BansheeEngine/BansheeCore/Source/BsMeshData.cpp

#include "BsMeshData.h"
#include "BsVector2.h"
#include "BsVector3.h"
#include "BsSphere.h"
#include "BsAABox.h"
#include "BsHardwareBufferManager.h"
#include "BsMeshDataRTTI.h"
#include "BsVertexDeclaration.h"
#include "BsVertexDataDesc.h"
#include "BsException.h"

namespace BansheeEngine
{
	MeshData::MeshData(UINT32 numVertices, UINT32 numIndexes, const VertexDataDescPtr& vertexData, IndexBuffer::IndexType indexType)
	   :mNumVertices(numVertices), mNumIndices(numIndexes), mVertexData(vertexData), mIndexType(indexType), mData(nullptr)
	{
		allocateInternalBuffer();
	}

	MeshData::MeshData()
		:mNumVertices(0), mNumIndices(0), mIndexType(IndexBuffer::IT_32BIT), mData(nullptr)
	{ }

	MeshData::~MeshData()
	{ }

	UINT32 MeshData::getNumIndices() const
	{
		return mNumIndices;
	}

	UINT16* MeshData::getIndices16() const
	{
		if(mIndexType != IndexBuffer::IT_16BIT)
			BS_EXCEPT(InternalErrorException, "Attempting to get 16bit index buffer, but internally allocated buffer is 32 bit.");

		UINT32 indexBufferOffset = getIndexBufferOffset();

		return (UINT16*)(getData() + indexBufferOffset);
	}

	UINT32* MeshData::getIndices32() const
	{
		if(mIndexType != IndexBuffer::IT_32BIT)
			BS_EXCEPT(InternalErrorException, "Attempting to get 32bit index buffer, but internally allocated buffer is 16 bit.");

		UINT32 indexBufferOffset = getIndexBufferOffset();

		return (UINT32*)(getData() + indexBufferOffset);
	}

	UINT32 MeshData::getInternalBufferSize()
	{
		return getIndexBufferSize() + getStreamSize();
	}

	// TODO - This doesn't handle the case where multiple elements in same slot have different data types
	MeshDataPtr MeshData::combine(const Vector<MeshDataPtr>& meshes, const Vector<Vector<SubMesh>>& allSubMeshes, 
		Vector<SubMesh>& subMeshes)
	{
		UINT32 totalVertexCount = 0;
		UINT32 totalIndexCount = 0;
		for(auto& meshData : meshes)
		{
			totalVertexCount += meshData->getNumVertices();
			totalIndexCount += meshData->getNumIndices();
		}

		VertexDataDescPtr vertexData = bs_shared_ptr<VertexDataDesc, PoolAlloc>();
		
		Vector<VertexElement> combinedVertexElements;
		for(auto& meshData : meshes)
		{
			for(UINT32 i = 0; i < meshData->getVertexDesc()->getNumElements(); i++)
			{
				const VertexElement& newElement = meshData->getVertexDesc()->getElement(i);

				INT32 alreadyExistsIdx = -1;
				UINT32 idx = 0;

				for(auto& existingElement : combinedVertexElements)
				{
					if(newElement.getSemantic() == existingElement.getSemantic() && newElement.getSemanticIdx() == existingElement.getSemanticIdx()
						&& newElement.getStreamIdx() == existingElement.getStreamIdx())
					{
						if(newElement.getType() != existingElement.getType())
						{
							BS_EXCEPT(NotImplementedException, "Two elements have same semantics but different types. This is not supported.");
						}

						alreadyExistsIdx = idx;
						break;
					}

					idx++;
				}

				if(alreadyExistsIdx == -1)
				{
					combinedVertexElements.push_back(newElement);
					vertexData->addVertElem(newElement.getType(), newElement.getSemantic(), newElement.getSemanticIdx(), newElement.getStreamIdx());
				}
			}
		}

		MeshDataPtr combinedMeshData = bs_shared_ptr<MeshData, PoolAlloc>(totalVertexCount, totalIndexCount, vertexData);

		// Copy indices
		UINT32 vertexOffset = 0;
		UINT32 indexOffset = 0;
		UINT32* idxPtr = combinedMeshData->getIndices32();
		for(auto& meshData : meshes)
		{
			UINT32 numIndices = meshData->getNumIndices();
			UINT32* srcData = meshData->getIndices32();

			for(UINT32 j = 0; j < numIndices; j++)
				idxPtr[j] = srcData[j] + vertexOffset;

			subMeshes.push_back(SubMesh(indexOffset, numIndices, DOT_TRIANGLE_LIST));

			indexOffset += numIndices;
			idxPtr += numIndices;
			vertexOffset += meshData->getNumVertices();
		}

		// Copy sub-meshes
		UINT32 meshIdx = 0;
		indexOffset = 0;
		for(auto& meshData : meshes)
		{
			UINT32 numIndices = meshData->getNumIndices();
			const Vector<SubMesh> curSubMeshes = allSubMeshes[meshIdx];

			for(auto& subMesh : curSubMeshes)
			{
				subMeshes.push_back(SubMesh(subMesh.indexOffset + indexOffset, subMesh.indexCount, subMesh.drawOp));
			}

			indexOffset += numIndices;
			meshIdx++;
		}

		// Copy vertices
		vertexOffset = 0;
		for(auto& meshData : meshes)
		{
			for(auto& element : combinedVertexElements)
			{
				UINT32 dstVertexStride = vertexData->getVertexStride(element.getStreamIdx());
				UINT8* dstData = combinedMeshData->getElementData(element.getSemantic(), element.getSemanticIdx(), element.getStreamIdx());
				dstData += vertexOffset * dstVertexStride;

				UINT32 numSrcVertices = meshData->getNumVertices();
				UINT32 vertexSize = vertexData->getElementSize(element.getSemantic(), element.getSemanticIdx(), element.getStreamIdx());

				if(meshData->getVertexDesc()->hasElement(element.getSemantic(), element.getSemanticIdx(), element.getStreamIdx()))
				{
					UINT32 srcVertexStride = vertexData->getVertexStride(element.getStreamIdx());
					UINT8* srcData = meshData->getElementData(element.getSemantic(), element.getSemanticIdx(), element.getStreamIdx());

					for(UINT32 i = 0; i < numSrcVertices; i++)
					{
						memcpy(dstData, srcData, vertexSize);
						dstData += dstVertexStride;
						srcData += srcVertexStride;
					}
				}
				else
				{
					for(UINT32 i = 0; i < numSrcVertices; i++)
					{
						memset(dstData, 0, vertexSize);
						dstData += dstVertexStride;
					}
				}
			}

			vertexOffset += meshData->getNumVertices();
		}

		return combinedMeshData;
	}

	void MeshData::setVertexData(VertexElementSemantic semantic, UINT8* data, UINT32 size, UINT32 semanticIdx, UINT32 streamIdx)
	{
		assert(data != nullptr);

		if(!mVertexData->hasElement(semantic, semanticIdx, streamIdx))
		{
			BS_EXCEPT(InvalidParametersException, "MeshData doesn't contain an element of specified type: Semantic: " + toString(semantic) + ", Semantic index: "
				+ toString(semanticIdx) + ", Stream index: " + toString(streamIdx));
		}

		UINT32 elementSize = mVertexData->getElementSize(semantic, semanticIdx, streamIdx);
		UINT32 totalSize = elementSize * mNumVertices;

		if(totalSize != size)
		{
			BS_EXCEPT(InvalidParametersException, "Buffer sizes don't match. Expected: " + toString(totalSize) + ". Got: " + toString(size));
		}

		UINT32 indexBufferOffset = getIndexBufferSize();

		UINT32 elementOffset = getElementOffset(semantic, semanticIdx, streamIdx);
		UINT32 vertexStride = mVertexData->getVertexStride(streamIdx);

		UINT8* dst = getData() + indexBufferOffset + elementOffset;
		UINT8* src = data;
		for(UINT32 i = 0; i < mNumVertices; i++)
		{
			memcpy(dst, src, elementSize);
			dst += vertexStride;
			src += elementSize;
		}
	}

	VertexElemIter<Vector2> MeshData::getVec2DataIter(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx)
	{
		UINT8* data;
		UINT32 vertexStride;
		getDataForIterator(semantic, semanticIdx, streamIdx, data, vertexStride);

		return VertexElemIter<Vector2>(data, vertexStride, mNumVertices);
	}

	VertexElemIter<Vector3> MeshData::getVec3DataIter(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx)
	{
		UINT8* data;
		UINT32 vertexStride;
		getDataForIterator(semantic, semanticIdx, streamIdx, data, vertexStride);

		return VertexElemIter<Vector3>(data, vertexStride, mNumVertices);
	}

	VertexElemIter<Vector4> MeshData::getVec4DataIter(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx)
	{
		UINT8* data;
		UINT32 vertexStride;
		getDataForIterator(semantic, semanticIdx, streamIdx, data, vertexStride);

		return VertexElemIter<Vector4>(data, vertexStride, mNumVertices);
	}

	VertexElemIter<UINT32> MeshData::getDWORDDataIter(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx)
	{
		UINT8* data;
		UINT32 vertexStride;
		getDataForIterator(semantic, semanticIdx, streamIdx, data, vertexStride);

		return VertexElemIter<UINT32>(data, vertexStride, mNumVertices);
	}

	void MeshData::getDataForIterator(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx, UINT8*& data, UINT32& stride) const
	{
		if(!mVertexData->hasElement(semantic, semanticIdx, streamIdx))
		{
			BS_EXCEPT(InvalidParametersException, "MeshData doesn't contain an element of specified type: Semantic: " + toString(semantic) + ", Semantic index: "
				+ toString(semanticIdx) + ", Stream index: " + toString(streamIdx));
		}

		UINT32 indexBufferOffset = getIndexBufferSize();

		UINT32 elementOffset = getElementOffset(semantic, semanticIdx, streamIdx);

		data = getData() + indexBufferOffset + elementOffset;
		stride = mVertexData->getVertexStride(streamIdx);
	}

	UINT32 MeshData::getIndexBufferOffset() const
	{
		return 0;
	}

	UINT32 MeshData::getStreamOffset(UINT32 streamIdx) const
	{
		UINT32 streamOffset = mVertexData->getStreamOffset(streamIdx);

		return streamOffset * mNumVertices;
	}

	UINT8* MeshData::getElementData(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx) const
	{ 
		return getData() + getIndexBufferSize() + getElementOffset(semantic, semanticIdx, streamIdx); 
	}

	UINT8* MeshData::getStreamData(UINT32 streamIdx) const
	{ 
		return getData() + getIndexBufferSize() + getStreamOffset(streamIdx); 
	}

	UINT32 MeshData::getIndexElementSize() const
	{
		return mIndexType == IndexBuffer::IT_32BIT ? sizeof(UINT32) : sizeof(UINT16);
	}

	UINT32 MeshData::getElementOffset(VertexElementSemantic semantic, UINT32 semanticIdx, UINT32 streamIdx) const
	{
		return getStreamOffset(streamIdx) + mVertexData->getElementOffsetFromStream(semantic, semanticIdx, streamIdx);
	}

	UINT32 MeshData::getIndexBufferSize() const
	{ 
		return mNumIndices * getIndexElementSize(); 
	}

	UINT32 MeshData::getStreamSize(UINT32 streamIdx) const
	{
		return mVertexData->getVertexStride(streamIdx) * mNumVertices;
	}

	UINT32 MeshData::getStreamSize() const
	{
		return mVertexData->getVertexStride() * mNumVertices;
	}

	/************************************************************************/
	/* 								SERIALIZATION                      		*/
	/************************************************************************/

	RTTITypeBase* MeshData::getRTTIStatic()
	{
		return MeshDataRTTI::instance();
	}

	RTTITypeBase* MeshData::getRTTI() const
	{
		return MeshData::getRTTIStatic();
	}
}