lwk
/
PhysicalDevice


			
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							#include "CCOS.Dev.MechanicalMoudle.hpp"
#include "CCOSDICOMInfo.h"

using namespace CCOS::Dev;
using namespace CCOS::Dev::Detail::Mechanical;
namespace nsMech = CCOS::Dev::Detail::Mechanical;

nsMech::MechanicalDevice::MechanicalDevice(std::shared_ptr <CCOS::Dev::IOEventCenter>  EventCenter) :super(EventCenter)
{
	m_EventCenter = EventCenter;

	m_Grid = 0;
	m_Mammo_AE = 0;
	m_Mammo_FT = 0;
	m_Mammo_PressureState = 0;
	m_Mammo_CompPressureDEC = 0;
	m_Mammo_Depress = 0;
	m_Mammo_MechAngle = 0.0f;
	m_Mammo_MechHeight = 0.0f;
	m_Mammo_PressureValue = 0.0f;
	m_Mammo_AGD = 0.0f;
	m_Mammo_MAG = 0.0f;
}

nsMech::MechanicalDevice::~MechanicalDevice()
{
}

void nsMech::MechanicalDevice::FireNotify(string key, unsigned int value)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", value);
	std::string str = szInfo;
	m_EventCenter->OnNotify(1, key, str);//(int)ATTRACTION_SET 2

}

void nsMech::MechanicalDevice::FireNotify(string key, float value)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", value);
	std::string str = szInfo;
	m_EventCenter->OnNotify(1, key, str);//(int)ATTRACTION_SET 2

}

void nsMech::MechanicalDevice::Register()
{
	auto Disp = m_Dispatch.Lock().As();
	Disp->Action.Push("SetGrid", this, &nsMech::MechanicalDevice::JSSetGrid);
	Disp->Action.Push("SetAutoTracking", this, &nsMech::MechanicalDevice::JSSetAutoTracking);
	Disp->Action.Push("GetTomoResults", this, &nsMech::MechanicalDevice::JSGetTomoResults);

	Disp->Get.Push("GRID", this, &nsMech::MechanicalDevice::JSGetGrid);
	Disp->Get.Push("AE", this, &nsMech::MechanicalDevice::JSGetMammo_AE);
	Disp->Get.Push("Filter", this, &nsMech::MechanicalDevice::JSGetMammo_FT);
	Disp->Get.Push("Thickness", this, &nsMech::MechanicalDevice::JSGetMammo_PressureState);
	Disp->Get.Push("CompPressureDEC", this, &nsMech::MechanicalDevice::JSGetMammo_CompPressureDEC);
	Disp->Get.Push("Depress", this, &nsMech::MechanicalDevice::JSGetMammo_Depress);
	Disp->Get.Push("MechanicalAngle", this, &nsMech::MechanicalDevice::JSGetMammo_MechAngle);
	Disp->Get.Push("MechanicalHeight", this, &nsMech::MechanicalDevice::JSGetMammo_MechHeight);
	Disp->Get.Push("CompPressure", this, &nsMech::MechanicalDevice::JSGetMammo_PressureValue);
	Disp->Get.Push("AGD", this, &nsMech::MechanicalDevice::JSGetMammo_AGD);
	Disp->Get.Push("MAG", this, &nsMech::MechanicalDevice::JSGetMammo_MAG);
}

bool nsMech::MechanicalDevice::Prepare()
{
	Register();
	return true;
}

std::string nsMech::MechanicalDevice::GetGUID() const
{
	return MechanicalUnitType;
}

RET_STATUS nsMech::MechanicalDevice::JSSetGrid(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned int nValue = json[0];

	return SetGrid(nValue);
}

RET_STATUS nsMech::MechanicalDevice::JSSetAutoTracking(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned int nValue = json[0];

	return SetAutoTracking(nValue);
}

RET_STATUS nsMech::MechanicalDevice::JSGetTomoResults(std::string in, std::string& out)
{
	ResDataObject json;
	ResDataObject resultAngle;
	ResDataObject resultHeight;

	RET_STATUS ret = GetTomoResults(resultAngle, resultHeight);
	if(ret != RET_STATUS::RET_SUCCEED)
	{
		return RET_STATUS::RET_FAILED;
	}

	json.add("P0", resultAngle);
	json.add("P1", resultHeight);
	out = json.encode();

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetGrid(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Grid);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}


RET_STATUS nsMech::MechanicalDevice::JSGetMammo_AE(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Mammo_AE);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_FT(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Mammo_FT);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_PressureState(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Mammo_PressureState);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_CompPressureDEC(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Mammo_CompPressureDEC);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_Depress(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_Mammo_Depress);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_MechAngle(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", m_Mammo_MechAngle);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_MechHeight(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", m_Mammo_MechHeight);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_PressureValue(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", m_Mammo_PressureValue);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_AGD(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", m_Mammo_AGD);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS nsMech::MechanicalDevice::JSGetMammo_MAG(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%f", m_Mammo_MAG);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}


void MechanicalDevice::UpdateGrid(unsigned int Value)
{
	m_Grid = Value;
	FireNotify("GRID", Value);
}

void MechanicalDevice::UpdateMammo_AE(unsigned int Value)
{
	m_Mammo_AE = Value;
	FireNotify("AE", Value);
}

void MechanicalDevice::UpdateMammo_FT(unsigned int Value)
{
	m_Mammo_FT = Value;
	FireNotify("Filter", Value);
}

void MechanicalDevice::UpdateMammo_PressureState(unsigned int Value)
{
	m_Mammo_PressureState = Value;
	FireNotify("Thickness", Value);
}

void MechanicalDevice::UpdateMammo_CompPressureDEC(unsigned int Value)
{
	m_Mammo_CompPressureDEC = Value;
	FireNotify("CompPressureDEC", Value);
}

void MechanicalDevice::UpdateMammo_Depress(unsigned int Value)
{
	m_Mammo_Depress = Value;
	FireNotify("Depress", Value);
}

void MechanicalDevice::UpdateMammo_MechAngle(float Value)
{
	m_Mammo_MechAngle = Value;
	FireNotify("MechanicalAngle", Value);
}

void MechanicalDevice::UpdateMammo_MechHeight(float Value)
{
	m_Mammo_MechHeight = Value;
	FireNotify("MechanicalHeight", Value);
}

void MechanicalDevice::UpdateMammo_PressureValue(float Value)
{
	m_Mammo_PressureValue = Value;
	FireNotify("CompPressure", Value);
}

void MechanicalDevice::UpdateMammo_AGD(float Value)
{
	m_Mammo_AGD = Value;
	FireNotify("AGD", Value);
}

void MechanicalDevice::UpdateMammo_MAG(float Value)
{
	m_Mammo_MAG = Value;
	FireNotify("MAG", Value);
}

RET_STATUS  MechanicalDevice::SetGrid(unsigned int GridType)
{
	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS  MechanicalDevice::SetAutoTracking(unsigned int nAutoTracking)
{
	return RET_STATUS::RET_FAILED;
}
RET_STATUS MechanicalDevice::GetTomoResults(ResDataObject& resultAngle, ResDataObject& resultHeight)
{
	return RET_STATUS::RET_SUCCEED;
}