原文作者:aircraft
原文地址:https://www.cnblogs.com/DOMLX/p/9598974.html
我看了一下发现关于CImage类 图像处理相关的介绍真的是比较少,因为我要做大二的数据结构的课程设计,要用纯c++语言去实现(老师不让调用图像处理库),所以自己就尝试写了很多操作处理的代码,下面都是我课设用到的代码段,我已经降低耦合度分离出来了,现在就全部分享出来吧。
前人栽树,后人乘凉
望与诸君共勉。
MFC图像处理CImage类常用操作
CImage类头文件为#include
CImage类读取图片CImage.Load("src.bmp");
CImage类保存图片CImage.Save("dst.jpg");
一.CImage类实例拷贝数据到另外一个CImage类实例
bool ImageCopy(const CImage &srcImage, CImage &destImage) { int i, j;//循环变量 if (srcImage.IsNull()) return FALSE; //源图像参数 BYTE* srcPtr = (BYTE*)srcImage.GetBits(); int srcBitsCount = srcImage.GetBPP(); int srcWidth = srcImage.GetWidth(); int srcHeight = srcImage.GetHeight(); int srcPitch = srcImage.GetPitch(); //销毁原有图像 if (!destImage.IsNull()) { destImage.Destroy(); } //创建CImage类新图像并分配内存 if (srcBitsCount == 32) //支持alpha通道 { destImage.Create(srcWidth, srcHeight, srcBitsCount, 1); } else { destImage.Create(srcWidth, srcHeight, srcBitsCount, 0); } //加载调色板 if (srcBitsCount <= 8 && srcImage.IsIndexed())//需要调色板 { RGBQUAD pal[256]; int nColors = srcImage.GetMaxColorTableEntries(); if (nColors>0) { srcImage.GetColorTable(0, nColors, pal); destImage.SetColorTable(0, nColors, pal);//复制调色板程序 } } //目标图像参数 BYTE *destPtr = (BYTE*)destImage.GetBits(); int destPitch = destImage.GetPitch(); //复制图像数据 for (i = 0; i) { memcpy(destPtr + i*destPitch, srcPtr + i*srcPitch, abs(srcPitch)); } return TRUE; }
二.CImage类实例处理图像间的腐蚀运算
//腐蚀运算
//width:图像宽;height:图像高;矩形掩膜的边长(2*r+1)void erosion(CImage image, int width, int height, int r) { int i, j, m, n; int flag; //unsigned char * pBuff = tempBuff; CImage Buff; ImageCopy(image, Buff); //dataCopy(image, pBuff, width, height); byte *pImg = (byte *)image.GetBits(); byte *pBuff = (byte *)Buff.GetBits(); int step = image.GetPitch(); //int height = image.GetHeight(); //int width = image.GetWidth(); for (i = r; i) { for (j = r; j ) { flag = 1; for (m = i - r; m <= i + r; m++) { for (n = j - r; n <= j + r; n++) { //if (!pBuff[i*width + j] || !pBuff[m*width + n]) if (!*(pBuff + i*step + j) || !*(pBuff + m*step + n)) { flag = 0; break; } } } if (flag == 0) { *(pImg + i*step + j) = 0; } else { *(pImg + i*step + j) = 255; } } } }
三.CImage类实例处理图像间的膨胀运算
//膨胀运算 //width:图像宽;height:图像高;矩形掩膜的边长(2*r+1) void diate(CImage image, int width, int height, int r) { int i, j, m, n; int flag; //unsigned char * pBuff = tempBuff; CImage Buff; ImageCopy(image, Buff); //dataCopy(image, pBuff, width, height); byte *pImg = (byte *)image.GetBits(); byte *pBuff = (byte *)Buff.GetBits(); int step = image.GetPitch(); //int height = image.GetHeight(); //int width = image.GetWidth(); //dataCopy(image, pBuff, width, height); for (i = r; i) { for (j = r; j ) { flag = 1; for (m = i - r; m <= i + r; m++) { for (n = j - r; n <= j + r; n++) { if (255 == *(pBuff + i*step + j) || 255 == *(pBuff + m*step + n)) { flag = 0; break; } } } if (flag == 0) { *(pImg + i*step + j) = 255; } else { *(pImg + i*step + j) = 0; } } } }
四.CImage类实例处理图片遍历赋值操作
byte *pImg = (byte *)imgSrc.GetBits(); int step = imgSrc.GetPitch(); int height = imgSrc.GetHeight(); int width = imgSrc.GetWidth(); int sum = 0; unsigned char val = 0; //初始化 for (int i = 0; i) for (int j = 0; j ) *(pDstImg + i*step + j) = 0;
五.用CImage类实例遍历生成手指静脉边缘图
#define mlen 9 //模板长度 //加长扩展的水平边缘检测模板 int upperEdgeOperator[mlen * 3] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; int lowerEdgeOperator[mlen * 3] = { 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; int findEdgesHorizontal(CImage& imgSrc, CImage& imgDst) { int maxY = imgSrc.GetHeight(); int maxX = imgSrc.GetWidth(); if (!imgDst.IsNull()) { imgDst.Destroy(); } imgDst.Create(maxX, maxY, 8, 0);//图像大小与imgSrc相同,每个像素占1字节 if (imgDst.IsNull()) return FALSE; byte *pImg = (byte *)imgSrc.GetBits(); byte *pDstImg = (byte *)imgDst.GetBits(); int step = imgSrc.GetPitch(); int height = imgSrc.GetHeight(); int width = imgSrc.GetWidth(); int sum = 0; unsigned char val = 0; //初始化 for (int i = 0; i) for (int j = 0; j ) *(pDstImg + i*step + j) = 0; //找上边缘 for (int i = 1; i 2 - 1; i++) { for (int j = 4; j < maxX - 4; j++) { sum = 0; for (int m = -1; m <= 1; m++) { for (int n = -mlen / 2; n <= mlen / 2; n++) { sum += *(pImg + (i + m)*step + (j + n))*upperEdgeOperator[(m + 1)*mlen + (n + mlen / 2)]; } } sum = sum < 0 ? 0 : sum; sum = sum > 255 ? 255 : sum; val = unsigned char(sum); *(pDstImg + i*step + j) = val; } } //找下边缘 for (int i = maxY / 2 + 1; i 1; i++) { for (int j = 4; j < maxX - 4; j++) { sum = 0; for (int m = -1; m <= 1; m++) { for (int n = -mlen / 2; n <= mlen / 2; n++) { sum += *(pImg + (i + m)*step + (j + n))*upperEdgeOperator[(m + 1)*mlen + (n + mlen / 2)];; } } sum = sum < 0 ? 0 : sum; sum = sum > 255 ? 255 : sum; val = unsigned char(sum); *(pDstImg + i*step + j) = val; } } return TRUE; }
六.CImage图像类实例将RGB图转为灰度(gary)图
BOOL ImageToGray(CImage& imgSrc, CImage& imgDst) { int maxY = imgSrc.GetHeight(); int maxX = imgSrc.GetWidth(); if (!imgDst.IsNull()) { imgDst.Destroy(); } imgDst.Create(maxX, maxY, 8, 0);//图像大小与imgSrc相同,每个像素占1字节 if (imgDst.IsNull()) return FALSE; //为imgDst构造256阶灰度调色表 RGBQUAD ColorTab[256]; for (int i = 0; i<256; i++) { ColorTab[i].rgbBlue = ColorTab[i].rgbGreen = ColorTab[i].rgbRed = i; } imgDst.SetColorTable(0, 256, ColorTab); byte* pDataSrc = (byte*)imgSrc.GetBits(); //获取指向图像数据的指针 byte* pDataDst = (byte*)imgDst.GetBits(); int pitchSrc = imgSrc.GetPitch(); //获取每行图像占用的字节数 +:top-down;-:bottom-up DIB int pitchDst = imgDst.GetPitch(); int bitCountSrc = imgSrc.GetBPP() / 8; // 获取每个像素占用的字节数 int bitCountDst = imgDst.GetBPP() / 8; if ((bitCountSrc != 3) || (bitCountDst != 1)) return FALSE; int tmpR, tmpG, tmpB, avg; for (int i = 0; i) { for (int j = 0; j ) { tmpR = *(pDataSrc + pitchSrc*j + i*bitCountSrc); tmpG = *(pDataSrc + pitchSrc*j + i*bitCountSrc + 1); tmpB = *(pDataSrc + pitchSrc*j + i*bitCountSrc + 2); avg = (int)(tmpR + tmpG + tmpB) / 3; *(pDataDst + pitchDst*j + i*bitCountDst) = avg; } } return TRUE; }
七.CImage类转opencv Mat类 以及Mat类转CImage类
#include "stdafx.h" #include#include "CimgMat.h" void CimgMat::MatToCImage(Mat& mat, CImage& cimage) { if (0 == mat.total()) { return; } int nChannels = mat.channels(); if ((1 != nChannels) && (3 != nChannels)) { return; } int nWidth = mat.cols; int nHeight = mat.rows; //重建cimage cimage.Destroy(); cimage.Create(nWidth, nHeight, 8 * nChannels); //拷贝数据 uchar* pucRow; //指向数据区的行指针 uchar* pucImage = (uchar*)cimage.GetBits(); //指向数据区的指针 int nStep = cimage.GetPitch(); //每行的字节数,注意这个返回值有正有负 if (1 == nChannels) //对于单通道的图像需要初始化调色板 { RGBQUAD* rgbquadColorTable; int nMaxColors = 256; rgbquadColorTable = new RGBQUAD[nMaxColors]; cimage.GetColorTable(0, nMaxColors, rgbquadColorTable); for (int nColor = 0; nColor < nMaxColors; nColor++) { rgbquadColorTable[nColor].rgbBlue = (uchar)nColor; rgbquadColorTable[nColor].rgbGreen = (uchar)nColor; rgbquadColorTable[nColor].rgbRed = (uchar)nColor; } cimage.SetColorTable(0, nMaxColors, rgbquadColorTable); delete[]rgbquadColorTable; } for (int nRow = 0; nRow < nHeight; nRow++) { pucRow = (mat.ptr (nRow)); for (int nCol = 0; nCol < nWidth; nCol++) { if (1 == nChannels) { *(pucImage + nRow * nStep + nCol) = pucRow[nCol]; } else if (3 == nChannels) { for (int nCha = 0; nCha < 3; nCha++) { *(pucImage + nRow * nStep + nCol * 3 + nCha) = pucRow[nCol * 3 + nCha]; } } } } } void CimgMat::CImageToMat(CImage& cimage, Mat& mat) { if (true == cimage.IsNull()) { return; } int nChannels = cimage.GetBPP() / 8; if ((1 != nChannels) && (3 != nChannels)) { return; } int nWidth = cimage.GetWidth(); int nHeight = cimage.GetHeight(); //重建mat if (1 == nChannels) { mat.create(nHeight, nWidth, CV_8UC1); } else if (3 == nChannels) { mat.create(nHeight, nWidth, CV_8UC3); } //拷贝数据 uchar* pucRow; //指向数据区的行指针 uchar* pucImage = (uchar*)cimage.GetBits(); //指向数据区的指针 int nStep = cimage.GetPitch(); //每行的字节数,注意这个返回值有正有负 for (int nRow = 0; nRow < nHeight; nRow++) { pucRow = (mat.ptr (nRow)); for (int nCol = 0; nCol < nWidth; nCol++) { if (1 == nChannels) { pucRow[nCol] = *(pucImage + nRow * nStep + nCol); } else if (3 == nChannels) { for (int nCha = 0; nCha < 3; nCha++) { pucRow[nCol * 3 + nCha] = *(pucImage + nRow * nStep + nCol * 3 + nCha); } } } } }
八.纯图像数据赋值给CImage后的初始化,并且写入调色板
bool InitalImage(CImage &image, int width, int height) { if (image.IsNull()) image.Create(width, height, 8); else { if (width <= 0 || height <= 0) return false; else if (image.GetHeight() == width && image.GetWidth() == height) return true; else { image.Destroy(); image.Create(width, height, 8); } } //写入调色板 RGBQUAD ColorTable[256]; image.GetColorTable(0, 256, ColorTable); for (int i = 0; i < 256; i++) { ColorTable[i].rgbBlue = (BYTE)i; ColorTable[i].rgbGreen = (BYTE)i; ColorTable[i].rgbRed = (BYTE)i; } image.SetColorTable(0, 256, ColorTable); return true; }
九.根据MFC控件大小CImage类实例图片显示
if(m_image2.IsNull()) //判断有无图像 return; // 取得客户区尺寸 CRect zcRect; GetDlgItem(IDC_STATIC_PIC2)->GetClientRect(&zcRect); // 将图像显示在界面之上 m_image2.Draw(GetDlgItem(IDC_STATIC_PIC2)->GetDC()->m_hDC, zcRect.left, zcRect.top, zcRect.Width(), zcRect.Height());
十.根据CImage类实例图片调整控件大小显示图片
if(m_image1.IsNull()) return; // 将整控件调整为与图像同一尺寸 GetDlgItem(IDC_STATIC_PIC)->SetWindowPos(NULL, 0,0,m_image1.GetWidth(), m_image1.GetHeight(), SWP_NOMOVE); CRect zcRect; GetDlgItem(IDC_STATIC_PIC)->GetClientRect(&zcRect); m_image1.Draw(GetDlgItem(IDC_STATIC_PIC)->GetDC()->m_hDC, zcRect.left, zcRect.top, zcRect.Width(), zcRect.Height());
十一.CImage类与CBitmap转换
CImage nImage; nImage.Load(imgFilePath); HBITMAP hBitmap=nImage.Detach(); // 获得位图句柄 用以转换 // 转换方式一: CBitmap bmp; bmp.DeleteObject(); bmp.Attach(hBitmap); // 转换为CBitmap对象 // 转换方式二: CBitmap *pBitmap=CBitmap::FromHandle(nImage.m_hBitmap);
十二.CImage类实例实现图像二值化
void imgBinary(CImage image, int imgW, int imgH, int threshold) { int i; int index = 0; byte *pImg = (byte *)image.GetBits(); int step = image.GetPitch(); int height = image.GetHeight(); int width = image.GetWidth(); for (i = 0; i) { *(pImg + index) = *(pImg + index)>threshold ? 255 : 0; index++; } }
十三.CImage实现自己的argmax函数----求图像一定高度区域中某一列遇到的第一个最大像素值得坐标并返回
int argmax(CImage &image,int Top,int Bottom,int x) { int max = 0; int tem; int pos = 0; byte *pImg = (byte *)image.GetBits(); int step = image.GetPitch(); int height = image.GetHeight(); int width = image.GetWidth(); if (Top > 0 && Top < height && Bottom > 0 && Bottom < height && x > 0 && x < width) { for (int i = Top; i < Bottom; ++i) { tem = *(pImg + i*step + x); if (tem > max) { max = tem; pos = i; } } return pos; } else { return FALSE; } }
十四.CImage类创建指定长宽图像并初始化调色板
bool InitalImage(CImage &image, int width, int height) { if (image.IsNull()) image.Create(width, height, 8); else { if (width <= 0 || height <= 0) return false; else if (image.GetHeight() == width && image.GetWidth() == height) return true; else { image.Destroy(); image.Create(width, height, 8); } } //写入调色板 RGBQUAD ColorTable[256]; image.GetColorTable(0, 256, ColorTable); for (int i = 0; i < 256; i++) { ColorTable[i].rgbBlue = (BYTE)i; ColorTable[i].rgbGreen = (BYTE)i; ColorTable[i].rgbRed = (BYTE)i; } image.SetColorTable(0, 256, ColorTable); return true; }
十五.将存放在一维指针数组里的图像数据赋值给CImage类实例
void LoadImageData(CImage &image, unsigned char * data) { if (data == nullptr) return; byte *pS; byte *pImg = (byte *)image.GetBits(); int step = image.GetPitch(); int height = image.GetHeight(); int width = image.GetWidth(); for (int i = 0; i < image.GetHeight(); ++i) { pS = data + i * width; for (int j = 0; j < image.GetWidth(); ++j) { *(pImg + i*step + j) = pS[j]; } } }
十六.CImage类自己实现图片的裁剪
//裁剪roi区域 void RoiCut(CImage &image, CImage &roiImg, int heightTop,int heightDown,int widthBegin,int widthEnd) { InitalImage(roiImg, heightDown - heightTop + 1, widthBegin - widthEnd + 1); byte *pImg = (byte *)image.GetBits(); byte *pRoi = (byte *)roiImg.GetBits(); int step = image.GetPitch(); int height = image.GetHeight(); int width = image.GetWidth(); int index = 0; for (int i = heightTop; i < heightDown; i++) { for (int j = widthBegin; j < widthEnd; j++) { *(pRoi + index) = *(pImg + i*step + j); index++; } } }
还有一些操作比较麻烦这里就先不写了,后面想到什么在写把嘿嘿。
参考博客:https://blog.csdn.net/ishallwin/article/details/4840180
参考博客:https://blog.csdn.net/shuilan0066/article/details/7080244
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