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//====- X86InstrMMX.td - Describe the X86 Instruction Set --*- tablegen -*-===//
// 
//                     The LLVM Compiler Infrastructure
//
// This file was developed by Evan Cheng and is distributed under the
// University of Illinois Open Source License. See LICENSE.TXT for details.
// 
//===----------------------------------------------------------------------===//
//
// This file describes the X86 MMX instruction set, defining the instructions,
// and properties of the instructions which are needed for code generation,
// machine code emission, and analysis.
//
//===----------------------------------------------------------------------===//

// Some 'special' instructions
def IMPLICIT_DEF_VR64 : I<0, Pseudo, (outs VR64:$dst), (ins),
                          "#IMPLICIT_DEF $dst",
                          [(set VR64:$dst, (v8i8 (undef)))]>,
                        Requires<[HasMMX]>;

// 64-bit vector undef's.
def : Pat<(v8i8  (undef)), (IMPLICIT_DEF_VR64)>;
def : Pat<(v4i16 (undef)), (IMPLICIT_DEF_VR64)>;
def : Pat<(v2i32 (undef)), (IMPLICIT_DEF_VR64)>;
def : Pat<(v1i64 (undef)), (IMPLICIT_DEF_VR64)>;

//===----------------------------------------------------------------------===//
// MMX Pattern Fragments
//===----------------------------------------------------------------------===//

def load_mmx : PatFrag<(ops node:$ptr), (v1i64 (load node:$ptr))>;

def bc_v8i8  : PatFrag<(ops node:$in), (v8i8  (bitconvert node:$in))>;
def bc_v4i16 : PatFrag<(ops node:$in), (v4i16 (bitconvert node:$in))>;
def bc_v2i32 : PatFrag<(ops node:$in), (v2i32 (bitconvert node:$in))>;
def bc_v1i64 : PatFrag<(ops node:$in), (v1i64 (bitconvert node:$in))>;

//===----------------------------------------------------------------------===//
// MMX Masks
//===----------------------------------------------------------------------===//

// MMX_SHUFFLE_get_shuf_imm xform function: convert vector_shuffle mask to
// PSHUFW imm.
def MMX_SHUFFLE_get_shuf_imm : SDNodeXForm<build_vector, [{
  return getI8Imm(X86::getShuffleSHUFImmediate(N));
}]>;

// Patterns for: vector_shuffle v1, v2, <2, 6, 3, 7, ...>
def MMX_UNPCKH_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isUNPCKHMask(N);
}]>;

// Patterns for: vector_shuffle v1, v2, <0, 4, 2, 5, ...>
def MMX_UNPCKL_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isUNPCKLMask(N);
}]>;

// Patterns for: vector_shuffle v1, <undef>, <0, 0, 1, 1, ...>
def MMX_UNPCKH_v_undef_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isUNPCKH_v_undef_Mask(N);
}]>;

// Patterns for: vector_shuffle v1, <undef>, <2, 2, 3, 3, ...>
def MMX_UNPCKL_v_undef_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isUNPCKL_v_undef_Mask(N);
}]>;

// Patterns for shuffling.
def MMX_PSHUFW_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isPSHUFDMask(N);
}], MMX_SHUFFLE_get_shuf_imm>;

// Patterns for: vector_shuffle v1, v2, <4, 5, 2, 3>; etc.
def MMX_MOVL_shuffle_mask : PatLeaf<(build_vector), [{
  return X86::isMOVLMask(N);
}]>;

//===----------------------------------------------------------------------===//
// MMX Multiclasses
//===----------------------------------------------------------------------===//

let isTwoAddress = 1 in {
  // MMXI_binop_rm - Simple MMX binary operator.
  multiclass MMXI_binop_rm<bits<8> opc, string OpcodeStr, SDNode OpNode,
                           ValueType OpVT, bit Commutable = 0> {
    def rr : MMXI<opc, MRMSrcReg, (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst, (OpVT (OpNode VR64:$src1, VR64:$src2)))]> {
      let isCommutable = Commutable;
    }
    def rm : MMXI<opc, MRMSrcMem, (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst, (OpVT (OpNode VR64:$src1,
                                         (bitconvert
                                          (load_mmx addr:$src2)))))]>;
  }

  multiclass MMXI_binop_rm_int<bits<8> opc, string OpcodeStr, Intrinsic IntId,
                               bit Commutable = 0> {
    def rr : MMXI<opc, MRMSrcReg, (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                 !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                 [(set VR64:$dst, (IntId VR64:$src1, VR64:$src2))]> {
      let isCommutable = Commutable;
    }
    def rm : MMXI<opc, MRMSrcMem, (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                 !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                 [(set VR64:$dst, (IntId VR64:$src1,
                                   (bitconvert (load_mmx addr:$src2))))]>;
  }

  // MMXI_binop_rm_v1i64 - Simple MMX binary operator whose type is v1i64.
  //
  // FIXME: we could eliminate this and use MMXI_binop_rm instead if tblgen knew
  // to collapse (bitconvert VT to VT) into its operand.
  //
  multiclass MMXI_binop_rm_v1i64<bits<8> opc, string OpcodeStr, SDNode OpNode,
                                 bit Commutable = 0> {
    def rr : MMXI<opc, MRMSrcReg, (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst, (v1i64 (OpNode VR64:$src1, VR64:$src2)))]> {
      let isCommutable = Commutable;
    }
    def rm : MMXI<opc, MRMSrcMem, (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst,
                    (OpNode VR64:$src1,(load_mmx addr:$src2)))]>;
  }

  multiclass MMXI_binop_rmi_int<bits<8> opc, bits<8> opc2, Format ImmForm,
                                string OpcodeStr, Intrinsic IntId> {
    def rr : MMXI<opc, MRMSrcReg, (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst, (IntId VR64:$src1, VR64:$src2))]>;
    def rm : MMXI<opc, MRMSrcMem, (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                  !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                  [(set VR64:$dst, (IntId VR64:$src1,
                                    (bitconvert (load_mmx addr:$src2))))]>;
    def ri : MMXIi8<opc2, ImmForm, (outs VR64:$dst), (ins VR64:$src1, i32i8imm:$src2),
                    !strconcat(OpcodeStr, "\t{$src2, $dst|$dst, $src2}"),
                    [(set VR64:$dst, (IntId VR64:$src1,
                                      (scalar_to_vector (i32 imm:$src2))))]>;
  }
}

//===----------------------------------------------------------------------===//
// MMX EMMS & FEMMS Instructions
//===----------------------------------------------------------------------===//

def MMX_EMMS  : MMXI<0x77, RawFrm, (outs), (ins), "emms",  [(int_x86_mmx_emms)]>;
def MMX_FEMMS : MMXI<0x0E, RawFrm, (outs), (ins), "femms", [(int_x86_mmx_femms)]>;

//===----------------------------------------------------------------------===//
// MMX Scalar Instructions
//===----------------------------------------------------------------------===//

// Data Transfer Instructions
def MMX_MOVD64rr : MMXI<0x6E, MRMSrcReg, (outs VR64:$dst), (ins GR32:$src),
                        "movd\t{$src, $dst|$dst, $src}", []>;
let isLoad = 1, isReMaterializable = 1 in
def MMX_MOVD64rm : MMXI<0x6E, MRMSrcMem, (outs VR64:$dst), (ins i32mem:$src),
                        "movd\t{$src, $dst|$dst, $src}", []>;
def MMX_MOVD64mr : MMXI<0x7E, MRMDestMem, (outs), (ins i32mem:$dst, VR64:$src),
                        "movd\t{$src, $dst|$dst, $src}", []>;

def MMX_MOVD64to64rr : MMXRI<0x6E, MRMSrcReg, (outs VR64:$dst), (ins GR64:$src),
                             "movd\t{$src, $dst|$dst, $src}", []>;

def MMX_MOVQ64rr : MMXI<0x6F, MRMSrcReg, (outs VR64:$dst), (ins VR64:$src),
                        "movq\t{$src, $dst|$dst, $src}", []>;
let isLoad = 1, isReMaterializable = 1 in
def MMX_MOVQ64rm : MMXI<0x6F, MRMSrcMem, (outs VR64:$dst), (ins i64mem:$src),
                        "movq\t{$src, $dst|$dst, $src}",
                        [(set VR64:$dst, (load_mmx addr:$src))]>;
def MMX_MOVQ64mr : MMXI<0x7F, MRMDestMem, (outs), (ins i64mem:$dst, VR64:$src),
                        "movq\t{$src, $dst|$dst, $src}",
                        [(store (v1i64 VR64:$src), addr:$dst)]>;

def MMX_MOVDQ2Qrr : MMXID<0xD6, MRMDestMem, (outs VR64:$dst), (ins VR128:$src),
                          "movdq2q\t{$src, $dst|$dst, $src}",
                          [(set VR64:$dst,
                            (v1i64 (vector_extract (v2i64 VR128:$src),
                                  (iPTR 0))))]>;

def MMX_MOVQ2DQrr : MMXIS<0xD6, MRMDestMem, (outs VR128:$dst), (ins VR64:$src),
                          "movq2dq\t{$src, $dst|$dst, $src}",
                          [(set VR128:$dst,
                            (bitconvert (v1i64 VR64:$src)))]>;

def MMX_MOVNTQmr  : MMXI<0xE7, MRMDestMem, (outs), (ins i64mem:$dst, VR64:$src),
                         "movntq\t{$src, $dst|$dst, $src}",
                         [(int_x86_mmx_movnt_dq addr:$dst, VR64:$src)]>;

let AddedComplexity = 15 in
// movd to MMX register zero-extends
def MMX_MOVZDI2PDIrr : MMX2I<0x6E, MRMSrcReg, (outs VR64:$dst), (ins GR32:$src),
                             "movd\t{$src, $dst|$dst, $src}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle immAllZerosV,
                                       (v2i32 (scalar_to_vector GR32:$src)),
                                       MMX_MOVL_shuffle_mask)))]>;
let AddedComplexity = 20 in
def MMX_MOVZDI2PDIrm : MMX2I<0x6E, MRMSrcMem, (outs VR64:$dst), (ins i32mem:$src),
                             "movd\t{$src, $dst|$dst, $src}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle immAllZerosV,
                                       (v2i32 (scalar_to_vector
                                               (loadi32 addr:$src))),
                                       MMX_MOVL_shuffle_mask)))]>;

// Arithmetic Instructions

// -- Addition
defm MMX_PADDB : MMXI_binop_rm<0xFC, "paddb", add, v8i8,  1>;
defm MMX_PADDW : MMXI_binop_rm<0xFD, "paddw", add, v4i16, 1>;
defm MMX_PADDD : MMXI_binop_rm<0xFE, "paddd", add, v2i32, 1>;
defm MMX_PADDQ : MMXI_binop_rm<0xD4, "paddq", add, v1i64, 1>;

defm MMX_PADDSB  : MMXI_binop_rm_int<0xEC, "paddsb" , int_x86_mmx_padds_b, 1>;
defm MMX_PADDSW  : MMXI_binop_rm_int<0xED, "paddsw" , int_x86_mmx_padds_w, 1>;

defm MMX_PADDUSB : MMXI_binop_rm_int<0xDC, "paddusb", int_x86_mmx_paddus_b, 1>;
defm MMX_PADDUSW : MMXI_binop_rm_int<0xDD, "paddusw", int_x86_mmx_paddus_w, 1>;

// -- Subtraction
defm MMX_PSUBB : MMXI_binop_rm<0xF8, "psubb", sub, v8i8>;
defm MMX_PSUBW : MMXI_binop_rm<0xF9, "psubw", sub, v4i16>;
defm MMX_PSUBD : MMXI_binop_rm<0xFA, "psubd", sub, v2i32>;
defm MMX_PSUBQ : MMXI_binop_rm<0xFB, "psubq", sub, v1i64>;

defm MMX_PSUBSB  : MMXI_binop_rm_int<0xE8, "psubsb" , int_x86_mmx_psubs_b>;
defm MMX_PSUBSW  : MMXI_binop_rm_int<0xE9, "psubsw" , int_x86_mmx_psubs_w>;

defm MMX_PSUBUSB : MMXI_binop_rm_int<0xD8, "psubusb", int_x86_mmx_psubus_b>;
defm MMX_PSUBUSW : MMXI_binop_rm_int<0xD9, "psubusw", int_x86_mmx_psubus_w>;

// -- Multiplication
defm MMX_PMULLW  : MMXI_binop_rm<0xD5, "pmullw", mul, v4i16, 1>;

defm MMX_PMULHW  : MMXI_binop_rm_int<0xE5, "pmulhw",  int_x86_mmx_pmulh_w,  1>;
defm MMX_PMULHUW : MMXI_binop_rm_int<0xE4, "pmulhuw", int_x86_mmx_pmulhu_w, 1>;
defm MMX_PMULUDQ : MMXI_binop_rm_int<0xF4, "pmuludq", int_x86_mmx_pmulu_dq, 1>;

// -- Miscellanea
defm MMX_PMADDWD : MMXI_binop_rm_int<0xF5, "pmaddwd", int_x86_mmx_pmadd_wd, 1>;

defm MMX_PAVGB   : MMXI_binop_rm_int<0xE0, "pavgb", int_x86_mmx_pavg_b, 1>;
defm MMX_PAVGW   : MMXI_binop_rm_int<0xE3, "pavgw", int_x86_mmx_pavg_w, 1>;

defm MMX_PMINUB  : MMXI_binop_rm_int<0xDA, "pminub", int_x86_mmx_pminu_b, 1>;
defm MMX_PMINSW  : MMXI_binop_rm_int<0xEA, "pminsw", int_x86_mmx_pmins_w, 1>;

defm MMX_PMAXUB  : MMXI_binop_rm_int<0xDE, "pmaxub", int_x86_mmx_pmaxu_b, 1>;
defm MMX_PMAXSW  : MMXI_binop_rm_int<0xEE, "pmaxsw", int_x86_mmx_pmaxs_w, 1>;

defm MMX_PSADBW  : MMXI_binop_rm_int<0xE0, "psadbw", int_x86_mmx_psad_bw, 1>;

// Logical Instructions
defm MMX_PAND : MMXI_binop_rm_v1i64<0xDB, "pand", and, 1>;
defm MMX_POR  : MMXI_binop_rm_v1i64<0xEB, "por" , or,  1>;
defm MMX_PXOR : MMXI_binop_rm_v1i64<0xEF, "pxor", xor, 1>;

let isTwoAddress = 1 in {
  def MMX_PANDNrr : MMXI<0xDF, MRMSrcReg,
                         (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                         "pandn\t{$src2, $dst|$dst, $src2}",
                         [(set VR64:$dst, (v1i64 (and (vnot VR64:$src1),
                                                  VR64:$src2)))]>;
  def MMX_PANDNrm : MMXI<0xDF, MRMSrcMem,
                         (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                         "pandn\t{$src2, $dst|$dst, $src2}",
                         [(set VR64:$dst, (v1i64 (and (vnot VR64:$src1),
                                                  (load addr:$src2))))]>;
}

// Shift Instructions
defm MMX_PSRLW : MMXI_binop_rmi_int<0xD1, 0x71, MRM2r, "psrlw",
                                    int_x86_mmx_psrl_w>;
defm MMX_PSRLD : MMXI_binop_rmi_int<0xD2, 0x72, MRM2r, "psrld",
                                    int_x86_mmx_psrl_d>;
defm MMX_PSRLQ : MMXI_binop_rmi_int<0xD3, 0x73, MRM2r, "psrlq",
                                    int_x86_mmx_psrl_q>;

defm MMX_PSLLW : MMXI_binop_rmi_int<0xF1, 0x71, MRM6r, "psllw",
                                    int_x86_mmx_psll_w>;
defm MMX_PSLLD : MMXI_binop_rmi_int<0xF2, 0x72, MRM6r, "pslld",
                                    int_x86_mmx_psll_d>;
defm MMX_PSLLQ : MMXI_binop_rmi_int<0xF3, 0x73, MRM6r, "psllq",
                                    int_x86_mmx_psll_q>;

defm MMX_PSRAW : MMXI_binop_rmi_int<0xE1, 0x71, MRM4r, "psraw",
                                    int_x86_mmx_psra_w>;
defm MMX_PSRAD : MMXI_binop_rmi_int<0xE2, 0x72, MRM4r, "psrad",
                                    int_x86_mmx_psra_d>;

// Comparison Instructions
defm MMX_PCMPEQB : MMXI_binop_rm_int<0x74, "pcmpeqb", int_x86_mmx_pcmpeq_b>;
defm MMX_PCMPEQW : MMXI_binop_rm_int<0x75, "pcmpeqw", int_x86_mmx_pcmpeq_w>;
defm MMX_PCMPEQD : MMXI_binop_rm_int<0x76, "pcmpeqd", int_x86_mmx_pcmpeq_d>;

defm MMX_PCMPGTB : MMXI_binop_rm_int<0x64, "pcmpgtb", int_x86_mmx_pcmpgt_b>;
defm MMX_PCMPGTW : MMXI_binop_rm_int<0x65, "pcmpgtw", int_x86_mmx_pcmpgt_w>;
defm MMX_PCMPGTD : MMXI_binop_rm_int<0x66, "pcmpgtd", int_x86_mmx_pcmpgt_d>;

// Conversion Instructions

// -- Unpack Instructions
let isTwoAddress = 1 in {
  // Unpack High Packed Data Instructions
  def MMX_PUNPCKHBWrr : MMXI<0x68, MRMSrcReg, 
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpckhbw\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v8i8 (vector_shuffle VR64:$src1, VR64:$src2,
                                      MMX_UNPCKH_shuffle_mask)))]>;
  def MMX_PUNPCKHBWrm : MMXI<0x68, MRMSrcMem, 
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpckhbw\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v8i8 (vector_shuffle VR64:$src1,
                                      (bc_v8i8 (load_mmx addr:$src2)),
                                      MMX_UNPCKH_shuffle_mask)))]>;

  def MMX_PUNPCKHWDrr : MMXI<0x69, MRMSrcReg, 
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpckhwd\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v4i16 (vector_shuffle VR64:$src1, VR64:$src2,
                                       MMX_UNPCKH_shuffle_mask)))]>;
  def MMX_PUNPCKHWDrm : MMXI<0x69, MRMSrcMem, 
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpckhwd\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v4i16 (vector_shuffle VR64:$src1,
                                       (bc_v4i16 (load_mmx addr:$src2)),
                                       MMX_UNPCKH_shuffle_mask)))]>;

  def MMX_PUNPCKHDQrr : MMXI<0x6A, MRMSrcReg, 
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpckhdq\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle VR64:$src1, VR64:$src2,
                                       MMX_UNPCKH_shuffle_mask)))]>;
  def MMX_PUNPCKHDQrm : MMXI<0x6A, MRMSrcMem,
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpckhdq\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle VR64:$src1,
                                       (bc_v2i32 (load_mmx addr:$src2)),
                                       MMX_UNPCKH_shuffle_mask)))]>;

  // Unpack Low Packed Data Instructions
  def MMX_PUNPCKLBWrr : MMXI<0x60, MRMSrcReg,
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpcklbw\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v8i8 (vector_shuffle VR64:$src1, VR64:$src2,
                                      MMX_UNPCKL_shuffle_mask)))]>;
  def MMX_PUNPCKLBWrm : MMXI<0x60, MRMSrcMem,
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpcklbw\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v8i8 (vector_shuffle VR64:$src1,
                                      (bc_v8i8 (load_mmx addr:$src2)),
                                      MMX_UNPCKL_shuffle_mask)))]>;

  def MMX_PUNPCKLWDrr : MMXI<0x61, MRMSrcReg,
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpcklwd\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v4i16 (vector_shuffle VR64:$src1, VR64:$src2,
                                       MMX_UNPCKL_shuffle_mask)))]>;
  def MMX_PUNPCKLWDrm : MMXI<0x61, MRMSrcMem,
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpcklwd\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v4i16 (vector_shuffle VR64:$src1,
                                       (bc_v4i16 (load_mmx addr:$src2)),
                                       MMX_UNPCKL_shuffle_mask)))]>;

  def MMX_PUNPCKLDQrr : MMXI<0x62, MRMSrcReg, 
                             (outs VR64:$dst), (ins VR64:$src1, VR64:$src2),
                             "punpckldq\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle VR64:$src1, VR64:$src2,
                                       MMX_UNPCKL_shuffle_mask)))]>;
  def MMX_PUNPCKLDQrm : MMXI<0x62, MRMSrcMem, 
                             (outs VR64:$dst), (ins VR64:$src1, i64mem:$src2),
                             "punpckldq\t{$src2, $dst|$dst, $src2}",
                             [(set VR64:$dst,
                               (v2i32 (vector_shuffle VR64:$src1,
                                       (bc_v2i32 (load_mmx addr:$src2)),
                                       MMX_UNPCKL_shuffle_mask)))]>;
}

// -- Pack Instructions
defm MMX_PACKSSWB : MMXI_binop_rm_int<0x63, "packsswb", int_x86_mmx_packsswb>;
defm MMX_PACKSSDW : MMXI_binop_rm_int<0x6B, "packssdw", int_x86_mmx_packssdw>;
defm MMX_PACKUSWB : MMXI_binop_rm_int<0x67, "packuswb", int_x86_mmx_packuswb>;

// -- Shuffle Instructions
def MMX_PSHUFWri : MMXIi8<0x70, MRMSrcReg,
                          (outs VR64:$dst), (ins VR64:$src1, i8imm:$src2),
                          "pshufw\t{$src2, $src1, $dst|$dst, $src1, $src2}",
                          [(set VR64:$dst,
                            (v4i16 (vector_shuffle
                                    VR64:$src1, (undef),
                                    MMX_PSHUFW_shuffle_mask:$src2)))]>;
def MMX_PSHUFWmi : MMXIi8<0x70, MRMSrcMem,
                          (outs VR64:$dst), (ins i64mem:$src1, i8imm:$src2),
                          "pshufw\t{$src2, $src1, $dst|$dst, $src1, $src2}",
                          [(set VR64:$dst,
                            (v4i16 (vector_shuffle
                                    (bc_v4i16 (load_mmx addr:$src1)),
                                    (undef),
                                    MMX_PSHUFW_shuffle_mask:$src2)))]>;

// -- Conversion Instructions
def MMX_CVTPD2PIrr  : MMX2I<0x2D, MRMSrcReg, (outs VR64:$dst), (ins VR128:$src),
                            "cvtpd2pi\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTPD2PIrm  : MMX2I<0x2D, MRMSrcMem, (outs VR64:$dst), (ins f128mem:$src),
                            "cvtpd2pi\t{$src, $dst|$dst, $src}", []>;

def MMX_CVTPI2PDrr  : MMX2I<0x2A, MRMSrcReg, (outs VR128:$dst), (ins VR64:$src),
                            "cvtpi2pd\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTPI2PDrm  : MMX2I<0x2A, MRMSrcMem, (outs VR128:$dst), (ins i64mem:$src),
                            "cvtpi2pd\t{$src, $dst|$dst, $src}", []>;

def MMX_CVTPI2PSrr  : MMXI<0x2A, MRMSrcReg, (outs VR128:$dst), (ins VR64:$src),
                           "cvtpi2ps\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTPI2PSrm  : MMXI<0x2A, MRMSrcMem, (outs VR128:$dst), (ins i64mem:$src),
                           "cvtpi2ps\t{$src, $dst|$dst, $src}", []>;

def MMX_CVTPS2PIrr  : MMXI<0x2D, MRMSrcReg, (outs VR64:$dst), (ins VR128:$src),
                           "cvtps2pi\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTPS2PIrm  : MMXI<0x2D, MRMSrcMem, (outs VR64:$dst), (ins f64mem:$src),
                           "cvtps2pi\t{$src, $dst|$dst, $src}", []>;

def MMX_CVTTPD2PIrr : MMX2I<0x2C, MRMSrcReg, (outs VR64:$dst), (ins VR128:$src),
                            "cvttpd2pi\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTTPD2PIrm : MMX2I<0x2C, MRMSrcMem, (outs VR64:$dst), (ins f128mem:$src),
                            "cvttpd2pi\t{$src, $dst|$dst, $src}", []>;

def MMX_CVTTPS2PIrr : MMXI<0x2C, MRMSrcReg, (outs VR64:$dst), (ins VR128:$src),
                           "cvttps2pi\t{$src, $dst|$dst, $src}", []>;
def MMX_CVTTPS2PIrm : MMXI<0x2C, MRMSrcMem, (outs VR64:$dst), (ins f64mem:$src),
                           "cvttps2pi\t{$src, $dst|$dst, $src}", []>;

// Extract / Insert
def MMX_X86pextrw : SDNode<"X86ISD::PEXTRW", SDTypeProfile<1, 2, []>, []>;
def MMX_X86pinsrw : SDNode<"X86ISD::PINSRW", SDTypeProfile<1, 3, []>, []>;

def MMX_PEXTRWri  : MMXIi8<0xC5, MRMSrcReg,
                           (outs GR32:$dst), (ins VR64:$src1, i16i8imm:$src2),
                           "pextrw\t{$src2, $src1, $dst|$dst, $src1, $src2}",
                           [(set GR32:$dst, (MMX_X86pextrw (v4i16 VR64:$src1),
                                             (iPTR imm:$src2)))]>;
let isTwoAddress = 1 in {
  def MMX_PINSRWrri : MMXIi8<0xC4, MRMSrcReg,
                      (outs VR64:$dst), (ins VR64:$src1, GR32:$src2, i16i8imm:$src3),
                      "pinsrw\t{$src3, $src2, $dst|$dst, $src2, $src3}",
                      [(set VR64:$dst, (v4i16 (MMX_X86pinsrw (v4i16 VR64:$src1),
                                               GR32:$src2, (iPTR imm:$src3))))]>;
  def MMX_PINSRWrmi : MMXIi8<0xC4, MRMSrcMem,
                     (outs VR64:$dst), (ins VR64:$src1, i16mem:$src2, i16i8imm:$src3),
                     "pinsrw\t{$src3, $src2, $dst|$dst, $src2, $src3}",
                     [(set VR64:$dst,
                       (v4i16 (MMX_X86pinsrw (v4i16 VR64:$src1),
                               (i32 (anyext (loadi16 addr:$src2))),
                               (iPTR imm:$src3))))]>;
}

// Mask creation
def MMX_PMOVMSKBrr : MMXI<0xD7, MRMSrcReg, (outs GR32:$dst), (ins VR64:$src),
                          "pmovmskb\t{$src, $dst|$dst, $src}",
                          [(set GR32:$dst, (int_x86_mmx_pmovmskb VR64:$src))]>;

// Misc.
let Uses = [EDI] in
def MMX_MASKMOVQ : MMXI<0xF7, MRMDestMem, (outs), (ins VR64:$src, VR64:$mask),
                        "maskmovq\t{$mask, $src|$src, $mask}",
                        [(int_x86_mmx_maskmovq VR64:$src, VR64:$mask, EDI)]>;

//===----------------------------------------------------------------------===//
// Alias Instructions
//===----------------------------------------------------------------------===//

// Alias instructions that map zero vector to pxor.
let isReMaterializable = 1 in {
  def MMX_V_SET0       : MMXI<0xEF, MRMInitReg, (outs VR64:$dst), (ins),
                              "pxor\t$dst, $dst",
                              [(set VR64:$dst, (v2i32 immAllZerosV))]>;
  def MMX_V_SETALLONES : MMXI<0x76, MRMInitReg, (outs VR64:$dst), (ins),
                              "pcmpeqd\t$dst, $dst",
                              [(set VR64:$dst, (v2i32 immAllOnesV))]>;
}

//===----------------------------------------------------------------------===//
// Non-Instruction Patterns
//===----------------------------------------------------------------------===//

// Store 64-bit integer vector values.
def : Pat<(store (v8i8  VR64:$src), addr:$dst),
          (MMX_MOVQ64mr addr:$dst, VR64:$src)>;
def : Pat<(store (v4i16 VR64:$src), addr:$dst),
          (MMX_MOVQ64mr addr:$dst, VR64:$src)>;
def : Pat<(store (v2i32 VR64:$src), addr:$dst),
          (MMX_MOVQ64mr addr:$dst, VR64:$src)>;
def : Pat<(store (v1i64 VR64:$src), addr:$dst),
          (MMX_MOVQ64mr addr:$dst, VR64:$src)>;

// Bit convert.
def : Pat<(v8i8  (bitconvert (v1i64 VR64:$src))), (v8i8  VR64:$src)>;
def : Pat<(v8i8  (bitconvert (v2i32 VR64:$src))), (v8i8  VR64:$src)>;
def : Pat<(v8i8  (bitconvert (v4i16 VR64:$src))), (v8i8  VR64:$src)>;
def : Pat<(v4i16 (bitconvert (v1i64 VR64:$src))), (v4i16 VR64:$src)>;
def : Pat<(v4i16 (bitconvert (v2i32 VR64:$src))), (v4i16 VR64:$src)>;
def : Pat<(v4i16 (bitconvert (v8i8  VR64:$src))), (v4i16 VR64:$src)>;
def : Pat<(v2i32 (bitconvert (v1i64 VR64:$src))), (v2i32 VR64:$src)>;
def : Pat<(v2i32 (bitconvert (v4i16 VR64:$src))), (v2i32 VR64:$src)>;
def : Pat<(v2i32 (bitconvert (v8i8  VR64:$src))), (v2i32 VR64:$src)>;
def : Pat<(v1i64 (bitconvert (v2i32 VR64:$src))), (v1i64 VR64:$src)>;
def : Pat<(v1i64 (bitconvert (v4i16 VR64:$src))), (v1i64 VR64:$src)>;
def : Pat<(v1i64 (bitconvert (v8i8  VR64:$src))), (v1i64 VR64:$src)>;

// 64-bit bit convert.
def : Pat<(v1i64 (bitconvert (i64 GR64:$src))),
          (MMX_MOVD64to64rr GR64:$src)>;
def : Pat<(v2i32 (bitconvert (i64 GR64:$src))),
          (MMX_MOVD64to64rr GR64:$src)>;
def : Pat<(v4i16 (bitconvert (i64 GR64:$src))),
          (MMX_MOVD64to64rr GR64:$src)>;
def : Pat<(v8i8  (bitconvert (i64 GR64:$src))),
          (MMX_MOVD64to64rr GR64:$src)>;

def MMX_X86s2vec : SDNode<"X86ISD::S2VEC",  SDTypeProfile<1, 1, []>, []>;

// Move scalar to XMM zero-extended
// movd to XMM register zero-extends
let AddedComplexity = 15 in {
  def : Pat<(v8i8 (vector_shuffle immAllZerosV_bc,
                    (v8i8 (MMX_X86s2vec GR32:$src)), MMX_MOVL_shuffle_mask)),
            (MMX_MOVZDI2PDIrr GR32:$src)>;
  def : Pat<(v4i16 (vector_shuffle immAllZerosV_bc,
                    (v4i16 (MMX_X86s2vec GR32:$src)), MMX_MOVL_shuffle_mask)),
            (MMX_MOVZDI2PDIrr GR32:$src)>;
  def : Pat<(v2i32 (vector_shuffle immAllZerosV,
                    (v2i32 (MMX_X86s2vec GR32:$src)), MMX_MOVL_shuffle_mask)),
            (MMX_MOVZDI2PDIrr GR32:$src)>;
}

// Scalar to v2i32 / v4i16 / v8i8. The source may be a GR32, but only the lower
// 8 or 16-bits matter.
def : Pat<(v8i8  (MMX_X86s2vec GR32:$src)), (MMX_MOVD64rr GR32:$src)>;
def : Pat<(v4i16 (MMX_X86s2vec GR32:$src)), (MMX_MOVD64rr GR32:$src)>;
def : Pat<(v2i32 (MMX_X86s2vec GR32:$src)), (MMX_MOVD64rr GR32:$src)>;

// Patterns to perform canonical versions of vector shuffling.
let AddedComplexity = 10 in {
  def : Pat<(v8i8  (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKL_v_undef_shuffle_mask)),
            (MMX_PUNPCKLBWrr VR64:$src, VR64:$src)>;
  def : Pat<(v4i16 (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKL_v_undef_shuffle_mask)),
            (MMX_PUNPCKLWDrr VR64:$src, VR64:$src)>;
  def : Pat<(v2i32 (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKL_v_undef_shuffle_mask)),
            (MMX_PUNPCKLDQrr VR64:$src, VR64:$src)>;
}

let AddedComplexity = 10 in {
  def : Pat<(v8i8  (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKH_v_undef_shuffle_mask)),
            (MMX_PUNPCKHBWrr VR64:$src, VR64:$src)>;
  def : Pat<(v4i16 (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKH_v_undef_shuffle_mask)),
            (MMX_PUNPCKHWDrr VR64:$src, VR64:$src)>;
  def : Pat<(v2i32 (vector_shuffle VR64:$src, (undef),
                    MMX_UNPCKH_v_undef_shuffle_mask)),
            (MMX_PUNPCKHDQrr VR64:$src, VR64:$src)>;
}

// Patterns to perform vector shuffling with a zeroed out vector.
let AddedComplexity = 20 in {
  def : Pat<(bc_v2i32 (vector_shuffle immAllZerosV,
                       (v2i32 (scalar_to_vector (load_mmx addr:$src))),
                       MMX_UNPCKL_shuffle_mask)),
            (MMX_PUNPCKLDQrm VR64:$src, VR64:$src)>;
}

// Some special case PANDN patterns.
// FIXME: Get rid of these.
def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v2i32 immAllOnesV))),
                  VR64:$src2)),
          (MMX_PANDNrr VR64:$src1, VR64:$src2)>;
def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v4i16 immAllOnesV_bc))),
                  VR64:$src2)),
          (MMX_PANDNrr VR64:$src1, VR64:$src2)>;
def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v8i8  immAllOnesV_bc))),
                  VR64:$src2)),
          (MMX_PANDNrr VR64:$src1, VR64:$src2)>;

def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v2i32 immAllOnesV))),
                  (load addr:$src2))),
          (MMX_PANDNrm VR64:$src1, addr:$src2)>;
def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v4i16 immAllOnesV_bc))),
                  (load addr:$src2))),
          (MMX_PANDNrm VR64:$src1, addr:$src2)>;
def : Pat<(v1i64 (and (xor VR64:$src1, (bc_v1i64 (v8i8  immAllOnesV_bc))),
                  (load addr:$src2))),
          (MMX_PANDNrm VR64:$src1, addr:$src2)>;