pcsx2/common/emitter/tools.h

/*  PCSX2 - PS2 Emulator for PCs
 *  Copyright (C) 2002-2010  PCSX2 Dev Team
 *
 *  PCSX2 is free software: you can redistribute it and/or modify it under the terms
 *  of the GNU Lesser General Public License as published by the Free Software Found-
 *  ation, either version 3 of the License, or (at your option) any later version.
 *
 *  PCSX2 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 PCSX2.
 *  If not, see <http://www.gnu.org/licenses/>.
 */

#pragma once

#include "common/Dependencies.h"

enum x86VendorType
{
	x86Vendor_Intel = 0,
	x86Vendor_AMD = 1,
	x86Vendor_Unknown = 2
};

// --------------------------------------------------------------------------------------
//  x86capabilities
// --------------------------------------------------------------------------------------
class x86capabilities
{
public:
	bool isIdentified;

public:
	x86VendorType VendorID;

	uint FamilyID; // Processor Family
	uint Model; // Processor Model
	uint TypeID; // Processor Type
	uint StepID; // Stepping ID

	u32 Flags; // Feature Flags
	u32 Flags2; // More Feature Flags
	u32 EFlags; // Extended Feature Flags
	u32 EFlags2; // Extended Feature Flags pg2
	u32 SEFlag; // Structured Extended Feature Flags Enumeration

	char VendorName[16]; // Vendor/Creator ID
	char FamilyName[50]; // the original cpu name

	// ----------------------------------------------------------------------------
	//   x86 CPU Capabilities Section (all boolean flags!)
	// ----------------------------------------------------------------------------

	union
	{
		struct
		{
			u32 hasFloatingPointUnit : 1;
			u32 hasVirtual8086ModeEnhancements : 1;
			u32 hasDebuggingExtensions : 1;
			u32 hasPageSizeExtensions : 1;
			u32 hasTimeStampCounter : 1;
			u32 hasModelSpecificRegisters : 1;
			u32 hasPhysicalAddressExtension : 1;
			u32 hasCOMPXCHG8BInstruction : 1;
			u32 hasAdvancedProgrammableInterruptController : 1;
			u32 hasSEPFastSystemCall : 1;
			u32 hasMemoryTypeRangeRegisters : 1;
			u32 hasPTEGlobalFlag : 1;
			u32 hasMachineCheckArchitecture : 1;
			u32 hasConditionalMoveAndCompareInstructions : 1;
			u32 hasFGPageAttributeTable : 1;
			u32 has36bitPageSizeExtension : 1;
			u32 hasProcessorSerialNumber : 1;
			u32 hasCFLUSHInstruction : 1;
			u32 hasDebugStore : 1;
			u32 hasACPIThermalMonitorAndClockControl : 1;
			u32 hasFastStreamingSIMDExtensionsSaveRestore : 1;
			u32 hasStreamingSIMDExtensions : 1;
			u32 hasStreamingSIMD2Extensions : 1;
			u32 hasSelfSnoop : 1;

			// is TRUE for both multi-core and Hyperthreaded CPUs.
			u32 hasMultiThreading : 1;

			u32 hasThermalMonitor : 1;
			u32 hasIntel64BitArchitecture : 1;
			u32 hasStreamingSIMD3Extensions : 1;
			u32 hasSupplementalStreamingSIMD3Extensions : 1;
			u32 hasStreamingSIMD4Extensions : 1;
			u32 hasStreamingSIMD4Extensions2 : 1;
			u32 hasAVX : 1;
			u32 hasAVX2 : 1;
			u32 hasBMI1 : 1;
			u32 hasBMI2 : 1;
			u32 hasFMA : 1;

			// AMD-specific CPU Features
			u32 hasAMD64BitArchitecture : 1;
			u32 hasStreamingSIMD4ExtensionsA : 1;
		};

		u64 AllCapabilities;
	};

	// Core Counts!
	u32 PhysicalCores;
	u32 LogicalCores;

public:
	x86capabilities();

	void Identify();
	void CountCores();
	wxString GetTypeName() const;

	static u32 CachedMHz();
	u32 CalculateMHz() const;

	void SIMD_EstablishMXCSRmask();

protected:
	s64 _CPUSpeedHz(u64 time) const;
	void CountLogicalCores();
};

enum SSE_RoundMode
{
	SSE_RoundMode_FIRST = 0,
	SSEround_Nearest = 0,
	SSEround_NegInf,
	SSEround_PosInf,
	SSEround_Chop,
	SSE_RoundMode_COUNT
};

ImplementEnumOperators(SSE_RoundMode);

// Predeclaration for xIndirect32
namespace x86Emitter
{
	template <typename T>
	class xIndirect;
	typedef xIndirect<u32> xIndirect32;
} // namespace x86Emitter

// --------------------------------------------------------------------------------------
//  SSE_MXCSR  -  Control/Status Register (bitfield)
// --------------------------------------------------------------------------------------
// Bits 0-5 are exception flags; used only if SSE exceptions have been enabled.
//   Bits in this field are "sticky" and, once an exception has occured, must be manually
//   cleared using LDMXCSR or FXRSTOR.
//
// Bits 7-12 are the masks for disabling the exceptions in bits 0-5.  Cleared bits allow
//   exceptions, set bits mask exceptions from being raised.
//
union SSE_MXCSR
{
	u32 bitmask;
	struct
	{
		u32
			InvalidOpFlag : 1,
			DenormalFlag : 1,
			DivideByZeroFlag : 1,
			OverflowFlag : 1,
			UnderflowFlag : 1,
			PrecisionFlag : 1,

			// This bit is supported only on SSE2 or better CPUs.  Setting it to 1 on
			// SSE1 cpus will result in an invalid instruction exception when executing
			// LDMXSCR.
			DenormalsAreZero : 1,

			InvalidOpMask : 1,
			DenormalMask : 1,
			DivideByZeroMask : 1,
			OverflowMask : 1,
			UnderflowMask : 1,
			PrecisionMask : 1,

			RoundingControl : 2,
			FlushToZero : 1;
	};

	SSE_RoundMode GetRoundMode() const;
	SSE_MXCSR& SetRoundMode(SSE_RoundMode mode);
	SSE_MXCSR& ClearExceptionFlags();
	SSE_MXCSR& EnableExceptions();
	SSE_MXCSR& DisableExceptions();

	SSE_MXCSR& ApplyReserveMask();

	bool operator==(const SSE_MXCSR& right) const
	{
		return bitmask == right.bitmask;
	}

	bool operator!=(const SSE_MXCSR& right) const
	{
		return bitmask != right.bitmask;
	}

	operator x86Emitter::xIndirect32() const;
};

extern SSE_MXCSR MXCSR_Mask;


extern __aligned16 x86capabilities x86caps;