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Src/Utility/CommonUtility.cpp 0 → 100644
View file @ 9c945072
#include <CommonUtility.h>
using namespace cv;
using namespace cv::dnn;
namespace ortSamples
{
void blobFromImagesWithParams(InputArrayOfArrays images_, OutputArray blob_, const Image2BlobParams& param)
{
if (images_.kind() != _InputArray::STD_VECTOR_MAT && images_.kind() != _InputArray::STD_ARRAY_MAT &&
images_.kind() != _InputArray::STD_VECTOR_VECTOR) {
String error_message = "The data is expected as vectors of vectors or vectors of matrices.";
CV_Error(Error::StsBadArg, error_message);
}
CV_CheckType(param.ddepth, param.ddepth == CV_32F || param.ddepth == CV_8U,
"Blob depth should be CV_32F or CV_8U");
Size size = param.size;
std::vector<Mat> images;
images_.getMatVector(images);
CV_Assert(!images.empty());
int nch = images[0].channels();
Scalar scalefactor = param.scalefactor;
if (param.ddepth == CV_8U)
{
CV_Assert(scalefactor == Scalar::all(1.0) && "Scaling is not supported for CV_8U blob depth");
CV_Assert(param.mean == Scalar() && "Mean subtraction is not supported for CV_8U blob depth");
}
for (size_t i = 0; i < images.size(); i++)
{
Size imgSize = images[i].size();
if (size == Size())
size = imgSize;
if (size != imgSize)
{
if (param.paddingmode == DNN_PMODE_CROP_CENTER)
{
float resizeFactor = std::max(size.width / (float)imgSize.width,
size.height / (float)imgSize.height);
resize(images[i], images[i], Size(), resizeFactor, resizeFactor, INTER_LINEAR);
Rect crop(Point(0.5 * (images[i].cols - size.width),
0.5 * (images[i].rows - size.height)),
size);
images[i] = images[i](crop);
}
else
{
if (param.paddingmode == DNN_PMODE_LETTERBOX)
{
float resizeFactor = std::min(size.width / (float)imgSize.width,
size.height / (float)imgSize.height);
int rh = int(imgSize.height * resizeFactor);
int rw = int(imgSize.width * resizeFactor);
resize(images[i], images[i], Size(rw, rh), INTER_LINEAR);
int top = (size.height - rh)/2;
int bottom = size.height - top - rh;
int left = (size.width - rw)/2;
int right = size.width - left - rw;
copyMakeBorder(images[i], images[i], top, bottom, left, right, BORDER_CONSTANT);
}
else
resize(images[i], images[i], size, 0, 0, INTER_LINEAR);
}
}
Scalar mean = param.mean;
if (param.swapRB)
{
std::swap(mean[0], mean[2]);
std::swap(scalefactor[0], scalefactor[2]);
}
if (images[i].depth() == CV_8U && param.ddepth == CV_32F)
images[i].convertTo(images[i], CV_32F);
images[i] -= mean;
multiply(images[i], scalefactor, images[i]);
}
size_t nimages = images.size();
Mat image0 = images[0];
CV_Assert(image0.dims == 2);
if (param.datalayout == DNN_LAYOUT_NCHW)
{
if (nch == 3 || nch == 4)
{
int sz[] = { (int)nimages, nch, image0.rows, image0.cols };
blob_.create(4, sz, param.ddepth);
Mat blob = blob_.getMat();
Mat ch[4];
for (size_t i = 0; i < nimages; i++)
{
const Mat& image = images[i];
CV_Assert(image.depth() == blob_.depth());
nch = image.channels();
CV_Assert(image.dims == 2 && (nch == 3 || nch == 4));
CV_Assert(image.size() == image0.size());
for (int j = 0; j < nch; j++)
ch[j] = Mat(image.rows, image.cols, param.ddepth, blob.ptr((int)i, j));
if (param.swapRB)
std::swap(ch[0], ch[2]);
split(image, ch);
}
}
else
{
CV_Assert(nch == 1);
int sz[] = { (int)nimages, 1, image0.rows, image0.cols };
blob_.create(4, sz, param.ddepth);
Mat blob = blob_.getMat();
for (size_t i = 0; i < nimages; i++)
{
const Mat& image = images[i];
CV_Assert(image.depth() == blob_.depth());
nch = image.channels();
CV_Assert(image.dims == 2 && (nch == 1));
CV_Assert(image.size() == image0.size());
image.copyTo(Mat(image.rows, image.cols, param.ddepth, blob.ptr((int)i, 0)));
}
}
}
else if (param.datalayout == DNN_LAYOUT_NHWC)
{
int sz[] = { (int)nimages, image0.rows, image0.cols, nch};
blob_.create(4, sz, param.ddepth);
Mat blob = blob_.getMat();
int subMatType = CV_MAKETYPE(param.ddepth, nch);
for (size_t i = 0; i < nimages; i++)
{
const Mat& image = images[i];
CV_Assert(image.depth() == blob_.depth());
CV_Assert(image.channels() == image0.channels());
CV_Assert(image.size() == image0.size());
if (param.swapRB)
{
Mat tmpRB;
cvtColor(image, tmpRB, COLOR_BGR2RGB);
tmpRB.copyTo(Mat(tmpRB.rows, tmpRB.cols, subMatType, blob.ptr((int)i, 0)));
}
else
image.copyTo(Mat(image.rows, image.cols, subMatType, blob.ptr((int)i, 0)));
}
}
else
CV_Error(Error::StsUnsupportedFormat, "Unsupported data layout in blobFromImagesWithParams function.");
}
}
Src/Utility/CommonUtility.h 0 → 100644
View file @ 9c945072
// 常用工具
#ifndef __COMMON_UTILITY_H__
#define __COMMON_UTILITY_H__
#include <CommonDefinition.h>
using namespace cv;
using namespace cv::dnn;
namespace ortSamples
{
enum DataLayout
{
DNN_LAYOUT_UNKNOWN = 0,
DNN_LAYOUT_ND = 1, //!< OpenCV data layout for 2D data.
DNN_LAYOUT_NCHW = 2, //!< OpenCV data layout for 4D data.
DNN_LAYOUT_NCDHW = 3, //!< OpenCV data layout for 5D data.
DNN_LAYOUT_NHWC = 4, //!< Tensorflow-like data layout for 4D data.
DNN_LAYOUT_NDHWC = 5, //!< Tensorflow-like data layout for 5D data.
DNN_LAYOUT_PLANAR = 6, //!< Tensorflow-like data layout, it should only be used at tf or tflite model parsing.
};
enum ImagePaddingMode
{
DNN_PMODE_NULL = 0, // !< Default. Resize to required input size without extra processing.
DNN_PMODE_CROP_CENTER = 1, // !< Image will be cropped after resize.
DNN_PMODE_LETTERBOX = 2, // !< Resize image to the desired size while preserving the aspect ratio of original image.
};
struct Image2BlobParams
{
Image2BlobParams():scalefactor(Scalar::all(1.0)), size(Size()), mean(Scalar()), swapRB(false), ddepth(CV_32F),
datalayout(DNN_LAYOUT_NCHW), paddingmode(DNN_PMODE_NULL)
{}
Image2BlobParams(const Scalar& scalefactor_, const Size& size_, const Scalar& mean_, bool swapRB_,
int ddepth_, DataLayout datalayout_, ImagePaddingMode mode_):
scalefactor(scalefactor_), size(size_), mean(mean_), swapRB(swapRB_), ddepth(ddepth_),
datalayout(datalayout_), paddingmode(mode_)
{}
Scalar scalefactor; //!< scalefactor multiplier for input image values.
Size size; //!< Spatial size for output image.
Scalar mean; //!< Scalar with mean values which are subtracted from channels.
bool swapRB; //!< Flag which indicates that swap first and last channels
int ddepth; //!< Depth of output blob. Choose CV_32F or CV_8U.
DataLayout datalayout; //!< Order of output dimensions. Choose DNN_LAYOUT_NCHW or DNN_LAYOUT_NHWC.
ImagePaddingMode paddingmode; //!< Image padding mode. @see ImagePaddingMode.
};
void blobFromImagesWithParams(InputArrayOfArrays images_, OutputArray blob_, const Image2BlobParams& param);
}
#endif
Src/Utility/Filesystem.cpp 0 → 100644
View file @ 9c945072
#include <Filesystem.h>
#include <algorithm>
#include <sys/stat.h>
#include <sys/types.h>
#include <fstream>
#ifdef _WIN32
#include <io.h>
#include <direct.h>
#include <Windows.h>
#else
#include <unistd.h>
#include <dirent.h>
#endif
// 路径分隔符(Linux:‘/’,Windows:’\\’)
#ifdef _WIN32
#define PATH_SEPARATOR '\\'
#else
#define PATH_SEPARATOR '/'
#endif
using namespace std;
namespace ortSamples
{
static std::vector<std::string> SplitString(std::string str, std::string separator)
{
std::string::size_type pos;
std::vector<std::string> result;
str+=separator;//扩展字符串以方便操作
int size=str.size();
for(int i=0; i<size; i++)
{
pos=str.find(separator,i);
if(pos<size)
{
std::string s=str.substr(i,pos-i);
result.push_back(s);
i=pos+separator.size()-1;
}
}
return result;
}
#if defined _WIN32 || defined WINCE
const char dir_separators[] = "/\\";
struct dirent
{
const char* d_name;
};
struct DIR
{
#ifdef WINRT
WIN32_FIND_DATAW data;
#else
WIN32_FIND_DATAA data;
#endif
HANDLE handle;
dirent ent;
#ifdef WINRT
DIR() { }
~DIR()
{
if (ent.d_name)
delete[] ent.d_name;
}
#endif
};
DIR* opendir(const char* path)
{
DIR* dir = new DIR;
dir->ent.d_name = 0;
#ifdef WINRT
string full_path = string(path) + "\\*";
wchar_t wfull_path[MAX_PATH];
size_t copied = mbstowcs(wfull_path, full_path.c_str(), MAX_PATH);
CV_Assert((copied != MAX_PATH) && (copied != (size_t)-1));
dir->handle = ::FindFirstFileExW(wfull_path, FindExInfoStandard,
&dir->data, FindExSearchNameMatch, NULL, 0);
#else
dir->handle = ::FindFirstFileExA((string(path) + "\\*").c_str(),
FindExInfoStandard, &dir->data, FindExSearchNameMatch, NULL, 0);
#endif
if (dir->handle == INVALID_HANDLE_VALUE)
{
/*closedir will do all cleanup*/
delete dir;
return 0;
}
return dir;
}
dirent* readdir(DIR* dir)
{
#ifdef WINRT
if (dir->ent.d_name != 0)
{
if (::FindNextFileW(dir->handle, &dir->data) != TRUE)
return 0;
}
size_t asize = wcstombs(NULL, dir->data.cFileName, 0);
CV_Assert((asize != 0) && (asize != (size_t)-1));
char* aname = new char[asize + 1];
aname[asize] = 0;
wcstombs(aname, dir->data.cFileName, asize);
dir->ent.d_name = aname;
#else
if (dir->ent.d_name != 0)
{
if (::FindNextFileA(dir->handle, &dir->data) != TRUE)
return 0;
}
dir->ent.d_name = dir->data.cFileName;
#endif
return &dir->ent;
}
void closedir(DIR* dir)
{
::FindClose(dir->handle);
delete dir;
}
#else
# include <dirent.h>
# include <sys/stat.h>
const char dir_separators[] = "/";
#endif
static bool isDir(const string &path, DIR* dir)
{
#if defined _WIN32 || defined WINCE
DWORD attributes;
BOOL status = TRUE;
if (dir)
attributes = dir->data.dwFileAttributes;
else
{
WIN32_FILE_ATTRIBUTE_DATA all_attrs;
#ifdef WINRT
wchar_t wpath[MAX_PATH];
size_t copied = mbstowcs(wpath, path.c_str(), MAX_PATH);
CV_Assert((copied != MAX_PATH) && (copied != (size_t)-1));
status = ::GetFileAttributesExW(wpath, GetFileExInfoStandard, &all_attrs);
#else
status = ::GetFileAttributesExA(path.c_str(), GetFileExInfoStandard, &all_attrs);
#endif
attributes = all_attrs.dwFileAttributes;
}
return status && ((attributes & FILE_ATTRIBUTE_DIRECTORY) != 0);
#else
(void)dir;
struct stat stat_buf;
if (0 != stat(path.c_str(), &stat_buf))
return false;
int is_dir = S_ISDIR(stat_buf.st_mode);
return is_dir != 0;
#endif
}
bool IsDirectory(const string &path)
{
return isDir(path, NULL);
}
bool Exists(const string& path)
{
#if defined _WIN32 || defined WINCE
BOOL status = TRUE;
{
WIN32_FILE_ATTRIBUTE_DATA all_attrs;
#ifdef WINRT
wchar_t wpath[MAX_PATH];
size_t copied = mbstowcs(wpath, path.c_str(), MAX_PATH);
CV_Assert((copied != MAX_PATH) && (copied != (size_t)-1));
status = ::GetFileAttributesExW(wpath, GetFileExInfoStandard, &all_attrs);
#else
status = ::GetFileAttributesExA(path.c_str(), GetFileExInfoStandard, &all_attrs);
#endif
}
return !!status;
#else
struct stat stat_buf;
return (0 == stat(path.c_str(), &stat_buf));
#endif
}
bool IsPathSeparator(char c)
{
return c == '/' || c == '\\';
}
string JoinPath(const string& base, const string& path)
{
if (base.empty())
return path;
if (path.empty())
return base;
bool baseSep = IsPathSeparator(base[base.size() - 1]);
bool pathSep = IsPathSeparator(path[0]);
string result;
if (baseSep && pathSep)
{
result = base + path.substr(1);
}
else if (!baseSep && !pathSep)
{
result = base + PATH_SEPARATOR + path;
}
else
{
result = base + path;
}
return result;
}
static bool wildcmp(const char *string, const char *wild)
{
const char *cp = 0, *mp = 0;
while ((*string) && (*wild != '*'))
{
if ((*wild != *string) && (*wild != '?'))
{
return false;
}
wild++;
string++;
}
while (*string)
{
if (*wild == '*')
{
if (!*++wild)
{
return true;
}
mp = wild;
cp = string + 1;
}
else if ((*wild == *string) || (*wild == '?'))
{
wild++;
string++;
}
else
{
wild = mp;
string = cp++;
}
}
while (*wild == '*')
{
wild++;
}
return *wild == 0;
}
static void glob_rec(const string &directory, const string& wildchart, std::vector<string>& result,
bool recursive, bool includeDirectories, const string& pathPrefix)
{
DIR *dir;
if ((dir = opendir(directory.c_str())) != 0)
{
/* find all the files and directories within directory */
try
{
struct dirent *ent;
while ((ent = readdir(dir)) != 0)
{
const char* name = ent->d_name;
if ((name[0] == 0) || (name[0] == '.' && name[1] == 0) || (name[0] == '.' && name[1] == '.' && name[2] == 0))
continue;
string path = JoinPath(directory, name);
string entry = JoinPath(pathPrefix, name);
if (isDir(path, dir))
{
if (recursive)
glob_rec(path, wildchart, result, recursive, includeDirectories, entry);
if (!includeDirectories)
continue;
}
if (wildchart.empty() || wildcmp(name, wildchart.c_str()))
result.push_back(entry);
}
}
catch (...)
{
closedir(dir);
throw;
}
closedir(dir);
}
else
{
printf("could not open directory: %s", directory.c_str());
}
}
void GetFileNameList(const string &directory, const string &pattern, std::vector<string>& result, bool recursive, bool addPath)
{
// split pattern
vector<string> patterns=SplitString(pattern,",");
result.clear();
for(int i=0;i<patterns.size();++i)
{
string eachPattern=patterns[i];
std::vector<string> eachResult;
glob_rec(directory, eachPattern, eachResult, recursive, true, directory);
for(int j=0;j<eachResult.size();++j)
{
if (IsDirectory(eachResult[j]))
continue;
if(addPath)
{
result.push_back(eachResult[j]);
}
else
{
result.push_back(GetFileName(eachResult[j]));
}
}
}
std::sort(result.begin(), result.end());
}
void GetFileNameList2(const string &directory, const string &pattern, std::vector<string>& result, bool recursive, bool addPath)
{
// split pattern
vector<string> patterns = SplitString(pattern, ",");
result.clear();
for (int i = 0; i<patterns.size(); ++i)
{
string eachPattern = patterns[i];
std::vector<string> eachResult;
glob_rec(directory, eachPattern, eachResult, recursive, true, directory);
for (int j = 0; j<eachResult.size(); ++j)
{
string filePath = eachResult[j];
if (IsDirectory(filePath))
{
filePath = filePath + "/";
for (int k = 0; k < filePath.size(); ++k)
{
if (IsPathSeparator(filePath[k]))
{
filePath[k] = '/';
}
}
}
if (addPath)
{
result.push_back(filePath);
}
else
{
if (!IsDirectory(filePath))
{
result.push_back(GetFileName(filePath));
}
}
}
}
std::sort(result.begin(), result.end());
}
void RemoveAll(const string& path)
{
if (!Exists(path))
return;
if (IsDirectory(path))
{
std::vector<string> entries;
GetFileNameList2(path, string(), entries, false, true);
for (size_t i = 0; i < entries.size(); i++)
{
const string& e = entries[i];
RemoveAll(e);
}
#ifdef _MSC_VER
bool result = _rmdir(path.c_str()) == 0;
#else
bool result = rmdir(path.c_str()) == 0;
#endif
if (!result)
{
printf("can't remove directory: %s\n", path.c_str());
}
}
else
{
#ifdef _MSC_VER
bool result = _unlink(path.c_str()) == 0;
#else
bool result = unlink(path.c_str()) == 0;
#endif
if (!result)
{
printf("can't remove file: %s\n", path.c_str());
}
}
}
void Remove(const string &directory, const string &extension)
{
DIR *dir;
static int numberOfFiles = 0;
if ((dir = opendir(directory.c_str())) != 0)
{
/* find all the files and directories within directory */
try
{
struct dirent *ent;
while ((ent = readdir(dir)) != 0)
{
const char* name = ent->d_name;
if ((name[0] == 0) || (name[0] == '.' && name[1] == 0) || (name[0] == '.' && name[1] == '.' && name[2] == 0))
continue;
string path = JoinPath(directory, name);
if (isDir(path, dir))
{
Remove(path, extension);
}
// �ж���չ��
if (extension.empty() || wildcmp(name, extension.c_str()))
{
RemoveAll(path);
++numberOfFiles;
printf("%s deleted! number of deleted files:%d\n", path.c_str(), numberOfFiles);
}
}
}
catch (...)
{
closedir(dir);
throw;
}
closedir(dir);
}
else
{
printf("could not open directory: %s", directory.c_str());
}
// ����RemoveAllɾ��Ŀ¼
RemoveAll(directory);
}
string GetFileName(const string &path)
{
string fileName;
int indexOfPathSeparator = -1;
for (int i = path.size() - 1; i >= 0; --i)
{
if (IsPathSeparator(path[i]))
{
fileName = path.substr(i + 1, path.size() - i - 1);
indexOfPathSeparator = i;
break;
}
}
if (indexOfPathSeparator == -1)
{
fileName = path;
}
return fileName;
}
string GetFileName_NoExtension(const string &path)
{
string fileName=GetFileName(path);
string fileName_NoExtension;
for(int i=fileName.size()-1;i>0;--i)
{
if(fileName[i]=='.')
{
fileName_NoExtension=fileName.substr(0,i);
break;
}
}
return fileName_NoExtension;
}
string GetExtension(const string &path)
{
string fileName;
for (int i = path.size() - 1; i >= 0; --i)
{
if (path[i]=='.')
{
fileName = path.substr(i, path.size() - i);
break;
}
}
return fileName;
}
string GetParentPath(const string &path)
{
string fileName;
for (int i = path.size() - 1; i >= 0; --i)
{
if (IsPathSeparator(path[i]))
{
fileName = path.substr(0, i+1);
break;
}
}
return fileName;
}
static bool CreateDirectory(const string &path)
{
#if defined WIN32 || defined _WIN32 || defined WINCE
#ifdef WINRT
wchar_t wpath[MAX_PATH];
size_t copied = mbstowcs(wpath, path.c_str(), MAX_PATH);
CV_Assert((copied != MAX_PATH) && (copied != (size_t)-1));
int result = CreateDirectoryA(wpath, NULL) ? 0 : -1;
#else
int result = _mkdir(path.c_str());
#endif
#elif defined __linux__ || defined __APPLE__
int result = mkdir(path.c_str(), 0777);
#else
int result = -1;
#endif
if (result == -1)
{
return IsDirectory(path);
}
return true;
}
bool CreateDirectories(const string &directoryPath)
{
string path = directoryPath;
for (;;)
{
char last_char = path.empty() ? 0 : path[path.length() - 1];
if (IsPathSeparator(last_char))
{
path = path.substr(0, path.length() - 1);
continue;
}
break;
}
if (path.empty() || path == "./" || path == ".\\" || path == ".")
return true;
if (IsDirectory(path))
return true;
size_t pos = path.rfind('/');
if (pos == string::npos)
pos = path.rfind('\\');
if (pos != string::npos)
{
string parent_directory = path.substr(0, pos);
if (!parent_directory.empty())
{
if (!CreateDirectories(parent_directory))
return false;
}
}
return CreateDirectory(path);
}
bool CopyFile(const string srcPath, const string dstPath)
{
std::ifstream srcFile(srcPath,ios::binary);
std::ofstream dstFile(dstPath,ios::binary);
if(!srcFile.is_open())
{
printf("can not open %s\n",srcPath.c_str());
return false;
}
if(!dstFile.is_open())
{
printf("can not open %s\n", dstPath.c_str());
return false;
}
if(srcPath==dstPath)
{
printf("src can not be same with dst\n");
return false;
}
char buffer[2048];
unsigned int numberOfBytes=0;
while(srcFile)
{
srcFile.read(buffer,2048);
dstFile.write(buffer,srcFile.gcount());
numberOfBytes+=srcFile.gcount();
}
srcFile.close();
dstFile.close();
return true;
}
bool CopyDirectories(string srcPath, const string dstPath)
{
if(srcPath==dstPath)
{
printf("src can not be same with dst\n");
return false;
}
// ȥ������·���ָ���
srcPath = srcPath.substr(0, srcPath.size() - 1);
vector<string> fileNameList;
GetFileNameList2(srcPath, "", fileNameList, true, true);
string parentPathOfSrc=GetParentPath(srcPath);
int length=parentPathOfSrc.size();
// create all directories
for(int i=0;i<fileNameList.size();++i)
{
// create directory
string srcFilePath=fileNameList[i];
string subStr=srcFilePath.substr(length,srcFilePath.size()-length);
string dstFilePath=dstPath+subStr;
string parentPathOfDst=GetParentPath(dstFilePath);
CreateDirectories(parentPathOfDst);
}
// copy file
for(int i=0;i<fileNameList.size();++i)
{
string srcFilePath=fileNameList[i];
if (IsDirectory(srcFilePath))
{
continue;
}
string subStr=srcFilePath.substr(length,srcFilePath.size()-length);
string dstFilePath=dstPath+subStr;
// copy file
CopyFile(srcFilePath,dstFilePath);
// process
double process = (1.0*(i + 1) / fileNameList.size()) * 100;
printf("%s done! %f% \n", GetFileName(fileNameList[i]).c_str(), process);
}
printf("all done!(the number of files:%d)\n", fileNameList.size());
return true;
}
}
Src/Utility/Filesystem.h 0 → 100644
View file @ 9c945072
// 文件以及目录处理
#ifndef __FILE_SYSTEM_H__
#define __FILE_SYSTEM_H__
#include <string>
#include <vector>
namespace ortSamples
{
// 路径是否存在
bool Exists(const std::string &path);
// 路径是否为目录
bool IsDirectory(const std::string &path);
// 是否是路径分隔符(Linux:‘/’,Windows:’\\’)
bool IsPathSeparator(char c);
// 路径拼接
std::string JoinPath(const std::string &base, const std::string &path);
// 创建多级目录,注意:创建多级目录的时候,目标目录是不能有文件存在的
bool CreateDirectories(const std::string &directoryPath);
/** 生成符合指定模式的文件名列表(支持递归遍历)
*
* pattern: 模式,比如"*.jpg","*.png","*.jpg,*.png"
* addPath:是否包含父路径
* 注意:
1. 多个模式使用","分割,比如"*.jpg,*.png"
2. 支持通配符'*','?' ,比如第一个字符是7的所有文件名:"7*.*", 以512结尾的所有jpg文件名:"*512.jpg"
3. 使用"*.jpg",而不是".jpg"
4. 空string表示返回所有结果
5. 不能返回子目录名
*
*/
void GetFileNameList(const std::string &directory, const std::string &pattern, std::vector<std::string> &result, bool recursive, bool addPath);
// 与GetFileNameList的区别在于如果有子目录,在addPath为true的时候会返回子目录路径(目录名最后有"/")
void GetFileNameList2(const std::string &directory, const std::string &pattern, std::vector<std::string> &result, bool recursive, bool addPath);
// 删除文件或者目录,支持递归删除
void Remove(const std::string &directory, const std::string &extension="");
/** 获取路径的文件名和扩展名
*
* 示例:path为D:/1/1.txt,则GetFileName()为1.txt,GetFileName_NoExtension()为1,GetExtension()为.txt,GetParentPath()为D:/1/
*/
std::string GetFileName(const std::string &path);
std::string GetFileName_NoExtension(const std::string &path);
std::string GetExtension(const std::string &path);
std::string GetParentPath(const std::string &path);
// 拷贝文件
bool CopyFile(const std::string srcPath,const std::string dstPath);
/** 拷贝目录
*
* 示例:CopyDirectories("D:/0/1/2/","E:/3/");实现把D:/0/1/2/目录拷贝到E:/3/目录中(即拷贝完成后的目录结构为E:/3/2/)
* 注意:
1.第一个参数的最后不能加”/”
2.不能拷贝隐藏文件
*/
bool CopyDirectories(std::string srcPath,const std::string dstPath);
}
#endif
Src/Utility/SimpleLog.h 0 → 100644
View file @ 9c945072
// 简易日志
#ifndef __SIMPLE_LOG_H__
#define __SIMPLE_LOG_H__
#include <time.h>
#include <string>
#include <map>
#include <thread>
#include <mutex>
#if (defined WIN32 || defined _WIN32)
#include <Windows.h>
#else
#include <sys/time.h>
#endif
using namespace std;
/** 简易日志
*
* 不依赖于其他第三方库,只需要包含一个头文件就可以使用。提供了4种日志级别,包括INFO,DEBUG,WARN和ERROR。
*
* 示例1:
// 初始化日志,在./Log/目录下创建两个日志文件log1.log和log2.log(注意:目录./Log/需要存在,否则日志创建失败)
LogManager::GetInstance()->Initialize("./Log/","log1");
LogManager::GetInstance()->Initialize("./Log/","log2");
// 写日志
string log = "Hello World";
LOG_INFO(LogManager::GetInstance()->GetLogFile("log1"), "%s\n", log.c_str()); // 写入log1.log
LOG_INFO(LogManager::GetInstance()->GetLogFile("log2"), "%s\n", log.c_str()); // 写入log2.log
// 关闭日志
LogManager::GetInstance()->Close("log1");
LogManager::GetInstance()->Close("log2");
* 示例2:
// 将日志输出到控制台
string log = "Hello World";
LOG_INFO(stdout, "%s\n", log.c_str());
* 注意:
1. 需要C++11
2. 多线程的时候需要加锁(打开#define LOG_MUTEX),否则会导致日志显示混乱
*/
// #define LOG_MUTEX // 加锁
class LogManager
{
private:
LogManager(){}
public:
~LogManager(){}
inline void Initialize(const string &parentPath,const string &logName)
{
// 日志名为空表示输出到控制台
if(logName.size()==0)
return;
// 查找该日志文件,如果没有则创建
std::map<string, FILE*>::const_iterator iter = logMap.find(logName);
if (iter == logMap.end())
{
string pathOfLog = parentPath+ logName + ".log";
FILE *logFile = fopen(pathOfLog.c_str(), "a"); // w:覆盖原有文件,a:追加
if(logFile!=NULL)
{
logMap.insert(std::make_pair(logName, logFile));
}
}
}
inline FILE* GetLogFile(const string &logName)
{
std::map<string, FILE*>::const_iterator iter=logMap.find(logName);
if(iter==logMap.end())
{
return NULL;
}
return (*iter).second;
}
inline void Close(const string &logName)
{
std::map<string, FILE*>::const_iterator iter=logMap.find(logName);
if(iter==logMap.end())
{
return;
}
fclose((*iter).second);
logMap.erase(iter);
}
inline std::mutex &GetLogMutex()
{
return logMutex;
}
// Singleton
static LogManager* GetInstance()
{
static LogManager logManager;
return &logManager;
}
private:
std::map<string, FILE*> logMap;
std::mutex logMutex;
};
#ifdef LOG_MUTEX
#define LOCK LogManager::GetInstance()->GetLogMutex().lock()
#define UNLOCK LogManager::GetInstance()->GetLogMutex().unlock()
#else
#define LOCK
#define UNLOCK
#endif
// log time
typedef struct _LogTime
{
string year;
string month;
string day;
string hour;
string minute;
string second;
string millisecond; // ms
string microsecond; // us
string weekDay;
}LogTime;
inline LogTime GetTime()
{
LogTime currentTime;
#if (defined WIN32 || defined _WIN32)
SYSTEMTIME systemTime;
GetLocalTime(&systemTime);
char temp[8] = { 0 };
sprintf(temp, "%04d", systemTime.wYear);
currentTime.year=string(temp);
sprintf(temp, "%02d", systemTime.wMonth);
currentTime.month=string(temp);
sprintf(temp, "%02d", systemTime.wDay);
currentTime.day=string(temp);
sprintf(temp, "%02d", systemTime.wHour);
currentTime.hour=string(temp);
sprintf(temp, "%02d", systemTime.wMinute);
currentTime.minute=string(temp);
sprintf(temp, "%02d", systemTime.wSecond);
currentTime.second=string(temp);
sprintf(temp, "%03d", systemTime.wMilliseconds);
currentTime.millisecond=string(temp);
sprintf(temp, "%d", systemTime.wDayOfWeek);
currentTime.weekDay=string(temp);
#else
struct timeval tv;
struct tm *p;
gettimeofday(&tv, NULL);
p = localtime(&tv.tv_sec);
char temp[8]={0};
sprintf(temp,"%04d",1900+p->tm_year);
currentTime.year=string(temp);
sprintf(temp,"%02d",1+p->tm_mon);
currentTime.month=string(temp);
sprintf(temp,"%02d",p->tm_mday);
currentTime.day=string(temp);
sprintf(temp,"%02d",p->tm_hour);
currentTime.hour=string(temp);
sprintf(temp,"%02d",p->tm_min);
currentTime.minute=string(temp);
sprintf(temp,"%02d",p->tm_sec);
currentTime.second=string(temp);
sprintf(temp,"%03d",(int)(tv.tv_usec/1000));
currentTime.millisecond = string(temp);
sprintf(temp, "%03d", (int)(tv.tv_usec % 1000));
currentTime.microsecond = string(temp);
sprintf(temp, "%d", p->tm_wday);
currentTime.weekDay = string(temp);
#endif
return currentTime;
}
#define LOG_TIME(logFile) \
do\
{\
LogTime currentTime=GetTime(); \
fprintf(((logFile == NULL) ? stdout : logFile), "%s-%s-%s %s:%s:%s.%s\t",currentTime.year.c_str(),currentTime.month.c_str(),currentTime.day.c_str(),currentTime.hour.c_str(),currentTime.minute.c_str(),currentTime.second.c_str(),currentTime.millisecond.c_str()); \
}while (0)
#define LOG_INFO(logFile,logInfo, ...) \
do\
{\
LOCK; \
LOG_TIME(logFile); \
fprintf(((logFile == NULL) ? stdout : logFile), "INFO\t"); \
fprintf(((logFile == NULL) ? stdout : logFile), "[%s:%d (%s) ]: ", __FILE__, __LINE__, __FUNCTION__); \
fprintf(((logFile == NULL) ? stdout : logFile), logInfo, ## __VA_ARGS__); \
fflush(logFile); \
UNLOCK; \
} while (0)
#define LOG_DEBUG(logFile,logInfo, ...) \
do\
{\
LOCK; \
LOG_TIME(logFile);\
fprintf(((logFile==NULL)?stdout:logFile), "DEBUG\t"); \
fprintf(((logFile==NULL)?stdout:logFile), "[%s:%d (%s) ]: ", __FILE__, __LINE__, __FUNCTION__); \
fprintf(((logFile==NULL)?stdout:logFile),logInfo, ## __VA_ARGS__); \
fflush(logFile); \
UNLOCK; \
} while (0)
#define LOG_ERROR(logFile,logInfo, ...) \
do\
{\
LOCK; \
LOG_TIME(logFile);\
fprintf(((logFile==NULL)?stdout:logFile), "ERROR\t"); \
fprintf(((logFile==NULL)?stdout:logFile), "[%s:%d (%s) ]: ", __FILE__, __LINE__, __FUNCTION__); \
fprintf(((logFile==NULL)?stdout:logFile),logInfo, ## __VA_ARGS__); \
fflush(logFile); \
UNLOCK; \
} while (0)
#define LOG_WARN(logFile,logInfo, ...) \
do\
{\
LOCK; \
LOG_TIME(logFile);\
fprintf(((logFile==NULL)?stdout:logFile), "WARN\t"); \
fprintf(((logFile==NULL)?stdout:logFile), "[%s:%d (%s) ]: ", __FILE__, __LINE__, __FUNCTION__); \
fprintf(((logFile==NULL)?stdout:logFile),logInfo, ## __VA_ARGS__); \
fflush(logFile); \
UNLOCK; \
} while (0)
#endif // __SIMPLE_LOG_H__
Src/main.cpp 0 → 100644
View file @ 9c945072
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <SimpleLog.h>
#include <Filesystem.h>
#include <Classifier.h>
int main()
{
// 创建分类器
ortSamples::Classifier classifier;
ortSamples::InitializationParameterOfClassifier initParamOfClassifier;
initParamOfClassifier.configFilePath=CONFIG_FILE;
ortSamples::ErrorCode errorCode=classifier.Initialize(initParamOfClassifier);
if(errorCode!=ortSamples::SUCCESS)
{
LOG_ERROR(stdout, "fail to initialize ResNet50!\n");
exit(-1);
}
LOG_INFO(stdout, "succeed to initialize ResNet50\n");
// 读取测试图片
cv::Mat srcImage=cv::imread("../Resource/Images/ImageNet_01.jpg",1);
// 设置batchsize
int batchsize=1;
std::vector<cv::Mat> srcImages;
for(int i=0;i<batchsize;++i)
{
srcImages.push_back(srcImage);
}
// 推理
std::vector<std::vector<ortSamples::ResultOfPrediction>> predictions;
double time1 = cv::getTickCount();
classifier.Classify(srcImages,predictions);
double time2 = cv::getTickCount();
double elapsedTime = (time2 - time1)*1000 / cv::getTickFrequency();
LOG_INFO(stdout, "inference time:%f ms\n", elapsedTime);
// 获取推理结果
LOG_INFO(stdout,"========== Classification Results ==========\n");
for(int i=0;i<predictions.size();++i)
{
// 一个batch中第i幅图像的结果
LOG_INFO(stdout,"========== %d result ==========\n",i);
std::vector<ortSamples::ResultOfPrediction> resultOfPredictions=predictions[i];
for(int j=0;j<resultOfPredictions.size();++j)
{
ortSamples::ResultOfPrediction prediction=resultOfPredictions[j];
LOG_INFO(stdout,"label:%d,confidence:%f\n",prediction.label,prediction.confidence);
}
}
return 0;
}
\ No newline at end of file
model.properties 0 → 100644
View file @ 9c945072
# 模型名称
modelName=ResNet50_Ort
# 模型描述
modelDescription=ResNet50是一种用于图像分类的深度神经网络模型
# 应用场景
appScenario=推理,inference,OnnxRunTime,图像分类,cv
# 框架类型
frameType=OnnxRunTime
\ No newline at end of file
requirements.txt 0 → 100644
View file @ 9c945072
./3rdParty/opencv-3.4.11_mini.tar.gz
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