reactos/rosapps/taskmgr/perfpage.cpp
2002-09-10 02:07:02 +00:00

518 lines
20 KiB
C++

/*
* ReactOS Task Manager
*
* perfpage.c
*
* Copyright (C) 1999 - 2001 Brian Palmer <brianp@reactos.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#define WIN32_LEAN_AND_MEAN // Exclude rarely-used stuff from Windows headers
#include <windows.h>
#include <commctrl.h>
#include <stdlib.h>
#include <malloc.h>
#include <memory.h>
#include <tchar.h>
#include <process.h>
#include <stdio.h>
#include "taskmgr.h"
#include "perfpage.h"
#include "perfdata.h"
#include "graph.h"
#include "graphctl.h"
TGraphCtrl PerformancePageCpuUsageHistoryGraph;
TGraphCtrl PerformancePageMemUsageHistoryGraph;
HWND hPerformancePage; // Performance Property Page
HWND hPerformancePageCpuUsageGraph; // CPU Usage Graph
HWND hPerformancePageMemUsageGraph; // MEM Usage Graph
HWND hPerformancePageCpuUsageHistoryGraph; // CPU Usage History Graph
HWND hPerformancePageMemUsageHistoryGraph; // Memory Usage History Graph
HWND hPerformancePageTotalsFrame; // Totals Frame
HWND hPerformancePageCommitChargeFrame; // Commit Charge Frame
HWND hPerformancePageKernelMemoryFrame; // Kernel Memory Frame
HWND hPerformancePagePhysicalMemoryFrame; // Physical Memory Frame
HWND hPerformancePageCpuUsageFrame;
HWND hPerformancePageMemUsageFrame;
HWND hPerformancePageCpuUsageHistoryFrame;
HWND hPerformancePageMemUsageHistoryFrame;
HWND hPerformancePageCommitChargeTotalEdit; // Commit Charge Total Edit Control
HWND hPerformancePageCommitChargeLimitEdit; // Commit Charge Limit Edit Control
HWND hPerformancePageCommitChargePeakEdit; // Commit Charge Peak Edit Control
HWND hPerformancePageKernelMemoryTotalEdit; // Kernel Memory Total Edit Control
HWND hPerformancePageKernelMemoryPagedEdit; // Kernel Memory Paged Edit Control
HWND hPerformancePageKernelMemoryNonPagedEdit; // Kernel Memory NonPaged Edit Control
HWND hPerformancePagePhysicalMemoryTotalEdit; // Physical Memory Total Edit Control
HWND hPerformancePagePhysicalMemoryAvailableEdit; // Physical Memory Available Edit Control
HWND hPerformancePagePhysicalMemorySystemCacheEdit; // Physical Memory System Cache Edit Control
HWND hPerformancePageTotalsHandleCountEdit; // Total Handles Edit Control
HWND hPerformancePageTotalsProcessCountEdit; // Total Processes Edit Control
HWND hPerformancePageTotalsThreadCountEdit; // Total Threads Edit Control
static int nPerformancePageWidth;
static int nPerformancePageHeight;
static HANDLE hPerformancePageEvent = NULL; // When this event becomes signaled then we refresh the performance page
void PerformancePageRefreshThread(void *lpParameter);
void AdjustFrameSize(HWND hCntrl, HWND hDlg, int nXDifference, int nYDifference, int pos)
{
RECT rc;
int cx, cy, sx, sy;
GetClientRect(hCntrl, &rc);
MapWindowPoints(hCntrl, hDlg, (LPPOINT)(&rc), (sizeof(RECT)/sizeof(POINT)));
if (pos) {
cx = rc.left;
cy = rc.top;
sx = rc.right - rc.left;
switch (pos) {
case 1:
break;
case 2:
cy += nYDifference / 2;
break;
case 3:
sx += nXDifference;
break;
case 4:
cy += nYDifference / 2;
sx += nXDifference;
break;
}
sy = rc.bottom - rc.top + nYDifference / 2;
SetWindowPos(hCntrl, NULL, cx, cy, sx, sy, SWP_NOACTIVATE|SWP_NOOWNERZORDER|SWP_NOZORDER);
} else {
cx = rc.left + nXDifference;
cy = rc.top + nYDifference;
sx = sy = 0;
SetWindowPos(hCntrl, NULL, cx, cy, 0, 0, SWP_NOACTIVATE|SWP_NOOWNERZORDER|SWP_NOSIZE|SWP_NOZORDER);
}
InvalidateRect(hCntrl, NULL, TRUE);
}
void AdjustControlPostion(HWND hCntrl, HWND hDlg, int nXDifference, int nYDifference)
{
AdjustFrameSize(hCntrl, hDlg, nXDifference, nYDifference, 0);
}
void AdjustCntrlPos(int ctrl_id, HWND hDlg, int nXDifference, int nYDifference)
{
AdjustFrameSize(GetDlgItem(hDlg, ctrl_id), hDlg, nXDifference, nYDifference, 0);
}
LRESULT CALLBACK PerformancePageWndProc(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
RECT rc;
int nXDifference;
int nYDifference;
// HDC hdc;
// PAINTSTRUCT ps;
switch (message) {
case WM_INITDIALOG:
// Save the width and height
GetClientRect(hDlg, &rc);
nPerformancePageWidth = rc.right;
nPerformancePageHeight = rc.bottom;
// Update window position
SetWindowPos(hDlg, NULL, 15, 30, 0, 0, SWP_NOACTIVATE|SWP_NOOWNERZORDER|SWP_NOSIZE|SWP_NOZORDER);
//
// Get handles to all the controls
//
hPerformancePageTotalsFrame = GetDlgItem(hDlg, IDC_TOTALS_FRAME);
hPerformancePageCommitChargeFrame = GetDlgItem(hDlg, IDC_COMMIT_CHARGE_FRAME);
hPerformancePageKernelMemoryFrame = GetDlgItem(hDlg, IDC_KERNEL_MEMORY_FRAME);
hPerformancePagePhysicalMemoryFrame = GetDlgItem(hDlg, IDC_PHYSICAL_MEMORY_FRAME);
hPerformancePageCpuUsageFrame = GetDlgItem(hDlg, IDC_CPU_USAGE_FRAME);
hPerformancePageMemUsageFrame = GetDlgItem(hDlg, IDC_MEM_USAGE_FRAME);
hPerformancePageCpuUsageHistoryFrame = GetDlgItem(hDlg, IDC_CPU_USAGE_HISTORY_FRAME);
hPerformancePageMemUsageHistoryFrame = GetDlgItem(hDlg, IDC_MEMORY_USAGE_HISTORY_FRAME);
hPerformancePageCommitChargeTotalEdit = GetDlgItem(hDlg, IDC_COMMIT_CHARGE_TOTAL);
hPerformancePageCommitChargeLimitEdit = GetDlgItem(hDlg, IDC_COMMIT_CHARGE_LIMIT);
hPerformancePageCommitChargePeakEdit = GetDlgItem(hDlg, IDC_COMMIT_CHARGE_PEAK);
hPerformancePageKernelMemoryTotalEdit = GetDlgItem(hDlg, IDC_KERNEL_MEMORY_TOTAL);
hPerformancePageKernelMemoryPagedEdit = GetDlgItem(hDlg, IDC_KERNEL_MEMORY_PAGED);
hPerformancePageKernelMemoryNonPagedEdit = GetDlgItem(hDlg, IDC_KERNEL_MEMORY_NONPAGED);
hPerformancePagePhysicalMemoryTotalEdit = GetDlgItem(hDlg, IDC_PHYSICAL_MEMORY_TOTAL);
hPerformancePagePhysicalMemoryAvailableEdit = GetDlgItem(hDlg, IDC_PHYSICAL_MEMORY_AVAILABLE);
hPerformancePagePhysicalMemorySystemCacheEdit = GetDlgItem(hDlg, IDC_PHYSICAL_MEMORY_SYSTEM_CACHE);
hPerformancePageTotalsHandleCountEdit = GetDlgItem(hDlg, IDC_TOTALS_HANDLE_COUNT);
hPerformancePageTotalsProcessCountEdit = GetDlgItem(hDlg, IDC_TOTALS_PROCESS_COUNT);
hPerformancePageTotalsThreadCountEdit = GetDlgItem(hDlg, IDC_TOTALS_THREAD_COUNT);
hPerformancePageCpuUsageGraph = GetDlgItem(hDlg, IDC_CPU_USAGE_GRAPH);
hPerformancePageMemUsageGraph = GetDlgItem(hDlg, IDC_MEM_USAGE_GRAPH);
hPerformancePageMemUsageHistoryGraph = GetDlgItem(hDlg, IDC_MEM_USAGE_HISTORY_GRAPH);
hPerformancePageCpuUsageHistoryGraph = GetDlgItem(hDlg, IDC_CPU_USAGE_HISTORY_GRAPH);
GetClientRect(hPerformancePageCpuUsageHistoryGraph, &rc);
// create the control
//PerformancePageCpuUsageHistoryGraph.Create(0, rc, hDlg, IDC_CPU_USAGE_HISTORY_GRAPH);
PerformancePageCpuUsageHistoryGraph.Create(hPerformancePageCpuUsageHistoryGraph, hDlg, IDC_CPU_USAGE_HISTORY_GRAPH);
// customize the control
PerformancePageCpuUsageHistoryGraph.SetRange(0.0, 100.0, 10) ;
// PerformancePageCpuUsageHistoryGraph.SetYUnits("Current") ;
// PerformancePageCpuUsageHistoryGraph.SetXUnits("Samples (Windows Timer: 100 msec)") ;
// PerformancePageCpuUsageHistoryGraph.SetBackgroundColor(RGB(0, 0, 64)) ;
// PerformancePageCpuUsageHistoryGraph.SetGridColor(RGB(192, 192, 255)) ;
// PerformancePageCpuUsageHistoryGraph.SetPlotColor(RGB(255, 255, 255)) ;
PerformancePageCpuUsageHistoryGraph.SetBackgroundColor(RGB(0, 0, 0)) ;
PerformancePageCpuUsageHistoryGraph.SetGridColor(RGB(152, 205, 152)) ;
PerformancePageCpuUsageHistoryGraph.SetPlotColor(0, RGB(255, 0, 0)) ;
PerformancePageCpuUsageHistoryGraph.SetPlotColor(1, RGB(0, 255, 0)) ;
GetClientRect(hPerformancePageMemUsageHistoryGraph, &rc);
PerformancePageMemUsageHistoryGraph.Create(hPerformancePageMemUsageHistoryGraph, hDlg, IDC_MEM_USAGE_HISTORY_GRAPH);
PerformancePageMemUsageHistoryGraph.SetRange(0.0, 100.0, 10) ;
PerformancePageMemUsageHistoryGraph.SetBackgroundColor(RGB(0, 0, 0)) ;
PerformancePageMemUsageHistoryGraph.SetGridColor(RGB(152, 215, 152)) ;
PerformancePageMemUsageHistoryGraph.SetPlotColor(0, RGB(255, 255, 0)) ;
// Start our refresh thread
#ifdef RUN_PERF_PAGE
_beginthread(PerformancePageRefreshThread, 0, NULL);
#endif
//
// Subclass graph buttons
//
OldGraphWndProc = SetWindowLong(hPerformancePageCpuUsageGraph, GWL_WNDPROC, (LONG)Graph_WndProc);
SetWindowLong(hPerformancePageMemUsageGraph, GWL_WNDPROC, (LONG)Graph_WndProc);
OldGraphCtrlWndProc = SetWindowLong(hPerformancePageMemUsageHistoryGraph, GWL_WNDPROC, (LONG)GraphCtrl_WndProc);
SetWindowLong(hPerformancePageCpuUsageHistoryGraph, GWL_WNDPROC, (LONG)GraphCtrl_WndProc);
return TRUE;
case WM_COMMAND:
break;
#if 0
case WM_NCPAINT:
hdc = GetDC(hDlg);
GetClientRect(hDlg, &rc);
Draw3dRect(hdc, rc.left, rc.top, rc.right, rc.top + 2, GetSysColor(COLOR_3DSHADOW), GetSysColor(COLOR_3DHILIGHT));
ReleaseDC(hDlg, hdc);
break;
case WM_PAINT:
hdc = BeginPaint(hDlg, &ps);
GetClientRect(hDlg, &rc);
Draw3dRect(hdc, rc.left, rc.top, rc.right, rc.top + 2, GetSysColor(COLOR_3DSHADOW), GetSysColor(COLOR_3DHILIGHT));
EndPaint(hDlg, &ps);
break;
#endif
case WM_SIZE:
int cx, cy;
if (wParam == SIZE_MINIMIZED)
return 0;
cx = LOWORD(lParam);
cy = HIWORD(lParam);
nXDifference = cx - nPerformancePageWidth;
nYDifference = cy - nPerformancePageHeight;
nPerformancePageWidth = cx;
nPerformancePageHeight = cy;
// Reposition the performance page's controls
AdjustFrameSize(hPerformancePageTotalsFrame, hDlg, 0, nYDifference, 0);
AdjustFrameSize(hPerformancePageCommitChargeFrame, hDlg, 0, nYDifference, 0);
AdjustFrameSize(hPerformancePageKernelMemoryFrame, hDlg, 0, nYDifference, 0);
AdjustFrameSize(hPerformancePagePhysicalMemoryFrame, hDlg, 0, nYDifference, 0);
AdjustCntrlPos(IDS_COMMIT_CHARGE_TOTAL, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_COMMIT_CHARGE_LIMIT, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_COMMIT_CHARGE_PEAK, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_KERNEL_MEMORY_TOTAL, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_KERNEL_MEMORY_PAGED, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_KERNEL_MEMORY_NONPAGED, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_PHYSICAL_MEMORY_TOTAL, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_PHYSICAL_MEMORY_AVAILABLE, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_PHYSICAL_MEMORY_SYSTEM_CACHE, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_TOTALS_HANDLE_COUNT, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_TOTALS_PROCESS_COUNT, hDlg, 0, nYDifference);
AdjustCntrlPos(IDS_TOTALS_THREAD_COUNT, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageCommitChargeTotalEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageCommitChargeLimitEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageCommitChargePeakEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageKernelMemoryTotalEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageKernelMemoryPagedEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageKernelMemoryNonPagedEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePagePhysicalMemoryTotalEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePagePhysicalMemoryAvailableEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePagePhysicalMemorySystemCacheEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageTotalsHandleCountEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageTotalsProcessCountEdit, hDlg, 0, nYDifference);
AdjustControlPostion(hPerformancePageTotalsThreadCountEdit, hDlg, 0, nYDifference);
static int lastX, lastY;
nXDifference += lastX;
nYDifference += lastY;
lastX = lastY = 0;
if (nXDifference % 2) {
if (nXDifference > 0) {
nXDifference--;
lastX++;
} else {
nXDifference++;
lastX--;
}
}
if (nYDifference % 2) {
if (nYDifference > 0) {
nYDifference--;
lastY++;
} else {
nYDifference++;
lastY--;
}
}
AdjustFrameSize(hPerformancePageCpuUsageFrame, hDlg, nXDifference, nYDifference, 1);
AdjustFrameSize(hPerformancePageMemUsageFrame, hDlg, nXDifference, nYDifference, 2);
AdjustFrameSize(hPerformancePageCpuUsageHistoryFrame, hDlg, nXDifference, nYDifference, 3);
AdjustFrameSize(hPerformancePageMemUsageHistoryFrame, hDlg, nXDifference, nYDifference, 4);
AdjustFrameSize(hPerformancePageCpuUsageGraph, hDlg, nXDifference, nYDifference, 1);
AdjustFrameSize(hPerformancePageMemUsageGraph, hDlg, nXDifference, nYDifference, 2);
AdjustFrameSize(hPerformancePageCpuUsageHistoryGraph, hDlg, nXDifference, nYDifference, 3);
AdjustFrameSize(hPerformancePageMemUsageHistoryGraph, hDlg, nXDifference, nYDifference, 4);
break;
}
return 0;
}
void RefreshPerformancePage(void)
{
// Signal the event so that our refresh thread
// will wake up and refresh the performance page
SetEvent(hPerformancePageEvent);
}
void PerformancePageRefreshThread(void *lpParameter)
{
ULONG CommitChargeTotal;
ULONG CommitChargeLimit;
ULONG CommitChargePeak;
ULONG KernelMemoryTotal;
ULONG KernelMemoryPaged;
ULONG KernelMemoryNonPaged;
ULONG PhysicalMemoryTotal;
ULONG PhysicalMemoryAvailable;
ULONG PhysicalMemorySystemCache;
ULONG TotalHandles;
ULONG TotalThreads;
ULONG TotalProcesses;
TCHAR Text[260];
// Create the event
hPerformancePageEvent = CreateEvent(NULL, TRUE, TRUE, _T("Performance Page Event"));
// If we couldn't create the event then exit the thread
if (!hPerformancePageEvent)
return;
while (1)
{
DWORD dwWaitVal;
// Wait on the event
dwWaitVal = WaitForSingleObject(hPerformancePageEvent, INFINITE);
// If the wait failed then the event object must have been
// closed and the task manager is exiting so exit this thread
if (dwWaitVal == WAIT_FAILED)
return;
if (dwWaitVal == WAIT_OBJECT_0)
{
// Reset our event
ResetEvent(hPerformancePageEvent);
//
// Update the commit charge info
//
CommitChargeTotal = PerfDataGetCommitChargeTotalK();
CommitChargeLimit = PerfDataGetCommitChargeLimitK();
CommitChargePeak = PerfDataGetCommitChargePeakK();
_ultot(CommitChargeTotal, Text, 10);
SetWindowText(hPerformancePageCommitChargeTotalEdit, Text);
_ultot(CommitChargeLimit, Text, 10);
SetWindowText(hPerformancePageCommitChargeLimitEdit, Text);
_ultot(CommitChargePeak, Text, 10);
SetWindowText(hPerformancePageCommitChargePeakEdit, Text);
wsprintf(Text, _T("Mem Usage: %dK / %dK"), CommitChargeTotal, CommitChargeLimit);
SendMessage(hStatusWnd, SB_SETTEXT, 2, (LPARAM)Text);
//
// Update the kernel memory info
//
KernelMemoryTotal = PerfDataGetKernelMemoryTotalK();
KernelMemoryPaged = PerfDataGetKernelMemoryPagedK();
KernelMemoryNonPaged = PerfDataGetKernelMemoryNonPagedK();
_ultot(KernelMemoryTotal, Text, 10);
SetWindowText(hPerformancePageKernelMemoryTotalEdit, Text);
_ultot(KernelMemoryPaged, Text, 10);
SetWindowText(hPerformancePageKernelMemoryPagedEdit, Text);
_ultot(KernelMemoryNonPaged, Text, 10);
SetWindowText(hPerformancePageKernelMemoryNonPagedEdit, Text);
//
// Update the physical memory info
//
PhysicalMemoryTotal = PerfDataGetPhysicalMemoryTotalK();
PhysicalMemoryAvailable = PerfDataGetPhysicalMemoryAvailableK();
PhysicalMemorySystemCache = PerfDataGetPhysicalMemorySystemCacheK();
_ultot(PhysicalMemoryTotal, Text, 10);
SetWindowText(hPerformancePagePhysicalMemoryTotalEdit, Text);
_ultot(PhysicalMemoryAvailable, Text, 10);
SetWindowText(hPerformancePagePhysicalMemoryAvailableEdit, Text);
_ultot(PhysicalMemorySystemCache, Text, 10);
SetWindowText(hPerformancePagePhysicalMemorySystemCacheEdit, Text);
//
// Update the totals info
//
TotalHandles = PerfDataGetSystemHandleCount();
TotalThreads = PerfDataGetTotalThreadCount();
TotalProcesses = PerfDataGetProcessCount();
_ultot(TotalHandles, Text, 10);
SetWindowText(hPerformancePageTotalsHandleCountEdit, Text);
_ultot(TotalThreads, Text, 10);
SetWindowText(hPerformancePageTotalsThreadCountEdit, Text);
_ultot(TotalProcesses, Text, 10);
SetWindowText(hPerformancePageTotalsProcessCountEdit, Text);
//
// Redraw the graphs
//
InvalidateRect(hPerformancePageCpuUsageGraph, NULL, FALSE);
InvalidateRect(hPerformancePageMemUsageGraph, NULL, FALSE);
//
ULONG CpuUsage;
ULONG CpuKernelUsage;
ULONGLONG CommitChargeTotal;
ULONGLONG CommitChargeLimit;
ULONG PhysicalMemoryTotal;
ULONG PhysicalMemoryAvailable;
int nBarsUsed1;
int nBarsUsed2;
//
// Get the CPU usage
//
CpuUsage = PerfDataGetProcessorUsage();
CpuKernelUsage = PerfDataGetProcessorSystemUsage();
if (CpuUsage < 0 ) CpuUsage = 0;
if (CpuUsage > 100) CpuUsage = 100;
if (CpuKernelUsage < 0) CpuKernelUsage = 0;
if (CpuKernelUsage > 100) CpuKernelUsage = 100;
//
// Get the memory usage
//
CommitChargeTotal = (ULONGLONG)PerfDataGetCommitChargeTotalK();
CommitChargeLimit = (ULONGLONG)PerfDataGetCommitChargeLimitK();
nBarsUsed1 = ((CommitChargeTotal * 100) / CommitChargeLimit);
PhysicalMemoryTotal = PerfDataGetPhysicalMemoryTotalK();
PhysicalMemoryAvailable = PerfDataGetPhysicalMemoryAvailableK();
nBarsUsed2 = ((PhysicalMemoryAvailable * 100) / PhysicalMemoryTotal);
PerformancePageCpuUsageHistoryGraph.AppendPoint(CpuUsage, CpuKernelUsage);
PerformancePageMemUsageHistoryGraph.AppendPoint(nBarsUsed1, nBarsUsed2);
//PerformancePageMemUsageHistoryGraph.SetRange(0.0, 100.0, 10) ;
InvalidateRect(hPerformancePageMemUsageHistoryGraph, NULL, FALSE);
InvalidateRect(hPerformancePageCpuUsageHistoryGraph, NULL, FALSE);
}
}
}
void PerformancePage_OnViewShowKernelTimes(void)
{
HMENU hMenu;
HMENU hViewMenu;
hMenu = GetMenu(hMainWnd);
hViewMenu = GetSubMenu(hMenu, 2);
// Check or uncheck the show 16-bit tasks menu item
if (GetMenuState(hViewMenu, ID_VIEW_SHOWKERNELTIMES, MF_BYCOMMAND) & MF_CHECKED)
{
CheckMenuItem(hViewMenu, ID_VIEW_SHOWKERNELTIMES, MF_BYCOMMAND|MF_UNCHECKED);
TaskManagerSettings.ShowKernelTimes = FALSE;
}
else
{
CheckMenuItem(hViewMenu, ID_VIEW_SHOWKERNELTIMES, MF_BYCOMMAND|MF_CHECKED);
TaskManagerSettings.ShowKernelTimes = TRUE;
}
RefreshPerformancePage();
}
void PerformancePage_OnViewCPUHistoryOneGraphAll(void)
{
HMENU hMenu;
HMENU hViewMenu;
HMENU hCPUHistoryMenu;
hMenu = GetMenu(hMainWnd);
hViewMenu = GetSubMenu(hMenu, 2);
hCPUHistoryMenu = GetSubMenu(hViewMenu, 3);
TaskManagerSettings.CPUHistory_OneGraphPerCPU = FALSE;
CheckMenuRadioItem(hCPUHistoryMenu, ID_VIEW_CPUHISTORY_ONEGRAPHALL, ID_VIEW_CPUHISTORY_ONEGRAPHPERCPU, ID_VIEW_CPUHISTORY_ONEGRAPHALL, MF_BYCOMMAND);
}
void PerformancePage_OnViewCPUHistoryOneGraphPerCPU(void)
{
HMENU hMenu;
HMENU hViewMenu;
HMENU hCPUHistoryMenu;
hMenu = GetMenu(hMainWnd);
hViewMenu = GetSubMenu(hMenu, 2);
hCPUHistoryMenu = GetSubMenu(hViewMenu, 3);
TaskManagerSettings.CPUHistory_OneGraphPerCPU = TRUE;
CheckMenuRadioItem(hCPUHistoryMenu, ID_VIEW_CPUHISTORY_ONEGRAPHALL, ID_VIEW_CPUHISTORY_ONEGRAPHPERCPU, ID_VIEW_CPUHISTORY_ONEGRAPHPERCPU, MF_BYCOMMAND);
}