模拟Matlab显示图像的效果

VisualTool.h头文件

#ifndef _VISUALTOOL_H_
#define _VISUALTOOL_H_

#include "opencv2/opencv.hpp"

#define HIST_TYPE_MIX 0
#define HIST_TYPE_CONTOUR 1

namespace cv
{
//深度显示单通道uchar,float, int类型图像，IMAGE_GRAYSCALE
void ImageGrayScale(std::string windowName, const cv::Mat img);

//以柱状图显示数组，array必须为 CV_32F,CV_32S,CV_8U中的一种，且rows == 1
void ShowArrayHistogram(std::string title, cv::Mat array, cv::Size size = cv::Size(400,400));

//显示一幅图像的直方图，histType为显示方式，
//                      HIST_TYPE_MIX表示三通道混合显示，
//                      HIST_TYPE_CONTOUR表示以轮廓显示
void ShowImageHistogram(const std::string windowName,
const cv::Mat src,
const cv::Mat mask = cv::Mat(),
int histType = HIST_TYPE_MIX,
cv::Size windowSize = cv::Size(256, 200));

//显示一幅图像的颜色分布图
void ShowImageColorDistribution(const std::string windowName,
const cv::Mat src_3u,
int nBins = 32,
const cv::Mat mask = cv::Mat(),
cv::Size windowSize = cv::Size(256, 200));

}
#endif

VisualTool.cpp　：

#include "VisualTool.h"

namespace cv
{
void ImageGrayScale(std::string windowName, const cv::Mat img){
assert(img.channels() == 1 && !img.empty());
/*if(!img.empty( )){
std::cerr<<"Load File invalid....!"<<std::endl;
exit(EXIT_SUCCESS);
}
if(img.channels() == 1){
std::cerr<<"Load File is Gray Image!"<<std::endl;
exit(EXIT_FAILURE);
}*/

//get min max value of the mat
double minPixelValue, maxPixelValue;
cv::minMaxIdx(img, &minPixelValue, &maxPixelValue);
double valueRange = maxPixelValue - minPixelValue;

//init color table
const int minSaturation = 20;
const int colorTableLength = (255 - minSaturation) * 4;    // r -> g -> b
cv::Scalar colorTable[colorTableLength];

int i,j;
for (i = 0, j = minSaturation; i < colorTableLength / 4; i++, j++)
colorTable[i] = CV_RGB(255, j, minSaturation);
for (i = colorTableLength / 4, j=1; i < colorTableLength / 2; i++, j++)
colorTable[i] = CV_RGB(255 - j, 255, minSaturation);
for (i = colorTableLength/2, j=minSaturation; i < colorTableLength/4*3; i++, j++)
colorTable[i] = CV_RGB(minSaturation, 255, j);
for (i = colorTableLength/4*3, j=1; i < colorTableLength; i++, j++)
colorTable[i] = CV_RGB(minSaturation, 255 - j, 255);

//draw color table
const int margin = 20;
const int tableHeight = 300;
const int tableWidth = 150;
const int barWidth = 30;
const int barHeight = tableHeight - margin * 2;
float scale = (float)barHeight / colorTableLength;

int imageHeight = cv::max(img.rows, tableHeight);
int imageWidth  = img.cols + tableWidth;
cv::Mat img3u( imageHeight, imageWidth, CV_8UC3, cv::Scalar::all(0));

for (int i=0; i<barHeight; i++){
cv::Point pt1(img.cols + margin, margin + i);
cv::Point pt2(img.cols + margin + barWidth, margin + i);
cv::line(img3u, pt1, pt2, colorTable[cvRound(i/scale)], 1);
}

//illustration
for (int i=0; i<5; i++){
float value = minPixelValue + i / 4.0 * valueRange;
std::stringstream s;
s<<value;
int bx = img.cols + margin + barWidth;
int by = tableHeight - margin - barHeight / 4 * i ;
cv::line(img3u, cv::Point(bx+5, by), cv::Point(bx+10, by), cvScalarAll(255), 2);
cv::putText(img3u, s.str(), cv::Point(bx + 20, by + 8),
CV_FONT_HERSHEY_SIMPLEX, 0.6, cvScalarAll(255), 1);
}

//show image
cv::Mat tim(img.size(), CV_32F);
img.convertTo(tim, CV_32F);

for (int y = 0; y < img.rows; y++){
const float* srcData = tim.ptr<float>(y);
cv::Vec3b* dstData = img3u.ptr<cv::Vec3b>(y);
for (int x = 0; x<img.cols; x++){
double pixel = (srcData[x] - minPixelValue) / valueRange;
cv::Scalar color = colorTable[cvRound(pixel * (colorTableLength-1))];
dstData[x] =cv::Vec3b(color.val[2], color.val[1], color.val[0]);
}
}
cv::imshow(windowName, img3u);
cv::imwrite("Lbp.jpg",img3u);
}

void ShowArrayHistogram(std::string title, cv::Mat hist, cv::Size size){
CV_Assert(hist.rows == 1);
cv::Mat imHist = cv::Mat::zeros(size, CV_8UC3);
int nBins = hist.rows*hist.cols;
double min, max;
cv::minMaxLoc(hist, &min, &max);
double bin_width=(double)size.width/nBins;
double bin_unith=(double)size.height/max;

if(hist.type() == CV_32F){
float * ptr = hist.ptr<float>(0);
for(int i=0;i<nBins;i++){
cv::Point p0=cv::Point(i*bin_width,size.height);
cv::Point p1=cv::Point((i+1)*bin_width,size.height-ptr[i]*bin_unith);
cv::rectangle(imHist, p0, p1, cv::Scalar::all(255), -1, 0, 0);
}
}

if(hist.type() == CV_32S){
int* ptr = hist.ptr<int>(0);
for(int i=0;i<nBins;i++) {
cv::Point p0=cv::Point(i*bin_width,size.height);
cv::Point p1=cv::Point((i+1)*bin_width,size.height-ptr[i]*bin_unith);
cv::rectangle(imHist, p0, p1, cv::Scalar::all(255), -1, 0, 0);
}
}

if(hist.type() == CV_8U){
uchar* ptr = hist.ptr<uchar>(0);
for(int i=0;i<nBins;i++) {
cv::Point p0=cv::Point(i*bin_width,size.height);
cv::Point p1=cv::Point((i+1)*bin_width,size.height-ptr[i]*bin_unith);
cv::rectangle(imHist, p0, p1, cv::Scalar::all(255), -1, 0, 0);
}
}

cv::namedWindow(title);
cv::imshow(title, imHist);
}

void ShowImageHistogram(const std::string windowName, const cv::Mat src,
const cv::Mat mask, int histType, cv::Size windowSize){
CV_Assert(!src.empty());
if (!mask.empty()){
CV_Assert(mask.type() == CV_8U && src.size() == mask.size());
}

cv::Mat src_3u;
if(src.channels()==1)
cv::cvtColor(src, src_3u, CV_GRAY2RGB);
else
src_3u = src;

//shrink the src to save time
float th_maxSide = 300.0;
int maxSide = cv::max(src_3u.cols , src_3u.rows);
cv::Mat zoom_3u, zoomMask_1u;

if (maxSide > th_maxSide){
float scale = maxSide / th_maxSide;
zoom_3u.create(src_3u.rows / scale, src_3u.cols / scale, CV_8UC3);
cv::resize(src_3u, zoom_3u, zoom_3u.size(), 0, 0, cv::INTER_LANCZOS4 );

if(!mask.empty()){
zoomMask_1u.create(mask.rows / scale, mask.cols / scale, CV_8U);
cv::resize(mask, zoomMask_1u, zoomMask_1u.size(), 0, 0, cv::INTER_LANCZOS4 );
}
}
else{
zoom_3u = src_3u;
if(!mask.empty())
zoomMask_1u = mask;
}

std::vector<cv::Mat> rgb_planes;
cv::split(zoom_3u, rgb_planes );

int nBins = 255;
/// 设定取值范围 ( R,G,B) )
float range[] = { 0, 256 } ;
const float* histRange = { range };
bool uniform = true;
bool accumulate = false;

cv::Mat r_hist, g_hist, b_hist;

/// 计算直方图:
cv::calcHist( &rgb_planes[0], 1, 0, zoomMask_1u, r_hist, 1, &nBins, &histRange, uniform, accumulate );
cv::calcHist( &rgb_planes[1], 1, 0, zoomMask_1u, g_hist, 1, &nBins, &histRange, uniform, accumulate );
cv::calcHist( &rgb_planes[2], 1, 0, zoomMask_1u, b_hist, 1, &nBins, &histRange, uniform, accumulate );

// 创建直方图画布
int canvasWidth = windowSize.width;
int canvasHeight = windowSize.height;
int binWidth = cvRound( (double) canvasWidth / nBins );
cv::Mat histImage(canvasHeight, canvasWidth,  CV_8UC3, cv::Scalar( 0,0,0) );

/// 将直方图归一化到范围 [ 0, histImage.rows ]
cv::normalize(r_hist, r_hist, 0, histImage.rows, cv::NORM_MINMAX, -1, cv::Mat() );
cv::normalize(g_hist, g_hist, 0, histImage.rows, cv::NORM_MINMAX, -1, cv::Mat() );
cv::normalize(b_hist, b_hist, 0, histImage.rows, cv::NORM_MINMAX, -1, cv::Mat() );

/// 在直方图画布上画出直方图
if (histType == HIST_TYPE_CONTOUR){
for( int i = 1; i < nBins; i++ ){
cv::line( histImage, cv::Point( binWidth*(i-1), canvasHeight - cvRound(r_hist.at<float>(i-1)) ) ,
cv::Point( binWidth*(i), canvasHeight - cvRound(r_hist.at<float>(i)) ),
cv::Scalar(255, 0, 0), 2, 8, 0  );
cv::line( histImage, cv::Point( binWidth*(i-1), canvasHeight - cvRound(g_hist.at<float>(i-1)) ) ,
cv::Point( binWidth*(i), canvasHeight - cvRound(g_hist.at<float>(i)) ),
cv::Scalar( 0, 255, 0), 2, 8, 0  );
cv::line( histImage, cv::Point( binWidth*(i-1), canvasHeight - cvRound(b_hist.at<float>(i-1)) ) ,
cv::Point( binWidth*(i), canvasHeight - cvRound(b_hist.at<float>(i)) ),
cv::Scalar( 0, 0, 255), 2, 8, 0  );
}
}
else if (histType == HIST_TYPE_MIX){
for (int iBin=0; iBin<nBins; iBin++){
for (int iValue=1; iValue < r_hist.at<float>(iBin); iValue++){
for (int j=0; j<binWidth; j++){
cv::Vec3b& pixel = histImage.at<cv::Vec3b>(canvasHeight - iValue, iBin * binWidth + j);
pixel.val[0] = 255;
}
}
for (int iValue=1; iValue < g_hist.at<float>(iBin); iValue++){
for (int j=0; j<binWidth; j++){
cv::Vec3b& pixel = histImage.at<cv::Vec3b>(canvasHeight - iValue, iBin * binWidth + j);
pixel.val[1] = 255;
}
}

for (int iValue=1; iValue < b_hist.at<float>(iBin); iValue++){
for (int j=0; j<binWidth; j++){
cv::Vec3b& pixel = histImage.at<cv::Vec3b>(canvasHeight - iValue, iBin * binWidth + j);
pixel.val[2] = 255;
}
}
}
}
cv::imshow(windowName, histImage );
}

bool histCompare(std::pair<cv::Scalar,int> v1, std::pair<cv::Scalar,int> v2){
return v1.second < v2.second;
}

int countValueAppearTimes(const cv::Mat srcC1, double value){
CV_Assert(!srcC1.empty() && srcC1.channels()==1);
cv::Mat r = srcC1 - value;
int times = cv::countNonZero(r);
return srcC1.cols * srcC1.rows - times;
}

void ShowImageColorDistribution(const std::string windowName, const cv::Mat src_3u, int nBins,
const cv::Mat mask, cv::Size windowSize){
CV_Assert(!src_3u.empty() );
if (!mask.empty()){
CV_Assert(mask.type() == CV_8U && src_3u.size() == mask.size());
}

//shrink the src to save time
float th_maxSide = 300.0;
int maxSide = cv::max(src_3u.cols , src_3u.rows);
cv::Mat zoom_3u, zoomMask_1u;

if (maxSide > th_maxSide){
float scale = maxSide / th_maxSide;
zoom_3u.create(src_3u.rows / scale, src_3u.cols / scale, CV_8UC3);
cv::resize(src_3u, zoom_3u, zoom_3u.size(), 0, 0, cv::INTER_LANCZOS4 );

if(!mask.empty()){
zoomMask_1u.create(mask.rows / scale, mask.cols / scale, CV_8U);
cv::resize(mask, zoomMask_1u, zoomMask_1u.size(), 0, 0, cv::INTER_LANCZOS4 );
}
}
else{
zoom_3u = src_3u;
if(!mask.empty())
zoomMask_1u = mask;
}
int maskNonZero = countNonZero(zoomMask_1u);

//k-means cluster
cv::Mat clusterMat;
cv::Mat bestLabels, centers;
cv::Vec3b* data = zoom_3u.ptr<cv::Vec3b>(0);

if(mask.empty()){
clusterMat.create(zoom_3u.cols * zoom_3u.rows, 3, CV_32F);
for (int i=0; i<zoom_3u.cols * zoom_3u.rows; i++){
cv::Vec3b pixel = data[i];
clusterMat.at<float>(i, 0) = pixel.val[0];
clusterMat.at<float>(i, 1) = pixel.val[1];
clusterMat.at<float>(i, 2) = pixel.val[2];
}
}
else{
clusterMat.create(maskNonZero, 3, CV_32F);
const uchar* maskData = zoomMask_1u.ptr<uchar>(0);
for (int i=0, j=0; i<zoomMask_1u.cols * zoomMask_1u.rows; i++){
if(maskData[i] > 0){
cv::Vec3b pixel = data[i];
clusterMat.at<float>(j, 0) = pixel.val[0];
clusterMat.at<float>(j, 1) = pixel.val[1];
clusterMat.at<float>(j, 2) = pixel.val[2];
j++;
}
}
}

cv::kmeans(clusterMat, nBins, bestLabels, cv::TermCriteria( CV_TERMCRIT_EPS+CV_TERMCRIT_ITER, 10, 1.0),
3, cv::KMEANS_PP_CENTERS, centers);

//statistics
std::vector<std::pair<cv::Scalar,int>> hist(nBins);
for (int i=0; i<nBins; i++){
cv::Scalar color( centers.at<float>(i,0), centers.at<float>(i,1), centers.at<float>(i,2));
int val = countValueAppearTimes(bestLabels, i);
hist.at(i) = std::pair<cv::Scalar,int>(color, val);
}

std::sort(hist.begin(), hist.end(), histCompare);
int maxValue = hist[nBins-1].second;

//canvas
float scale = (float)windowSize.height / maxValue;
int binWidth = windowSize.width / nBins;
cv::Mat canvas(windowSize, CV_8UC3, cv::Scalar::all(30));

for (int i=0; i<nBins; i++){
cv::Point pt1(  i    * binWidth, canvas.rows - 1);
cv::Point pt2( (i+1) * binWidth, canvas.rows - 1 - hist[i].second * scale);
cv::rectangle(canvas, pt1, pt2, hist[i].first, -1);
}
cv::imshow(windowName, canvas);
}
}

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