/*++

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are permitted provided that the following conditions are met:

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Abstract: This is a stub class definition of CBeamSet

*/

#include "lib3mf_beamset.hpp"
#include "lib3mf_interfaceexception.hpp"

// Include custom headers here.


using namespace Lib3MF::Impl;

/*************************************************************************************************************************
 Class definition of CBeamSet 
**************************************************************************************************************************/

CBeamSet::CBeamSet(NMR::PBEAMSET pBeamSet, NMR::PModelMeshObject pMeshObject):
	m_pBeamSet(pBeamSet), m_mesh(*pMeshObject->getMesh())
{

}

void CBeamSet::SetName(const std::string & sName)
{
	m_pBeamSet->m_sName = sName;
}

std::string CBeamSet::GetName()
{
	return m_pBeamSet->m_sName;
}

void CBeamSet::SetIdentifier(const std::string & sIdentifier)
{
	// Ensure identifier is unique
	if (sIdentifier.compare("") != 0) {
		Lib3MF_uint32 nBeamSets = m_mesh.getBeamSetCount();
		for (Lib3MF_uint32 iBeamSet = 0; iBeamSet < nBeamSets; iBeamSet++)
			if (sIdentifier.compare(m_mesh.getBeamSet(iBeamSet)->m_sIdentifier) == 0)
				throw ELib3MFInterfaceException(LIB3MF_ERROR_INVALIDPARAM);
	}

	m_pBeamSet->m_sIdentifier = sIdentifier;
}

std::string CBeamSet::GetIdentifier()
{
	return m_pBeamSet->m_sIdentifier;
}

Lib3MF_uint32 CBeamSet::GetReferenceCount()
{
	return (Lib3MF_uint32)m_pBeamSet->m_Refs.size();
}

void CBeamSet::SetReferences(const Lib3MF_uint64 nReferencesBufferSize, const Lib3MF_uint32 * pReferencesBuffer)
{
	if (nReferencesBufferSize > LIB3MF_MAXBEAMCOUNT)
		throw ELib3MFInterfaceException(LIB3MF_ERROR_ELEMENTCOUNTEXCEEDSLIMIT);

	m_pBeamSet->m_Refs.resize((size_t) nReferencesBufferSize);
	const Lib3MF_uint32 beamCount = m_mesh.getBeamCount();
	for (size_t i = 0; i < (size_t)nReferencesBufferSize; i++) {
		if (beamCount <= pReferencesBuffer[i])
			throw ELib3MFInterfaceException(LIB3MF_ERROR_INVALIDPARAM);
		m_pBeamSet->m_Refs[i] = Lib3MF_uint32(pReferencesBuffer[i]);
	}

}

void CBeamSet::GetReferences(Lib3MF_uint64 nReferencesBufferSize, Lib3MF_uint64* pReferencesNeededCount, Lib3MF_uint32 * pReferencesBuffer)
{
	Lib3MF_uint32 referenceCount = (Lib3MF_uint32)m_pBeamSet->m_Refs.size();
	if (pReferencesNeededCount)
		*pReferencesNeededCount = referenceCount;

	if (nReferencesBufferSize >= referenceCount && pReferencesBuffer)
	{
		Lib3MF_uint32* pRef = pReferencesBuffer;
		for (Lib3MF_uint32 i = 0; i < referenceCount; i++)
		{
			*pRef = m_pBeamSet->m_Refs[i];
			pRef++;
		}
	}
}

Lib3MF_uint32 CBeamSet::GetBallReferenceCount()
{
	return (Lib3MF_uint32)m_pBeamSet->m_BallRefs.size();
}

void CBeamSet::SetBallReferences(const Lib3MF_uint64 nBallReferencesBufferSize, const Lib3MF_uint32* pBallReferencesBuffer)
{
	if (nBallReferencesBufferSize > LIB3MF_MAXBEAMCOUNT)
		throw ELib3MFInterfaceException(LIB3MF_ERROR_ELEMENTCOUNTEXCEEDSLIMIT);

	m_pBeamSet->m_BallRefs.resize((size_t)nBallReferencesBufferSize);
	const Lib3MF_uint32 ballCount = m_mesh.getBallCount();
	for (size_t i = 0; i < (size_t)nBallReferencesBufferSize; i++) {
		if (ballCount <= pBallReferencesBuffer[i])
			throw ELib3MFInterfaceException(LIB3MF_ERROR_INVALIDPARAM);
		m_pBeamSet->m_BallRefs[i] = Lib3MF_uint32(pBallReferencesBuffer[i]);
	}
}

void CBeamSet::GetBallReferences(Lib3MF_uint64 nBallReferencesBufferSize, Lib3MF_uint64* pBallReferencesNeededCount, Lib3MF_uint32* pBallReferencesBuffer)
{
	Lib3MF_uint32 ballReferenceCount = GetBallReferenceCount();
	if (pBallReferencesNeededCount)
		*pBallReferencesNeededCount = ballReferenceCount;

	if (nBallReferencesBufferSize >= ballReferenceCount && pBallReferencesBuffer) {
		Lib3MF_uint32* pBallRef = pBallReferencesBuffer;
		for (Lib3MF_uint32 i = 0; i < ballReferenceCount; i++) {
			*pBallRef = m_pBeamSet->m_BallRefs[i];
			pBallRef++;
		}
	}
}