lwk
/
PhysicalDevice


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

using namespace CCOS::Dev;
using namespace CCOS::Dev::Detail::Collimator;
namespace nsColli = CCOS::Dev::Detail::Collimator;

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

	m_nXSize = 0;
	m_nYSize = 0;
	m_nFilter = 0;
	m_nSID = 0;
	m_nAngle = 0;
	m_nMode = -1;
}

nsColli::CollimatorDevice::~CollimatorDevice()
{
}

void nsColli::CollimatorDevice::FireNotify(string key, unsigned short 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 nsColli::CollimatorDevice::Register()
{
	auto Disp = m_Dispatch.Lock().As();
	Disp->Action.Push("SetCollimatorSize", this, &nsColli::CollimatorDevice::JSSetCollimatorSize);
	Disp->Get.Push("Mode", this, &nsColli::CollimatorDevice::JSGetCollimatorMode);

}

bool nsColli::CollimatorDevice::Prepare()
{
	Register();
	return true;
}

std::string nsColli::CollimatorDevice::GetGUID() const
{
	return CollimatorUnitType;
}


RET_STATUS  CollimatorDevice::JSSetStudyInfo(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());

	return SetStudyInfo(json);
}

RET_STATUS  CollimatorDevice::JSSetTechParamsInfo(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());

	return SetTechParamsInfo(json);
}

RET_STATUS  CollimatorDevice::JSSetCollimatorSize(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned short xsize, ysize;

	xsize = json[0];
	ysize = json[1];

	return SetCollimatorSize(xsize, ysize);
}

RET_STATUS  CollimatorDevice::JSSetCollimatorSID(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned short nParam = json[0];

	return SetCollimatorSID(nParam);
}

RET_STATUS  CollimatorDevice::JSSetCollimatorFilter(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned short nParam = json[0];

	return SetCollimatorFilter(nParam);
}

RET_STATUS  CollimatorDevice::JSSetCollimatorAngle(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned short nParam = json[0];

	return SetCollimatorAngle(nParam);
}

RET_STATUS  CollimatorDevice::JSSetCollimatorMode(std::string in, std::string& out)
{
	ResDataObject json;
	json.decode(in.c_str());
	unsigned short nParam = json[0];

	return SetCollimatorMode(nParam);
}


RET_STATUS CollimatorDevice::JSGetCollimatorXSize(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nXSize);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::JSGetCollimatorYSize(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nYSize);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::JSGetCollimatorSID(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nSID);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::JSGetCollimatorFilter(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nFilter);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::JSGetCollimatorAngle(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nAngle);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::JSGetCollimatorMode(std::string& out)
{
	char szInfo[64] = { 0 };
	snprintf(szInfo, sizeof(szInfo), "%d", m_nMode);
	out = szInfo;

	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS  CollimatorDevice::SetCollimatorSize(unsigned short xsize, unsigned short ysize)
{
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS  CollimatorDevice::SetCollimatorSID(unsigned short sid)
{
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS  CollimatorDevice::SetCollimatorFilter(unsigned short pParams)
{
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS  CollimatorDevice::SetCollimatorAngle(unsigned short pParams)
{
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS  CollimatorDevice::SetCollimatorMode(unsigned short Param)
{
	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS CollimatorDevice::UpdateCollimatorXSize(unsigned short Param)
{
	m_nXSize = Param;
	FireNotify("XSize", Param);
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::UpdateCollimatorYSize(unsigned short Param)
{
	m_nYSize = Param;
	FireNotify("YSize", Param);
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::UpdateCollimatorSID(unsigned short Param)
{
	m_nSID = Param;
	FireNotify("SID", Param);
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::UpdateCollimatorAngle(unsigned short Param)
{
	m_nAngle = Param;
	FireNotify("Angle", Param);
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::UpdateCollimatorFilter(unsigned short Param)
{
	m_nFilter = Param;
	FireNotify("Filter", Param);
	return RET_STATUS::RET_SUCCEED;
}
RET_STATUS CollimatorDevice::UpdateCollimatorMode(unsigned short Param)
{
	m_nMode = Param;
	FireNotify("Mode", Param);
	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS CollimatorDevice::SetStudyInfo(ResDataObject & pParam)
{
	return RET_STATUS::RET_SUCCEED;
}

RET_STATUS CollimatorDevice::SetTechParamsInfo(ResDataObject& pParam)
{
	TECHPARAM_INFO info;
	info.SetVal(pParam.encode());
	std::string strcollimatorwidth = info.m_CollimatorWidth;
	std::string strcollimatorheight = info.m_CollimatorHeight;
	std::string strcollimatorfilter = info.m_CollimatorFilter;

	unsigned short Width = 0;       // 使用标准类型 unsigned short 替代 Dunsigned short
	unsigned short Height = 0;
	unsigned short dwFilter = 0;

	// 处理宽度（单位转换：若包含"IN"则英寸转厘米，否则直接取数值）
	if (strcollimatorwidth.find("IN") != std::string::npos)
	{
		// 截取数值部分（去掉末尾"IN"），转换为double后乘以2.54（英寸转厘米）
		std::string numStr = strcollimatorwidth.substr(0, strcollimatorwidth.size() - 2);
		Width = static_cast<unsigned short>(atof(numStr.c_str()) * 2.54);
	}
	else
	{
		// 截取数值部分（假设单位为厘米，去掉末尾单位），直接转换为整数
		std::string numStr = strcollimatorwidth.substr(0, strcollimatorwidth.size() - 2);
		Width = static_cast<unsigned short>(atoi(numStr.c_str()));
	}

	// 处理高度（逻辑同宽度）
	if (strcollimatorheight.find("IN") != std::string::npos)
	{
		std::string numStr = strcollimatorheight.substr(0, strcollimatorheight.size() - 2);
		Height = static_cast<unsigned short>(atof(numStr.c_str()) * 2.54);
	}
	else
	{
		std::string numStr = strcollimatorheight.substr(0, strcollimatorheight.size() - 2);
		Height = static_cast<unsigned short>(atoi(numStr.c_str()));
	}

	// 设置准直器尺寸（非零值才生效）
	if (Width != 0 && Height != 0)
	{
		SetCollimatorSize(Width, Height);
	}

	// 处理过滤器参数
	dwFilter = static_cast<unsigned short>(atoi(strcollimatorfilter.c_str()));
	if (dwFilter >= 0)  // unsigned short 本身非负，此判断可简化为 if (true)，但保留原逻辑
	{
		SetCollimatorFilter(dwFilter);
	}

	return RET_STATUS::RET_SUCCEED;
}