delete src/mesh/assimp-master

1 files changed, 0 insertions, 675 deletions

diff --git a/src/mesh/assimp-master/code/AssetLib/X3D/X3DExporter.cpp b/src/mesh/assimp-master/code/AssetLib/X3D/X3DExporter.cpp
deleted file mode 100644
index b3278a5..0000000
--- a/src/mesh/assimp-master/code/AssetLib/X3D/X3DExporter.cpp
+++ /dev/null
@@ -1,675 +0,0 @@
-/// \file   X3DExporter.cpp
-/// \brief  X3D-format files exporter for Assimp. Implementation.
-/// \date   2016
-/// \author smal.root@gmail.com
-
-#ifndef ASSIMP_BUILD_NO_EXPORT
-#ifndef ASSIMP_BUILD_NO_X3D_EXPORTER
-
-#include "X3DExporter.hpp"
-
-// Header files, Assimp.
-#include <assimp/Exceptional.h>
-#include <assimp/StringUtils.h>
-#include <assimp/Exporter.hpp>
-#include <assimp/IOSystem.hpp>
-
-using namespace std;
-
-namespace Assimp {
-
-void ExportSceneX3D(const char *pFile, IOSystem *pIOSystem, const aiScene *pScene, const ExportProperties *pProperties) {
-    X3DExporter exporter(pFile, pIOSystem, pScene, pProperties);
-}
-
-} // namespace Assimp
-
-namespace Assimp {
-
-void X3DExporter::IndentationStringSet(const size_t pNewLevel) {
-    if (pNewLevel > mIndentationString.size()) {
-        if (pNewLevel > mIndentationString.capacity()) mIndentationString.reserve(pNewLevel + 1);
-
-        for (size_t i = 0, i_e = pNewLevel - mIndentationString.size(); i < i_e; i++)
-            mIndentationString.push_back('\t');
-    } else if (pNewLevel < mIndentationString.size()) {
-        mIndentationString.resize(pNewLevel);
-    }
-}
-
-void X3DExporter::XML_Write(const string &pData) {
-    if (pData.size() == 0) return;
-    if (mOutFile->Write((void *)pData.data(), pData.length(), 1) != 1) throw DeadlyExportError("Failed to write scene data!");
-}
-
-aiMatrix4x4 X3DExporter::Matrix_GlobalToCurrent(const aiNode &pNode) const {
-    aiNode *cur_node;
-    std::list<aiMatrix4x4> matr;
-    aiMatrix4x4 out_matr;
-
-    // starting walk from current element to root
-    matr.push_back(pNode.mTransformation);
-    cur_node = pNode.mParent;
-    if (cur_node != nullptr) {
-        do {
-            matr.push_back(cur_node->mTransformation);
-            cur_node = cur_node->mParent;
-        } while (cur_node != nullptr);
-    }
-
-    // multiplicate all matrices in reverse order
-    for (std::list<aiMatrix4x4>::reverse_iterator rit = matr.rbegin(); rit != matr.rend(); ++rit)
-        out_matr = out_matr * (*rit);
-
-    return out_matr;
-}
-
-void X3DExporter::AttrHelper_FloatToString(const float pValue, std::string &pTargetString) {
-    pTargetString = to_string(pValue);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Vec3DArrToString(const aiVector3D *pArray, const size_t pArray_Size, string &pTargetString) {
-    pTargetString.clear();
-    pTargetString.reserve(pArray_Size * 6); // (Number + space) * 3.
-    for (size_t idx = 0; idx < pArray_Size; idx++)
-        pTargetString.append(to_string(pArray[idx].x) + " " + to_string(pArray[idx].y) + " " + to_string(pArray[idx].z) + " ");
-
-    // remove last space symbol.
-    pTargetString.resize(pTargetString.length() - 1);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Vec2DArrToString(const aiVector2D *pArray, const size_t pArray_Size, std::string &pTargetString) {
-    pTargetString.clear();
-    pTargetString.reserve(pArray_Size * 4); // (Number + space) * 2.
-    for (size_t idx = 0; idx < pArray_Size; idx++)
-        pTargetString.append(to_string(pArray[idx].x) + " " + to_string(pArray[idx].y) + " ");
-
-    // remove last space symbol.
-    pTargetString.resize(pTargetString.length() - 1);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Vec3DAsVec2fArrToString(const aiVector3D *pArray, const size_t pArray_Size, string &pTargetString) {
-    pTargetString.clear();
-    pTargetString.reserve(pArray_Size * 4); // (Number + space) * 2.
-    for (size_t idx = 0; idx < pArray_Size; idx++)
-        pTargetString.append(to_string(pArray[idx].x) + " " + to_string(pArray[idx].y) + " ");
-
-    // remove last space symbol.
-    pTargetString.resize(pTargetString.length() - 1);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Col4DArrToString(const aiColor4D *pArray, const size_t pArray_Size, string &pTargetString) {
-    pTargetString.clear();
-    pTargetString.reserve(pArray_Size * 8); // (Number + space) * 4.
-    for (size_t idx = 0; idx < pArray_Size; idx++)
-        pTargetString.append(to_string(pArray[idx].r) + " " + to_string(pArray[idx].g) + " " + to_string(pArray[idx].b) + " " +
-                             to_string(pArray[idx].a) + " ");
-
-    // remove last space symbol.
-    pTargetString.resize(pTargetString.length() - 1);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Col3DArrToString(const aiColor3D *pArray, const size_t pArray_Size, std::string &pTargetString) {
-    pTargetString.clear();
-    pTargetString.reserve(pArray_Size * 6); // (Number + space) * 3.
-    for (size_t idx = 0; idx < pArray_Size; idx++)
-        pTargetString.append(to_string(pArray[idx].r) + " " + to_string(pArray[idx].g) + " " + to_string(pArray[idx].b) + " ");
-
-    // remove last space symbol.
-    pTargetString.resize(pTargetString.length() - 1);
-    AttrHelper_CommaToPoint(pTargetString);
-}
-
-void X3DExporter::AttrHelper_Color3ToAttrList(std::list<SAttribute> &pList, const std::string &pName, const aiColor3D &pValue, const aiColor3D &pDefaultValue) {
-    string tstr;
-
-    if (pValue == pDefaultValue) return;
-
-    AttrHelper_Col3DArrToString(&pValue, 1, tstr);
-    pList.push_back({ pName, tstr });
-}
-
-void X3DExporter::AttrHelper_FloatToAttrList(std::list<SAttribute> &pList, const string &pName, const float pValue, const float pDefaultValue) {
-    string tstr;
-
-    if (pValue == pDefaultValue) return;
-
-    AttrHelper_FloatToString(pValue, tstr);
-    pList.push_back({ pName, tstr });
-}
-
-void X3DExporter::NodeHelper_OpenNode(const string &pNodeName, const size_t pTabLevel, const bool pEmptyElement, const list<SAttribute> &pAttrList) {
-    // Write indentation.
-    IndentationStringSet(pTabLevel);
-    XML_Write(mIndentationString);
-    // Begin of the element
-    XML_Write("<" + pNodeName);
-    // Write attributes
-    for (const SAttribute &attr : pAttrList) {
-        XML_Write(" " + attr.Name + "='" + attr.Value + "'");
-    }
-
-    // End of the element
-    if (pEmptyElement) {
-        XML_Write("/>\n");
-    } else {
-        XML_Write(">\n");
-    }
-}
-
-void X3DExporter::NodeHelper_OpenNode(const string &pNodeName, const size_t pTabLevel, const bool pEmptyElement) {
-    const list<SAttribute> attr_list;
-
-    NodeHelper_OpenNode(pNodeName, pTabLevel, pEmptyElement, attr_list);
-}
-
-void X3DExporter::NodeHelper_CloseNode(const string &pNodeName, const size_t pTabLevel) {
-    // Write indentation.
-    IndentationStringSet(pTabLevel);
-    XML_Write(mIndentationString);
-    // Write element
-    XML_Write("</" + pNodeName + ">\n");
-}
-
-void X3DExporter::Export_Node(const aiNode *pNode, const size_t pTabLevel) {
-    bool transform = false;
-    list<SAttribute> attr_list;
-
-    // In Assimp lights is stored in next way: light source store in mScene->mLights and in node tree must present aiNode with name same as
-    // light source has. Considering it we must compare every aiNode name with light sources names. Why not to look where ligths is present
-    // and save them to fili? Because corresponding aiNode can be already written to file and we can only add information to file not to edit.
-    if (CheckAndExport_Light(*pNode, pTabLevel)) return;
-
-    // Check if need DEF.
-    if (pNode->mName.length) attr_list.push_back({ "DEF", pNode->mName.C_Str() });
-
-    // Check if need <Transformation> node against <Group>.
-    if (!pNode->mTransformation.IsIdentity()) {
-        auto Vector2String = [this](const aiVector3D pVector) -> string {
-            string tstr = to_string(pVector.x) + " " + to_string(pVector.y) + " " + to_string(pVector.z);
-
-            AttrHelper_CommaToPoint(tstr);
-
-            return tstr;
-        };
-
-        auto Rotation2String = [this](const aiVector3D pAxis, const ai_real pAngle) -> string {
-            string tstr = to_string(pAxis.x) + " " + to_string(pAxis.y) + " " + to_string(pAxis.z) + " " + to_string(pAngle);
-
-            AttrHelper_CommaToPoint(tstr);
-
-            return tstr;
-        };
-
-        aiVector3D scale, translate, rotate_axis;
-        ai_real rotate_angle;
-
-        transform = true;
-        pNode->mTransformation.Decompose(scale, rotate_axis, rotate_angle, translate);
-        // Check if values different from default
-        if ((rotate_angle != 0) && (rotate_axis.Length() > 0))
-            attr_list.push_back({ "rotation", Rotation2String(rotate_axis, rotate_angle) });
-
-        if (!scale.Equal({ 1.0, 1.0, 1.0 })) {
-            attr_list.push_back({ "scale", Vector2String(scale) });
-        }
-        if (translate.Length() > 0) {
-            attr_list.push_back({ "translation", Vector2String(translate) });
-        }
-    }
-
-    // Begin node if need.
-    if (transform)
-        NodeHelper_OpenNode("Transform", pTabLevel, false, attr_list);
-    else
-        NodeHelper_OpenNode("Group", pTabLevel);
-
-    // Export metadata
-    if (pNode->mMetaData != nullptr) {
-        for (size_t idx_prop = 0; idx_prop < pNode->mMetaData->mNumProperties; idx_prop++) {
-            const aiString *key;
-            const aiMetadataEntry *entry;
-
-            if (pNode->mMetaData->Get(idx_prop, key, entry)) {
-                switch (entry->mType) {
-                case AI_BOOL:
-                    Export_MetadataBoolean(*key, *static_cast<bool *>(entry->mData), pTabLevel + 1);
-                    break;
-                case AI_DOUBLE:
-                    Export_MetadataDouble(*key, *static_cast<double *>(entry->mData), pTabLevel + 1);
-                    break;
-                case AI_FLOAT:
-                    Export_MetadataFloat(*key, *static_cast<float *>(entry->mData), pTabLevel + 1);
-                    break;
-                case AI_INT32:
-                    Export_MetadataInteger(*key, *static_cast<int32_t *>(entry->mData), pTabLevel + 1);
-                    break;
-                case AI_AISTRING:
-                    Export_MetadataString(*key, *static_cast<aiString *>(entry->mData), pTabLevel + 1);
-                    break;
-                default:
-                    LogError("Unsupported metadata type: " + to_string(entry->mType));
-                    break;
-                } // switch(entry->mType)
-            }
-        }
-    } // if(pNode->mMetaData != nullptr)
-
-    // Export meshes.
-    for (size_t idx_mesh = 0; idx_mesh < pNode->mNumMeshes; idx_mesh++)
-        Export_Mesh(pNode->mMeshes[idx_mesh], pTabLevel + 1);
-    // Export children.
-    for (size_t idx_node = 0; idx_node < pNode->mNumChildren; idx_node++)
-        Export_Node(pNode->mChildren[idx_node], pTabLevel + 1);
-
-    // End node if need.
-    if (transform)
-        NodeHelper_CloseNode("Transform", pTabLevel);
-    else
-        NodeHelper_CloseNode("Group", pTabLevel);
-}
-
-void X3DExporter::Export_Mesh(const size_t pIdxMesh, const size_t pTabLevel) {
-    const char *NodeName_IFS = "IndexedFaceSet";
-    const char *NodeName_Shape = "Shape";
-
-    list<SAttribute> attr_list;
-    aiMesh &mesh = *mScene->mMeshes[pIdxMesh]; // create alias for convenience.
-
-    // Check if mesh already defined early.
-    if (mDEF_Map_Mesh.find(pIdxMesh) != mDEF_Map_Mesh.end()) {
-        // Mesh already defined, just refer to it
-        attr_list.push_back({ "USE", mDEF_Map_Mesh.at(pIdxMesh) });
-        NodeHelper_OpenNode(NodeName_Shape, pTabLevel, true, attr_list);
-
-        return;
-    }
-
-    string mesh_name(mesh.mName.C_Str() + string("_IDX_") + to_string(pIdxMesh)); // Create mesh name
-
-    // Define mesh name.
-    attr_list.push_back({ "DEF", mesh_name });
-    mDEF_Map_Mesh[pIdxMesh] = mesh_name;
-
-    //
-    // "Shape" node.
-    //
-    NodeHelper_OpenNode(NodeName_Shape, pTabLevel, false, attr_list);
-    attr_list.clear();
-
-    //
-    // "Appearance" node.
-    //
-    Export_Material(mesh.mMaterialIndex, pTabLevel + 1);
-
-    //
-    // "IndexedFaceSet" node.
-    //
-    // Fill attributes which differ from default. In Assimp for colors, vertices and normals used one indices set. So, only "coordIndex" must be set.
-    string coordIndex;
-
-    // fill coordinates index.
-    coordIndex.reserve(mesh.mNumVertices * 4); // Index + space + Face delimiter
-    for (size_t idx_face = 0; idx_face < mesh.mNumFaces; idx_face++) {
-        const aiFace &face_cur = mesh.mFaces[idx_face];
-
-        for (size_t idx_vert = 0; idx_vert < face_cur.mNumIndices; idx_vert++) {
-            coordIndex.append(to_string(face_cur.mIndices[idx_vert]) + " ");
-        }
-
-        coordIndex.append("-1 "); // face delimiter.
-    }
-
-    // remove last space symbol.
-    coordIndex.resize(coordIndex.length() - 1);
-    attr_list.push_back({ "coordIndex", coordIndex });
-    // create node
-    NodeHelper_OpenNode(NodeName_IFS, pTabLevel + 1, false, attr_list);
-    attr_list.clear();
-    // Child nodes for "IndexedFaceSet" needed when used colors, textures or normals.
-    string attr_value;
-
-    // Export <Coordinate>
-    AttrHelper_Vec3DArrToString(mesh.mVertices, mesh.mNumVertices, attr_value);
-    attr_list.push_back({ "point", attr_value });
-    NodeHelper_OpenNode("Coordinate", pTabLevel + 2, true, attr_list);
-    attr_list.clear();
-
-    // Export <ColorRGBA>
-    if (mesh.HasVertexColors(0)) {
-        AttrHelper_Col4DArrToString(mesh.mColors[0], mesh.mNumVertices, attr_value);
-        attr_list.push_back({ "color", attr_value });
-        NodeHelper_OpenNode("ColorRGBA", pTabLevel + 2, true, attr_list);
-        attr_list.clear();
-    }
-
-    // Export <TextureCoordinate>
-    if (mesh.HasTextureCoords(0)) {
-        AttrHelper_Vec3DAsVec2fArrToString(mesh.mTextureCoords[0], mesh.mNumVertices, attr_value);
-        attr_list.push_back({ "point", attr_value });
-        NodeHelper_OpenNode("TextureCoordinate", pTabLevel + 2, true, attr_list);
-        attr_list.clear();
-    }
-
-    // Export <Normal>
-    if (mesh.HasNormals()) {
-        AttrHelper_Vec3DArrToString(mesh.mNormals, mesh.mNumVertices, attr_value);
-        attr_list.push_back({ "vector", attr_value });
-        NodeHelper_OpenNode("Normal", pTabLevel + 2, true, attr_list);
-        attr_list.clear();
-    }
-
-    //
-    // Close opened nodes.
-    //
-    NodeHelper_CloseNode(NodeName_IFS, pTabLevel + 1);
-    NodeHelper_CloseNode(NodeName_Shape, pTabLevel);
-}
-
-void X3DExporter::Export_Material(const size_t pIdxMaterial, const size_t pTabLevel) {
-    const char *NodeName_A = "Appearance";
-
-    list<SAttribute> attr_list;
-    aiMaterial &material = *mScene->mMaterials[pIdxMaterial]; // create alias for convenience.
-
-    // Check if material already defined early.
-    if (mDEF_Map_Material.find(pIdxMaterial) != mDEF_Map_Material.end()) {
-        // Material already defined, just refer to it
-        attr_list.push_back({ "USE", mDEF_Map_Material.at(pIdxMaterial) });
-        NodeHelper_OpenNode(NodeName_A, pTabLevel, true, attr_list);
-
-        return;
-    }
-
-    string material_name(string("_IDX_") + to_string(pIdxMaterial)); // Create material name
-    aiString ai_mat_name;
-
-    if (material.Get(AI_MATKEY_NAME, ai_mat_name) == AI_SUCCESS) material_name.insert(0, ai_mat_name.C_Str());
-
-    // Define material name.
-    attr_list.push_back({ "DEF", material_name });
-    mDEF_Map_Material[pIdxMaterial] = material_name;
-
-    //
-    // "Appearance" node.
-    //
-    NodeHelper_OpenNode(NodeName_A, pTabLevel, false, attr_list);
-    attr_list.clear();
-
-    //
-    // "Material" node.
-    //
-    {
-        auto Color4ToAttrList = [&](const string &pAttrName, const aiColor4D &pAttrValue, const aiColor3D &pAttrDefaultValue) {
-            string tstr;
-
-            if (aiColor3D(pAttrValue.r, pAttrValue.g, pAttrValue.b) != pAttrDefaultValue) {
-                AttrHelper_Col4DArrToString(&pAttrValue, 1, tstr);
-                attr_list.push_back({ pAttrName, tstr });
-            }
-        };
-
-        float tvalf;
-        aiColor3D color3;
-        aiColor4D color4;
-
-        // ambientIntensity="0.2"     SFFloat [inputOutput]
-        if (material.Get(AI_MATKEY_COLOR_AMBIENT, color3) == AI_SUCCESS)
-            AttrHelper_FloatToAttrList(attr_list, "ambientIntensity", (color3.r + color3.g + color3.b) / 3.0f, 0.2f);
-        else if (material.Get(AI_MATKEY_COLOR_AMBIENT, color4) == AI_SUCCESS)
-            AttrHelper_FloatToAttrList(attr_list, "ambientIntensity", (color4.r + color4.g + color4.b) / 3.0f, 0.2f);
-
-        // diffuseColor="0.8 0.8 0.8" SFColor [inputOutput]
-        if (material.Get(AI_MATKEY_COLOR_DIFFUSE, color3) == AI_SUCCESS)
-            AttrHelper_Color3ToAttrList(attr_list, "diffuseColor", color3, aiColor3D(0.8f, 0.8f, 0.8f));
-        else if (material.Get(AI_MATKEY_COLOR_DIFFUSE, color4) == AI_SUCCESS)
-            Color4ToAttrList("diffuseColor", color4, aiColor3D(0.8f, 0.8f, 0.8f));
-
-        // emissiveColor="0 0 0"      SFColor [inputOutput]
-        if (material.Get(AI_MATKEY_COLOR_EMISSIVE, color3) == AI_SUCCESS)
-            AttrHelper_Color3ToAttrList(attr_list, "emissiveColor", color3, aiColor3D(0, 0, 0));
-        else if (material.Get(AI_MATKEY_COLOR_EMISSIVE, color4) == AI_SUCCESS)
-            Color4ToAttrList("emissiveColor", color4, aiColor3D(0, 0, 0));
-
-        // shininess="0.2"            SFFloat [inputOutput]
-        if (material.Get(AI_MATKEY_SHININESS, tvalf) == AI_SUCCESS) AttrHelper_FloatToAttrList(attr_list, "shininess", tvalf, 0.2f);
-
-        // specularColor="0 0 0"      SFColor [inputOutput]
-        if (material.Get(AI_MATKEY_COLOR_SPECULAR, color3) == AI_SUCCESS)
-            AttrHelper_Color3ToAttrList(attr_list, "specularColor", color3, aiColor3D(0, 0, 0));
-        else if (material.Get(AI_MATKEY_COLOR_SPECULAR, color4) == AI_SUCCESS)
-            Color4ToAttrList("specularColor", color4, aiColor3D(0, 0, 0));
-
-        // transparency="0"           SFFloat [inputOutput]
-        if (material.Get(AI_MATKEY_OPACITY, tvalf) == AI_SUCCESS) {
-            if (tvalf > 1) tvalf = 1;
-
-            tvalf = 1.0f - tvalf;
-            AttrHelper_FloatToAttrList(attr_list, "transparency", tvalf, 0);
-        }
-
-        NodeHelper_OpenNode("Material", pTabLevel + 1, true, attr_list);
-        attr_list.clear();
-    } // "Material" node. END.
-
-    //
-    // "ImageTexture" node.
-    //
-    {
-        auto RepeatToAttrList = [&](const string &pAttrName, const bool pAttrValue) {
-            if (!pAttrValue) attr_list.push_back({ pAttrName, "false" });
-        };
-
-        bool tvalb;
-        aiString tstring;
-
-        // url=""         MFString
-        if (material.Get(AI_MATKEY_TEXTURE_DIFFUSE(0), tstring) == AI_SUCCESS) {
-            if (strncmp(tstring.C_Str(), AI_EMBEDDED_TEXNAME_PREFIX, strlen(AI_EMBEDDED_TEXNAME_PREFIX)) == 0)
-                LogError("Embedded texture is not supported");
-            else
-                attr_list.push_back({ "url", string("\"") + tstring.C_Str() + "\"" });
-        }
-
-        // repeatS="true" SFBool
-        if (material.Get(AI_MATKEY_MAPPINGMODE_U_DIFFUSE(0), tvalb) == AI_SUCCESS) RepeatToAttrList("repeatS", tvalb);
-
-        // repeatT="true" SFBool
-        if (material.Get(AI_MATKEY_MAPPINGMODE_V_DIFFUSE(0), tvalb) == AI_SUCCESS) RepeatToAttrList("repeatT", tvalb);
-
-        NodeHelper_OpenNode("ImageTexture", pTabLevel + 1, true, attr_list);
-        attr_list.clear();
-    } // "ImageTexture" node. END.
-
-    //
-    // "TextureTransform" node.
-    //
-    {
-        auto Vec2ToAttrList = [&](const string &pAttrName, const aiVector2D &pAttrValue, const aiVector2D &pAttrDefaultValue) {
-            string tstr;
-
-            if (pAttrValue != pAttrDefaultValue) {
-                AttrHelper_Vec2DArrToString(&pAttrValue, 1, tstr);
-                attr_list.push_back({ pAttrName, tstr });
-            }
-        };
-
-        aiUVTransform transform;
-
-        if (material.Get(AI_MATKEY_UVTRANSFORM_DIFFUSE(0), transform) == AI_SUCCESS) {
-            Vec2ToAttrList("translation", transform.mTranslation, aiVector2D(0, 0));
-            AttrHelper_FloatToAttrList(attr_list, "rotation", transform.mRotation, 0);
-            Vec2ToAttrList("scale", transform.mScaling, aiVector2D(1, 1));
-
-            NodeHelper_OpenNode("TextureTransform", pTabLevel + 1, true, attr_list);
-            attr_list.clear();
-        }
-    } // "TextureTransform" node. END.
-
-    //
-    // Close opened nodes.
-    //
-    NodeHelper_CloseNode(NodeName_A, pTabLevel);
-}
-
-void X3DExporter::Export_MetadataBoolean(const aiString &pKey, const bool pValue, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    attr_list.push_back({ "name", pKey.C_Str() });
-    attr_list.push_back({ "value", pValue ? "true" : "false" });
-    NodeHelper_OpenNode("MetadataBoolean", pTabLevel, true, attr_list);
-}
-
-void X3DExporter::Export_MetadataDouble(const aiString &pKey, const double pValue, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    attr_list.push_back({ "name", pKey.C_Str() });
-    attr_list.push_back({ "value", to_string(pValue) });
-    NodeHelper_OpenNode("MetadataDouble", pTabLevel, true, attr_list);
-}
-
-void X3DExporter::Export_MetadataFloat(const aiString &pKey, const float pValue, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    attr_list.push_back({ "name", pKey.C_Str() });
-    attr_list.push_back({ "value", to_string(pValue) });
-    NodeHelper_OpenNode("MetadataFloat", pTabLevel, true, attr_list);
-}
-
-void X3DExporter::Export_MetadataInteger(const aiString &pKey, const int32_t pValue, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    attr_list.push_back({ "name", pKey.C_Str() });
-    attr_list.push_back({ "value", to_string(pValue) });
-    NodeHelper_OpenNode("MetadataInteger", pTabLevel, true, attr_list);
-}
-
-void X3DExporter::Export_MetadataString(const aiString &pKey, const aiString &pValue, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    attr_list.push_back({ "name", pKey.C_Str() });
-    attr_list.push_back({ "value", pValue.C_Str() });
-    NodeHelper_OpenNode("MetadataString", pTabLevel, true, attr_list);
-}
-
-bool X3DExporter::CheckAndExport_Light(const aiNode &pNode, const size_t pTabLevel) {
-    list<SAttribute> attr_list;
-
-    auto Vec3ToAttrList = [&](const string &pAttrName, const aiVector3D &pAttrValue, const aiVector3D &pAttrDefaultValue) {
-        string tstr;
-
-        if (pAttrValue != pAttrDefaultValue) {
-            AttrHelper_Vec3DArrToString(&pAttrValue, 1, tstr);
-            attr_list.push_back({ pAttrName, tstr });
-        }
-    };
-
-    size_t idx_light;
-    bool found = false;
-
-    // Name of the light source can not be empty.
-    if (pNode.mName.length == 0) return false;
-
-    // search for light with name like node has.
-    for (idx_light = 0; mScene->mNumLights; idx_light++) {
-        if (pNode.mName == mScene->mLights[idx_light]->mName) {
-            found = true;
-            break;
-        }
-    }
-
-    if (!found) return false;
-
-    // Light source is found.
-    const aiLight &light = *mScene->mLights[idx_light]; // Alias for convenience.
-
-    aiMatrix4x4 trafo_mat = Matrix_GlobalToCurrent(pNode).Inverse();
-
-    attr_list.push_back({ "DEF", light.mName.C_Str() });
-    attr_list.push_back({ "global", "true" }); // "false" is not supported.
-    // ambientIntensity="0" SFFloat [inputOutput]
-    AttrHelper_FloatToAttrList(attr_list, "ambientIntensity", aiVector3D(light.mColorAmbient.r, light.mColorAmbient.g, light.mColorAmbient.b).Length(), 0);
-    // color="1 1 1"        SFColor [inputOutput]
-    AttrHelper_Color3ToAttrList(attr_list, "color", light.mColorDiffuse, aiColor3D(1, 1, 1));
-
-    switch (light.mType) {
-    case aiLightSource_DIRECTIONAL: {
-        aiVector3D direction = trafo_mat * light.mDirection;
-
-        Vec3ToAttrList("direction", direction, aiVector3D(0, 0, -1));
-        NodeHelper_OpenNode("DirectionalLight", pTabLevel, true, attr_list);
-    }
-
-    break;
-    case aiLightSource_POINT: {
-        aiVector3D attenuation(light.mAttenuationConstant, light.mAttenuationLinear, light.mAttenuationQuadratic);
-        aiVector3D location = trafo_mat * light.mPosition;
-
-        Vec3ToAttrList("attenuation", attenuation, aiVector3D(1, 0, 0));
-        Vec3ToAttrList("location", location, aiVector3D(0, 0, 0));
-        NodeHelper_OpenNode("PointLight", pTabLevel, true, attr_list);
-    }
-
-    break;
-    case aiLightSource_SPOT: {
-        aiVector3D attenuation(light.mAttenuationConstant, light.mAttenuationLinear, light.mAttenuationQuadratic);
-        aiVector3D location = trafo_mat * light.mPosition;
-        aiVector3D direction = trafo_mat * light.mDirection;
-
-        Vec3ToAttrList("attenuation", attenuation, aiVector3D(1, 0, 0));
-        Vec3ToAttrList("location", location, aiVector3D(0, 0, 0));
-        Vec3ToAttrList("direction", direction, aiVector3D(0, 0, -1));
-        AttrHelper_FloatToAttrList(attr_list, "beamWidth", light.mAngleInnerCone, 0.7854f);
-        AttrHelper_FloatToAttrList(attr_list, "cutOffAngle", light.mAngleOuterCone, 1.570796f);
-        NodeHelper_OpenNode("SpotLight", pTabLevel, true, attr_list);
-    }
-
-    break;
-    default:
-        throw DeadlyExportError("Unknown light type: " + to_string(light.mType));
-    } // switch(light.mType)
-
-    return true;
-}
-
-X3DExporter::X3DExporter(const char *pFileName, IOSystem *pIOSystem, const aiScene *pScene, const ExportProperties * /*pProperties*/) :
-        mScene(pScene) {
-    list<SAttribute> attr_list;
-
-    mOutFile = pIOSystem->Open(pFileName, "wt");
-    if (mOutFile == nullptr) throw DeadlyExportError("Could not open output .x3d file: " + string(pFileName));
-
-    // Begin document
-    XML_Write("<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n");
-    XML_Write("<!DOCTYPE X3D PUBLIC \"ISO//Web3D//DTD X3D 3.3//EN\" \"http://www.web3d.org/specifications/x3d-3.3.dtd\">\n");
-    // Root node
-    attr_list.push_back({ "profile", "Interchange" });
-    attr_list.push_back({ "version", "3.3" });
-    attr_list.push_back({ "xmlns:xsd", "http://www.w3.org/2001/XMLSchema-instance" });
-    attr_list.push_back({ "xsd:noNamespaceSchemaLocation", "http://www.web3d.org/specifications/x3d-3.3.xsd" });
-    NodeHelper_OpenNode("X3D", 0, false, attr_list);
-    attr_list.clear();
-    // <head>: meta data.
-    NodeHelper_OpenNode("head", 1);
-    XML_Write(mIndentationString + "<!-- All \"meta\" from this section tou will found in <Scene> node as MetadataString nodes. -->\n");
-    NodeHelper_CloseNode("head", 1);
-    // Scene node.
-    NodeHelper_OpenNode("Scene", 1);
-    Export_Node(mScene->mRootNode, 2);
-    NodeHelper_CloseNode("Scene", 1);
-    // Close Root node.
-    NodeHelper_CloseNode("X3D", 0);
-    // Cleanup
-    pIOSystem->Close(mOutFile);
-    mOutFile = nullptr;
-}
-
-} // namespace Assimp
-
-#endif // ASSIMP_BUILD_NO_X3D_EXPORTER
-#endif // ASSIMP_BUILD_NO_EXPORT