Object.cpp 15.3 KB
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#include "Object.h"
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#include <iostream>
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/////////////////////////////////////////////////////////////////////////
// public constructor/destructor

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Object::Object(const char* path)
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{
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	// open file
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	fsMesh.open(path, std::ios::in | std::ios::binary);
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	if (!fsMesh.is_open())
		throw std::invalid_argument(std::string("file not found: ") += path);
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	// jump to file size information
	fsMesh.seekg(4);
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	std::uint32_t tempFileSize;
	std::list<ChunkHeader*> tempMainChunks;
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	// get all chunks under HEDR
	fsMesh.read(reinterpret_cast<char*>(&tempFileSize), sizeof(tempFileSize));
	loadChunks(tempMainChunks, fsMesh.tellg(), tempFileSize);
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	// evaluate sub chunks (= find MSH2)
	for (std::list<ChunkHeader*>::iterator it = tempMainChunks.begin(); it != tempMainChunks.end(); it++)
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	{
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		if (!strcmp("MSH2", (*it)->name))
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		{
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			// get all subchunks
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			std::list<ChunkHeader*> tempMsh2Chunks;
			loadChunks(tempMsh2Chunks, (*it)->position, (*it)->size);
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			// evaluate MSH2 subchunks
			analyseMsh2Chunks(tempMsh2Chunks);

			// clean up
			while (!tempMsh2Chunks.empty())
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			{
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				ChunkHeader* tempCursor = tempMsh2Chunks.front();
				tempMsh2Chunks.pop_front();
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				delete tempCursor;
			}
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			continue;
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		}
	}
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	// clean up
	while (!tempMainChunks.empty())
	{
		ChunkHeader* tempCursor = tempMainChunks.front();
		tempMainChunks.pop_front();
		delete tempCursor;
	}

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	// close file
	fsMesh.close();
}

Object::~Object()
{
	//delete Chunk list;	
}
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/////////////////////////////////////////////////////////////////////////
// private functions
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void Object::setModlDefault(Modl * model)
{
	model->name = "";
	model->parent = "";
	model->type = null;
	model->renderFlags = -1;
	model->tran.scale[0] = 0;
	model->tran.scale[1] = 0;
	model->tran.scale[2] = 0;
	model->tran.rotation[0] = 0;
	model->tran.rotation[1] = 0;
	model->tran.rotation[2] = 0;
	model->tran.rotation[3] = 0;
	model->tran.translation[0] = 0;
	model->tran.translation[1] = 0;
	model->tran.translation[2] = 0;
	model->swci.type = -1;
	model->swci.data1 = -1;
	model->swci.data2 = -1;
	model->swci.data3 = -1;
	model->texture = "";
	model->vertex = NULL;
	model->uv = NULL;
	model->mesh = NULL;
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	model->meshSize = 0;
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}

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void Object::loadChunks(std::list<ChunkHeader*>& destination, std::streampos start, const std::uint32_t end)
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{
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	// jump to first chunk
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	fsMesh.seekg(start);
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	do
	{
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		ChunkHeader* tempHeader = new ChunkHeader();
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		fsMesh.read(reinterpret_cast<char*>(&tempHeader->name[0]), sizeof(tempHeader->name) - 1);
		fsMesh.read(reinterpret_cast<char*>(&tempHeader->size), sizeof(tempHeader->size));
		tempHeader->position = fsMesh.tellg();
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		destination.push_back(tempHeader);
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		fsMesh.seekg(tempHeader->size, std::ios_base::cur);
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		// reached end
		if (fsMesh.tellg() - start == end)
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			break;
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		// error. Maybe the size information is corrupted
		if (!fsMesh.good())
		{
			std::cout << "WARNING: corrupted file. Trying to continue" << std::endl;
			fsMesh.clear();
			break;
		}

	} while (true);
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	std::cout << "got all chunks, totaly found: " << destination.size() << std::endl;
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}

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void Object::analyseMsh2Chunks(std::list<ChunkHeader*>& chunkList)
{
	for (std::list<ChunkHeader*>::iterator it = chunkList.begin(); it != chunkList.end(); it++)
	{
		if (!strcmp("MATL", (*it)->name))
		{

			continue;
		}

		if (!strcmp("MODL", (*it)->name))
		{
			Modl* tempModl = new Modl;
			setModlDefault(tempModl);

			// get all subchunks
			std::list<ChunkHeader*> tempChunks;
			loadChunks(tempChunks, (*it)->position, (*it)->size);

			// evaluate MODL subchunks
			analyseModlChunks(tempModl, tempChunks);

			//clean up
			while (!tempChunks.empty())
			{
				ChunkHeader* tempCursor = tempChunks.front();
				tempChunks.pop_front();
				delete tempCursor;
			}

			// save Model data
			lModls.push_back(tempModl);

			continue;
		}
	}
}

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void Object::analyseModlChunks(Modl* dataDestination, std::list<ChunkHeader*>& chunkList)
{
	for (std::list<ChunkHeader*>::iterator it = chunkList.begin(); it != chunkList.end(); it++)
	{
		if (!strcmp("MTYP", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			std::uint32_t tempType;
			fsMesh.read(reinterpret_cast<char*>(&tempType), sizeof(tempType));
			dataDestination->type = (Mtyp)tempType;
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			continue;
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		}

		if (!strcmp("PRNT", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
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			char* buffer = new char[(*it)->size];
			fsMesh.read(buffer, (*it)->size); 
			dataDestination->parent = buffer;
			delete buffer;
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			continue;
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		}

		if (!strcmp("NAME", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
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			char* buffer = new char[(*it)->size];
			fsMesh.read(buffer, (*it)->size);
			dataDestination->name = buffer;
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			delete buffer;
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			continue;
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		}

		if (!strcmp("FLGS", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->renderFlags), sizeof(dataDestination->renderFlags));
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			continue;
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		}

		if (!strcmp("TRAN", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.scale[0]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.scale[1]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.scale[2]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.rotation[0]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.rotation[1]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.rotation[2]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.rotation[3]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.translation[0]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.translation[1]), sizeof(float));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->tran.translation[2]), sizeof(float));
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			continue;
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		}

		if (!strcmp("GEOM", (*it)->name))
		{
			// get all subchunks
			std::list<ChunkHeader*> tempGeomChunks;
			loadChunks(tempGeomChunks, (*it)->position, (*it)->size);

			// evaluate GEOM subchunks
			analyseGeomChunks(dataDestination, tempGeomChunks);

			// clean up
			while (!tempGeomChunks.empty())
			{
				ChunkHeader* tempCursor = tempGeomChunks.front();
				tempGeomChunks.pop_front();
				delete tempCursor;
			}
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			continue;
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		}

		if (!strcmp("SWCI", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->swci.type), sizeof(dataDestination->swci.type));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->swci.data1), sizeof(dataDestination->swci.data1));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->swci.data2), sizeof(dataDestination->swci.data2));
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->swci.data3), sizeof(dataDestination->swci.data3));
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			continue;
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		}
	}

}

void Object::analyseGeomChunks(Modl * dataDestination, std::list<ChunkHeader*>& chunkList)
{

	for (std::list<ChunkHeader*>::iterator it = chunkList.begin(); it != chunkList.end(); it++)
	{
		if (!strcmp("SEGM", (*it)->name))
		{
			// get all subchunks
			std::list<ChunkHeader*> tempSegmChunks;
			loadChunks(tempSegmChunks, (*it)->position, (*it)->size);

			// evaluate SEGM subchunks
			analyseSegmChunks(dataDestination, tempSegmChunks);

			// clean up
			while (!tempSegmChunks.empty())
			{
				ChunkHeader* tempCursor = tempSegmChunks.front();
				tempSegmChunks.pop_front();
				delete tempCursor;
			}
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			continue;
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		}
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		if (!strcmp("CLTH", (*it)->name))
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		{
			// get all subchunks
			std::list<ChunkHeader*> tempClthChunks;
			loadChunks(tempClthChunks, (*it)->position, (*it)->size);

			// evaluate CLTH subchunks
			analyseClthChunks(dataDestination, tempClthChunks);

			// clean up
			while (!tempClthChunks.empty())
			{
				ChunkHeader* tempCursor = tempClthChunks.front();
				tempClthChunks.pop_front();
				delete tempCursor;
			}
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			continue;
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		}
	}

}

void Object::analyseSegmChunks(Modl * dataDestination, std::list<ChunkHeader*>& chunkList)
{
	for (std::list<ChunkHeader*>::iterator it = chunkList.begin(); it != chunkList.end(); it++)
	{
		if (!strcmp("SHDW", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			/* shadow mesh geometry

			long int - 4 - number of vertex positions
			float[3][] - 12 each - vertex positions (XYZ)
			long int - 4 - number of edges
			short int[4][] - 8 each - edge the following 4 entries from one edge
			> short int - 2 - vertex index of this edge, referes to the vertex list
			> short int - 2 - Reference into an edge. Defines the target vertex (the local edge vertex of the referenced edge) to which the edge should be dran from the local vertex
			> short int - 2 - Second reference into an edge. In all example .msh files I've seen this always refers to the same vertex as the first edge reference
			> short int - 2 - MAX_VALUE of short integers (65535). Indicates the end of this edge
			*/
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			continue;
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		}

		if (!strcmp("MATI", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			// material index index into MATL
			// long int - 4 - material index
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			continue;
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		}

		if (!strcmp("POSL", (*it)->name))
		{
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			readVertex(dataDestination, (*it)->position);
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			continue;
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		}

		if (!strcmp("NRML", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
			// List of normals
			// long int - 4 - number of normal vectores stored in this list
			// float[3][] - 12 each - UVW vector for each vertex
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			continue;
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		}

		if (!strcmp("UV0L", (*it)->name))
		{
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			readUV(dataDestination, (*it)->position);
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			continue;
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		}

		if (!strcmp("STRP", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
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			fsMesh.seekg((*it)->position);
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->meshSize), sizeof(dataDestination->meshSize));

			dataDestination->mesh = new std::uint32_t[dataDestination->meshSize * 3];

			for (unsigned int i = 0; i < dataDestination->meshSize; i += 3)
			{
				std::uint16_t tempValue[3];
				fsMesh.read(reinterpret_cast<char*>(&tempValue[0]), sizeof(std::uint16_t));
				fsMesh.read(reinterpret_cast<char*>(&tempValue[1]), sizeof(std::uint16_t));
				fsMesh.read(reinterpret_cast<char*>(&tempValue[2]), sizeof(std::uint16_t));

				if (!(tempValue[0] >> 15 && tempValue[1] >> 15 && !(tempValue[2] >> 15)))
					throw std::invalid_argument("invalid file. go and triangulate!");

				tempValue[0] = (std::uint16_t(tempValue[0] << 1) >> 1);
				tempValue[1] = (std::uint16_t(tempValue[1] << 1) >> 1);

				dataDestination->mesh[i] = (std::uint32_t)tempValue[0];
				dataDestination->mesh[i + 1] = (std::uint32_t)tempValue[1];
				dataDestination->mesh[i + 2] = (std::uint32_t)tempValue[2];

			}

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			std::cout << "triangles: " << dataDestination->meshSize << std::endl;
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			for (int i = 0; i < dataDestination->meshSize; i += 3)
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				std::cout << dataDestination->mesh[i] << " <> " << dataDestination->mesh[i + 1] << " <> " << dataDestination->mesh[i + 2] << std::endl;
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			continue;

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			/*
			List of triangles strips. The start of a strip is indicated by 2 entries
			with a high bit set (0x8000 or 32768 added). Triangles are listed CW, CCW,
			CW, CCW... NOTE: In some meshes this chunk has a trailing short which is not
			calculated into the length/size of this chunk or the # of indices. This
			short can be ignored. If added to the last polygon it will break it as it
			always seems to be 0.
			long int - 4 - number of indicies into POSL
			short int[] - 2 each - index into POSL the indices will form polygons
			*/
		}
	}
}

void Object::analyseClthChunks(Modl * dataDestination, std::list<ChunkHeader*>& chunkList)
{
	for (std::list<ChunkHeader*>::iterator it = chunkList.begin(); it != chunkList.end(); it++)
	{
		if (!strcmp("CTEX", (*it)->name))
		{
			fsMesh.seekg((*it)->position);
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			char* buffer = new char[(*it)->size];
			fsMesh.read(buffer, (*it)->size);
			dataDestination->texture = buffer;
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			delete buffer;
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			continue;
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		}

		if (!strcmp("CPOS", (*it)->name))
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		{
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			readVertex(dataDestination, (*it)->position);
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			continue;
		}
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		if (!strcmp("CUV0", (*it)->name))
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		{
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			readUV(dataDestination, (*it)->position);
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			continue;
		}
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		if (!strcmp("CMSH", (*it)->name))
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		{
			fsMesh.seekg((*it)->position);
			fsMesh.read(reinterpret_cast<char*>(&dataDestination->meshSize), sizeof(dataDestination->meshSize));

			dataDestination->mesh = new std::uint32_t[dataDestination->meshSize * 3];

			for (unsigned int i = 0; i < dataDestination->meshSize; i += 3)
			{
				fsMesh.read(reinterpret_cast<char*>(&dataDestination->mesh[i]), sizeof(std::uint32_t));
				fsMesh.read(reinterpret_cast<char*>(&dataDestination->mesh[i + 1]), sizeof(std::uint32_t));
				fsMesh.read(reinterpret_cast<char*>(&dataDestination->mesh[i + 2]), sizeof(std::uint32_t));
			}
			continue;
		}
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	}

}

void Object::readVertex(Modl* dataDestination, std::streampos position)
{
	std::uint32_t tempSize;
	fsMesh.seekg(position);
	fsMesh.read(reinterpret_cast<char*>(&tempSize), sizeof(tempSize));

	dataDestination->vertex = new float[tempSize * 3];

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	for (unsigned int i = 0; i < tempSize * 3; i += 3)
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	{
		fsMesh.read(reinterpret_cast<char*>(&dataDestination->vertex[i]), sizeof(float));
		fsMesh.read(reinterpret_cast<char*>(&dataDestination->vertex[i + 1]), sizeof(float));
		fsMesh.read(reinterpret_cast<char*>(&dataDestination->vertex[i + 2]), sizeof(float));
	}
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	std::cout << "Vertex number: " << tempSize << std::endl;
	for (int i = 0; i < tempSize * 3; i += 3)
		std::cout << dataDestination->vertex[i] << " <> " << dataDestination->vertex[i + 1] << " <> " << dataDestination->vertex[i + 2] << std::endl;


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}

void Object::readUV(Modl* dataDestination, std::streampos position)
{
	std::uint32_t tempSize;
	fsMesh.seekg(position);
	fsMesh.read(reinterpret_cast<char*>(&tempSize), sizeof(tempSize));

	dataDestination->uv = new float[tempSize * 2];

	for (unsigned int i = 0; i < tempSize; i += 2)
	{
		fsMesh.read(reinterpret_cast<char*>(&dataDestination->uv[i]), sizeof(float));
		fsMesh.read(reinterpret_cast<char*>(&dataDestination->uv[i + 1]), sizeof(float));
	}
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	std::cout << "UV" << std::endl;
	for (int i = 0; i < dataDestination->meshSize; i += 3)
		std::cout << dataDestination->mesh[i] << " - " << dataDestination->mesh[i + 1] << " - " << dataDestination->mesh[i + 2] << std::endl;
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}

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/////////////////////////////////////////////////////////////////////////
// public getter
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std::vector<GLfloat> Object::getVertex() const
{
	std::vector<GLfloat> tempData;

	for (std::list<Modl*>::const_iterator it = lModls.begin(); it != lModls.end(); it++)
	{
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		for (unsigned int i = 0; i < (*it)->meshSize; i++)
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		{
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			tempData.push_back((GLfloat)(*it)->vertex[(*it)->mesh[i] * 3]);
			tempData.push_back((GLfloat)(*it)->vertex[(*it)->mesh[i] * 3 + 1]);
			tempData.push_back((GLfloat)(*it)->vertex[(*it)->mesh[i] * 3 + 2]);
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		}
	}

	return tempData;
}

std::vector<GLfloat> Object::getUV() const
{
	std::vector<GLfloat> tempData;

	for (std::list<Modl*>::const_iterator it = lModls.begin(); it != lModls.end(); it++)
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	{
		if ((*it)->uv == NULL)
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		{
			for (unsigned int i = 0; i < (*it)->meshSize; i++)
				tempData.push_back(1.0);
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			continue;
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		}
		for (unsigned int i = 0; i < (*it)->meshSize; i++)
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		{
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			tempData.push_back((GLfloat)(*it)->uv[(*it)->mesh[i]]);
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		}
	}
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	return tempData;
}
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std::list<std::string> Object::getTexture() const
{
	std::list<std::string> tempData;

	for (std::list<Modl*>::const_iterator it = lModls.begin(); it != lModls.end(); it++)
		tempData.push_back((*it)->texture);

	return tempData;
}

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/////////////////////////////////////////////////////////////////////////
// public functions