18#include "dtool_config.h"
27#ifndef MAXIMUM_PROCESSORS
28#define MAXIMUM_PROCESSORS 32
31typedef enum _Process_DPI_Awareness {
32 Process_DPI_Unaware = 0,
33 Process_System_DPI_Aware = 1,
34 Process_Per_Monitor_DPI_Aware = 2
35} Process_DPI_Awareness;
37typedef struct _PROCESSOR_POWER_INFORMATION {
43 ULONG CurrentIdleState;
44} PROCESSOR_POWER_INFORMATION, *PPROCESSOR_POWER_INFORMATION;
46typedef BOOL (WINAPI *GetProcessMemoryInfoType) (HANDLE Process, PROCESS_MEMORY_COUNTERS *ppsmemCounters, DWORD cb);
47typedef long (__stdcall *CallNtPowerInformationType) (POWER_INFORMATION_LEVEL information_level, PVOID InputBuffer, ULONG InputBufferLength, PVOID OutputBuffer, ULONG OutputBufferLength);
49static int initialize =
false;
50static HMODULE psapi_dll = 0;
51static GetProcessMemoryInfoType GetProcessMemoryInfoFunction = 0;
52static CallNtPowerInformationType CallNtPowerInformationFunction = 0;
55 if (initialize ==
false) {
56 psapi_dll = LoadLibrary(
"psapi.dll");
58 GetProcessMemoryInfoFunction = (GetProcessMemoryInfoType) GetProcAddress(psapi_dll,
"GetProcessMemoryInfo");
64 MEMORYSTATUSEX memory_status;
66 memory_status.dwLength =
sizeof(MEMORYSTATUSEX);
67 if (GlobalMemoryStatusEx(&memory_status)) {
68 display_information->_physical_memory = memory_status.ullTotalPhys;
69 display_information->_available_physical_memory = memory_status.ullAvailPhys;
70 display_information->_page_file_size = memory_status.ullTotalPageFile;
71 display_information->_available_page_file_size = memory_status.ullAvailPageFile;
72 display_information->_process_virtual_memory = memory_status.ullTotalVirtual;
73 display_information->_available_process_virtual_memory = memory_status.ullAvailVirtual;
74 display_information->_memory_load = memory_status.dwMemoryLoad;
77 if (GetProcessMemoryInfoFunction) {
80 PROCESS_MEMORY_COUNTERS process_memory_counters;
82 process_id = GetCurrentProcessId();
83 process = OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, process_id);
85 if (GetProcessMemoryInfoFunction (process, &process_memory_counters,
sizeof(PROCESS_MEMORY_COUNTERS))) {
86 display_information->_page_fault_count = process_memory_counters.PageFaultCount;
87 display_information->_process_memory = process_memory_counters.WorkingSetSize;
88 display_information->_peak_process_memory = process_memory_counters.PeakWorkingSetSize;
89 display_information->_page_file_usage = process_memory_counters.PagefileUsage;
90 display_information->_peak_page_file_usage = process_memory_counters.PeakPagefileUsage;
98int update_cpu_frequency_function(
int processor_number,
DisplayInformation *display_information) {
102 display_information->_maximum_cpu_frequency = 0;
103 display_information->_current_cpu_frequency = 0;
105 if (CallNtPowerInformationFunction) {
110 ULONG input_buffer_size;
111 ULONG output_buffer_size;
112 POWER_INFORMATION_LEVEL information_level;
113 PROCESSOR_POWER_INFORMATION *processor_power_information;
114 PROCESSOR_POWER_INFORMATION processor_power_information_array [MAXIMUM_PROCESSORS];
116 memset(processor_power_information_array, 0,
sizeof(PROCESSOR_POWER_INFORMATION) * MAXIMUM_PROCESSORS);
118 processor_power_information = processor_power_information_array;
119 for (i = 0; i < MAXIMUM_PROCESSORS; i++) {
120 processor_power_information->Number = 0xFFFFFFFF;
121 processor_power_information++;
124 information_level = ProcessorInformation;
125 input_buffer =
nullptr;
126 output_buffer = processor_power_information_array;
127 input_buffer_size = 0;
128 output_buffer_size =
sizeof(PROCESSOR_POWER_INFORMATION) * MAXIMUM_PROCESSORS;
129 if (CallNtPowerInformationFunction(information_level, input_buffer, input_buffer_size, output_buffer, output_buffer_size) == 0) {
130 processor_power_information = processor_power_information_array;
131 for (i = 0; i < MAXIMUM_PROCESSORS; i++) {
132 if (processor_power_information->Number == processor_number) {
135 value = processor_power_information->MaxMhz;
136 display_information->_maximum_cpu_frequency = value * 1000000;
138 value = processor_power_information->CurrentMhz;
139 display_information->_current_cpu_frequency = value * 1000000;
145 processor_power_information++;
155 int num_cpu_cores = 0;
156 int num_logical_cpus = 0;
159 typedef BOOL (WINAPI *LPFN_GLPI)(PSYSTEM_LOGICAL_PROCESSOR_INFORMATION,
162 glpi = (LPFN_GLPI)GetProcAddress(GetModuleHandle(TEXT(
"kernel32")),
163 "GetLogicalProcessorInformation");
164 if (glpi ==
nullptr) {
165 windisplay_cat.info()
166 <<
"GetLogicalProcessorInformation is not supported.\n";
172 PSYSTEM_LOGICAL_PROCESSOR_INFORMATION buffer =
nullptr;
173 DWORD buffer_length = 0;
174 DWORD rc = glpi(buffer, &buffer_length);
176 if (GetLastError() == ERROR_INSUFFICIENT_BUFFER) {
177 if (buffer !=
nullptr) {
178 PANDA_FREE_ARRAY(buffer);
181 buffer = (PSYSTEM_LOGICAL_PROCESSOR_INFORMATION)PANDA_MALLOC_ARRAY(buffer_length);
182 nassertv(buffer !=
nullptr);
184 windisplay_cat.info()
185 <<
"GetLogicalProcessorInformation failed: " << GetLastError()
189 rc = glpi(buffer, &buffer_length);
193 PSYSTEM_LOGICAL_PROCESSOR_INFORMATION ptr = buffer;
194 PSYSTEM_LOGICAL_PROCESSOR_INFORMATION end = (PSYSTEM_LOGICAL_PROCESSOR_INFORMATION)((
char *)buffer + buffer_length);
197 if (ptr->Relationship == RelationProcessorCore) {
206 PANDA_FREE_ARRAY(buffer);
208 windisplay_cat.info()
209 << num_cpu_cores <<
" CPU cores, with "
210 << num_logical_cpus <<
" logical processors.\n";
212 display_information->_num_cpu_cores = num_cpu_cores;
213 display_information->_num_logical_cpus = num_logical_cpus;
224 _supported_types = OT_window | OT_fullscreen_window;
226 HMODULE user32 = GetModuleHandleA(
"user32.dll");
227 if (user32 !=
nullptr) {
229 typedef HRESULT (WINAPI *PFN_SETPROCESSDPIAWARENESS)(Process_DPI_Awareness);
230 PFN_SETPROCESSDPIAWARENESS pfnSetProcessDpiAwareness =
231 (PFN_SETPROCESSDPIAWARENESS)GetProcAddress(user32,
"SetProcessDpiAwarenessInternal");
233 if (pfnSetProcessDpiAwareness ==
nullptr) {
234 if (windisplay_cat.is_debug()) {
235 windisplay_cat.debug() <<
"Unable to find SetProcessDpiAwareness in user32.dll.\n";
238 if (windisplay_cat.is_debug()) {
239 windisplay_cat.debug() <<
"Calling SetProcessDpiAwareness().\n";
241 pfnSetProcessDpiAwareness(Process_Per_Monitor_DPI_Aware);
243 HDC dc = GetDC(
nullptr);
245 int dpi = GetDeviceCaps(dc, LOGPIXELSX);
247 PN_stdfloat zoom = (double)dpi / 96.0;
248 set_detected_display_zoom(zoom);
250 if (windisplay_cat.is_debug()) {
251 windisplay_cat.debug()
252 <<
"Determined display zoom to be " << zoom
253 <<
" based on LOGPIXELSX " << dpi <<
"\n";
256 ReleaseDC(
nullptr, dc);
262 if (windisplay_cat.is_debug()) {
263 windisplay_cat.debug()
264 <<
"Detected display devices:\n";
266 DISPLAY_DEVICEA device;
267 device.cb =
sizeof(device);
268 for (DWORD devnum = 0; EnumDisplayDevicesA(
nullptr, devnum, &device, 0); ++devnum) {
269 std::ostream &out = windisplay_cat.debug();
270 out <<
" " << device.DeviceName <<
" [" << device.DeviceString <<
"]";
271 if (device.StateFlags & DISPLAY_DEVICE_ACTIVE) {
274 if (device.StateFlags & DISPLAY_DEVICE_MULTI_DRIVER) {
275 out <<
" (multi-driver)";
277 if (device.StateFlags & DISPLAY_DEVICE_PRIMARY_DEVICE) {
280 if (device.StateFlags & DISPLAY_DEVICE_MIRRORING_DRIVER) {
281 out <<
" (mirroring)";
283 if (device.StateFlags & DISPLAY_DEVICE_REMOVABLE) {
284 out <<
" (removable)";
289 int nmonitor = GetSystemMetrics(SM_CMONITORS);
290 windisplay_cat.debug()
291 <<
"Detected " << nmonitor <<
" monitors, "
292 << (GetSystemMetrics(SM_SAMEDISPLAYFORMAT) != 0 ?
"" :
"NOT ")
293 <<
"sharing same display format:\n";
298 [](HMONITOR monitor, HDC dc, LPRECT rect, LPARAM param) -> BOOL {
300 info.cbSize =
sizeof(info);
301 if (GetMonitorInfoA(monitor, &info)) {
302 std::ostream &out = windisplay_cat.debug() <<
" ";
304 DISPLAY_DEVICEA device;
305 device.cb =
sizeof(device);
306 device.StateFlags = 0;
307 if (EnumDisplayDevicesA(info.szDevice, 0, &device, 0)) {
308 out << device.DeviceName <<
" [" << device.DeviceString <<
"]";
311 out << info.szDevice <<
" (device enum failed)";
314 if (info.dwFlags & MONITORINFOF_PRIMARY) {
317 if (info.rcWork.left != 0 || info.rcWork.top != 0) {
318 out <<
" (at " << info.rcWork.left <<
"x" << info.rcWork.top <<
")";
329 if (request_dxdisplay_information) {
330 if (windisplay_cat.is_debug()) {
331 windisplay_cat.debug() <<
"Using Direct3D 9 to fetch display information.\n";
335 dx9_display_information(display_search_parameters_dx9, _display_information);
340 if (windisplay_cat.is_debug()) {
341 windisplay_cat.debug() <<
"Using EnumDisplaySettings to fetch display information.\n";
346 int current_mode_index = -1;
348 dm.dmSize =
sizeof(dm);
350 if (EnumDisplaySettings(
nullptr, ENUM_CURRENT_SETTINGS, &dm) != 0) {
351 current_mode.width = dm.dmPelsWidth;
352 current_mode.height = dm.dmPelsHeight;
353 current_mode.bits_per_pixel = dm.dmBitsPerPel;
354 current_mode.refresh_rate = dm.dmDisplayFrequency;
355 current_mode.fullscreen_only = 0;
358 for (
int i = 0; EnumDisplaySettings(
nullptr, i, &dm) != 0; ++i) {
360 mode.width = dm.dmPelsWidth;
361 mode.height = dm.dmPelsHeight;
362 mode.bits_per_pixel = dm.dmBitsPerPel;
363 mode.refresh_rate = dm.dmDisplayFrequency;
364 mode.fullscreen_only = 0;
365 if (i == 0 || mode != display_modes.back()) {
366 if (current_mode_index < 0 && mode == current_mode) {
367 current_mode_index = (int)display_modes.size();
369 display_modes.push_back(mode);
374 _display_information->_total_display_modes = display_modes.size();
375 if (!display_modes.empty()) {
376 _display_information->_current_display_mode_index = current_mode_index;
377 _display_information->_display_mode_array =
new DisplayMode[display_modes.size()];
378 std::copy(display_modes.begin(), display_modes.end(),
379 _display_information->_display_mode_array);
387 OSVERSIONINFO version_info;
389 version_info.dwOSVersionInfoSize =
sizeof(OSVERSIONINFO);
390 if (GetVersionEx(&version_info)) {
391 if (windisplay_cat.is_info()) {
392 sprintf(
string,
"OS version: %lu.%lu.%lu.%lu\n", version_info.dwMajorVersion, version_info.dwMinorVersion, version_info.dwPlatformId, version_info.dwBuildNumber);
393 windisplay_cat.info() << string;
394 windisplay_cat.info() <<
" " << version_info.szCSDVersion <<
"\n";
397 _display_information->_os_version_major = version_info.dwMajorVersion;
398 _display_information->_os_version_minor = version_info.dwMinorVersion;
399 _display_information->_os_version_build = version_info.dwBuildNumber;
400 _display_information->_os_platform_id = version_info.dwPlatformId;
403 _display_width = GetSystemMetrics(SM_CXSCREEN);
404 _display_height = GetSystemMetrics(SM_CYSCREEN);
408 power_dll = LoadLibrary(
"PowrProf.dll");
410 CallNtPowerInformationFunction = (CallNtPowerInformationType) GetProcAddress(power_dll,
"CallNtPowerInformation");
411 if (CallNtPowerInformationFunction) {
413 _display_information->_update_cpu_frequency_function = update_cpu_frequency_function;
414 update_cpu_frequency_function(0, _display_information);
416 sprintf(
string,
"max Mhz %I64d, current Mhz %I64d\n", _display_information->_maximum_cpu_frequency, _display_information->_current_cpu_frequency);
418 windisplay_cat.info() << string;
433 _display_information->_get_memory_information_function = get_memory_information;
438 LARGE_INTEGER counter;
440 LARGE_INTEGER frequency;
444 counter.QuadPart = 0;
446 frequency.QuadPart = 0;
451 windisplay_cat.info() <<
"begin QueryPerformanceFrequency\n";
452 thread = GetCurrentThread();
453 priority = GetThreadPriority (thread);
454 SetThreadPriority(thread, THREAD_PRIORITY_TIME_CRITICAL);
456 if (QueryPerformanceFrequency(&frequency)) {
457 if (frequency.QuadPart > 0) {
458 if (QueryPerformanceCounter (&counter)) {
460 end.QuadPart = counter.QuadPart + frequency.QuadPart;
461 while (QueryPerformanceCounter (&counter) && counter.QuadPart < end.QuadPart) {
464 end_time = __rdtsc();
466 _display_information->_cpu_frequency = end_time - time;
471 SetThreadPriority(thread, priority);
472 sprintf(
string,
"QueryPerformanceFrequency: %I64d\n", frequency.QuadPart);
473 windisplay_cat.info() << string;
474 sprintf(
string,
"CPU frequency: %I64d\n", _display_information->_cpu_frequency);
475 windisplay_cat.info() << string;
478 count_number_of_cpus(_display_information);
Parameters used for searching display capabilities.
TypeHandle is the identifier used to differentiate C++ class types.
virtual void lookup_cpu_data()
Looks up the detailed CPU information and stores it in _display_information, if supported by the OS.
This is our own Panda specialization on the default STL vector.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
int count_bits_in_word(unsigned short x)
Returns the number of 1 bits in the indicated word.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.