544 lines
20 KiB
C++
544 lines
20 KiB
C++
/*
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---------------------------------------------------------------------------
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Open Asset Import Library (assimp)
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---------------------------------------------------------------------------
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Copyright (c) 2006-2021, assimp team
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All rights reserved.
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Redistribution and use of this software in source and binary forms,
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with or without modification, are permitted provided that the following
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conditions are met:
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* Redistributions of source code must retain the above
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copyright notice, this list of conditions and the
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following disclaimer.
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* Redistributions in binary form must reproduce the above
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copyright notice, this list of conditions and the
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following disclaimer in the documentation and/or other
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materials provided with the distribution.
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* Neither the name of the assimp team, nor the names of its
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contributors may be used to endorse or promote products
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derived from this software without specific prior
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written permission of the assimp team.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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---------------------------------------------------------------------------
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*/
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/// \file AMFImporter.cpp
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/// \brief AMF-format files importer for Assimp: main algorithm implementation.
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/// \date 2016
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/// \author smal.root@gmail.com
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#ifndef ASSIMP_BUILD_NO_AMF_IMPORTER
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// Header files, Assimp.
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#include "AMFImporter.hpp"
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#include "AMFImporter_Macro.hpp"
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#include <assimp/DefaultIOSystem.h>
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#include <assimp/fast_atof.h>
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#include <assimp/StringUtils.h>
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// Header files, stdlib.
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#include <memory>
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namespace Assimp {
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const aiImporterDesc AMFImporter::Description = {
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"Additive manufacturing file format(AMF) Importer",
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"smalcom",
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"",
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"See documentation in source code. Chapter: Limitations.",
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aiImporterFlags_SupportTextFlavour | aiImporterFlags_LimitedSupport | aiImporterFlags_Experimental,
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0,
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0,
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0,
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0,
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"amf"
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};
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void AMFImporter::Clear() {
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mNodeElement_Cur = nullptr;
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mUnit.clear();
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mMaterial_Converted.clear();
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mTexture_Converted.clear();
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// Delete all elements
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if (!mNodeElement_List.empty()) {
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for (AMFNodeElementBase *ne : mNodeElement_List) {
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delete ne;
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}
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mNodeElement_List.clear();
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}
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}
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AMFImporter::AMFImporter() AI_NO_EXCEPT :
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mNodeElement_Cur(nullptr),
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mXmlParser(nullptr),
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mUnit(),
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mVersion(),
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mMaterial_Converted(),
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mTexture_Converted() {
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// empty
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}
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AMFImporter::~AMFImporter() {
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delete mXmlParser;
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// Clear() is accounting if data already is deleted. So, just check again if all data is deleted.
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Clear();
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}
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/*********************************************************************************************************************************************/
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/************************************************************ Functions: find set ************************************************************/
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/*********************************************************************************************************************************************/
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bool AMFImporter::Find_NodeElement(const std::string &pID, const AMFNodeElementBase::EType pType, AMFNodeElementBase **pNodeElement) const {
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for (AMFNodeElementBase *ne : mNodeElement_List) {
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if ((ne->ID == pID) && (ne->Type == pType)) {
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if (pNodeElement != nullptr) {
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*pNodeElement = ne;
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}
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return true;
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}
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} // for(CAMFImporter_NodeElement* ne: mNodeElement_List)
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return false;
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}
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bool AMFImporter::Find_ConvertedNode(const std::string &pID, NodeArray &nodeArray, aiNode **pNode) const {
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aiString node_name(pID.c_str());
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for (aiNode *node : nodeArray) {
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if (node->mName == node_name) {
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if (pNode != nullptr) {
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*pNode = node;
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}
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return true;
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}
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} // for(aiNode* node: pNodeList)
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return false;
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}
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bool AMFImporter::Find_ConvertedMaterial(const std::string &pID, const SPP_Material **pConvertedMaterial) const {
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for (const SPP_Material &mat : mMaterial_Converted) {
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if (mat.ID == pID) {
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if (pConvertedMaterial != nullptr) {
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*pConvertedMaterial = &mat;
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}
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return true;
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}
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} // for(const SPP_Material& mat: mMaterial_Converted)
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return false;
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}
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/*********************************************************************************************************************************************/
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/************************************************************ Functions: throw set ***********************************************************/
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/*********************************************************************************************************************************************/
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void AMFImporter::Throw_CloseNotFound(const std::string &nodeName) {
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throw DeadlyImportError("Close tag for node <" + nodeName + "> not found. Seems file is corrupt.");
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}
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void AMFImporter::Throw_IncorrectAttr(const std::string &nodeName, const std::string &attrName) {
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throw DeadlyImportError("Node <" + nodeName + "> has incorrect attribute \"" + attrName + "\".");
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}
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void AMFImporter::Throw_IncorrectAttrValue(const std::string &nodeName, const std::string &attrName) {
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throw DeadlyImportError("Attribute \"" + attrName + "\" in node <" + nodeName + "> has incorrect value.");
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}
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void AMFImporter::Throw_MoreThanOnceDefined(const std::string &nodeName, const std::string &pNodeType, const std::string &pDescription) {
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throw DeadlyImportError("\"" + pNodeType + "\" node can be used only once in " + nodeName + ". Description: " + pDescription);
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}
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void AMFImporter::Throw_ID_NotFound(const std::string &pID) const {
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throw DeadlyImportError("Not found node with name \"", pID, "\".");
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}
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/*********************************************************************************************************************************************/
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/************************************************************* Functions: XML set ************************************************************/
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/*********************************************************************************************************************************************/
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void AMFImporter::XML_CheckNode_MustHaveChildren(pugi::xml_node &node) {
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if (node.children().begin() == node.children().end()) {
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throw DeadlyImportError(std::string("Node <") + node.name() + "> must have children.");
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}
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}
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bool AMFImporter::XML_SearchNode(const std::string &nodeName) {
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return nullptr != mXmlParser->findNode(nodeName);
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}
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void AMFImporter::ParseHelper_FixTruncatedFloatString(const char *pInStr, std::string &pOutString) {
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size_t instr_len;
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pOutString.clear();
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instr_len = strlen(pInStr);
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if (!instr_len) return;
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pOutString.reserve(instr_len * 3 / 2);
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// check and correct floats in format ".x". Must be "x.y".
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if (pInStr[0] == '.') pOutString.push_back('0');
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pOutString.push_back(pInStr[0]);
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for (size_t ci = 1; ci < instr_len; ci++) {
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if ((pInStr[ci] == '.') && ((pInStr[ci - 1] == ' ') || (pInStr[ci - 1] == '-') || (pInStr[ci - 1] == '+') || (pInStr[ci - 1] == '\t'))) {
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pOutString.push_back('0');
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pOutString.push_back('.');
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} else {
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pOutString.push_back(pInStr[ci]);
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}
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}
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}
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static bool ParseHelper_Decode_Base64_IsBase64(const char pChar) {
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return (isalnum(pChar) || (pChar == '+') || (pChar == '/'));
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}
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void AMFImporter::ParseHelper_Decode_Base64(const std::string &pInputBase64, std::vector<uint8_t> &pOutputData) const {
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// With help from
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// René Nyffenegger http://www.adp-gmbh.ch/cpp/common/base64.html
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const std::string base64_chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
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uint8_t tidx = 0;
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uint8_t arr4[4], arr3[3];
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// check input data
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if (pInputBase64.size() % 4) throw DeadlyImportError("Base64-encoded data must have size multiply of four.");
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// prepare output place
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pOutputData.clear();
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pOutputData.reserve(pInputBase64.size() / 4 * 3);
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for (size_t in_len = pInputBase64.size(), in_idx = 0; (in_len > 0) && (pInputBase64[in_idx] != '='); in_len--) {
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if (ParseHelper_Decode_Base64_IsBase64(pInputBase64[in_idx])) {
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arr4[tidx++] = pInputBase64[in_idx++];
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if (tidx == 4) {
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for (tidx = 0; tidx < 4; tidx++)
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arr4[tidx] = (uint8_t)base64_chars.find(arr4[tidx]);
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arr3[0] = (arr4[0] << 2) + ((arr4[1] & 0x30) >> 4);
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arr3[1] = ((arr4[1] & 0x0F) << 4) + ((arr4[2] & 0x3C) >> 2);
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arr3[2] = ((arr4[2] & 0x03) << 6) + arr4[3];
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for (tidx = 0; tidx < 3; tidx++)
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pOutputData.push_back(arr3[tidx]);
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tidx = 0;
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} // if(tidx == 4)
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} // if(ParseHelper_Decode_Base64_IsBase64(pInputBase64[in_idx]))
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else {
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in_idx++;
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} // if(ParseHelper_Decode_Base64_IsBase64(pInputBase64[in_idx])) else
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}
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if (tidx) {
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for (uint8_t i = tidx; i < 4; i++)
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arr4[i] = 0;
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for (uint8_t i = 0; i < 4; i++)
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arr4[i] = (uint8_t)(base64_chars.find(arr4[i]));
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arr3[0] = (arr4[0] << 2) + ((arr4[1] & 0x30) >> 4);
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arr3[1] = ((arr4[1] & 0x0F) << 4) + ((arr4[2] & 0x3C) >> 2);
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arr3[2] = ((arr4[2] & 0x03) << 6) + arr4[3];
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for (uint8_t i = 0; i < (tidx - 1); i++)
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pOutputData.push_back(arr3[i]);
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}
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}
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void AMFImporter::ParseFile(const std::string &pFile, IOSystem *pIOHandler) {
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std::unique_ptr<IOStream> file(pIOHandler->Open(pFile, "rb"));
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// Check whether we can read from the file
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if (file.get() == nullptr) {
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throw DeadlyImportError("Failed to open AMF file ", pFile, ".");
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}
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mXmlParser = new XmlParser();
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if (!mXmlParser->parse(file.get())) {
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delete mXmlParser;
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throw DeadlyImportError("Failed to create XML reader for file" + pFile + ".");
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}
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// Start reading, search for root tag <amf>
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if (!mXmlParser->hasNode("amf")) {
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throw DeadlyImportError("Root node \"amf\" not found.");
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}
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ParseNode_Root();
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} // namespace Assimp
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void AMFImporter::ParseHelper_Node_Enter(AMFNodeElementBase *node) {
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mNodeElement_Cur->Child.push_back(node); // add new element to current element child list.
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mNodeElement_Cur = node;
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}
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void AMFImporter::ParseHelper_Node_Exit() {
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if (mNodeElement_Cur != nullptr) mNodeElement_Cur = mNodeElement_Cur->Parent;
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}
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// <amf
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// unit="" - The units to be used. May be "inch", "millimeter", "meter", "feet", or "micron".
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// version="" - Version of file format.
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// >
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// </amf>
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// Root XML element.
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// Multi elements - No.
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void AMFImporter::ParseNode_Root() {
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AMFNodeElementBase *ne = nullptr;
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XmlNode *root = mXmlParser->findNode("amf");
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if (nullptr == root) {
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throw DeadlyImportError("Root node \"amf\" not found.");
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}
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XmlNode node = *root;
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mUnit = ai_str_tolower(std::string(node.attribute("unit").as_string()));
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mVersion = node.attribute("version").as_string();
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// Read attributes for node <amf>.
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// Check attributes
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if (!mUnit.empty()) {
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if ((mUnit != "inch") && (mUnit != "millimeter") && (mUnit != "meter") && (mUnit != "feet") && (mUnit != "micron")) {
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Throw_IncorrectAttrValue("unit", mUnit);
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}
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}
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// create root node element.
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ne = new AMFRoot(nullptr);
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mNodeElement_Cur = ne; // set first "current" element
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// and assign attribute's values
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((AMFRoot *)ne)->Unit = mUnit;
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((AMFRoot *)ne)->Version = mVersion;
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// Check for child nodes
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for (XmlNode ¤tNode : node.children() ) {
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const std::string currentName = currentNode.name();
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if (currentName == "object") {
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ParseNode_Object(currentNode);
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} else if (currentName == "material") {
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ParseNode_Material(currentNode);
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} else if (currentName == "texture") {
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ParseNode_Texture(currentNode);
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} else if (currentName == "constellation") {
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ParseNode_Constellation(currentNode);
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} else if (currentName == "metadata") {
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ParseNode_Metadata(currentNode);
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}
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mNodeElement_Cur = ne;
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}
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mNodeElement_Cur = ne; // force restore "current" element
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mNodeElement_List.push_back(ne); // add to node element list because its a new object in graph.
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}
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// <constellation
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// id="" - The Object ID of the new constellation being defined.
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// >
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// </constellation>
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// A collection of objects or constellations with specific relative locations.
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// Multi elements - Yes.
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// Parent element - <amf>.
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void AMFImporter::ParseNode_Constellation(XmlNode &node) {
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std::string id;
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id = node.attribute("id").as_string();
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// create and if needed - define new grouping object.
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AMFNodeElementBase *ne = new AMFConstellation(mNodeElement_Cur);
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AMFConstellation &als = *((AMFConstellation *)ne); // alias for convenience
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if (!id.empty()) {
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als.ID = id;
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}
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// Check for child nodes
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if (!node.empty()) {
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ParseHelper_Node_Enter(ne);
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for (XmlNode currentNode = node.first_child(); currentNode; currentNode = currentNode.next_sibling()) {
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std::string name = currentNode.name();
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if (name == "instance") {
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ParseNode_Instance(currentNode);
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} else if (name == "metadata") {
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ParseNode_Metadata(currentNode);
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}
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}
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ParseHelper_Node_Exit();
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} else {
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mNodeElement_Cur->Child.push_back(ne);
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}
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mNodeElement_List.push_back(ne); // and to node element list because its a new object in graph.
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}
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// <instance
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// objectid="" - The Object ID of the new constellation being defined.
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// >
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// </instance>
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// A collection of objects or constellations with specific relative locations.
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// Multi elements - Yes.
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// Parent element - <amf>.
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void AMFImporter::ParseNode_Instance(XmlNode &node) {
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AMFNodeElementBase *ne(nullptr);
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// Read attributes for node <constellation>.
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std::string objectid = node.attribute("objectid").as_string();
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// used object id must be defined, check that.
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if (objectid.empty()) {
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throw DeadlyImportError("\"objectid\" in <instance> must be defined.");
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}
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// create and define new grouping object.
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ne = new AMFInstance(mNodeElement_Cur);
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AMFInstance &als = *((AMFInstance *)ne);
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als.ObjectID = objectid;
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if (!node.empty()) {
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ParseHelper_Node_Enter(ne);
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for (XmlNode currentNode = node.first_child(); currentNode; currentNode = currentNode.next_sibling()) {
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const std::string ¤tName = currentNode.name();
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if (currentName == "deltax") {
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als.Delta.x = (ai_real)std::atof(currentNode.value());
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} else if (currentName == "deltay") {
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als.Delta.y = (ai_real)std::atof(currentNode.value());
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} else if (currentName == "deltaz") {
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als.Delta.z = (ai_real)std::atof(currentNode.value());
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} else if (currentName == "rx") {
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als.Delta.x = (ai_real)std::atof(currentNode.value());
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} else if (currentName == "ry") {
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als.Delta.y = (ai_real)std::atof(currentNode.value());
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} else if (currentName == "rz") {
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als.Delta.z = (ai_real)std::atof(currentNode.value());
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}
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}
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ParseHelper_Node_Exit();
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} else {
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mNodeElement_Cur->Child.push_back(ne);
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}
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mNodeElement_List.push_back(ne); // and to node element list because its a new object in graph.
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}
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// <object
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// id="" - A unique ObjectID for the new object being defined.
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// >
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// </object>
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// An object definition.
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// Multi elements - Yes.
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// Parent element - <amf>.
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void AMFImporter::ParseNode_Object(XmlNode &node) {
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AMFNodeElementBase *ne = nullptr;
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// Read attributes for node <object>.
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std::string id = node.attribute("id").as_string();
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// create and if needed - define new geometry object.
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ne = new AMFObject(mNodeElement_Cur);
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AMFObject &als = *((AMFObject *)ne); // alias for convenience
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if (!id.empty()) {
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als.ID = id;
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}
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// Check for child nodes
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if (!node.empty()) {
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ParseHelper_Node_Enter(ne);
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for (XmlNode currentNode = node.first_child(); currentNode; currentNode = currentNode.next_sibling()) {
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const std::string ¤tName = currentNode.name();
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if (currentName == "color") {
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ParseNode_Color(currentNode);
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} else if (currentName == "mesh") {
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ParseNode_Mesh(currentNode);
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} else if (currentName == "metadata") {
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ParseNode_Metadata(currentNode);
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}
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}
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ParseHelper_Node_Exit();
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} else {
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mNodeElement_Cur->Child.push_back(ne); // Add element to child list of current element
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}
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mNodeElement_List.push_back(ne); // and to node element list because its a new object in graph.
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}
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// <metadata
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// type="" - The type of the attribute.
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// >
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// </metadata>
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// Specify additional information about an entity.
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// Multi elements - Yes.
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// Parent element - <amf>, <object>, <volume>, <material>, <vertex>.
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//
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// Reserved types are:
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// "Name" - The alphanumeric label of the entity, to be used by the interpreter if interacting with the user.
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// "Description" - A description of the content of the entity
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// "URL" - A link to an external resource relating to the entity
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// "Author" - Specifies the name(s) of the author(s) of the entity
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// "Company" - Specifying the company generating the entity
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// "CAD" - specifies the name of the originating CAD software and version
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// "Revision" - specifies the revision of the entity
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// "Tolerance" - specifies the desired manufacturing tolerance of the entity in entity's unit system
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// "Volume" - specifies the total volume of the entity, in the entity's unit system, to be used for verification (object and volume only)
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void AMFImporter::ParseNode_Metadata(XmlNode &node) {
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AMFNodeElementBase *ne = nullptr;
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std::string type = node.attribute("type").as_string(), value;
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XmlParser::getValueAsString(node, value);
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// read attribute
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ne = new AMFMetadata(mNodeElement_Cur);
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((AMFMetadata *)ne)->Type = type;
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((AMFMetadata *)ne)->Value = value;
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mNodeElement_Cur->Child.push_back(ne); // Add element to child list of current element
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mNodeElement_List.push_back(ne); // and to node element list because its a new object in graph.
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}
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bool AMFImporter::CanRead(const std::string &pFile, IOSystem *pIOHandler, bool pCheckSig) const {
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const std::string extension = GetExtension(pFile);
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|
|
if (extension == "amf") {
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|
return true;
|
|
}
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|
|
|
if (extension.empty() || pCheckSig) {
|
|
const char *tokens[] = { "<amf" };
|
|
return SearchFileHeaderForToken(pIOHandler, pFile, tokens, 1);
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|
}
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|
|
|
return false;
|
|
}
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|
|
|
void AMFImporter::GetExtensionList(std::set<std::string> &pExtensionList) {
|
|
pExtensionList.insert("amf");
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|
}
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|
|
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const aiImporterDesc *AMFImporter::GetInfo() const {
|
|
return &Description;
|
|
}
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|
|
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void AMFImporter::InternReadFile(const std::string &pFile, aiScene *pScene, IOSystem *pIOHandler) {
|
|
Clear(); // delete old graph.
|
|
ParseFile(pFile, pIOHandler);
|
|
Postprocess_BuildScene(pScene);
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|
// scene graph is ready, exit.
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|
}
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|
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} // namespace Assimp
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#endif // !ASSIMP_BUILD_NO_AMF_IMPORTER
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