OpenCv练习

// ConsoleApplication1.cpp : 定义控制台应用程序的入口点。
//

#include "stdafx.h"
#include <iostream>
//OpenCV核心库头文件
#include <opencv2corecore.hpp>
//OpenCV图形处理头文件
#include <opencv2highguihighgui.hpp>
#include "opencv2opencv.hpp"

//OpenCV核心动态链接库，和core.hpp头文件对应，d代表调试版本
#pragma comment(lib,"opencv_core249d.lib")
//OpenCV图形处理动态链接库，和highgui.hpp头文件对应，d代表调试版本
#pragma comment(lib,"opencv_highgui249d.lib")

#pragma comment(lib,"opencv_video249d.lib")
#pragma comment(lib,"opencv_imgproc249d.lib")



int test_0()
{
    //窗口名称
    std::string windowName = "HelloWorld";
    //图像名称
    std::string imgFile = "opencv-logo.png";
    //读入图像
    cv::Mat image = cv::imread(imgFile);
    //如果无法读取图形
    if(!image.data)
    {
        std::cout << "无法打开图像文件" <<std::endl;
        system("PAUSE");//暂停窗口
        return -1;
    }
    //创建一个新窗口
    cv::namedWindow(windowName);
    //将图像显示都新创建的窗口中
    cv::imshow(windowName,image);
    //等待，直到用户按任意键时退出
    cv::waitKey(0);
}

void saturate_sv(IplImage* img)
{
    for ( int y = 0; y < img->height; y++ ){
        uchar* ptr = (uchar*)(img->imageData + y * img->widthStep);
        for ( int x = 0; x < img->width; x++ ){
            ptr[3*x + 1] = 255;
            ptr[3*x + 2] = 255;
        }
    }
}

void test_1()
{

    IplImage *img = cvLoadImage("opencv-logo.png");
    saturate_sv(img);
    cvNamedWindow("Example",CV_WINDOW_AUTOSIZE);
    cvShowImage("Example", img);
    cvWaitKey(0);//让程序暂停
    cvReleaseImage(&img);
    cvDestroyWindow("Example");

}

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/////////////////////////////////////////////////////////////////////
//播放视频
void test_2()
{
    cvNamedWindow("demo2",CV_WINDOW_AUTOSIZE);
    CvCapture* capture = cvCreateFileCapture("01-上一次课程复习_.avi");
    IplImage* frame;
    while(1){
        frame = cvQueryFrame( capture );
        if ( !frame ) break;
        cvShowImage("demo2",frame);
        char c = cvWaitKey(33);
        if( c == 27 ) break;// esc ASCII
    }
    cvWaitKey(0);//让程序暂停
    cvReleaseCapture( &capture );
    cvDestroyWindow("demo2");
}
/////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
int g_slider_position = 0;
CvCapture *g_capture = NULL;

void onTrackbarSlider(int pos)
{
    cvSetCaptureProperty(g_capture,CV_CAP_PROP_POS_FRAMES,pos);
}


// 显示进度条
void test_03()
{
    cvNamedWindow("demo3",CV_WINDOW_AUTOSIZE);
    g_capture = cvCreateFileCapture("01-上一次课程复习_.avi");
    int frames = (int)cvGetCaptureProperty(g_capture,CV_CAP_PROP_FRAME_COUNT);
    if ( frames != 0 ){
        cvCreateTrackbar("position","demo3",&g_slider_position,frames,onTrackbarSlider);
    }
    IplImage* frame;
    while(1){
        frame = cvQueryFrame( g_capture );
        if ( !frame ) break;
        cvShowImage("demo3",frame);
        char c = cvWaitKey(33);
        if( c == 27 ) break;// esc ASCII
    }
    cvWaitKey(0);//让程序暂停
    cvReleaseCapture( &g_capture );
    cvDestroyWindow("demo3");
}
/////////////////////////////////////////////////////////////////


/////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
//载入一幅图像进行平滑处理

void test_04(IplImage* image)
{
    // create some windows to show the input and output image in
    cvNamedWindow("demo4-in");
    cvNamedWindow("demo4-out");

    // create a window to show our input image
    cvShowImage("demo4-in",image);

    // create an image to hold the smoothed output
    IplImage* out = cvCreateImage(cvGetSize(image),IPL_DEPTH_8U,3);

    // do the smoothing
    cvSmooth(image, out, CV_GAUSSIAN, 3, 3);

    cvShowImage("demo4-out",out);

    // be tidy
    cvReleaseImage(&out);

    cvWaitKey(0);//让程序暂停
    cvDestroyWindow("demo4-in");
    cvDestroyWindow("demo4-out");
}


// 创建一副宽度和高度尺寸为输入的一半的图像
IplImage* doPryDown(IplImage* in, int filter = CV_GAUSSIAN_5x5)
{
//    assert(in->width % 2 == 0 && in->height % 2 == 0);
    IplImage* out = cvCreateImage(cvSize(in->width/2, in->height/2), in->depth, in->nChannels);
    cvPyrDown(in, out);
    return out;
}

// Canny 边缘检测将输出写入一个单通道（灰度级）图像
//边缘检测器产生一个与尺寸输入大小相同，但是只有一个通道的图像
IplImage* doCanny(IplImage* in, double lowThresh, double highThresh, double aperture)
{
    if ( in->nChannels != 1 )
        return 0;
    IplImage* out = cvCreateImage(cvSize( in->width, in->height ), IPL_DEPTH_8U, 1);
    cvCanny(in, out, lowThresh, highThresh, aperture);
    return out;
}


// 写入AVI视频文件
void test_05()
{
    CvCapture* capture = 0;
    capture = cvCreateFileCapture("01-上一次课程复习_.avi");
    IplImage* bgr_frame = cvQueryFrame(capture);
    double fps = cvGetCaptureProperty(capture, CV_CAP_PROP_FPS);
    CvSize size = cvSize((int)cvGetCaptureProperty(capture,CV_CAP_PROP_FRAME_WIDTH), (int)cvGetCaptureProperty(capture,CV_CAP_PROP_FRAME_HEIGHT));

    CvVideoWriter* writer = cvCreateVideoWriter("hello.avi", CV_FOURCC('M','J','P','G'), fps, size);
    IplImage* logpolar_frame = cvCreateImage(size, IPL_DEPTH_8U, 3);
    std::cout << "while" << std::endl;
    while( (bgr_frame = cvQueryFrame(capture)) != NULL ){
        std::cout << "enter while" << std::endl;
        CvPoint2D32f temp;
        temp.x = bgr_frame->width/2;
        temp.y = bgr_frame->height/2;
        cvLogPolar(bgr_frame, logpolar_frame, temp, 40, CV_INTER_LINEAR + CV_WARP_FILL_OUTLIERS);
        cvWriteFrame( writer, logpolar_frame );
    }
    std::cout << "endl" << std::endl;
    cvReleaseVideoWriter(&writer);
    cvReleaseImage(&logpolar_frame);
    cvReleaseCapture(&capture);
    
}


// 矩阵和图像类型
void test_06()
{
    float vals[] = { 0.866600, -0.522200, 0.522200, -0.866600 };

    CvMat rotmat;

    cvInitMatHeader( &rotmat, 2, 2, CV_32FC1, vals );

    CvMat* mat_ptr = cvCreateMat(2, 2, CV_32FC1);
    float elem = 7.7;
    *((float*)CV_MAT_ELEM_PTR(*mat_ptr,2,2)) = elem;
}



 
int _tmain(int argc, _TCHAR* argv[])
{
    //IplImage *img = cvLoadImage("opencv-logo.png");
    //IplImage *img1 = doPryDown(img);
    //IplImage *img2 = doPryDown(img1);
    //IplImage *img3 = doCanny(img2, 10, 100, 3);
    test_1();

    return 0;
}