TwoLaserHead-PushJig/LaiPuLaser/MarkArea.cpp

#include "StdAfx.h"
#include "MarkArea.h"
#include "DrawSimpleShape.h"
#include "Layer.h"
#include "ProductMgr.h"
#include "Mirror.h"
#include "TemplateMgr.h"
#include "ObjComponentMgr.h"
#include "GlobalFunction.h"
#include "LogMgr.h"
#include "CommonFlowMgr.h"
#include "MarkAreaMgr.h"
#include "GlobalDrawMgr.h"


#define MIN_OBJ_CNT     5     //最少obj 数量
#define DATA_VECTOR_SIZE 800 //数据点容器的容量,避免push_back时vector 自动增长
#define DIGITAL_10000 10000

CMarkArea::CMarkArea()
{
	UpdateSize();
	m_bSel = false;//选择状态
}
CMarkArea::CMarkArea(Dbxy pt, DbSize size)
{
	m_RealBasePt = m_BasePt = pt;//基准点
	m_Size = size;//尺寸
}
CMarkArea::~CMarkArea(void)
{
}
#if 1
void CMarkArea::Serialize(CArchive& ar)
{
	if (ar.IsStoring())
	{
		ar << m_BasePt.x;
		ar << m_BasePt.y;
		ar << m_Size.w + DIGITAL_10000;//用来和旧版的区分
		ar << m_Size.h;
		ar << m_Offset.x;
		ar << m_Offset.y;

		ar << m_Offset2.x;
		ar << m_Offset2.y;
	}
	else
	{
		ar >> m_BasePt.x;
		ar >> m_BasePt.y;
		double val;
		ar >> val;
		bool bNewVersions = (val >= DIGITAL_10000);
		if (bNewVersions)
			val -= DIGITAL_10000;
		m_Size.w = val;

		ar >> m_Size.h;
		ar >> m_Offset.x;
		ar >> m_Offset.y;
		if (bNewVersions)
		{
			ar >> m_Offset2.x;
			ar >> m_Offset2.y;
		}
		else
		{
			m_Offset2.x = m_Offset.x;
			m_Offset2.y = m_Offset.y;
		}
	}
}
void CMarkArea::WriteWorkFile(vector<CLab> &LabVec)
{
	LabVec.push_back(CLab(LAB_NULL, m_BasePt.x));
	LabVec.push_back(CLab(LAB_NULL, m_BasePt.y));
	LabVec.push_back(CLab(LAB_NULL, m_Size.w));
	LabVec.push_back(CLab(LAB_NULL, m_Size.h));
	LabVec.push_back(CLab(LAB_NULL, m_Offset.x));
	LabVec.push_back(CLab(LAB_NULL, m_Offset.y));
}
void CMarkArea::ReadWorkFile(CLabVecRang &LabVecRang)
{
	int idx = LabVecRang.GetStart();
	m_BasePt.x = LabVecRang.GetDouble(idx++);
	m_BasePt.y = LabVecRang.GetDouble(idx++);
	m_Size.w = LabVecRang.GetDouble(idx++);
	m_Size.h = LabVecRang.GetDouble(idx++);
	m_Offset.x = LabVecRang.GetDouble(idx++);
	m_Offset.y = LabVecRang.GetDouble(idx++);
}
//更新尺寸为振镜范围
void CMarkArea::UpdateSize()
{
	m_Size = gMirror->GetRange();
}
//获取area 的理论范围
DbRect CMarkArea::GetRect()
{
	DbRect rect(m_BasePt, m_Size);
	return rect;
}
void CMarkArea::Draw(CDC* pDC, bool bSel)
{
	CPen pen;
	if (bSel || m_bSel)
	{
		pen.CreatePen(PS_DOT, 1, RGB_RED);
	}
	else
	{
		pen.CreatePen(PS_DOT, 1, RGB_PINK);
	}

	DbSize size = GetSize();
	DbRect rect;
	rect.Creat(m_BasePt, size);
	//绘制外框
	DrawRect(pDC, pen, rect, false);
	//选择状态时在中间区域绘制网格线
	if (m_bSel)
	{
		Drawgridding(pDC, pen, rect, 1);
	}
	//显示实际数据
	if (gMarkAreaMgr->IsbShowReadDate())
	{
		vector<vector<Dbxy>> &DataVec = m_WorkData.GetDataVec();
		gDraw->DrawDbxyVec(pDC, DataVec, m_BasePt);
	}
}

bool CMarkArea::IsPtInArea(Dbxy pt)
{
	return IsPointInRect(pt, DbRect(m_BasePt, m_Size));
}
void CMarkArea::SetBasePt(Dbxy pt)
{
	m_BasePt = pt;
	SetRealBasePt(pt);
}
#endif
#if 1
//获取实际中心位置
Dbxy CMarkArea::GetRealBasePt()
{
	if (m_RealBasePt.Equal(Dbxy(0, 0)))
		m_RealBasePt = m_BasePt;

	return m_RealBasePt;
}
//计算实际中心点
void CMarkArea::CalRealBasePt(CProduct &Product)
{
	//计算markarea 的实际中心位置
	m_RealBasePt = Product.TheoryPtToRealPt(m_BasePt);
}
//搜集layer 内的obj 
void  CMarkArea::CollectLayerObj(CObjContainer  &ObjContainer)
{
	//获得layer 的obj 容器直接操作
	CLayer &Layer = CLayer::Instance();
	CObjContainer &LayerObjContainer = Layer.GetObjContainer();
	vector<Sptr<CObjBase>> &ObjVec = LayerObjContainer.GetObjVec();
	//依次判断每个obj 需要加入哪个markarea
	DbRect Rect = GetRect();
	vector<Sptr<CObjBase>>::iterator iter = ObjVec.begin();
	vector<Sptr<CObjBase>>::iterator iter_end = ObjVec.end();
	for (; iter != iter_end; iter++)
	{
		if ((*iter)->IsInRect(Rect, false))//只要一个数据点在rect 内都算
		{
			ObjContainer.AddObject((*iter));
		}
	}
}
//搜集元件对象(被收集的obj 会被标记,防止被其他的area 重复收集)
void  CMarkArea::CollectComponentObj(vector<vector<Dbxy>> &vec, bool bNeedSel)
{
	//收集area 内的数据
	gObjComponentMgr->CollectWorkData(GetRect(), vec, bNeedSel);
}
//通过数据范围来调整area 的中心和尺寸
void CMarkArea::AdjustByObj()
{
	//获得area 内的数据范围
	DbRect DataRect = gObjComponentMgr->SetMarkedStateRect(GetRect(), false);
	DbSize size = DataRect.GetSize();
	if (size.w > 0 && size.h > 0)
	{
		m_BasePt = DataRect.GetCenterPt();
		m_Size = size;
	}
}


//清除数据源
void CMarkArea::ClearSrcWorkData()
{
	m_SrcWorkData.Clear();
	m_DecWorkData.Clear();
	//分配足够的空间
	m_SrcWorkData.Resize(DATA_VECTOR_SIZE);
	m_DecWorkData.Resize(DATA_VECTOR_SIZE);
}
//搜集数据源
void CMarkArea::CollectSrcWorkData()
{
	CollectComponentObj(m_SrcWorkData.GetDataVec(), false);
	m_DecWorkData = m_SrcWorkData;//复制一份
}
//是否有工作数据
bool CMarkArea::HasWorkData()
{
	if (m_bSelMarkMode)
		return !m_WorkData.Empty();
	else//全部加工时使用之前就准备好的数据，提高速度
		return (!m_DecWorkData.Empty() && m_bNeedMark);
}
//检查是否需要加工
bool CMarkArea::CheckbNeedMark()
{
	m_bNeedMark = gObjComponentMgr->HasObjInRect(GetRect());
	return m_bNeedMark;
}
#endif
//搜集在area 范围内的obj 数据(Product 是当前要加工的工件,主要用来偏移旋转数据)
void CMarkArea::CollectOrgWorkData(bool bNeedSel)
{
	m_OrgCenter = m_BasePt;
	m_WorkData.Clear();
	m_SpecialWorkData.Clear();//特殊刀对象
	vector<vector<Dbxy>> &WorkDataVec = m_WorkData.GetDataVec();
	vector<vector<Dbxy>> &SpecialWorkDataVec = m_SpecialWorkData.GetDataVec();
	//先搜集元件对象数据-----------------------------------
	CollectComponentObj(WorkDataVec, bNeedSel);
	//收集特殊对象增加的数据
	gCommonFlowMgr->SetbCollectSpecialObj(true);
	CollectComponentObj(SpecialWorkDataVec, bNeedSel);
	gCommonFlowMgr->SetbCollectSpecialObj(false);

	//如果没有收集到原件的数据才搜集layer 中obj 的数据
	if (WorkDataVec.empty() && !gObjComponentMgr->HasObj())
	{
		//先找到在area 内的obj
		CObjContainer  ObjContainer;
		CollectLayerObj(ObjContainer);
		//提取obj 的数据点(理论值) 这些数据是相对于layer 中心的坐标
		ObjContainer.GetObjPtData(WorkDataVec, bNeedSel);
	}
}
void CMarkArea::CollectWorkData(bool bNeedSel, CProduct &Product)
{
	gLogMgr->WriteDebugLog("func : CMarkArea---->CollectWorkData");

	m_bSelMarkMode = bNeedSel;//是否为选择加工模式

	//不要移动area 的中心
	//m_RealBasePt = m_BasePt;
	auto AreaCenter  = m_RealBasePt; //区域中心
	//将相对于layer 中心的数据转换为area 实际中心的数据
	//数据的偏移调整(每个area 的单独调整量+ 整体性的调整量)
	/*Dbxy Offset;
	{
		Offset.x = -m_RealBasePt.x;
		Offset.y = -m_RealBasePt.y;
	}*/
	  Dbxy CutOffsetAdjust; //切割偏移调整
	  {

		  CutOffsetAdjust= gCommonFlowMgr->GetAdjustOffsetAll();
/*
		   Dbxy AllOffset = gCommonFlowMgr->GetAdjustOffset();
		   Dbxy AllOffset2 = gCommonFlowMgr->GetAdjustOffsetAll();
		   Dbxy AreaOffset;
		   //每个轨道分别设置不同的区域偏移值
		   if(gProgram_SZ_XL->GetCurMarkingTrack()==_ETrackType_Track_1)
			   AreaOffset = m_Offset;
		   else
			   AreaOffset = m_Offset2;
		   CutOffsetAdjust.x = AreaOffset.x + AllOffset.x + AllOffset2.x;//-m_RealBasePt.x;
		   CutOffsetAdjust.y = AreaOffset.y + AllOffset.y + AllOffset2.y;// -m_RealBasePt.y;
*/
	  }

	if (1)
	{
		vector<vector<Dbxy>> &WorkDataVec = m_WorkData.GetDataVec();
		vector<vector<Dbxy>> &SpecialWorkDataVec = m_SpecialWorkData.GetDataVec();
		/*m_WorkData.Clear();
		m_SpecialWorkData.Clear();//特殊刀对象
		vector<vector<Dbxy>> &WorkDataVec = m_WorkData.GetDataVec();
		vector<vector<Dbxy>> &SpecialWorkDataVec = m_SpecialWorkData.GetDataVec();
		//先搜集元件对象数据-----------------------------------
		CollectComponentObj(WorkDataVec, bNeedSel);
		//收集特殊对象增加的数据
		gCommonFlowMgr->SetbCollectSpecialObj(true);
		CollectComponentObj(SpecialWorkDataVec, bNeedSel);
		gCommonFlowMgr->SetbCollectSpecialObj(false);

		//如果没有收集到原件的数据才搜集layer 中obj 的数据
		if (WorkDataVec.empty() && !gObjComponentMgr->HasObj())
		{
			//先找到在area 内的obj
			CObjContainer  ObjContainer;
			CollectLayerObj(ObjContainer);
			//提取obj 的数据点(理论值) 这些数据是相对于layer 中心的坐标
			ObjContainer.GetObjPtData(WorkDataVec, bNeedSel);
		}*/

		bool HasData = false;//判断有没有数据
		{
			vector<vector<Dbxy>>::iterator iter = WorkDataVec.begin();
			vector<vector<Dbxy>>::iterator iter_end = WorkDataVec.end();
			for (; iter != iter_end; iter++)
			{
				if (!(*iter).empty())
				{
					HasData = true;
					break;
				}
			}
		}
		if (!HasData)
		{
			WorkDataVec.clear();
			SpecialWorkDataVec.clear();
			return;
		}
		Product.TheoryDataToRealData(WorkDataVec, m_OrgCenter, CutOffsetAdjust);
		Product.TheoryDataToRealData(SpecialWorkDataVec, m_OrgCenter, CutOffsetAdjust);
		return;
		//根据抓取两个mark 来计算拉伸数据
		if (gCommonFlowMgr->IsbStretchDataToRealSize())
		{
			Product.StretchDataToRealSize(WorkDataVec);
			Product.StretchDataToRealSize(SpecialWorkDataVec);
		}
		//根据旋转偏移计算数据的实际值(相对于layer 中心)
		Product.TheoryDataToRealData0(WorkDataVec, AreaCenter,CutOffsetAdjust);
		Product.TheoryDataToRealData0(SpecialWorkDataVec, AreaCenter, CutOffsetAdjust);
	}
	else//全部加工时使用之前准备好的数据
	{
		//检查是否需要加工
		if (CheckbNeedMark())
		{
			Product.TheoryDataToRealData(m_SrcWorkData.GetDataVec(), m_DecWorkData.GetDataVec(), CutOffsetAdjust);
		}
	}
}
bool CMarkArea::DrawObjComponentVec(vector<Sptr<CObjComponent>> &vec, CDC* pDC, bool bSel)
{
	vector<Sptr<CObjComponent>>::iterator iter = vec.begin();
	vector<Sptr<CObjComponent>>::iterator iter_end = vec.end();
	for (; iter != iter_end; iter++)
	{
		(*iter)->Draw(pDC);
		if (IsShiftKeyDown())
			return false;
	}
	return true;
}
//获取加工数据容器
vector<vector<Dbxy>> &CMarkArea::GetDataVec()
{
	if (m_bSelMarkMode)
		return m_WorkData.GetDataVec();
	else//全部加工时使用之前就准备好的数据，提高速度
		return m_DecWorkData.GetDataVec();
}
//获取特殊对象的数据
vector<vector<Dbxy>> &CMarkArea::GetSpecialDataVec()
{
	return m_SpecialWorkData.GetDataVec();
}
bool CMarkArea::HasSpecialWorkData()
{
	return !m_SpecialWorkData.Empty();
}