/usr/lib/gcc/x86_64-linux-gnu/5/include/d/core/simd.d is in libphobos-5-dev 5.5.0-12ubuntu1.
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/**
* Builtin SIMD intrinsics
*
* Source: $(DRUNTIMESRC core/_simd.d)
*
* Copyright: Copyright Digital Mars 2012.
* License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
* Authors: $(WEB digitalmars.com, Walter Bright),
*/
/* NOTE: This file has been patched from the original DMD distribution to
* work with the GDC compiler.
*/
module core.simd;
pure:
nothrow:
@safe:
@nogc:
/*******************************
* Create a vector type.
*
* Parameters:
* T = one of double[2], float[4], void[16], byte[16], ubyte[16],
* short[8], ushort[8], int[4], uint[4], long[2], ulong[2].
* For 256 bit vectors,
* one of double[4], float[8], void[32], byte[32], ubyte[32],
* short[16], ushort[16], int[8], uint[8], long[4], ulong[4]
*/
template Vector(T)
{
/* __vector is compiler magic, hide it behind a template.
* The compiler will reject T's that don't work.
*/
alias __vector(T) Vector;
}
/* Handy aliases
*/
static if (is(Vector!(void[8]))) alias Vector!(void[8]) void8; ///
static if (is(Vector!(float[2]))) alias Vector!(float[2]) float2; ///
static if (is(Vector!(byte[8]))) alias Vector!(byte[8]) byte8; ///
static if (is(Vector!(ubyte[8]))) alias Vector!(ubyte[8]) ubyte8; ///
static if (is(Vector!(short[4]))) alias Vector!(short[4]) short4; ///
static if (is(Vector!(ushort[4]))) alias Vector!(ushort[4]) ushort4; ///
static if (is(Vector!(int[2]))) alias Vector!(int[2]) int2; ///
static if (is(Vector!(uint[2]))) alias Vector!(uint[2]) uint2; ///
static if (is(Vector!(void[16]))) alias Vector!(void[16]) void16; ///
static if (is(Vector!(double[2]))) alias Vector!(double[2]) double2; ///
static if (is(Vector!(float[4]))) alias Vector!(float[4]) float4; ///
static if (is(Vector!(byte[16]))) alias Vector!(byte[16]) byte16; ///
static if (is(Vector!(ubyte[16]))) alias Vector!(ubyte[16]) ubyte16; ///
static if (is(Vector!(short[8]))) alias Vector!(short[8]) short8; ///
static if (is(Vector!(ushort[8]))) alias Vector!(ushort[8]) ushort8; ///
static if (is(Vector!(int[4]))) alias Vector!(int[4]) int4; ///
static if (is(Vector!(uint[4]))) alias Vector!(uint[4]) uint4; ///
static if (is(Vector!(long[2]))) alias Vector!(long[2]) long2; ///
static if (is(Vector!(ulong[2]))) alias Vector!(ulong[2]) ulong2; ///
static if (is(Vector!(void[32]))) alias Vector!(void[32]) void32; ///
static if (is(Vector!(double[4]))) alias Vector!(double[4]) double4; ///
static if (is(Vector!(float[8]))) alias Vector!(float[8]) float8; ///
static if (is(Vector!(byte[32]))) alias Vector!(byte[32]) byte32; ///
static if (is(Vector!(ubyte[32]))) alias Vector!(ubyte[32]) ubyte32; ///
static if (is(Vector!(short[16]))) alias Vector!(short[16]) short16; ///
static if (is(Vector!(ushort[16]))) alias Vector!(ushort[16]) ushort16; ///
static if (is(Vector!(int[8]))) alias Vector!(int[8]) int8; ///
static if (is(Vector!(uint[8]))) alias Vector!(uint[8]) uint8; ///
static if (is(Vector!(long[4]))) alias Vector!(long[4]) long4; ///
static if (is(Vector!(ulong[4]))) alias Vector!(ulong[4]) ulong4; ///
version ( D_SIMD )
{
/** XMM opcodes that conform to the following:
*
* opcode xmm1,xmm2/mem
*
* and do not have side effects (i.e. do not write to memory).
*/
enum XMM
{
ADDSS = 0xF30F58,
ADDSD = 0xF20F58,
ADDPS = 0x000F58,
ADDPD = 0x660F58,
PADDB = 0x660FFC,
PADDW = 0x660FFD,
PADDD = 0x660FFE,
PADDQ = 0x660FD4,
SUBSS = 0xF30F5C,
SUBSD = 0xF20F5C,
SUBPS = 0x000F5C,
SUBPD = 0x660F5C,
PSUBB = 0x660FF8,
PSUBW = 0x660FF9,
PSUBD = 0x660FFA,
PSUBQ = 0x660FFB,
MULSS = 0xF30F59,
MULSD = 0xF20F59,
MULPS = 0x000F59,
MULPD = 0x660F59,
PMULLW = 0x660FD5,
DIVSS = 0xF30F5E,
DIVSD = 0xF20F5E,
DIVPS = 0x000F5E,
DIVPD = 0x660F5E,
PAND = 0x660FDB,
POR = 0x660FEB,
UCOMISS = 0x000F2E,
UCOMISD = 0x660F2E,
XORPS = 0x000F57,
XORPD = 0x660F57,
// Use STO and LOD instead of MOV to distinguish the direction
STOSS = 0xF30F11,
STOSD = 0xF20F11,
STOAPS = 0x000F29,
STOAPD = 0x660F29,
STODQA = 0x660F7F,
STOD = 0x660F7E, // MOVD reg/mem64, xmm 66 0F 7E /r
STOQ = 0x660FD6,
LODSS = 0xF30F10,
LODSD = 0xF20F10,
LODAPS = 0x000F28,
LODAPD = 0x660F28,
LODDQA = 0x660F6F,
LODD = 0x660F6E, // MOVD xmm, reg/mem64 66 0F 6E /r
LODQ = 0xF30F7E,
LODDQU = 0xF30F6F, // MOVDQU xmm1, xmm2/mem128 F3 0F 6F /r
STODQU = 0xF30F7F, // MOVDQU xmm1/mem128, xmm2 F3 0F 7F /r
MOVDQ2Q = 0xF20FD6, // MOVDQ2Q mmx, xmm F2 0F D6 /r
MOVHLPS = 0x0F12, // MOVHLPS xmm1, xmm2 0F 12 /r
LODHPD = 0x660F16,
STOHPD = 0x660F17, // MOVHPD mem64, xmm 66 0F 17 /r
LODHPS = 0x0F16,
STOHPS = 0x0F17,
MOVLHPS = 0x0F16,
LODLPD = 0x660F12,
STOLPD = 0x660F13,
LODLPS = 0x0F12,
STOLPS = 0x0F13,
MOVMSKPD = 0x660F50,
MOVMSKPS = 0x0F50,
MOVNTDQ = 0x660FE7,
MOVNTI = 0x0FC3,
MOVNTPD = 0x660F2B,
MOVNTPS = 0x0F2B,
MOVNTQ = 0x0FE7,
MOVQ2DQ = 0xF30FD6,
LODUPD = 0x660F10,
STOUPD = 0x660F11,
LODUPS = 0x0F10,
STOUPS = 0x0F11,
PACKSSDW = 0x660F6B,
PACKSSWB = 0x660F63,
PACKUSWB = 0x660F67,
PADDSB = 0x660FEC,
PADDSW = 0x660FED,
PADDUSB = 0x660FDC,
PADDUSW = 0x660FDD,
PANDN = 0x660FDF,
PCMPEQB = 0x660F74,
PCMPEQD = 0x660F76,
PCMPEQW = 0x660F75,
PCMPGTB = 0x660F64,
PCMPGTD = 0x660F66,
PCMPGTW = 0x660F65,
PMADDWD = 0x660FF5,
PSLLW = 0x660FF1,
PSLLD = 0x660FF2,
PSLLQ = 0x660FF3,
PSRAW = 0x660FE1,
PSRAD = 0x660FE2,
PSRLW = 0x660FD1,
PSRLD = 0x660FD2,
PSRLQ = 0x660FD3,
PSUBSB = 0x660FE8,
PSUBSW = 0x660FE9,
PSUBUSB = 0x660FD8,
PSUBUSW = 0x660FD9,
PUNPCKHBW = 0x660F68,
PUNPCKHDQ = 0x660F6A,
PUNPCKHWD = 0x660F69,
PUNPCKLBW = 0x660F60,
PUNPCKLDQ = 0x660F62,
PUNPCKLWD = 0x660F61,
PXOR = 0x660FEF,
ANDPD = 0x660F54,
ANDPS = 0x0F54,
ANDNPD = 0x660F55,
ANDNPS = 0x0F55,
CMPPS = 0x0FC2,
CMPPD = 0x660FC2,
CMPSD = 0xF20FC2,
CMPSS = 0xF30FC2,
COMISD = 0x660F2F,
COMISS = 0x0F2F,
CVTDQ2PD = 0xF30FE6,
CVTDQ2PS = 0x0F5B,
CVTPD2DQ = 0xF20FE6,
CVTPD2PI = 0x660F2D,
CVTPD2PS = 0x660F5A,
CVTPI2PD = 0x660F2A,
CVTPI2PS = 0x0F2A,
CVTPS2DQ = 0x660F5B,
CVTPS2PD = 0x0F5A,
CVTPS2PI = 0x0F2D,
CVTSD2SI = 0xF20F2D,
CVTSD2SS = 0xF20F5A,
CVTSI2SD = 0xF20F2A,
CVTSI2SS = 0xF30F2A,
CVTSS2SD = 0xF30F5A,
CVTSS2SI = 0xF30F2D,
CVTTPD2PI = 0x660F2C,
CVTTPD2DQ = 0x660FE6,
CVTTPS2DQ = 0xF30F5B,
CVTTPS2PI = 0x0F2C,
CVTTSD2SI = 0xF20F2C,
CVTTSS2SI = 0xF30F2C,
MASKMOVDQU = 0x660FF7,
MASKMOVQ = 0x0FF7,
MAXPD = 0x660F5F,
MAXPS = 0x0F5F,
MAXSD = 0xF20F5F,
MAXSS = 0xF30F5F,
MINPD = 0x660F5D,
MINPS = 0x0F5D,
MINSD = 0xF20F5D,
MINSS = 0xF30F5D,
ORPD = 0x660F56,
ORPS = 0x0F56,
PAVGB = 0x660FE0,
PAVGW = 0x660FE3,
PMAXSW = 0x660FEE,
//PINSRW = 0x660FC4,
PMAXUB = 0x660FDE,
PMINSW = 0x660FEA,
PMINUB = 0x660FDA,
//PMOVMSKB = 0x660FD7,
PMULHUW = 0x660FE4,
PMULHW = 0x660FE5,
PMULUDQ = 0x660FF4,
PSADBW = 0x660FF6,
PUNPCKHQDQ = 0x660F6D,
PUNPCKLQDQ = 0x660F6C,
RCPPS = 0x0F53,
RCPSS = 0xF30F53,
RSQRTPS = 0x0F52,
RSQRTSS = 0xF30F52,
SQRTPD = 0x660F51,
SHUFPD = 0x660FC6,
SHUFPS = 0x0FC6,
SQRTPS = 0x0F51,
SQRTSD = 0xF20F51,
SQRTSS = 0xF30F51,
UNPCKHPD = 0x660F15,
UNPCKHPS = 0x0F15,
UNPCKLPD = 0x660F14,
UNPCKLPS = 0x0F14,
PSHUFD = 0x660F70,
PSHUFHW = 0xF30F70,
PSHUFLW = 0xF20F70,
PSHUFW = 0x0F70,
PSLLDQ = 0x07660F73,
PSRLDQ = 0x03660F73,
//PREFETCH = 0x0F18,
// SSE3 Pentium 4 (Prescott)
ADDSUBPD = 0x660FD0,
ADDSUBPS = 0xF20FD0,
HADDPD = 0x660F7C,
HADDPS = 0xF20F7C,
HSUBPD = 0x660F7D,
HSUBPS = 0xF20F7D,
MOVDDUP = 0xF20F12,
MOVSHDUP = 0xF30F16,
MOVSLDUP = 0xF30F12,
LDDQU = 0xF20FF0,
MONITOR = 0x0F01C8,
MWAIT = 0x0F01C9,
// SSSE3
PALIGNR = 0x660F3A0F,
PHADDD = 0x660F3802,
PHADDW = 0x660F3801,
PHADDSW = 0x660F3803,
PABSB = 0x660F381C,
PABSD = 0x660F381E,
PABSW = 0x660F381D,
PSIGNB = 0x660F3808,
PSIGND = 0x660F380A,
PSIGNW = 0x660F3809,
PSHUFB = 0x660F3800,
PMADDUBSW = 0x660F3804,
PMULHRSW = 0x660F380B,
PHSUBD = 0x660F3806,
PHSUBW = 0x660F3805,
PHSUBSW = 0x660F3807,
// SSE4.1
BLENDPD = 0x660F3A0D,
BLENDPS = 0x660F3A0C,
BLENDVPD = 0x660F3815,
BLENDVPS = 0x660F3814,
DPPD = 0x660F3A41,
DPPS = 0x660F3A40,
EXTRACTPS = 0x660F3A17,
INSERTPS = 0x660F3A21,
MPSADBW = 0x660F3A42,
PBLENDVB = 0x660F3810,
PBLENDW = 0x660F3A0E,
PEXTRD = 0x660F3A16,
PEXTRQ = 0x660F3A16,
PINSRB = 0x660F3A20,
PINSRD = 0x660F3A22,
PINSRQ = 0x660F3A22,
MOVNTDQA = 0x660F382A,
PACKUSDW = 0x660F382B,
PCMPEQQ = 0x660F3829,
PEXTRB = 0x660F3A14,
PHMINPOSUW = 0x660F3841,
PMAXSB = 0x660F383C,
PMAXSD = 0x660F383D,
PMAXUD = 0x660F383F,
PMAXUW = 0x660F383E,
PMINSB = 0x660F3838,
PMINSD = 0x660F3839,
PMINUD = 0x660F383B,
PMINUW = 0x660F383A,
PMOVSXBW = 0x660F3820,
PMOVSXBD = 0x660F3821,
PMOVSXBQ = 0x660F3822,
PMOVSXWD = 0x660F3823,
PMOVSXWQ = 0x660F3824,
PMOVSXDQ = 0x660F3825,
PMOVZXBW = 0x660F3830,
PMOVZXBD = 0x660F3831,
PMOVZXBQ = 0x660F3832,
PMOVZXWD = 0x660F3833,
PMOVZXWQ = 0x660F3834,
PMOVZXDQ = 0x660F3835,
PMULDQ = 0x660F3828,
PMULLD = 0x660F3840,
PTEST = 0x660F3817,
ROUNDPD = 0x660F3A09,
ROUNDPS = 0x660F3A08,
ROUNDSD = 0x660F3A0B,
ROUNDSS = 0x660F3A0A,
// SSE4.2
PCMPESTRI = 0x660F3A61,
PCMPESTRM = 0x660F3A60,
PCMPISTRI = 0x660F3A63,
PCMPISTRM = 0x660F3A62,
PCMPGTQ = 0x660F3837,
//CRC32
// SSE4a (AMD only)
// EXTRQ,INSERTQ,MOVNTSD,MOVNTSS
// POPCNT and LZCNT (have their own CPUID bits)
POPCNT = 0xF30FB8,
// LZCNT
}
/**
* Generate two operand instruction with XMM 128 bit operands.
*
* This is a compiler magic function - it doesn't behave like
* regular D functions.
*
* Parameters:
* opcode any of the XMM opcodes; it must be a compile time constant
* op1 first operand
* op2 second operand
* Returns:
* result of opcode
*/
pure @safe void16 __simd(XMM opcode, void16 op1, void16 op2);
/**
* Unary SIMD instructions.
*/
pure @safe void16 __simd(XMM opcode, void16 op1);
pure @safe void16 __simd(XMM opcode, double d); ///
pure @safe void16 __simd(XMM opcode, float f); ///
/****
* For instructions:
* CMPPD, CMPSS, CMPSD, CMPPS,
* PSHUFD, PSHUFHW, PSHUFLW,
* BLENDPD, BLENDPS, DPPD, DPPS,
* MPSADBW, PBLENDW,
* ROUNDPD, ROUNDPS, ROUNDSD, ROUNDSS
* Parameters:
* opcode any of the above XMM opcodes; it must be a compile time constant
* op1 first operand
* op2 second operand
* imm8 third operand; must be a compile time constant
* Returns:
* result of opcode
*/
pure @safe void16 __simd(XMM opcode, void16 op1, void16 op2, ubyte imm8);
/***
* For instructions with the imm8 version:
* PSLLD, PSLLQ, PSLLW, PSRAD, PSRAW, PSRLD, PSRLQ, PSRLW,
* PSRLDQ, PSLLDQ
* Parameters:
* opcode any of the XMM opcodes; it must be a compile time constant
* op1 first operand
* imm8 second operand; must be a compile time constant
* Returns:
* result of opcode
*/
pure @safe void16 __simd_ib(XMM opcode, void16 op1, ubyte imm8);
/*****
* For "store" operations of the form:
* op1 op= op2
* Returns:
* op2
* These cannot be marked as pure, as semantic() doesn't check them.
*/
@safe void16 __simd_sto(XMM opcode, void16 op1, void16 op2);
@safe void16 __simd_sto(XMM opcode, double op1, void16 op2); ///
@safe void16 __simd_sto(XMM opcode, float op1, void16 op2); ///
/* The following use overloading to ensure correct typing.
* Compile with inlining on for best performance.
*/
pure @safe short8 pcmpeq()(short8 v1, short8 v2)
{
return __simd(XMM.PCMPEQW, v1, v2);
}
pure @safe ushort8 pcmpeq()(ushort8 v1, ushort8 v2)
{
return __simd(XMM.PCMPEQW, v1, v2);
}
}
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