我有图像文件夹,我对它们执行一系列基本操作:
- 加载源图像。
- 对图像执行一些图像处理。
- 保存结果图像。
所以我想在单独的线程中处理每个图像以加速处理。
这是我的示例代码:
ThreadExample.h
#include <thread>
class ThreadProcessing
{
static unsigned int concurentThreadsSupported;
static void ImageProcessingFunction(const std::string &input_dir, const std::string &filename);
public:
void PrintNumberOfCPU();
void MultithreadingProcessing(const std::string &dir, int N);
void SingleThreadProcessing(const std::string &dir);
};
ThreadExample.cpp
#include "ThreadExample.h"
unsigned int ThreadProcessing::concurentThreadsSupported = std::thread::hardware_concurrency();
using namespace std;
void ThreadProcessing::PrintNumberOfCPU()
{
cout << "Number of CPU : " << concurentThreadsSupported << endl;
}
void ThreadProcessing::ImageProcessingFunction(const string &input_dir, const string &filename)
{
Mat src= imread(input_dir+"/"+filename);
Mat dst;
for(int i=0; i<10; ++i)
{
medianBlur(src, dst, 71);
}
boost::filesystem::path name= path(filename).stem();
string output_filename= (input_dir/name).string()+"_output.png";
imwrite(output_filename, dst);
}
void ThreadProcessing::SingleThreadProcessing(const string &dir)
{
time_t SingleThreadProcessingTime = clock();
vector<string> imageNames= GetAllFilenamesInDir(dir, ".jpg");
for(int i=0; i<(int)imageNames.size(); ++i)
{
ImageProcessingFunction(dir, imageNames[i]);
}
SingleThreadProcessingTime = clock() - SingleThreadProcessingTime;
cout << "SingleThreadProcessingTime : " << (float(SingleThreadProcessingTime) / CLOCKS_PER_SEC) << endl;
}
void ThreadProcessing::MultithreadingProcessing(const string &dir, int N)
{
time_t MultithreadingProcessingTime = clock();
std::thread threads[N];
bool isAllImageProcessed= false;
vector<string> imageNames= GetAllFilenamesInDir(dir, ".jpg");
for(int i=0; i<(int)imageNames.size();)
{
//Launch a group of threads
for(int k= 0; k< N; ++k)
{
threads[k] = std::thread(ImageProcessingFunction, dir, imageNames[i]);
i++;
if(i>=(int)imageNames.size())
{
N= k+1;
isAllImageProcessed= true;
break;
}
}
//Join the threads with the main thread
for(int k= 0; k< N; ++k)
{
threads[k].join();
}
if(isAllImageProcessed)
break;
}
MultithreadingProcessingTime = clock() - MultithreadingProcessingTime;
cout << "MultithreadingProcessingTime : " << (float(MultithreadingProcessingTime) / CLOCKS_PER_SEC) << endl;
}
main.cpp
int main(int argc, char** argv)
{
ThreadProcessing threadProcessing;
threadProcessing.PrintNumberOfCPU();
threadProcessing.SingleThreadProcessing("/home/user/Images");
threadProcessing.MultithreadingProcessing("/home/user/Images", 1);
cout << "Done." << endl;
return 0;
}
但是好像没有速度提升:
当我使用 1 个线程时,输出是:
Number of CPU : 8
SingleThreadProcessingTime : 6.54173
MultithreadingProcessingTime : 6.73393
Done.
当我使用 4 个线程时,输出是:
Number of CPU : 8
SingleThreadProcessingTime : 6.39089
MultithreadingProcessingTime : 8.3365
Done.
我的代码有问题还是概念上有问题?
更新:
我还尝试了 2 种变体:
- 每个图像 1 个线程 - 似乎这种方法可以达到最大线程数操作系统限制?而且效率低下?
代码:
void ThreadProcessing::SingleThreadForEachImage(const string &dir)
{
time_t SingleThreadForEachImageTime = clock();
vector<string> imageNames= GetAllFilenamesInDir(dir, ".jpg");
int N= imageNames.size();
std::thread threads[imageNames.size()];
for(int i=0; i<N; ++i)
{
threads[i] = std::thread(ImageProcessingFunction, dir, imageNames[i]);
}
for(int i=0; i<N; ++i)
{
threads[i].join();
}
SingleThreadForEachImageTime = clock() - SingleThreadForEachImageTime;
cout << "SingleThreadForEachImageTime : " << (float(SingleThreadForEachImageTime) / CLOCKS_PER_SEC) << endl;
}
- 将图像拆分为 N 个 block ,并在单独的线程中处理每个 block 。
代码:
vector<vector<string>> ThreadProcessing::SplitNamesVector(const vector<string> &imageNames, int N)
{
vector<vector<string>> imageNameChunks;
int K=0; //Number images in chunk
if(imageNames.size()%N==0)
K= imageNames.size()/N;
else
K= imageNames.size()/N+1;
vector<string> chunk;
for(int i=0; i<(int)imageNames.size(); ++i)
{
chunk.push_back(imageNames[i]);
if(i%K==0 && i!=0)
{
imageNameChunks.push_back(chunk);
chunk.clear();
}
}
if(chunk.size()!=0)
imageNameChunks.push_back(chunk);
assert((int)imageNameChunks.size()==N);
return imageNameChunks;
}
void ThreadProcessing::EachThreadProcessChunkOfImages(const std::string &dir, int N)
{
time_t EachThreadProcessChunkOfImagesTime = clock();
N= std::min(N, (int)concurentThreadsSupported);
std::thread threads[N];
vector<string> imageNames= GetAllFilenamesInDir(dir, ".jpg");
vector<vector<string>> imageNameChunks= SplitNamesVector(imageNames, N);
//Launch a group of threads
for(int k= 0; k< N; ++k)
{
threads[k] = std::thread(ImageProcessingFunctionChunk, dir, imageNameChunks[k]);
}
for(int k= 0; k< N; ++k)
{
threads[k].join();
}
EachThreadProcessChunkOfImagesTime = clock() - EachThreadProcessChunkOfImagesTime;
cout << "EachThreadProcessChunkOfImagesTime : " << (float(EachThreadProcessChunkOfImagesTime) / CLOCKS_PER_SEC) << endl;
}
这是结果(MultithreadingProcessing 和 EachThreadProcessChunkOfImages 使用 4 个线程):
SingleThreadProcessingTime : 13.552
MultithreadingProcessingTime : 15.581
SingleThreadForEachImageTime : 26.7727
EachThreadProcessChunkOfImagesTime : 15.9078
更新 2:
我也做了一个没有IO操作的测试,只有图像处理。
代码:
void ThreadProcessing::ImageProcessingFunction(const cv::Mat &img)
{
Mat dst;
for(int i=0; i<10; ++i)
{
medianBlur(img, dst, 71);
}
}
vector<Mat> ThreadProcessing::LoadBatchOfImages(const std::string &dir, int batchSize)
{
vector<string> imageNames= GetAllFilenamesInDir(dir, ".jpg");
vector<Mat> imageVec;
for(int i=0; i<N; ++i)
{
string filename= dir+"/"+imageNames[i];
Mat img= imread(filename);
imageVec.push_back(img);
}
return imageVec;
}
void ThreadProcessing::OnlyProcessingTimeSequential(const std::string &dir, int batchSize)
{
//Load batch of images
vector<Mat> imageVec= LoadBatchOfImages(dir, batchSize);
assert((int)imageVec.size() == batchSize);
cout << "imageVec.size() : " << imageVec.size() << endl;
time_t OnlyProcessingTimeSequentialTime = clock();
for(int i=0; i<batchSize; ++i)
{
ImageProcessingFunction(imageVec[i]);
}
OnlyProcessingTimeSequentialTime = clock() - OnlyProcessingTimeSequentialTime;
cout << "OnlyProcessingTimeSequentialTime : " << (float(OnlyProcessingTimeSequentialTime) / CLOCKS_PER_SEC) << endl;
}
void ThreadProcessing::OnlyProcessingTimeMultithread(const std::string &dir, int batchSize)
{
//Load batch of images
vector<Mat> imageVec= LoadBatchOfImages(dir, batchSize);
assert((int)imageVec.size() == batchSize);
cout << "imageVec.size() : " << imageVec.size() << endl;
time_t OnlyProcessingTimeMultithread = clock();
std::thread threads[batchSize];
for(int i=0; i<batchSize; ++i)
{
threads[i] = std::thread(ImageProcessingFunction, imageVec[i]);
}
for(int i=0; i<batchSize; ++i)
{
threads[i].join();
}
OnlyProcessingTimeMultithread = clock() - OnlyProcessingTimeMultithread;
cout << "OnlyProcessingTimeMultithread : " << (float(OnlyProcessingTimeMultithread) / CLOCKS_PER_SEC) << endl;
}
我发现 clock() 在使用多线程代码时会给出错误的结果,所以我使用 time ./MyBinary
结果如下:
imageVec.size() : 8
OnlyProcessingTimeSequentialTime : 2.34174
Done.
real 0m2.551s
user 0m2.640s
sys 0m0.316s
imageVec.size() : 8
OnlyProcessingTimeMultithread : 4.36681
Done.
real 0m0.861s
user 0m4.564s
sys 0m0.404s
正如我们所见,真实时间更小。
所以之前的结果应该是:
SingleThreadProcessingTime : 13.6235
real 0m13.845s
user 0m13.932s
sys 0m0.280s
MultithreadingProcessingTime : 21.0902
real 0m3.584s
user 0m20.356s
sys 0m1.316s
SingleThreadForEachImageTime : 23.961
real 0m3.370s
user 0m22.584s
sys 0m1.976s
EachThreadProcessChunkOfImagesTime : 20.7885
real 0m3.433s
user 0m20.292s
sys 0m1.116s
那么多线程代码执行时间应该如何衡量呢?
更新:找到答案 here
我需要使用 wallclock time 而不是 cpu time
这是正确的结果:
SingleThreadProcessing : WALLCLOCK TIME: 13.8245 seconds
MultithreadingProcessing : WALLCLOCK TIME: 4.1977 seconds
SingleThreadForEachImage : WALLCLOCK TIME: 3.25084 seconds
EachThreadProcessChunkOfImages : WALLCLOCK TIME: 3.36626 seconds
OnlyProcessingTimeSequential : WALLCLOCK TIME: 2.36041 seconds
OnlyProcessingTimeMultithread : WALLCLOCK TIME: 0.706921 seconds
最佳答案
正如 this question 中明确指出的那样,多线程在单盘I/O操作上确实效率不高。您的线程所做的大部分工作都是 I/O 操作。
您可能受到磁盘速度的限制,并且由于创建线程和 join() 操作而导致开销增加,这会导致函数的多线程版本变慢。
编辑:
正如@Dan Mašek 在他的评论中所说,大部分时间实际上都花在了压缩上。改进流程的一种方法是创建一个线程,从磁盘读取图像并将它们提供给其他工作线程(可能通过 queue,参见 Thread pool)。这样,您可以按顺序阅读,但繁重的工作由很多 worker 完成。
关于c++ - OpenCV:如何对带有图像的文件夹进行批处理?,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/37398684/