核心代碼
// 時間轉換static __int64 file_time_2_utc(const FILETIME* ftime){ LARGE_INTEGER li; li.LowPart = ftime->dwLowDateTime; li.HighPart = ftime->dwHighDateTime; return li.QuadPart;} // 獲得CPU的核數static int get_processor_number(){ SYSTEM_INFO info; GetSystemInfo(&info); return (int)info.dwNumberOfProcessors;}// 獲取進程CPU占用int get_cpu_usage(int pid){ //cpu數量 static int processor_count_ = -1; //上一次的時間 static __int64 last_time_ = 0; static __int64 last_system_time_ = 0; FILETIME now; FILETIME creation_time; FILETIME exit_time; FILETIME kernel_time; FILETIME user_time; __int64 system_time; __int64 time; __int64 system_time_delta; __int64 time_delta; int cpu = -1; if(processor_count_ == -1) { processor_count_ = get_processor_number(); } GetSystemTimeAsFileTime(&now); HANDLE hProcess = OpenProcess(PROCESS_ALL_ACCESS, false, pid); if (!GetProcessTimes(hProcess, &creation_time, &exit_time, &kernel_time, &user_time)) { return -1; } system_time = (file_time_2_utc(&kernel_time) + file_time_2_utc(&user_time)) / processor_count_; time = file_time_2_utc(&now); if ((last_system_time_ == 0) || (last_time_ == 0)) { last_system_time_ = system_time; last_time_ = time; return -1; } system_time_delta = system_time - last_system_time_; time_delta = time - last_time_; if (time_delta == 0) return -1; cpu = (int)((system_time_delta * 100 + time_delta / 2) / time_delta); last_system_time_ = system_time; last_time_ = time; return cpu;}以下是其它網友的補充
C++ 獲取進程內存占用和CPU利用率等信息
1.獲取內存占用信息
獲取步驟:
(1)獲取當前進程句柄 使用GetCurrentProcess(),返回一個當前進程的句柄
(2)定義一個保存內存信息的結構體 PROCESS_MEMORY_COUNTERS pmc;
結構體定義如下:
typedef struct _PROCESS_MEMORY_COUNTERS {DWORD cb; Size of the structure, in bytes.//結構體大小DWORD PageFaultCount; Number of page faults. // 缺頁中斷次數SIZE_T PeakWorkingSetSize; Peak working set size, in bytes. // 使用內存高峰SIZE_T WorkingSetSize; Current working set size, in bytes. // 當前使用的內存SIZE_T QuotaPeakPagedPoolUsage; Peak paged pool usage, in bytes. // 使用頁面緩存池高峰SIZE_T QuotaPagedPoolUsage; Current paged pool usage, in bytes.// 使用頁面緩存池SIZE_T QuotaPeakNonPagedPoolUsage; Peak nonpaged pool usage, in bytes.// 使用非分頁緩存池高峰SIZE_T QuotaNonPagedPoolUsage; Current nonpaged pool usage, in bytes.// 使用非分頁緩存池SIZE_T PagefileUsage; Current space allocated for the pagefile, in bytes.Those pages may or may not be in memory.// 使用分頁文件SIZE_T PeakPagefileUsage; Peak space allocated for the pagefile, in bytes.// 使用分頁文件高峰} PROCESS_MEMORY_COUNTERS, *PPROCESS_MEMORY_COUNTERS;(3)獲取當前進程的內存信息,保存到結構體pmc中(第二個參數) 使用GetProcessMemoryInfo()
API定義如下:
GetProcessMemoryInfo(
HANDLE Process, 獲取內存使用情況的進程句柄。
PPROCESS_MEMORY_COUNTERS ppsmemCounters, 返回內存使用情況的結構
DWORD cb 結構的大小
);DE
2.獲取CPU利用率
獲取步驟:
(1)獲取當前進程句柄 通過OpenProcess(),返回一個進程句柄
函數原型如下:
HANDLE OpenProcess(DWORD dwDesiredAccess, //渴望得到的訪問權限(標志)BOOL bInheritHandle, // 是否繼承句柄DWORD dwProcessId// 進程標示符,可以通過getpid()獲取當前進程ID);
(2)獲取CPU使用時間 通過調用GetProcessTimes()
函數原型如下:
BOOLWINAPIGetProcessTimes(__in HANDLE hProcess, 需要獲取相關時間的進程句柄__out LPFILETIME lpCreationTime, 進程的創建時間__out LPFILETIME lpExitTime, 進程的退出時間__out LPFILETIME lpKernelTime, 進程在內核模式下的所有時間__out LPFILETIME lpUserTime 進程在用戶模式下的所有時間);
CPU使用時間=(lpKernelTime+lpUserTime)/GetProcessNumber()(內核數)
內核數獲取方法如下:
int GetProcessNumber() { SYSTEM_INFO info; GetSystemInfo(&info); return (int)info.dwNumberOfProcessors; } (3)計算CPU利用率
CPU利用率=(現在的CPU占用時間-過去的CPU占用時間)/系統時間差
注:系統時間差可以通過GetSystemTimeAsFileTime()獲取,然后在轉換為int64類型即可,自定義轉換方法如下:
__int64 FileTimeToInt64(const FILETIME& time) { ULARGE_INTEGER tt; //64位無符號整型值 tt.LowPart = time.dwLowDateTime; tt.HighPart = time.dwHighDateTime; return(tt.QuadPart); //返回整型值}這篇文章就介紹到這了,需要的朋友可以參考一下。
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