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https://git.suyu.dev/suyu/suyu.git
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core: Replace remaining old non-generic logger usages with fmt-capable equivalents
LOG_GENERIC usages will be amended in a follow-up to keep API changes separate from interface changes, as it will require removing a parameter from the relevant function in the VMManager class.
This commit is contained in:
parent
3dd3cdeafd
commit
c33755e2b9
6 changed files with 28 additions and 28 deletions
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@ -55,8 +55,8 @@ public:
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}
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}
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void InterpreterFallback(u64 pc, size_t num_instructions) override {
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void InterpreterFallback(u64 pc, size_t num_instructions) override {
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LOG_INFO(Core_ARM, "Unicorn fallback @ 0x%" PRIx64 " for %zu instructions (instr = %08x)",
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NGLOG_INFO(Core_ARM, "Unicorn fallback @ {:#X} for {} instructions (instr = {:08X})", pc,
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pc, num_instructions, MemoryReadCode(pc));
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num_instructions, MemoryReadCode(pc));
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ARM_Interface::ThreadContext ctx;
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ARM_Interface::ThreadContext ctx;
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parent.SaveContext(ctx);
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parent.SaveContext(ctx);
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@ -55,7 +55,7 @@ System::ResultStatus System::RunLoop(bool tight_loop) {
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// If we don't have a currently active thread then don't execute instructions,
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// If we don't have a currently active thread then don't execute instructions,
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// instead advance to the next event and try to yield to the next thread
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// instead advance to the next event and try to yield to the next thread
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if (Kernel::GetCurrentThread() == nullptr) {
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if (Kernel::GetCurrentThread() == nullptr) {
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LOG_TRACE(Core_ARM, "Idling");
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NGLOG_TRACE(Core_ARM, "Idling");
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CoreTiming::Idle();
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CoreTiming::Idle();
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CoreTiming::Advance();
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CoreTiming::Advance();
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PrepareReschedule();
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PrepareReschedule();
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@ -82,15 +82,15 @@ System::ResultStatus System::Load(EmuWindow* emu_window, const std::string& file
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app_loader = Loader::GetLoader(filepath);
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app_loader = Loader::GetLoader(filepath);
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if (!app_loader) {
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if (!app_loader) {
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LOG_CRITICAL(Core, "Failed to obtain loader for %s!", filepath.c_str());
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NGLOG_CRITICAL(Core, "Failed to obtain loader for {}!", filepath);
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return ResultStatus::ErrorGetLoader;
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return ResultStatus::ErrorGetLoader;
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}
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}
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std::pair<boost::optional<u32>, Loader::ResultStatus> system_mode =
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std::pair<boost::optional<u32>, Loader::ResultStatus> system_mode =
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app_loader->LoadKernelSystemMode();
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app_loader->LoadKernelSystemMode();
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if (system_mode.second != Loader::ResultStatus::Success) {
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if (system_mode.second != Loader::ResultStatus::Success) {
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LOG_CRITICAL(Core, "Failed to determine system mode (Error %i)!",
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NGLOG_CRITICAL(Core, "Failed to determine system mode (Error {})!",
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static_cast<int>(system_mode.second));
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static_cast<int>(system_mode.second));
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switch (system_mode.second) {
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switch (system_mode.second) {
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case Loader::ResultStatus::ErrorEncrypted:
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case Loader::ResultStatus::ErrorEncrypted:
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@ -106,15 +106,15 @@ System::ResultStatus System::Load(EmuWindow* emu_window, const std::string& file
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ResultStatus init_result{Init(emu_window, system_mode.first.get())};
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ResultStatus init_result{Init(emu_window, system_mode.first.get())};
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if (init_result != ResultStatus::Success) {
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if (init_result != ResultStatus::Success) {
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LOG_CRITICAL(Core, "Failed to initialize system (Error %i)!",
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NGLOG_CRITICAL(Core, "Failed to initialize system (Error {})!",
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static_cast<int>(init_result));
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static_cast<int>(init_result));
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System::Shutdown();
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System::Shutdown();
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return init_result;
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return init_result;
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}
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}
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const Loader::ResultStatus load_result{app_loader->Load(current_process)};
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const Loader::ResultStatus load_result{app_loader->Load(current_process)};
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if (Loader::ResultStatus::Success != load_result) {
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if (Loader::ResultStatus::Success != load_result) {
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LOG_CRITICAL(Core, "Failed to load ROM (Error %i)!", static_cast<int>(load_result));
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NGLOG_CRITICAL(Core, "Failed to load ROM (Error {})!", static_cast<int>(load_result));
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System::Shutdown();
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System::Shutdown();
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switch (load_result) {
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switch (load_result) {
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@ -151,7 +151,7 @@ void System::Reschedule() {
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}
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}
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System::ResultStatus System::Init(EmuWindow* emu_window, u32 system_mode) {
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System::ResultStatus System::Init(EmuWindow* emu_window, u32 system_mode) {
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LOG_DEBUG(HW_Memory, "initialized OK");
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NGLOG_DEBUG(HW_Memory, "initialized OK");
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CoreTiming::Init();
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CoreTiming::Init();
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@ -162,7 +162,7 @@ System::ResultStatus System::Init(EmuWindow* emu_window, u32 system_mode) {
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cpu_core = std::make_shared<ARM_Dynarmic>();
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cpu_core = std::make_shared<ARM_Dynarmic>();
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#else
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#else
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cpu_core = std::make_shared<ARM_Unicorn>();
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cpu_core = std::make_shared<ARM_Unicorn>();
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LOG_WARNING(Core, "CPU JIT requested, but Dynarmic not available");
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NGLOG_WARNING(Core, "CPU JIT requested, but Dynarmic not available");
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#endif
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#endif
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} else {
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} else {
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cpu_core = std::make_shared<ARM_Unicorn>();
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cpu_core = std::make_shared<ARM_Unicorn>();
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@ -184,7 +184,7 @@ System::ResultStatus System::Init(EmuWindow* emu_window, u32 system_mode) {
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return ResultStatus::ErrorVideoCore;
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return ResultStatus::ErrorVideoCore;
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}
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}
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LOG_DEBUG(Core, "Initialized OK");
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NGLOG_DEBUG(Core, "Initialized OK");
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// Reset counters and set time origin to current frame
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// Reset counters and set time origin to current frame
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GetAndResetPerfStats();
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GetAndResetPerfStats();
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@ -218,7 +218,7 @@ void System::Shutdown() {
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app_loader.reset();
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app_loader.reset();
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LOG_DEBUG(Core, "Shutdown OK");
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NGLOG_DEBUG(Core, "Shutdown OK");
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}
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}
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Service::SM::ServiceManager& System::ServiceManager() {
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Service::SM::ServiceManager& System::ServiceManager() {
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@ -51,11 +51,11 @@ inline s64 usToCycles(int us) {
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inline s64 usToCycles(s64 us) {
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inline s64 usToCycles(s64 us) {
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if (us / 1000000 > MAX_VALUE_TO_MULTIPLY) {
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if (us / 1000000 > MAX_VALUE_TO_MULTIPLY) {
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LOG_ERROR(Core_Timing, "Integer overflow, use max value");
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NGLOG_ERROR(Core_Timing, "Integer overflow, use max value");
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return std::numeric_limits<s64>::max();
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return std::numeric_limits<s64>::max();
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}
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}
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if (us > MAX_VALUE_TO_MULTIPLY) {
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if (us > MAX_VALUE_TO_MULTIPLY) {
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LOG_DEBUG(Core_Timing, "Time very big, do rounding");
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NGLOG_DEBUG(Core_Timing, "Time very big, do rounding");
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return BASE_CLOCK_RATE * (us / 1000000);
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return BASE_CLOCK_RATE * (us / 1000000);
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}
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}
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return (BASE_CLOCK_RATE * us) / 1000000;
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return (BASE_CLOCK_RATE * us) / 1000000;
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@ -63,11 +63,11 @@ inline s64 usToCycles(s64 us) {
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inline s64 usToCycles(u64 us) {
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inline s64 usToCycles(u64 us) {
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if (us / 1000000 > MAX_VALUE_TO_MULTIPLY) {
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if (us / 1000000 > MAX_VALUE_TO_MULTIPLY) {
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LOG_ERROR(Core_Timing, "Integer overflow, use max value");
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NGLOG_ERROR(Core_Timing, "Integer overflow, use max value");
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return std::numeric_limits<s64>::max();
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return std::numeric_limits<s64>::max();
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}
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}
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if (us > MAX_VALUE_TO_MULTIPLY) {
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if (us > MAX_VALUE_TO_MULTIPLY) {
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LOG_DEBUG(Core_Timing, "Time very big, do rounding");
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NGLOG_DEBUG(Core_Timing, "Time very big, do rounding");
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return BASE_CLOCK_RATE * static_cast<s64>(us / 1000000);
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return BASE_CLOCK_RATE * static_cast<s64>(us / 1000000);
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}
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}
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return (BASE_CLOCK_RATE * static_cast<s64>(us)) / 1000000;
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return (BASE_CLOCK_RATE * static_cast<s64>(us)) / 1000000;
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@ -83,11 +83,11 @@ inline s64 nsToCycles(int ns) {
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inline s64 nsToCycles(s64 ns) {
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inline s64 nsToCycles(s64 ns) {
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if (ns / 1000000000 > MAX_VALUE_TO_MULTIPLY) {
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if (ns / 1000000000 > MAX_VALUE_TO_MULTIPLY) {
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LOG_ERROR(Core_Timing, "Integer overflow, use max value");
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NGLOG_ERROR(Core_Timing, "Integer overflow, use max value");
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return std::numeric_limits<s64>::max();
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return std::numeric_limits<s64>::max();
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}
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}
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if (ns > MAX_VALUE_TO_MULTIPLY) {
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if (ns > MAX_VALUE_TO_MULTIPLY) {
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LOG_DEBUG(Core_Timing, "Time very big, do rounding");
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NGLOG_DEBUG(Core_Timing, "Time very big, do rounding");
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return BASE_CLOCK_RATE * (ns / 1000000000);
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return BASE_CLOCK_RATE * (ns / 1000000000);
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}
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}
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return (BASE_CLOCK_RATE * ns) / 1000000000;
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return (BASE_CLOCK_RATE * ns) / 1000000000;
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@ -95,11 +95,11 @@ inline s64 nsToCycles(s64 ns) {
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inline s64 nsToCycles(u64 ns) {
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inline s64 nsToCycles(u64 ns) {
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if (ns / 1000000000 > MAX_VALUE_TO_MULTIPLY) {
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if (ns / 1000000000 > MAX_VALUE_TO_MULTIPLY) {
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LOG_ERROR(Core_Timing, "Integer overflow, use max value");
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NGLOG_ERROR(Core_Timing, "Integer overflow, use max value");
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return std::numeric_limits<s64>::max();
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return std::numeric_limits<s64>::max();
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}
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}
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if (ns > MAX_VALUE_TO_MULTIPLY) {
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if (ns > MAX_VALUE_TO_MULTIPLY) {
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LOG_DEBUG(Core_Timing, "Time very big, do rounding");
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NGLOG_DEBUG(Core_Timing, "Time very big, do rounding");
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return BASE_CLOCK_RATE * (static_cast<s64>(ns) / 1000000000);
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return BASE_CLOCK_RATE * (static_cast<s64>(ns) / 1000000000);
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}
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}
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return (BASE_CLOCK_RATE * static_cast<s64>(ns)) / 1000000000;
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return (BASE_CLOCK_RATE * static_cast<s64>(ns)) / 1000000000;
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@ -59,7 +59,7 @@ template <typename InputDeviceType>
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void RegisterFactory(const std::string& name, std::shared_ptr<Factory<InputDeviceType>> factory) {
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void RegisterFactory(const std::string& name, std::shared_ptr<Factory<InputDeviceType>> factory) {
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auto pair = std::make_pair(name, std::move(factory));
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auto pair = std::make_pair(name, std::move(factory));
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if (!Impl::FactoryList<InputDeviceType>::list.insert(std::move(pair)).second) {
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if (!Impl::FactoryList<InputDeviceType>::list.insert(std::move(pair)).second) {
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LOG_ERROR(Input, "Factory %s already registered", name.c_str());
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NGLOG_ERROR(Input, "Factory '{}' already registered", name);
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}
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}
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}
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}
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@ -71,7 +71,7 @@ void RegisterFactory(const std::string& name, std::shared_ptr<Factory<InputDevic
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template <typename InputDeviceType>
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template <typename InputDeviceType>
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void UnregisterFactory(const std::string& name) {
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void UnregisterFactory(const std::string& name) {
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if (Impl::FactoryList<InputDeviceType>::list.erase(name) == 0) {
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if (Impl::FactoryList<InputDeviceType>::list.erase(name) == 0) {
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LOG_ERROR(Input, "Factory %s not registered", name.c_str());
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NGLOG_ERROR(Input, "Factory '{}' not registered", name);
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}
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}
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}
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}
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@ -88,7 +88,7 @@ std::unique_ptr<InputDeviceType> CreateDevice(const std::string& params) {
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const auto pair = factory_list.find(engine);
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const auto pair = factory_list.find(engine);
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if (pair == factory_list.end()) {
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if (pair == factory_list.end()) {
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if (engine != "null") {
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if (engine != "null") {
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LOG_ERROR(Input, "Unknown engine name: %s", engine.c_str());
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NGLOG_ERROR(Input, "Unknown engine name: {}", engine);
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}
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}
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return std::make_unique<InputDeviceType>();
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return std::make_unique<InputDeviceType>();
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}
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}
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@ -42,14 +42,14 @@ u64 GetTelemetryId() {
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if (FileUtil::Exists(filename)) {
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if (FileUtil::Exists(filename)) {
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FileUtil::IOFile file(filename, "rb");
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FileUtil::IOFile file(filename, "rb");
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if (!file.IsOpen()) {
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if (!file.IsOpen()) {
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LOG_ERROR(Core, "failed to open telemetry_id: %s", filename.c_str());
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NGLOG_ERROR(Core, "failed to open telemetry_id: {}", filename);
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return {};
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return {};
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}
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}
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file.ReadBytes(&telemetry_id, sizeof(u64));
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file.ReadBytes(&telemetry_id, sizeof(u64));
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} else {
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} else {
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FileUtil::IOFile file(filename, "wb");
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FileUtil::IOFile file(filename, "wb");
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if (!file.IsOpen()) {
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if (!file.IsOpen()) {
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LOG_ERROR(Core, "failed to open telemetry_id: %s", filename.c_str());
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NGLOG_ERROR(Core, "failed to open telemetry_id: {}", filename);
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return {};
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return {};
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}
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}
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telemetry_id = GenerateTelemetryId();
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telemetry_id = GenerateTelemetryId();
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@ -65,7 +65,7 @@ u64 RegenerateTelemetryId() {
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FileUtil::IOFile file(filename, "wb");
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FileUtil::IOFile file(filename, "wb");
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if (!file.IsOpen()) {
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if (!file.IsOpen()) {
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LOG_ERROR(Core, "failed to open telemetry_id: %s", filename.c_str());
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NGLOG_ERROR(Core, "failed to open telemetry_id: {}", filename);
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return {};
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return {};
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}
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}
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file.WriteBytes(&new_telemetry_id, sizeof(u64));
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file.WriteBytes(&new_telemetry_id, sizeof(u64));
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@ -159,7 +159,7 @@ void Recorder::Finish(const std::string& filename) {
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throw "Failed to write stream element";
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throw "Failed to write stream element";
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}
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}
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} catch (const char* str) {
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} catch (const char* str) {
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LOG_ERROR(HW_GPU, "Writing CiTrace file failed: %s", str);
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NGLOG_ERROR(HW_GPU, "Writing CiTrace file failed: {}", str);
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}
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}
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}
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}
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