lib3mf/Source/API/lib3mf_slice.cpp

/*++

Copyright (C) 2019 3MF Consortium (Original Author)

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are permitted provided that the following conditions are met:

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this list of conditions and the following disclaimer in the documentation
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DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
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Abstract: This is a stub class definition of CSlice

*/

#include "lib3mf_slice.hpp"
#include "lib3mf_interfaceexception.hpp"

// Include custom headers here.


using namespace Lib3MF::Impl;

/*************************************************************************************************************************
 Class definition of CSlice 
**************************************************************************************************************************/

CSlice::CSlice(NMR::PSlice pSlice)
	:m_pSlice(pSlice)
{
	
}

void CSlice::SetVertices (const Lib3MF_uint64 nVerticesBufferSize, const sLib3MFPosition2D * pVerticesBuffer)
{
	m_pSlice->Clear();
	for (Lib3MF_uint64 index = 0; index < nVerticesBufferSize; index++) {
		m_pSlice->addVertex(pVerticesBuffer->m_Coordinates[0], pVerticesBuffer->m_Coordinates[1]);
		pVerticesBuffer++;
	}
}

void CSlice::GetVertices (Lib3MF_uint64 nVerticesBufferSize, Lib3MF_uint64* pVerticesNeededCount, sLib3MFPosition2D * pVerticesBuffer)
{
	Lib3MF_uint64 vertexCount = m_pSlice->getVertexCount();
	if (pVerticesNeededCount)
		*pVerticesNeededCount = vertexCount;

	if (nVerticesBufferSize >= vertexCount && pVerticesBuffer)
	{
		for (Lib3MF_uint32 i = 0; i < vertexCount; i++)
		{
			const NMR::SLICENODE* node = m_pSlice->getNode(i);
			pVerticesBuffer[i].m_Coordinates[0] = node->m_position.m_fields[0];
			pVerticesBuffer[i].m_Coordinates[1] = node->m_position.m_fields[1];
		}
	}
}

Lib3MF_uint64 CSlice::GetVertexCount ()
{
	return m_pSlice->getVertexCount();
}

Lib3MF_uint64 CSlice::AddPolygon(const Lib3MF_uint64 nIndicesBufferSize, const Lib3MF_uint32 * pIndicesBuffer)
{
	Lib3MF_uint32 index = m_pSlice->beginPolygon();
	SetPolygonIndices(index, nIndicesBufferSize, pIndicesBuffer);
	return index;
}

Lib3MF_uint64 CSlice::GetPolygonCount ()
{
	return m_pSlice->getPolygonCount();
}

void CSlice::SetPolygonIndices (const Lib3MF_uint64 nIndex, const Lib3MF_uint64 nIndicesBufferSize, const Lib3MF_uint32 * pIndicesBuffer)
{
	m_pSlice->clearPolygon(NMR::nfUint32(nIndex));

	for (Lib3MF_uint64 i=0; i< nIndicesBufferSize; i++)
		m_pSlice->addPolygonIndex(NMR::nfUint32(nIndex), pIndicesBuffer[i]);
}

void CSlice::GetPolygonIndices (const Lib3MF_uint64 nIndex, Lib3MF_uint64 nIndicesBufferSize, Lib3MF_uint64* pIndicesNeededCount, Lib3MF_uint32 * pIndicesBuffer)
{
	Lib3MF_uint64 indexCount = m_pSlice->getPolygonIndexCount(NMR::nfUint32(nIndex));
	if (pIndicesNeededCount)
		*pIndicesNeededCount = indexCount;

	if (nIndicesBufferSize >= indexCount && pIndicesBuffer)
	{
		for (Lib3MF_uint32 i = 0; i < indexCount; i++)
		{
			pIndicesBuffer[i] = m_pSlice->getPolygonIndex(NMR::nfUint32(nIndex), i);
		}
	}

}

Lib3MF_uint64 CSlice::GetPolygonIndexCount (const Lib3MF_uint64 nIndex)
{
	return m_pSlice->getPolygonIndexCount(NMR::nfUint32(nIndex));
}

double CSlice::GetZTop()
{
	return m_pSlice->getTopZ();
}