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An Atoms operator is an Atoms graph node but with already an out pose port and some function to access the agent owner this node.

The operator in this example add an offset to a joint transform

#include <AtomsGraph/Ports.h>
#include <Atoms/Globals.h>
#include <Atoms/Graph/Operator.h>

class JointOffsetOperator : public Atoms::Operator
{
public:

	NODE_STANDARD_MEMBERS

	JointOffsetOperator();

	virtual ~JointOffsetOperator();

	bool	compute();

private:

	AtomsGraph::PosePort* m_inPose;
	AtomsGraph::StringPort *m_jointName;
	AtomsGraph::MatrixPort *m_offsetMatrix;
	AtomsGraph::BooleanPort *m_worldSpace;
		
	int m_jointId;
	bool m_first;
};

// this must bu unique
#define JOINT_OFFSET_OPERATOR_ID 9999991 

NODE_STANDARD_MEMBERS_IMPL(JointOffsetOperator)
unsigned int JointOffsetOperator::staticTypeId() { return JOINT_OFFSET_OPERATOR_ID; }
std::string JointOffsetOperator::staticTypeStr() { return std::string("JointOffsetOperator"); }

JointOffsetOperator::JointOffsetOperator() : Operator()
{
	m_jointName= new AtomsGraph::StringPort("jointName");
	m_jointName->set("");
	addInputPort(m_jointName);

	m_offsetMatrix = new AtomsGraph::MatrixPort("offsetMatrix");
	addInputPort(m_offsetMatrix);

	m_inPose = new AtomsGraph::PosePort("inPose");
	addInputPort(m_inPose);

	m_worldSpace = new AtomsGraph::BooleanPort("worldSpace");
	m_worldSpace->set(false);
	addInputPort(m_worldSpace );

	m_jointId= -1;
	m_first = true;
}

JointConstraintOperator::~JointConstraintOperator()
{
}

bool JointConstraintOperator::compute()
{
	AtomsCore::Pose &inPose = m_inPose->getRef();
	if (inPose.numJoints() == 0)
	{
		AtomsUtils::Logger::warning() << "Empty input pose";
		return false;
	}


	AtomsCore::Pose &outPose = m_outPose->getRef();
	// Copy the input pose to the out pose port
	outPose = inPose;

	// Check if the agnet and the agent type are valid
	if (!m_agent) 
	{
		AtomsUtils::Logger::error() << "Invalid agent type";
		return false;
	}

	if(!m_agent->agentType())
	{
		AtomsUtils::Logger::error() << "Invalid agent type";
		return false;
	}

	// Get the skeleton from the agent type
	const AtomsCore::Skeleton& skeleton = m_agent->agentType()->skeleton();
	
	if (m_first)
	{
		m_jointId = skeleton.jointId(m_targetJoint->getRef());
	}

	if (m_jointId == -1)
	{
		Logger::error() << "Could not find " << m_targetJoint->getRef() << "joint.";
		return false;
	}


	if (worldSpace->get())
	{
		// Compute the offset in world space
		AtomsCore::Poser poser(&skeleton);
		AtomsCore::Matrix currentMtx = poser.getWorldMatrix(pose, jointId);
		poser.setWorldMatrix(pose, m_offsetMatrix->getRef()* currentMtx, jointIdTmp);
	}
	else
	{
		// Compute the offset in local space		
		AtomsCore::JointPose& jp = outPose.jointPose(m_jointId);
		jp.setMatrix(m_offsetMatrix->getRef() * jp.matrix());
	}
	return true;
}

The operator can be add by this custom behaviour module

#include <Atoms/BehaviourModule.h>


class JointOffsetModule : public Atoms::BehaviourModule
{
public:

	JointOffsetModule ();

	virtual ~JointOffsetModule ();

	void agentsCreated(const std::vector<Atoms::Agent*>& agents, Atoms::AgentGroup* agentGroup = nullptr);

	static Atoms::BehaviourModule* creator(const std::string& parameter);
};

Atoms::BehaviourModule* JointOffsetModule::creator(const std::string& parameter)
{
	return new JointOffsetModule();
}

JointOffsetModule::JointOffsetModule() :
	Atoms::BehaviourModule()
{
	AtomsCore::StringMetadata jointName("");
	addAttribute("jointName", &jointName, false);

	AtomsCore::MatrixMetadata offsetMatrix;
	addAttribute("offsetMatrix", &offsetMatrix, true);

	AtomsCore::BoolMetadata worldSpace(false);
	addAttribute("worldSpace", &worldSpace);
}

JointOffsetModule::~JointOffsetModule()
{
}

void JointOffsetModule::agentsCreated(const std::vector<Atoms::Agent*>& agents, Atoms::AgentGroup* agentGroup)
{
	AtomsCore::MapMetadata& metadata = attributes();
	const std::string& jointName= metadata.getTypedEntry<AtomsCore::StringMetadata>("jointName")->get();
	bool worldSpace = metadata.getTypedEntry<AtomsCore::BoolMetadata>("worldSpace")->get();
	AtomsCore::Matrix& offsetMatrix = metadata.getTypedEntry<AtomsCore::MatrixMetadata>("offsetMatrix")->get();

	AtomsPtr<AtomsCore::MapMetadata> offsetMatrixOverrideMap = metadata.getTypedEntry<AtomsCore::MapMetadata>("offsetMatrix_override");

		tbb::parallel_for(tbb::blocked_range<unsigned int>(0, agents.size()),
		[&](const tbb::blocked_range<unsigned int>& r)
	{
		char groupIdChar[12];
		std::string groupIdStr;
		groupIdStr.reserve(12);

		for (unsigned int i = r.begin(); i < r.end(); i++)
		{
			Atoms::Agent* agent = agents[i];
			// Get the agent dg network
			Atoms::AgentBehaviourNetwork& network = agent->network();

			// Get the last operator fron the dg
			Atoms::Operator* endOperator = network.buildPoseNode();

			// Create the joint offset operator
			Atoms::JointOffsetOperator* jointOffset = static_cast<Atoms::JointOffsetOperator*>(network.manager().createNode(Atoms::JointOffsetOperator::staticTypeStr(), "jointOffset"));
			jointOffset->setAgent(agent);

			// Connect the last operator to the joint offset operator
			network.manager().connectAttr(endOperator->name(), "outPose", jointOffset ->name(), "inPose");

			// Set the operator parameters
			jointOffset->getInputPort<AtomsGraph::StringPort>("jointName")->set(jointName);
			jointOffset->getInputPort<AtomsGraph::BooleanPort>("worldSpace")->set(worldSpace );			

			AtomsCore::Matrix agentOffsetMatrix = offsetMatrix;
			
			// Check if the offset matrix is override
			AtomsPtr<AtomsCore::IntMetadata> groupIdPtr = agent->metadata().getTypedEntry<AtomsCore::IntMetadata>(ATOMS_AGENT_GROUPID);
			if (groupIdPtr)
			{
				sprintf(groupIdChar, "%d", groupIdPtr->value());
				groupIdStr = groupIdChar;

				if (offsetMatrixOverrideMap)
				{
					AtomsPtr<AtomsCore::MatrixMetadata> offsetMatrixAgentMeta = offsetMatrixOverrideMap->getTypedEntry<AtomsCore::MatrixMetadata>(groupIdStr);
					if (offsetMatrixAgentMeta)
						offsetMatrix = offsetMatrixAgentMeta->get();
				}
						
			}
				
			jointOffset->getInputPort<AtomsGraph::MatrixPort>("offsetMatrix")->set(offsetMatrix);
			
			// Set the joint offset operator as the last operator to compute
			network.setBuildPoseNode(jointOffset);
		}
	});
}

extern "C"
{
    ATOMSPLUGIN_EXPORT bool initializePlugin()
    {
        AtomsUtils::Logger::info() << "Loading Joint offset plugin";
        // Register the node to the factory
        AtomsGraph::NodeFactory& manager = AtomsGraph::NodeFactory::instance();
        manager.registerNode(JointConstraintOperator::staticTypeStr(), &JointConstraintOperator::creator);

		Atoms::BehaviourModules& moduleManager = Atoms::BehaviourModules::instance();
		moduleManager.registerBehaviourModule("SimpleJointOffset", &JointOffsetModule::creator, Atoms::JointOffsetModule::kNative);
        return true;
    }
 
    ATOMSPLUGIN_EXPORT bool unitializePlugin()
    {
        AtomsUtils::Logger::info() << "Unloading Joint offset plugin";
        // Deregister the node from the node factory
        AtomsGraph::NodeFactory& manager = AtomsGraph::NodeFactory::instance();
        manager.deregisterNode(JointConstraintOperator::staticTypeStr());
		Atoms::BehaviourModules& moduleManager = Atoms::BehaviourModules::instance();
        moduleManager.deregisterBehaviourModule("SimpleJointOffset");
        return true;
    }
}
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