Files
geomative/GeomativeStudio/cpp/ProblemZone/MediumAMN.cpp
T
coco df489d5640 a
2026-07-03 16:05:30 +08:00

139 lines
4.2 KiB
C++

// MediumAMN.cpp: implementation of the CMediumAMN class.
//
//////////////////////////////////////////////////////////////////////
#include "geomative.h"
#include "MediumAMN.h"
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#define new DEBUG_NEW
#endif
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
extern int g_iUILanguage;
CMediumAMN::CMediumAMN(int iAR): CMedium(iAR)
{
m_fEOffsetR = 0.5;
m_fLOffsetR = 0;
}
CMediumAMN::~CMediumAMN()
{
}
bool CMediumAMN::GenerateSptRecElecVal(int iEAmount, int* pMaxLevel, int* pPtAmount, CPtrArray* pSptRecArray)
{
if (iEAmount < 1)
{
if (LANG_ZHCN == g_iUILanguage)
AfxMessageBox(_T("AMN-Array中EA_MOUNT的数目为错误!"));
else
MessageBoxEx(NULL, _T("The number of EA_MOUNT in AMN-Array is error!"), STRING_MESSAGEBOXEX_TITLE, MB_OK, MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US));
return false;
}
if (NULL == pSptRecArray)
{
if (LANG_ZHCN == g_iUILanguage)
AfxMessageBox(_T("pSptRecArray不能为空!"));
else
MessageBoxEx(NULL, _T("pSptRecArray can't be NULL!"), STRING_MESSAGEBOXEX_TITLE, MB_OK, MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US));
return false;
}
pSptRecArray->RemoveAll();
int iC1Pos,iC2Pos,iP1Pos,iP2Pos;
int iTsn = 0;
CSptRecord *pSptRec = NULL;
int iLayer = 0;
iC2Pos = -1;
while(TRUE)
{
iLayer++;
iC1Pos = 1;
iP1Pos = iC1Pos + iLayer;
iP2Pos = iP1Pos + 1;
//变化的规律就是B在无穷远,而AMN在同一层中依次右移,可以认为AM的值就是层数
//同时,当每层的其实位置时,A都是从1开始的,MN的值
//祝工明确说AM的距离最多到20
if ((iP2Pos > iEAmount) || (iLayer > 20))
{
break;
}
//确定好每一层的电极初始位置之后,开始横向往右测量,此时每测一次,电极向右平移1
while(iP2Pos <= iEAmount)
{
pSptRec = new CSptRecord();
pSptRec->m_iC1 = iC1Pos;
pSptRec->m_iC2 = iC2Pos;
pSptRec->m_iP1 = iP1Pos;
pSptRec->m_iP2 = iP2Pos;
pSptRec->m_fK = CalculateCESptKVal(iC1Pos, iC2Pos, iP1Pos, iP2Pos);
pSptRec->m_iPtNum = iC1Pos;
pSptRec->m_iLevel = GenSptRecLevel(iC1Pos, iC2Pos, iP1Pos, iP2Pos);
pSptRec->m_colorREF = RGB(0, 255, 0);
pSptRec->m_iN = 1;
pSptRec->m_bIsSel = TRUE;
pSptRec->m_iTsn = ++iTsn;
pSptRecArray->Add(pSptRec);
iC1Pos++;
iP1Pos++;
iP2Pos++;
}
}
*pPtAmount = pSptRecArray->GetSize();
*pMaxLevel = iLayer-1;
return true;
}
float CMediumAMN::CalculateCESptKVal(float fA, float fB, float fX, float fY)
{
//这里K值的计算公式为: k = 2*pai*n*(n+1)*a
//n:即AM
//a:即MN
float fNParam = fX - fA;
float fAParam = fY - fX;
return (2 * VAL_PI * fNParam * (fNParam+1) * fAParam);
}
void CMediumAMN::CalculateSptPtLoc(int iMul,CSptRecord* pSptRecord)
{
int iOffsetL = (int)VAL_ZERO;
int iOffsetR = (int)VAL_ZERO;
int iLevel = pSptRecord->m_iLevel;
int iPtNum = pSptRecord->m_iPtNum;
//此时的中点为MN的中点,
iOffsetL = 46 + iMul*(6+2)*iLevel + iMul*((6+2) * (pSptRecord->m_iP2-pSptRecord->m_iP1) / 2 - 3);
iOffsetR = iOffsetL+6*iMul;
//矩形的X轴的位置有OFFSETL 再加上向右的偏移距离组成,向右的偏移距离即是全部电极每测一次向右偏移的距离
//举例来说,此时OFFSETL相当于此时的中心点的起始位置,iPtNum-1则相当于此时向右偏移的次数
//其中圆点的半径为3
pSptRecord->m_recPtArea.left = iOffsetL+(6+2)*iMul*(iPtNum-1);
pSptRecord->m_recPtArea.top = 50+(6+2)*iMul*(iLevel-1);
pSptRecord->m_recPtArea.right = iOffsetR+(6+2)*iMul*(iPtNum-1);
pSptRecord->m_recPtArea.bottom = (50+6*iMul)+(6+2)*iMul*(iLevel-1);
pSptRecord->m_fPtCenterX = (float)(iOffsetL+(6+2)*iMul*(iPtNum-1) + ((iOffsetR+(6+2)*iMul*(iPtNum-1)) - (iOffsetL+(6+2)*iMul*(iPtNum-1))) / 2);
pSptRecord->m_fPtCenterY = (float)(50+(6+2)*iMul*(iLevel-1) + (((50+6*iMul)+(6+2)*iMul*(iLevel-1)) - (50+(6+2)*iMul*(iLevel-1))) / 2);
pSptRecord->m_fPtRadius = (float)(abs((int)(pSptRecord->m_fPtCenterX) - pSptRecord->m_recPtArea.left));
}
int CMediumAMN::GetMaxLevelByEAmount(int iEAmount)
{
if (iEAmount > 2)
{
int iMaxLayer = iEAmount - 2;
return (iMaxLayer > 20) ? 20 : iMaxLayer;
}
return 0;
}