,7 @@ Now just add the assimp-dependency to your application:
TARGET_LINK_LIBRARIES(my_game assimp) TARGET_LINK_LIBRARIES(my_game assimp)
@endcode @endcode
If done correctly you should now be able to compile, link, run and use the application. If done correctly you should now be able to compile, link, run and use the application.
@section install_own Building the library from scratch @section install_own Building the library from scratch
@ -170,7 +170,7 @@ to build the library just open a command-prompt / bash, navigate into the repo-f
cmake CMakeLists.txt cmake CMakeLists.txt
@endcode @endcode
A project-file of your default make-system ( like gnu-make on linux or Visual-Studio on Windows ) will be generated. A project-file of your default make-system ( like gnu-make on linux or Visual-Studio on Windows ) will be generated.
Run the build and you are done. You can find the libs at assimp/lib and the dll's / so's at bin. Run the build and you are done. You can find the libs at assimp/lib and the dll's / so's at bin.
@section assimp_dll Windows DLL Build @section assimp_dll Windows DLL Build
@ -496,10 +496,10 @@ X3 Y3 Z3 T3
@endcode @endcode
with <tt>(X1, X2, X3)</tt> being the local X base vector, <tt>(Y1, Y2, Y3)</tt> being the local with <tt>(X1, X2, X3)</tt> being the local X base vector, <tt>(Y1, Y2, Y3)</tt> being the local
Y base vector, <tt>(Z1, Z2, Z3)</tt> being the local Z base vector and <tt>(T1, T2, T3)</tt> being the Y base vector, <tt>(Z1, Z2, Z3)</tt> being the local Z base vector and <tt>(T1, T2, T3)</tt> being the
offset of the local origin (the translational part). offset of the local origin (the translational part).
All matrices in the library use row-major storage order. That means that the matrix elements are All matrices in the library use row-major storage order. That means that the matrix elements are
stored row-by-row, i.e. they end up like this in memory: stored row-by-row, i.e. they end up like this in memory:
<tt>[X1, Y1, Z1, T1, X2, Y2, Z2, T2, X3, Y3, Z3, T3, 0, 0, 0, 1]</tt>. <tt>[X1, Y1, Z1, T1, X2, Y2, Z2, T2, X3, Y3, Z3, T3, 0, 0, 0, 1]</tt>.
Note that this is neither the OpenGL format nor the DirectX format, because both of them specify the Note that this is neither the OpenGL format nor the DirectX format, because both of them specify the
matrix layout such that the translational part occupies three consecutive addresses in memory (so those matrix layout such that the translational part occupies three consecutive addresses in memory (so those
@ -1498,7 +1498,7 @@ Just copy'n'paste the template from Appendix A and adapt it for your needs.
with DefaultLogger::get()->[error, warn, debug, info]. with DefaultLogger::get()->[error, warn, debug, info].
</li> </li>
<li> <li>
Make sure that your loader compiles against all build configurations on all supported platforms. You can use our CI-build to check several platforms Make sure that your loader compiles against all build configurations on all supported platforms. You can use our CI-build to check several platforms
like Windows and Linux ( 32 bit and 64 bit ). like Windows and Linux ( 32 bit and 64 bit ).
</li> </li>
<li> <li>

38
doc/dox_cmd.h
View File

@ -12,7 +12,7 @@
@section intro Introduction @section intro Introduction
This document describes the usage of assimp's command line tools. This document describes the usage of assimp's command line tools.
This is *not* the SDK reference and programming-related stuff is not covered here. This is *not* the SDK reference and programming-related stuff is not covered here.
<br><br> <br><br>
<b>NOTE</b>: For simplicity, the following sections are written with Windows in mind. However <b>NOTE</b>: For simplicity, the following sections are written with Windows in mind. However
@ -29,7 +29,7 @@ assimp [command] [parameters]
The following commands are available: The following commands are available:
<table border="1"> <table border="1">
<tr> <tr>
<td><b>@link version version @endlink</b></td> <td><b>@link version version @endlink</b></td>
<td>Retrieve the current version of assimp</td> <td>Retrieve the current version of assimp</td>
@ -184,7 +184,7 @@ Generate a text or binary dump of a model. This is the core component of Assimp'
regression test suite but it could also be useful for other developers to quickly regression test suite but it could also be useful for other developers to quickly
examine the contents of a model. Note that text dumps are not intended to be used as examine the contents of a model. Note that text dumps are not intended to be used as
intermediate format, Assimp is not able to read them again, nor is the file format intermediate format, Assimp is not able to read them again, nor is the file format
stable or well-defined. It may change with every revision without notice. stable or well-defined. It may change with every revision without notice.
Binary dumps (*.assbin) are backwards- and forwards-compatible. Binary dumps (*.assbin) are backwards- and forwards-compatible.
<h3>Syntax:</h3> <h3>Syntax:</h3>
@ -199,7 +199,7 @@ assimp dump <model> [<out>] [-b] [-s] [common parameters]
<p> <p>
<tt> <tt>
model<br></tt><br> model<br></tt><br>
Required. Relative or absolute path to the input model. Required. Relative or absolute path to the input model.
</p> </p>
<p> <p>
<tt> <tt>
@ -220,7 +220,7 @@ The long form of this parameter is <tt>--binary</tt>.
</tt><br> </tt><br>
Optional. If this switch is specified, the dump is shortened to include only Optional. If this switch is specified, the dump is shortened to include only
min/max values for all vertex components and animation channels. The resulting min/max values for all vertex components and animation channels. The resulting
file is much smaller, but the original model can't be reconstructed from it. This is file is much smaller, but the original model can't be reconstructed from it. This is
used by Assimp's regression test suite, comparing those minidumps provides used by Assimp's regression test suite, comparing those minidumps provides
a fast way to verify whether a loader works correctly or not. a fast way to verify whether a loader works correctly or not.
The long form of this parameter is <tt>--short</tt>. The long form of this parameter is <tt>--short</tt>.
@ -229,7 +229,7 @@ The long form of this parameter is <tt>--short</tt>.
<p> <p>
<tt> <tt>
common parameters<br></tt><br> common parameters<br></tt><br>
Optional. Import configuration & postprocessing. Optional. Import configuration & postprocessing.
See the @link common common parameters page @endlink for more information. See the @link common common parameters page @endlink for more information.
</p> </p>
@ -248,7 +248,7 @@ The log output is included with the dump.
@code @code
assimp dump files\*.* assimp dump files\*.*
assimp dump files\*.* assimp dump files\*.*
@endcode @endcode
Dumps all loadable model files in the 'files' subdir. The output dumps are named Dumps all loadable model files in the 'files' subdir. The output dumps are named
@ -275,14 +275,14 @@ assimp extract <model> [<out>] [-t<n>] [-f<fmt>] [-ba] [-s] [common parameters]
<p> <p>
<tt> <tt>
model<br></tt><br> model<br></tt><br>
Required. Relative or absolute path to the input model. Required. Relative or absolute path to the input model.
</p> </p>
<p> <p>
<tt> <tt>
out<br></tt><br> out<br></tt><br>
Optional. Relative or absolute path to write the output images to. If the file name is Optional. Relative or absolute path to write the output images to. If the file name is
omitted the output images are named <tt><model-filename></tt><br> omitted the output images are named <tt><model-filename></tt><br>
The suffix <tt>_img&lt;n&gt;</tt> is appended to the file name if the -s switch is not specified The suffix <tt>_img&lt;n&gt;</tt> is appended to the file name if the -s switch is not specified
(where <tt>&lt;n&gt;</tt> is the zero-based index of the texture in the model file).<br> (where <tt>&lt;n&gt;</tt> is the zero-based index of the texture in the model file).<br>
The output file format is determined from the given file extension. Supported The output file format is determined from the given file extension. Supported
@ -296,7 +296,7 @@ written in their native file format (e.g. jpg).
<p> <p>
<tt>-t&lt;n&gt;<br> <tt>-t&lt;n&gt;<br>
</tt><br> </tt><br>
Optional. Specifies the (zero-based) index of the embedded texture to be extracted from Optional. Specifies the (zero-based) index of the embedded texture to be extracted from
the model. If this option is *not* specified all textures found are exported. the model. If this option is *not* specified all textures found are exported.
The long form of this parameter is <tt>--texture=&lt;n&gt;</tt>. The long form of this parameter is <tt>--texture=&lt;n&gt;</tt>.
</p> </p>
@ -348,8 +348,8 @@ imported data structure and writes it to <tt>test_img0.bmp</tt>.
@code @code
assimp extract files\*.mdl *.bmp assimp extract files\*.mdl *.bmp
assimp extract files\*.mdl *.bmp assimp extract files\*.mdl *.bmp
@endcode @endcode
Extracts all embedded textures from all loadable .mdl files in the 'files' subdirectory Extracts all embedded textures from all loadable .mdl files in the 'files' subdirectory
@ -361,10 +361,10 @@ and writes them to bitmaps which are named <tt><model-file>_img<image-index>.bmp
/** /**
@page common Common parameters @page common Common parameters
The parameters described on this page are commonly used by almost every assimp command. They The parameters described on this page are commonly used by almost every assimp command. They
specify how the library will postprocess the imported data. This is done by several specify how the library will postprocess the imported data. This is done by several
configurable pipeline stages, called 'post processing steps'. Below you can find a list configurable pipeline stages, called 'post processing steps'. Below you can find a list
of all supported steps along with short descriptions of what they're doing. <br><b>Programmers</b>: of all supported steps along with short descriptions of what they're doing. <br><b>Programmers</b>:
more information can be found in the <tt>aiPostProcess.h</tt> header. more information can be found in the <tt>aiPostProcess.h</tt> header.
<table border="1"> <table border="1">
@ -376,7 +376,7 @@ more information can be found in the <tt>aiPostProcess.h</tt> header.
<tr> <tr>
<td><tt>-ptv</tt></td> <td><tt>-ptv</tt></td>
<td><tt>--pretransform-vertices</tt></td> <td><tt>--pretransform-vertices</tt></td>
<td>Move all vertices into worldspace and collapse the scene graph. Animation data is lost. <td>Move all vertices into worldspace and collapse the scene graph. Animation data is lost.
This is intended for applications which don't support scenegraph-oriented rendering.</td> This is intended for applications which don't support scenegraph-oriented rendering.</td>
</tr> </tr>
<tr> <tr>
@ -428,7 +428,7 @@ more information can be found in the <tt>aiPostProcess.h</tt> header.
<tr> <tr>
<td><tt>-icl</tt></td> <td><tt>-icl</tt></td>
<td><tt>--improve-cache-locality</tt></td> <td><tt>--improve-cache-locality</tt></td>
<td>Improve the cache locality of the vertex buffer by reordering the index buffer <td>Improve the cache locality of the vertex buffer by reordering the index buffer
to achieve a lower ACMR (average post-transform vertex cache miss ratio)</td> to achieve a lower ACMR (average post-transform vertex cache miss ratio)</td>
</tr> </tr>
<tr> <tr>
@ -515,7 +515,7 @@ For convenience some default postprocessing configurations are provided.
The corresponding command line parameter is <tt>-c&lt;name&gt;</tt> (or <tt>--config=&lt;name&gt;</tt>). The corresponding command line parameter is <tt>-c&lt;name&gt;</tt> (or <tt>--config=&lt;name&gt;</tt>).
<table border="1"> <table border="1">
<tr> <tr>
<th>Name</th> <th>Name</th>
<th>Description</th> <th>Description</th>
@ -543,7 +543,7 @@ The corresponding command line parameter is <tt>-c&lt;name&gt;</tt> (or <tt>--co
There are also some common flags to customize Assimp's logging behaviour: There are also some common flags to customize Assimp's logging behaviour:
<table border="1"> <table border="1">
<tr> <tr>
<th>Name</th> <th>Name</th>
<th>Description</th> <th>Description</th>
@ -558,7 +558,7 @@ There are also some common flags to customize Assimp's logging behaviour:
</tr> </tr>
<tr> <tr>
<td><tt>-v</tt> or <tt>--verbose</tt></td> <td><tt>-v</tt> or <tt>--verbose</tt></td>
<td>Enables verbose logging. Debug messages will be produced too. This might <td>Enables verbose logging. Debug messages will be produced too. This might
decrease loading performance and result in *very* long logs ... use with caution if you experience strange issues.</td> decrease loading performance and result in *very* long logs ... use with caution if you experience strange issues.</td>
</tr> </tr>
</table> </table>

2
fuzz/assimp_fuzzer.cc
View File

@ -54,6 +54,6 @@ extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t dataSize) {
aiProcessPreset_TargetRealtime_Quality, nullptr ); aiProcessPreset_TargetRealtime_Quality, nullptr );
aiDetachLogStream(&stream); aiDetachLogStream(&stream);
return 0; return 0;
} }

2
include/assimp/BaseImporter.h
View File

@ -154,7 +154,7 @@ public:
/** Returns the exception of the last exception that occurred. /** Returns the exception of the last exception that occurred.
* Note: Exceptions are not the only source of error details, so GetErrorText * Note: Exceptions are not the only source of error details, so GetErrorText
* should be consulted too. * should be consulted too.
* @return The last exception that occurred. * @return The last exception that occurred.
*/ */
const std::exception_ptr& GetException() const { const std::exception_ptr& GetException() const {
return m_Exception; return m_Exception;

4
include/assimp/Compiler/poppack1.h
View File

@ -1,7 +1,7 @@
// =============================================================================== // ===============================================================================
// May be included multiple times - resets structure packing to the defaults // May be included multiple times - resets structure packing to the defaults
// for all supported compilers. Reverts the changes made by #include <pushpack1.h> // for all supported compilers. Reverts the changes made by #include <pushpack1.h>
// //
// Currently this works on the following compilers: // Currently this works on the following compilers:
// MSVC 7,8,9 // MSVC 7,8,9

4
include/assimp/Compiler/pushpack1.h
View File

@ -1,7 +1,7 @@
// =============================================================================== // ===============================================================================
// May be included multiple times - sets structure packing to 1 // May be included multiple times - sets structure packing to 1
// for all supported compilers. #include <poppack1.h> reverts the changes. // for all supported compilers. #include <poppack1.h> reverts the changes.
// //
// Currently this works on the following compilers: // Currently this works on the following compilers:
@ -37,7 +37,7 @@
#if defined(_MSC_VER) #if defined(_MSC_VER)
// C4103: Packing was changed after the inclusion of the header, probably missing #pragma pop // C4103: Packing was changed after the inclusion of the header, probably missing #pragma pop
# pragma warning (disable : 4103) # pragma warning (disable : 4103)
#endif #endif
#define AI_PUSHPACK_IS_DEFINED #define AI_PUSHPACK_IS_DEFINED

2
include/assimp/Exceptional.h
View File

@ -59,7 +59,7 @@ using std::runtime_error;
class ASSIMP_API DeadlyErrorBase : public runtime_error { class ASSIMP_API DeadlyErrorBase : public runtime_error {
protected: protected:
DeadlyErrorBase(Assimp::Formatter::format f); DeadlyErrorBase(Assimp::Formatter::format f);
template<typename... T, typename U> template<typename... T, typename U>
DeadlyErrorBase(Assimp::Formatter::format f, U&& u, T&&... args) : DeadlyErrorBase(Assimp::Formatter::format f, U&& u, T&&... args) :
DeadlyErrorBase(std::move(f << std::forward<U>(u)), std::forward<T>(args)...) {} DeadlyErrorBase(std::move(f << std::forward<U>(u)), std::forward<T>(args)...) {}

2
include/assimp/Exporter.hpp
View File

@ -390,7 +390,7 @@ public:
* @see SetPropertyInteger() * @see SetPropertyInteger()
*/ */
bool SetPropertyMatrix(const char *szName, const aiMatrix4x4 &sValue); bool SetPropertyMatrix(const char *szName, const aiMatrix4x4 &sValue);
bool SetPropertyCallback(const char *szName, const std::function<void *(void *)> &f); bool SetPropertyCallback(const char *szName, const std::function<void *(void *)> &f);
// ------------------------------------------------------------------- // -------------------------------------------------------------------

6
include/assimp/IOStreamBuffer.h
View File

@ -81,7 +81,7 @@ public:
/// @brief Returns the file-size. /// @brief Returns the file-size.
/// @return The file-size. /// @return The file-size.
size_t size() const; size_t size() const;
/// @brief Returns the cache size. /// @brief Returns the cache size.
/// @return The cache size. /// @return The cache size.
size_t cacheSize() const; size_t cacheSize() const;
@ -278,7 +278,7 @@ bool IOStreamBuffer<T>::getNextDataLine( std::vector<T> &buffer, T continuationT
} }
} }
} }
buffer[ i ] = '\n'; buffer[ i ] = '\n';
++m_cachePos; ++m_cachePos;
@ -334,7 +334,7 @@ template<class T>
AI_FORCE_INLINE AI_FORCE_INLINE
bool IOStreamBuffer<T>::getNextBlock( std::vector<T> &buffer) { bool IOStreamBuffer<T>::getNextBlock( std::vector<T> &buffer) {
// Return the last block-value if getNextLine was used before // Return the last block-value if getNextLine was used before
if ( 0 != m_cachePos ) { if ( 0 != m_cachePos ) {
buffer = std::vector<T>( m_cache.begin() + m_cachePos, m_cache.end() ); buffer = std::vector<T>( m_cache.begin() + m_cachePos, m_cache.end() );
m_cachePos = 0; m_cachePos = 0;
} else { } else {

8
include/assimp/IOSystem.hpp
View File

@ -62,9 +62,9 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "types.h" #include "types.h"
#ifdef _WIN32 #ifdef _WIN32
# include <direct.h> # include <direct.h>
# include <stdlib.h> # include <stdlib.h>
# include <stdio.h> # include <stdio.h>
#else #else
# include <sys/stat.h> # include <sys/stat.h>
# include <sys/types.h> # include <sys/types.h>
@ -84,7 +84,7 @@ namespace Assimp {
* to the importer library. If you implement this interface, you also want to * to the importer library. If you implement this interface, you also want to
* supply a custom implementation for IOStream. * supply a custom implementation for IOStream.
* *
* @see Importer::SetIOHandler() * @see Importer::SetIOHandler()
*/ */
class ASSIMP_API IOSystem class ASSIMP_API IOSystem
#ifndef SWIG #ifndef SWIG

2
include/assimp/Logger.hpp
View File

@ -112,7 +112,7 @@ public:
/** @brief Writes a debug message /** @brief Writes a debug message
* @param message Debug message*/ * @param message Debug message*/
void verboseDebug(const char* message); void verboseDebug(const char* message);
template<typename... T> template<typename... T>
void verboseDebug(T&&... args) { void verboseDebug(T&&... args) {
verboseDebug(formatMessage(std::forward<T>(args)...).c_str()); verboseDebug(formatMessage(std::forward<T>(args)...).c_str());

6
include/assimp/MemoryIOWrapper.h
View File

@ -57,7 +57,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <stdint.h> #include <stdint.h>
namespace Assimp { namespace Assimp {
#define AI_MEMORYIO_MAGIC_FILENAME "$$$___magic___$$$" #define AI_MEMORYIO_MAGIC_FILENAME "$$$___magic___$$$"
#define AI_MEMORYIO_MAGIC_FILENAME_LENGTH 17 #define AI_MEMORYIO_MAGIC_FILENAME_LENGTH 17
@ -85,7 +85,7 @@ public:
size_t Read(void* pvBuffer, size_t pSize, size_t pCount) { size_t Read(void* pvBuffer, size_t pSize, size_t pCount) {
ai_assert(nullptr != pvBuffer); ai_assert(nullptr != pvBuffer);
ai_assert(0 != pSize); ai_assert(0 != pSize);
const size_t cnt = std::min( pCount, (length-pos) / pSize); const size_t cnt = std::min( pCount, (length-pos) / pSize);
const size_t ofs = pSize * cnt; const size_t ofs = pSize * cnt;
@ -209,7 +209,7 @@ public:
return existing_io ? existing_io->ComparePaths(one, second) : false; return existing_io ? existing_io->ComparePaths(one, second) : false;
} }
bool PushDirectory( const std::string &path ) override { bool PushDirectory( const std::string &path ) override {
return existing_io ? existing_io->PushDirectory(path) : false; return existing_io ? existing_io->PushDirectory(path) : false;
} }

8
include/assimp/SmallVector.h
View File

@ -53,17 +53,17 @@ Based on CppCon 2016: Chandler Carruth "High Performance Code 201: Hybrid Data S
namespace Assimp { namespace Assimp {
// -------------------------------------------------------------------------------------------- // --------------------------------------------------------------------------------------------
/// @brief Small vector with inplace storage. /// @brief Small vector with inplace storage.
/// ///
/// Reduces heap allocations when list is shorter. It uses a small array for a dedicated size. /// Reduces heap allocations when list is shorter. It uses a small array for a dedicated size.
/// When the growing gets bigger than this small cache a dynamic growing algorithm will be /// When the growing gets bigger than this small cache a dynamic growing algorithm will be
/// used. /// used.
// -------------------------------------------------------------------------------------------- // --------------------------------------------------------------------------------------------
template<typename T, unsigned int Capacity> template<typename T, unsigned int Capacity>
class SmallVector { class SmallVector {
public: public:
/// @brief The default class constructor. /// @brief The default class constructor.
SmallVector() : SmallVector() :
mStorage(mInplaceStorage), mStorage(mInplaceStorage),
mSize(0), mSize(0),
mCapacity(Capacity) { mCapacity(Capacity) {
@ -84,7 +84,7 @@ public:
mStorage[mSize++] = item; mStorage[mSize++] = item;
return; return;
} }
push_back_and_grow(item); push_back_and_grow(item);
} }

22
include/assimp/SmoothingGroups.inl
View File

@ -7,8 +7,8 @@ Copyright (c) 2006-2021, assimp team
All rights reserved. All rights reserved.
Redistribution and use of this software in source and binary forms, Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the following with or without modification, are permitted provided that the following
conditions are met: conditions are met:
* Redistributions of source code must retain the above * Redistributions of source code must retain the above
@ -25,16 +25,16 @@ conditions are met:
derived from this software without specific prior derived from this software without specific prior
written permission of the assimp team. written permission of the assimp team.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
--------------------------------------------------------------------------- ---------------------------------------------------------------------------
*/ */
@ -77,7 +77,7 @@ void ComputeNormalsWithSmoothingsGroups(MeshWithSmoothingGroups<T>& sMesh)
sMesh.mNormals[face.mIndices[c]] = vNor; sMesh.mNormals[face.mIndices[c]] = vNor;
} }
// calculate the position bounds so we have a reliable epsilon to check position differences against // calculate the position bounds so we have a reliable epsilon to check position differences against
aiVector3D minVec( 1e10f, 1e10f, 1e10f), maxVec( -1e10f, -1e10f, -1e10f); aiVector3D minVec( 1e10f, 1e10f, 1e10f), maxVec( -1e10f, -1e10f, -1e10f);
for( unsigned int a = 0; a < sMesh.mPositions.size(); a++) for( unsigned int a = 0; a < sMesh.mPositions.size(); a++)
{ {
@ -91,7 +91,7 @@ void ComputeNormalsWithSmoothingsGroups(MeshWithSmoothingGroups<T>& sMesh)
const float posEpsilon = (maxVec - minVec).Length() * 1e-5f; const float posEpsilon = (maxVec - minVec).Length() * 1e-5f;
std::vector<aiVector3D> avNormals; std::vector<aiVector3D> avNormals;
avNormals.resize(sMesh.mNormals.size()); avNormals.resize(sMesh.mNormals.size());
// now generate the spatial sort tree // now generate the spatial sort tree
SGSpatialSort sSort; SGSpatialSort sSort;
for( typename std::vector<T>::iterator i = sMesh.mFaces.begin(); for( typename std::vector<T>::iterator i = sMesh.mFaces.begin();

10
include/assimp/XmlParser.h
View File

@ -94,7 +94,7 @@ using XmlAttribute = pugi::xml_attribute;
/// } /// }
/// } /// }
/// @endcode /// @endcode
/// @tparam TNodeType /// @tparam TNodeType
template <class TNodeType> template <class TNodeType>
class TXmlParser { class TXmlParser {
public: public:
@ -123,7 +123,7 @@ public:
/// @brief Will search for a child-node by its name /// @brief Will search for a child-node by its name
/// @param name [in] The name of the child-node. /// @param name [in] The name of the child-node.
/// @return The node instance or nullptr, if nothing was found. /// @return The node instance or nullptr, if nothing was found.
TNodeType *findNode(const std::string &name) { TNodeType *findNode(const std::string &name) {
if (name.empty()) { if (name.empty()) {
return nullptr; return nullptr;
@ -162,12 +162,12 @@ public:
mData.resize(len + 1); mData.resize(len + 1);
memset(&mData[0], '\0', len + 1); memset(&mData[0], '\0', len + 1);
stream->Read(&mData[0], 1, len); stream->Read(&mData[0], 1, len);
mDoc = new pugi::xml_document(); mDoc = new pugi::xml_document();
pugi::xml_parse_result parse_result = mDoc->load_string(&mData[0], pugi::parse_full); pugi::xml_parse_result parse_result = mDoc->load_string(&mData[0], pugi::parse_full);
if (parse_result.status == pugi::status_ok) { if (parse_result.status == pugi::status_ok) {
return true; return true;
} }
ASSIMP_LOG_DEBUG("Error while parse xml.", std::string(parse_result.description()), " @ ", parse_result.offset); ASSIMP_LOG_DEBUG("Error while parse xml.", std::string(parse_result.description()), " @ ", parse_result.offset);
@ -457,7 +457,7 @@ public:
} }
private: private:
XmlNode &mParent; XmlNode &mParent;
std::vector<XmlNode> mNodes; std::vector<XmlNode> mNodes;
size_t mIndex; size_t mIndex;
}; };

2
include/assimp/ai_assert.h
View File

@ -57,7 +57,7 @@ namespace Assimp
#else #else
# define ai_assert(expression) # define ai_assert(expression)
# define ai_assert_entry() # define ai_assert_entry()
#endif // ASSIMP_BUILD_DEBUG #endif // ASSIMP_BUILD_DEBUG
#endif // AI_ASSERT_H_INC #endif // AI_ASSERT_H_INC

6
include/assimp/anim.h
View File

@ -39,7 +39,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
--------------------------------------------------------------------------- ---------------------------------------------------------------------------
*/ */
/** /**
* @file anim.h * @file anim.h
* @brief Defines the data structures in which the imported animations * @brief Defines the data structures in which the imported animations
* are returned. * are returned.
@ -478,11 +478,11 @@ struct aiAnimation {
namespace Assimp { namespace Assimp {
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
/** /**
* @brief CPP-API: Utility class to simplify interpolations of various data types. * @brief CPP-API: Utility class to simplify interpolations of various data types.
* *
* The type of interpolation is chosen automatically depending on the * The type of interpolation is chosen automatically depending on the
* types of the arguments. * types of the arguments.
*/ */
template <typename T> template <typename T>
struct Interpolator { struct Interpolator {

12
include/assimp/cimport.h
View File

@ -894,7 +894,7 @@ ASSIMP_API float aiMatrix3Determinant(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Get a 3x3 rotation matrix around the Z axis. /** Get a 3x3 rotation matrix around the Z axis.
* @param mat Receives the output matrix * @param mat Receives the output matrix
* @param angle Rotation angle, in radians * @param angle Rotation angle, in radians
*/ */
ASSIMP_API void aiMatrix3RotationZ( ASSIMP_API void aiMatrix3RotationZ(
@ -903,7 +903,7 @@ ASSIMP_API void aiMatrix3RotationZ(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Returns a 3x3 rotation matrix for a rotation around an arbitrary axis. /** Returns a 3x3 rotation matrix for a rotation around an arbitrary axis.
* @param mat Receives the output matrix * @param mat Receives the output matrix
* @param axis Rotation axis, should be a normalized vector * @param axis Rotation axis, should be a normalized vector
* @param angle Rotation angle, in radians * @param angle Rotation angle, in radians
*/ */
@ -914,7 +914,7 @@ ASSIMP_API void aiMatrix3FromRotationAroundAxis(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Get a 3x3 translation matrix. /** Get a 3x3 translation matrix.
* @param mat Receives the output matrix * @param mat Receives the output matrix
* @param translation The translation vector * @param translation The translation vector
*/ */
ASSIMP_API void aiMatrix3Translation( ASSIMP_API void aiMatrix3Translation(
@ -923,7 +923,7 @@ ASSIMP_API void aiMatrix3Translation(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Create a 3x3 matrix that rotates one vector to another vector. /** Create a 3x3 matrix that rotates one vector to another vector.
* @param mat Receives the output matrix * @param mat Receives the output matrix
* @param from Vector to rotate from * @param from Vector to rotate from
* @param to Vector to rotate to * @param to Vector to rotate to
*/ */
@ -1059,7 +1059,7 @@ ASSIMP_API void aiMatrix4DecomposeNoScaling(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Creates a 4x4 matrix from a set of euler angles. /** Creates a 4x4 matrix from a set of euler angles.
* @param mat Receives the output matrix * @param mat Receives the output matrix
* @param x Rotation angle for the x-axis, in radians * @param x Rotation angle for the x-axis, in radians
* @param y Rotation angle for the y-axis, in radians * @param y Rotation angle for the y-axis, in radians
* @param z Rotation angle for the z-axis, in radians * @param z Rotation angle for the z-axis, in radians
@ -1137,7 +1137,7 @@ ASSIMP_API void aiMatrix4FromTo(
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
/** Create a Quaternion from euler angles. /** Create a Quaternion from euler angles.
* @param q Receives the output quaternion * @param q Receives the output quaternion
* @param x Rotation angle for the x-axis, in radians * @param x Rotation angle for the x-axis, in radians
* @param y Rotation angle for the y-axis, in radians * @param y Rotation angle for the y-axis, in radians
* @param z Rotation angle for the z-axis, in radians * @param z Rotation angle for the z-axis, in radians

2
include/assimp/defs.h
View File

@ -161,7 +161,7 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#pragma warning(disable : 4251) #pragma warning(disable : 4251)
#endif #endif
/* Force the compiler to inline a function, if possible */ /* Force the compiler to inline a function, if possible */
#define AI_FORCE_INLINE inline #define AI_FORCE_INLINE inline
/* Tells the compiler that a function never returns. Used in code analysis /* Tells the compiler that a function never returns. Used in code analysis
* to skip dead paths (e.g. after an assertion evaluated to false). */ * to skip dead paths (e.g. after an assertion evaluated to false). */

2
include/assimp/light.h
View File

@ -257,7 +257,7 @@ struct aiLight
#ifdef __cplusplus #ifdef __cplusplus
} }
#endif #endif
#endif // !! AI_LIGHT_H_INC #endif // !! AI_LIGHT_H_INC

8
include/assimp/material.h
View File

@ -194,8 +194,8 @@ enum aiTextureType {
*/ */
aiTextureType_NONE = 0, aiTextureType_NONE = 0,
/** LEGACY API MATERIALS /** LEGACY API MATERIALS
* Legacy refers to materials which * Legacy refers to materials which
* Were originally implemented in the specifications around 2000. * Were originally implemented in the specifications around 2000.
* These must never be removed, as most engines support them. * These must never be removed, as most engines support them.
*/ */
@ -339,9 +339,9 @@ ASSIMP_API const char *TextureTypeToString(enum aiTextureType in);
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
/** @brief Defines all shading models supported by the library /** @brief Defines all shading models supported by the library
* *
* Property: #AI_MATKEY_SHADING_MODEL * Property: #AI_MATKEY_SHADING_MODEL
* *
* The list of shading modes has been taken from Blender. * The list of shading modes has been taken from Blender.
* See Blender documentation for more information. The API does * See Blender documentation for more information. The API does
* not distinguish between "specular" and "diffuse" shaders (thus the * not distinguish between "specular" and "diffuse" shaders (thus the

2
include/assimp/matrix4x4.h
View File

@ -230,7 +230,7 @@ public:
* @param out Receives the output matrix * @param out Receives the output matrix
* @return Reference to the output matrix * @return Reference to the output matrix
*/ */
static aiMatrix4x4t& Translation( const aiVector3t<TReal>& v, static aiMatrix4x4t& Translation( const aiVector3t<TReal>& v,
aiMatrix4x4t& out); aiMatrix4x4t& out);
// ------------------------------------------------------------------- // -------------------------------------------------------------------

2
include/assimp/matrix4x4.inl
View File

@ -421,7 +421,7 @@ void aiMatrix4x4t<TReal>::Decompose(aiVector3t<TReal>& pScaling, aiVector3t<TRea
and post-multiplication of column vectors, and post-multiplication of column vectors,
the rotation matrix for an euler XYZ rotation is M = Rz * Ry * Rx. the rotation matrix for an euler XYZ rotation is M = Rz * Ry * Rx.
combining gives: combining gives:
| CE BDE-AF ADE+BF 0 | | CE BDE-AF ADE+BF 0 |
M = | CF BDF+AE ADF-BE 0 | M = | CF BDF+AE ADF-BE 0 |
| -D CB AC 0 | | -D CB AC 0 |

10
include/assimp/mesh.h
View File

@ -400,17 +400,17 @@ enum aiPrimitiveType {
/** /**
* A flag to determine whether this triangles only mesh is NGON encoded. * A flag to determine whether this triangles only mesh is NGON encoded.
* *
* NGON encoding is a special encoding that tells whether 2 or more consecutive triangles * NGON encoding is a special encoding that tells whether 2 or more consecutive triangles
* should be considered as a triangle fan. This is identified by looking at the first vertex index. * should be considered as a triangle fan. This is identified by looking at the first vertex index.
* 2 consecutive triangles with the same 1st vertex index are part of the same * 2 consecutive triangles with the same 1st vertex index are part of the same
* NGON. * NGON.
* *
* At the moment, only quads (concave or convex) are supported, meaning that polygons are 'seen' as * At the moment, only quads (concave or convex) are supported, meaning that polygons are 'seen' as
* triangles, as usual after a triangulation pass. * triangles, as usual after a triangulation pass.
* *
* To get an NGON encoded mesh, please use the aiProcess_Triangulate post process. * To get an NGON encoded mesh, please use the aiProcess_Triangulate post process.
* *
* @see aiProcess_Triangulate * @see aiProcess_Triangulate
* @link https://github.com/KhronosGroup/glTF/pull/1620 * @link https://github.com/KhronosGroup/glTF/pull/1620
*/ */

14
include/assimp/postprocess.h
View File

@ -211,10 +211,10 @@ enum aiPostProcessSteps
* *
* If the resulting scene can be reduced to a single mesh, with a single * If the resulting scene can be reduced to a single mesh, with a single
* material, no lights, and no cameras, then the output scene will contain * material, no lights, and no cameras, then the output scene will contain
* only a root node (with no children) that references the single mesh. * only a root node (with no children) that references the single mesh.
* Otherwise, the output scene will be reduced to a root node with a single * Otherwise, the output scene will be reduced to a root node with a single
* level of child nodes, each one referencing one mesh, and each mesh * level of child nodes, each one referencing one mesh, and each mesh
* referencing one material. * referencing one material.
* *
* In either case, for rendering, you can * In either case, for rendering, you can
* simply render all meshes in order - you don't need to pay * simply render all meshes in order - you don't need to pay
@ -328,12 +328,12 @@ enum aiPostProcessSteps
// ------------------------------------------------------------------------- // -------------------------------------------------------------------------
/** /**
* This step generically populates aiBone->mArmature and aiBone->mNode generically * This step generically populates aiBone->mArmature and aiBone->mNode generically
* The point of these is it saves you later having to calculate these elements * The point of these is it saves you later having to calculate these elements
* This is useful when handling rest information or skin information * This is useful when handling rest information or skin information
* If you have multiple armatures on your models we strongly recommend enabling this * If you have multiple armatures on your models we strongly recommend enabling this
* Instead of writing your own multi-root, multi-armature lookups we have done the * Instead of writing your own multi-root, multi-armature lookups we have done the
* hard work for you :) * hard work for you :)
*/ */
aiProcess_PopulateArmatureData = 0x4000, aiProcess_PopulateArmatureData = 0x4000,
@ -579,7 +579,7 @@ enum aiPostProcessSteps
* of the imported model. And if so, it uses that. * of the imported model. And if so, it uses that.
*/ */
aiProcess_EmbedTextures = 0x10000000, aiProcess_EmbedTextures = 0x10000000,
// aiProcess_GenEntityMeshes = 0x100000, // aiProcess_GenEntityMeshes = 0x100000,
// aiProcess_OptimizeAnimations = 0x200000 // aiProcess_OptimizeAnimations = 0x200000
// aiProcess_FixTexturePaths = 0x200000 // aiProcess_FixTexturePaths = 0x200000

Some files were not shown because too many files have changed in this diff Show More