pcsx2/common/include/x86emitter/implement/simd_moremovs.h

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/* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2009 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
namespace x86Emitter {
// --------------------------------------------------------------------------------------
// xImplSimd_MovHL
// --------------------------------------------------------------------------------------
// Moves to/from high/low portions of an xmm register.
// These instructions cannot be used in reg/reg form.
//
struct xImplSimd_MovHL
{
u16 Opcode;
void PS( const xRegisterSSE& to, const ModSibBase& from ) const;
void PS( const ModSibBase& to, const xRegisterSSE& from ) const;
void PD( const xRegisterSSE& to, const ModSibBase& from ) const;
void PD( const ModSibBase& to, const xRegisterSSE& from ) const;
};
// --------------------------------------------------------------------------------------
// xImplSimd_MovHL_RtoR
// --------------------------------------------------------------------------------------
// RegtoReg forms of MOVHL/MOVLH -- these are the same opcodes as MOVH/MOVL but
// do something kinda different! Fun!
//
struct xImplSimd_MovHL_RtoR
{
u16 Opcode;
void PS( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void PD( const xRegisterSSE& to, const xRegisterSSE& from ) const;
};
// --------------------------------------------------------------------------------------
// xImplSimd_MoveSSE
// --------------------------------------------------------------------------------------
// Legends in their own right: MOVAPS / MOVAPD / MOVUPS / MOVUPD
//
// All implementations of Unaligned Movs will, when possible, use aligned movs instead.
// This happens when using Mem,Reg or Reg,Mem forms where the address is simple displacement
// which can be checked for alignment at runtime.
//
struct xImplSimd_MoveSSE
{
u8 Prefix;
bool isAligned;
void operator()( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void operator()( const xRegisterSSE& to, const ModSibBase& from ) const;
void operator()( const ModSibBase& to, const xRegisterSSE& from ) const;
};
// --------------------------------------------------------------------------------------
// xImplSimd_MoveDQ
// --------------------------------------------------------------------------------------
// Implementations for MOVDQA / MOVDQU
//
// All implementations of Unaligned Movs will, when possible, use aligned movs instead.
// This happens when using Mem,Reg or Reg,Mem forms where the address is simple displacement
// which can be checked for alignment at runtime.
struct xImplSimd_MoveDQ
{
u8 Prefix;
bool isAligned;
void operator()( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void operator()( const xRegisterSSE& to, const ModSibBase& from ) const;
void operator()( const ModSibBase& to, const xRegisterSSE& from ) const;
};
// --------------------------------------------------------------------------------------
// xImplSimd_Blend
// --------------------------------------------------------------------------------------
// Blend - Conditional copying of values in src into dest.
//
struct xImplSimd_Blend
{
// [SSE-4.1] Conditionally copies dword values from src to dest, depending on the
// mask bits in the immediate operand (bits [3:0]). Each mask bit corresponds to a
// dword element in a 128-bit operand.
//
// If a mask bit is 1, then the corresponding dword in the source operand is copied
// to dest, else the dword element in dest is left unchanged.
//
xImplSimd_DestRegImmSSE PS;
// [SSE-4.1] Conditionally copies quadword values from src to dest, depending on the
// mask bits in the immediate operand (bits [1:0]). Each mask bit corresponds to a
// quadword element in a 128-bit operand.
//
// If a mask bit is 1, then the corresponding dword in the source operand is copied
// to dest, else the dword element in dest is left unchanged.
//
xImplSimd_DestRegImmSSE PD;
// [SSE-4.1] Conditionally copies dword values from src to dest, depending on the
// mask (bits [3:0]) in XMM0 (yes, the fixed register). Each mask bit corresponds
// to a dword element in the 128-bit operand.
//
// If a mask bit is 1, then the corresponding dword in the source operand is copied
// to dest, else the dword element in dest is left unchanged.
//
xImplSimd_DestRegSSE VPS;
// [SSE-4.1] Conditionally copies quadword values from src to dest, depending on the
// mask (bits [1:0]) in XMM0 (yes, the fixed register). Each mask bit corresponds
// to a quadword element in the 128-bit operand.
//
// If a mask bit is 1, then the corresponding dword in the source operand is copied
// to dest, else the dword element in dest is left unchanged.
//
xImplSimd_DestRegSSE VPD;
};
// --------------------------------------------------------------------------------------
// xImplSimd_PMove
// --------------------------------------------------------------------------------------
// Packed Move with Sign or Zero extension.
//
struct xImplSimd_PMove
{
u16 OpcodeBase;
// [SSE-4.1] Zero/Sign-extend the low byte values in src into word integers
// and store them in dest.
void BW( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void BW( const xRegisterSSE& to, const ModSib64& from ) const;
// [SSE-4.1] Zero/Sign-extend the low byte values in src into dword integers
// and store them in dest.
void BD( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void BD( const xRegisterSSE& to, const ModSib32& from ) const;
// [SSE-4.1] Zero/Sign-extend the low byte values in src into qword integers
// and store them in dest.
void BQ( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void BQ( const xRegisterSSE& to, const ModSib16& from ) const;
// [SSE-4.1] Zero/Sign-extend the low word values in src into dword integers
// and store them in dest.
void WD( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void WD( const xRegisterSSE& to, const ModSib64& from ) const;
// [SSE-4.1] Zero/Sign-extend the low word values in src into qword integers
// and store them in dest.
void WQ( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void WQ( const xRegisterSSE& to, const ModSib32& from ) const;
// [SSE-4.1] Zero/Sign-extend the low dword values in src into qword integers
// and store them in dest.
void DQ( const xRegisterSSE& to, const xRegisterSSE& from ) const;
void DQ( const xRegisterSSE& to, const ModSib64& from ) const;
};
}