assembler_sparc.hpp 58.7 KB
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/*
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 * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code 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
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
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 *
 */

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#ifndef CPU_SPARC_VM_ASSEMBLER_SPARC_HPP
#define CPU_SPARC_VM_ASSEMBLER_SPARC_HPP

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#include "asm/register.hpp"
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// The SPARC Assembler: Pure assembler doing NO optimizations on the instruction
// level; i.e., what you write
// is what you get. The Assembler is generating code into a CodeBuffer.

class Assembler : public AbstractAssembler  {
  friend class AbstractAssembler;
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  friend class AddressLiteral;
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  // code patchers need various routines like inv_wdisp()
  friend class NativeInstruction;
  friend class NativeGeneralJump;
  friend class Relocation;
  friend class Label;

 public:
  // op carries format info; see page 62 & 267

  enum ops {
    call_op   = 1, // fmt 1
    branch_op = 0, // also sethi (fmt2)
    arith_op  = 2, // fmt 3, arith & misc
    ldst_op   = 3  // fmt 3, load/store
  };

  enum op2s {
    bpr_op2   = 3,
    fb_op2    = 6,
    fbp_op2   = 5,
    br_op2    = 2,
    bp_op2    = 1,
    sethi_op2 = 4
  };

  enum op3s {
    // selected op3s
    add_op3      = 0x00,
    and_op3      = 0x01,
    or_op3       = 0x02,
    xor_op3      = 0x03,
    sub_op3      = 0x04,
    andn_op3     = 0x05,
    orn_op3      = 0x06,
    xnor_op3     = 0x07,
    addc_op3     = 0x08,
    mulx_op3     = 0x09,
    umul_op3     = 0x0a,
    smul_op3     = 0x0b,
    subc_op3     = 0x0c,
    udivx_op3    = 0x0d,
    udiv_op3     = 0x0e,
    sdiv_op3     = 0x0f,

    addcc_op3    = 0x10,
    andcc_op3    = 0x11,
    orcc_op3     = 0x12,
    xorcc_op3    = 0x13,
    subcc_op3    = 0x14,
    andncc_op3   = 0x15,
    orncc_op3    = 0x16,
    xnorcc_op3   = 0x17,
    addccc_op3   = 0x18,
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    aes4_op3     = 0x19,
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    umulcc_op3   = 0x1a,
    smulcc_op3   = 0x1b,
    subccc_op3   = 0x1c,
    udivcc_op3   = 0x1e,
    sdivcc_op3   = 0x1f,

    taddcc_op3   = 0x20,
    tsubcc_op3   = 0x21,
    taddcctv_op3 = 0x22,
    tsubcctv_op3 = 0x23,
    mulscc_op3   = 0x24,
    sll_op3      = 0x25,
    sllx_op3     = 0x25,
    srl_op3      = 0x26,
    srlx_op3     = 0x26,
    sra_op3      = 0x27,
    srax_op3     = 0x27,
    rdreg_op3    = 0x28,
    membar_op3   = 0x28,

    flushw_op3   = 0x2b,
    movcc_op3    = 0x2c,
    sdivx_op3    = 0x2d,
    popc_op3     = 0x2e,
    movr_op3     = 0x2f,

    sir_op3      = 0x30,
    wrreg_op3    = 0x30,
    saved_op3    = 0x31,

    fpop1_op3    = 0x34,
    fpop2_op3    = 0x35,
    impdep1_op3  = 0x36,
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    aes3_op3     = 0x36,
    flog3_op3    = 0x36,
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    impdep2_op3  = 0x37,
    jmpl_op3     = 0x38,
    rett_op3     = 0x39,
    trap_op3     = 0x3a,
    flush_op3    = 0x3b,
    save_op3     = 0x3c,
    restore_op3  = 0x3d,
    done_op3     = 0x3e,
    retry_op3    = 0x3e,

    lduw_op3     = 0x00,
    ldub_op3     = 0x01,
    lduh_op3     = 0x02,
    ldd_op3      = 0x03,
    stw_op3      = 0x04,
    stb_op3      = 0x05,
    sth_op3      = 0x06,
    std_op3      = 0x07,
    ldsw_op3     = 0x08,
    ldsb_op3     = 0x09,
    ldsh_op3     = 0x0a,
    ldx_op3      = 0x0b,

    stx_op3      = 0x0e,
    swap_op3     = 0x0f,

    stwa_op3     = 0x14,
    stxa_op3     = 0x1e,

    ldf_op3      = 0x20,
    ldfsr_op3    = 0x21,
    ldqf_op3     = 0x22,
    lddf_op3     = 0x23,
    stf_op3      = 0x24,
    stfsr_op3    = 0x25,
    stqf_op3     = 0x26,
    stdf_op3     = 0x27,

    prefetch_op3 = 0x2d,

    casa_op3     = 0x3c,
    casxa_op3    = 0x3e,

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    mftoi_op3    = 0x36,

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    alt_bit_op3  = 0x10,
     cc_bit_op3  = 0x10
  };

  enum opfs {
    // selected opfs
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    fmovs_opf          = 0x01,
    fmovd_opf          = 0x02,

    fnegs_opf          = 0x05,
    fnegd_opf          = 0x06,

    fadds_opf          = 0x41,
    faddd_opf          = 0x42,
    fsubs_opf          = 0x45,
    fsubd_opf          = 0x46,

    fmuls_opf          = 0x49,
    fmuld_opf          = 0x4a,
    fdivs_opf          = 0x4d,
    fdivd_opf          = 0x4e,

    fcmps_opf          = 0x51,
    fcmpd_opf          = 0x52,

    fstox_opf          = 0x81,
    fdtox_opf          = 0x82,
    fxtos_opf          = 0x84,
    fxtod_opf          = 0x88,
    fitos_opf          = 0xc4,
    fdtos_opf          = 0xc6,
    fitod_opf          = 0xc8,
    fstod_opf          = 0xc9,
    fstoi_opf          = 0xd1,
    fdtoi_opf          = 0xd2,

    mdtox_opf          = 0x110,
    mstouw_opf         = 0x111,
    mstosw_opf         = 0x113,
    mxtod_opf          = 0x118,
    mwtos_opf          = 0x119,

    aes_kexpand0_opf   = 0x130,
    aes_kexpand2_opf   = 0x131
  };

  enum op5s {
    aes_eround01_op5     = 0x00,
    aes_eround23_op5     = 0x01,
    aes_dround01_op5     = 0x02,
    aes_dround23_op5     = 0x03,
    aes_eround01_l_op5   = 0x04,
    aes_eround23_l_op5   = 0x05,
    aes_dround01_l_op5   = 0x06,
    aes_dround23_l_op5   = 0x07,
    aes_kexpand1_op5     = 0x08
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  };

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  enum RCondition {  rc_z = 1,  rc_lez = 2,  rc_lz = 3, rc_nz = 5, rc_gz = 6, rc_gez = 7, rc_last = rc_gez  };
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  enum Condition {
     // for FBfcc & FBPfcc instruction
    f_never                     = 0,
    f_notEqual                  = 1,
    f_notZero                   = 1,
    f_lessOrGreater             = 2,
    f_unorderedOrLess           = 3,
    f_less                      = 4,
    f_unorderedOrGreater        = 5,
    f_greater                   = 6,
    f_unordered                 = 7,
    f_always                    = 8,
    f_equal                     = 9,
    f_zero                      = 9,
    f_unorderedOrEqual          = 10,
    f_greaterOrEqual            = 11,
    f_unorderedOrGreaterOrEqual = 12,
    f_lessOrEqual               = 13,
    f_unorderedOrLessOrEqual    = 14,
    f_ordered                   = 15,

    // V8 coproc, pp 123 v8 manual

    cp_always  = 8,
    cp_never   = 0,
    cp_3       = 7,
    cp_2       = 6,
    cp_2or3    = 5,
    cp_1       = 4,
    cp_1or3    = 3,
    cp_1or2    = 2,
    cp_1or2or3 = 1,
    cp_0       = 9,
    cp_0or3    = 10,
    cp_0or2    = 11,
    cp_0or2or3 = 12,
    cp_0or1    = 13,
    cp_0or1or3 = 14,
    cp_0or1or2 = 15,


    // for integers

    never                 =  0,
    equal                 =  1,
    zero                  =  1,
    lessEqual             =  2,
    less                  =  3,
    lessEqualUnsigned     =  4,
    lessUnsigned          =  5,
    carrySet              =  5,
    negative              =  6,
    overflowSet           =  7,
    always                =  8,
    notEqual              =  9,
    notZero               =  9,
    greater               =  10,
    greaterEqual          =  11,
    greaterUnsigned       =  12,
    greaterEqualUnsigned  =  13,
    carryClear            =  13,
    positive              =  14,
    overflowClear         =  15
  };

  enum CC {
    icc  = 0,  xcc  = 2,
    // ptr_cc is the correct condition code for a pointer or intptr_t:
    ptr_cc = NOT_LP64(icc) LP64_ONLY(xcc),
    fcc0 = 0,  fcc1 = 1, fcc2 = 2, fcc3 = 3
  };

  enum PrefetchFcn {
    severalReads = 0,  oneRead = 1,  severalWritesAndPossiblyReads = 2, oneWrite = 3, page = 4
  };

 public:
  // Helper functions for groups of instructions

  enum Predict { pt = 1, pn = 0 }; // pt = predict taken

  enum Membar_mask_bits { // page 184, v9
    StoreStore = 1 << 3,
    LoadStore  = 1 << 2,
    StoreLoad  = 1 << 1,
    LoadLoad   = 1 << 0,

    Sync       = 1 << 6,
    MemIssue   = 1 << 5,
    Lookaside  = 1 << 4
  };

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  static bool is_in_wdisp_range(address a, address b, int nbits) {
    intptr_t d = intptr_t(b) - intptr_t(a);
    return is_simm(d, nbits + 2);
  }
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  address target_distance(Label& L) {
    // Assembler::target(L) should be called only when
    // a branch instruction is emitted since non-bound
    // labels record current pc() as a branch address.
    if (L.is_bound()) return target(L);
    // Return current address for non-bound labels.
    return pc();
  }

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  // test if label is in simm16 range in words (wdisp16).
  bool is_in_wdisp16_range(Label& L) {
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    return is_in_wdisp_range(target_distance(L), pc(), 16);
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  }
  // test if the distance between two addresses fits in simm30 range in words
  static bool is_in_wdisp30_range(address a, address b) {
    return is_in_wdisp_range(a, b, 30);
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  }

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  enum ASIs { // page 72, v9
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    ASI_PRIMARY            = 0x80,
    ASI_PRIMARY_NOFAULT    = 0x82,
    ASI_PRIMARY_LITTLE     = 0x88,
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    // Block initializing store
    ASI_ST_BLKINIT_PRIMARY = 0xE2,
    // Most-Recently-Used (MRU) BIS variant
    ASI_ST_BLKINIT_MRU_PRIMARY = 0xF2
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    // add more from book as needed
  };

 protected:
  // helpers

  // x is supposed to fit in a field "nbits" wide
  // and be sign-extended. Check the range.

  static void assert_signed_range(intptr_t x, int nbits) {
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    assert(nbits == 32 || (-(1 << nbits-1) <= x  &&  x < ( 1 << nbits-1)),
           err_msg("value out of range: x=" INTPTR_FORMAT ", nbits=%d", x, nbits));
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  }

  static void assert_signed_word_disp_range(intptr_t x, int nbits) {
    assert( (x & 3) == 0, "not word aligned");
    assert_signed_range(x, nbits + 2);
  }

  static void assert_unsigned_const(int x, int nbits) {
    assert( juint(x)  <  juint(1 << nbits), "unsigned constant out of range");
  }

  // fields: note bits numbered from LSB = 0,
  //  fields known by inclusive bit range

  static int fmask(juint hi_bit, juint lo_bit) {
    assert( hi_bit >= lo_bit  &&  0 <= lo_bit  &&  hi_bit < 32, "bad bits");
    return (1 << ( hi_bit-lo_bit + 1 )) - 1;
  }

  // inverse of u_field

  static int inv_u_field(int x, int hi_bit, int lo_bit) {
    juint r = juint(x) >> lo_bit;
    r &= fmask( hi_bit, lo_bit);
    return int(r);
  }


  // signed version: extract from field and sign-extend

  static int inv_s_field(int x, int hi_bit, int lo_bit) {
    int sign_shift = 31 - hi_bit;
    return inv_u_field( ((x << sign_shift) >> sign_shift), hi_bit, lo_bit);
  }

  // given a field that ranges from hi_bit to lo_bit (inclusive,
  // LSB = 0), and an unsigned value for the field,
  // shift it into the field

#ifdef ASSERT
  static int u_field(int x, int hi_bit, int lo_bit) {
    assert( ( x & ~fmask(hi_bit, lo_bit))  == 0,
            "value out of range");
    int r = x << lo_bit;
    assert( inv_u_field(r, hi_bit, lo_bit) == x, "just checking");
    return r;
  }
#else
  // make sure this is inlined as it will reduce code size significantly
  #define u_field(x, hi_bit, lo_bit)   ((x) << (lo_bit))
#endif

  static int inv_op(  int x ) { return inv_u_field(x, 31, 30); }
  static int inv_op2( int x ) { return inv_u_field(x, 24, 22); }
  static int inv_op3( int x ) { return inv_u_field(x, 24, 19); }
  static int inv_cond( int x ){ return inv_u_field(x, 28, 25); }

  static bool inv_immed( int x ) { return (x & Assembler::immed(true)) != 0; }

  static Register inv_rd(  int x ) { return as_Register(inv_u_field(x, 29, 25)); }
  static Register inv_rs1( int x ) { return as_Register(inv_u_field(x, 18, 14)); }
  static Register inv_rs2( int x ) { return as_Register(inv_u_field(x,  4,  0)); }

  static int op(       int         x)  { return  u_field(x,             31, 30); }
  static int rd(       Register    r)  { return  u_field(r->encoding(), 29, 25); }
  static int fcn(      int         x)  { return  u_field(x,             29, 25); }
  static int op3(      int         x)  { return  u_field(x,             24, 19); }
  static int rs1(      Register    r)  { return  u_field(r->encoding(), 18, 14); }
  static int rs2(      Register    r)  { return  u_field(r->encoding(),  4,  0); }
  static int annul(    bool        a)  { return  u_field(a ? 1 : 0,     29, 29); }
  static int cond(     int         x)  { return  u_field(x,             28, 25); }
  static int cond_mov( int         x)  { return  u_field(x,             17, 14); }
  static int rcond(    RCondition  x)  { return  u_field(x,             12, 10); }
  static int op2(      int         x)  { return  u_field(x,             24, 22); }
  static int predict(  bool        p)  { return  u_field(p ? 1 : 0,     19, 19); }
  static int branchcc( CC       fcca)  { return  u_field(fcca,          21, 20); }
  static int cmpcc(    CC       fcca)  { return  u_field(fcca,          26, 25); }
  static int imm_asi(  int         x)  { return  u_field(x,             12,  5); }
  static int immed(    bool        i)  { return  u_field(i ? 1 : 0,     13, 13); }
  static int opf_low6( int         w)  { return  u_field(w,             10,  5); }
  static int opf_low5( int         w)  { return  u_field(w,              9,  5); }
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  static int op5(      int         x)  { return  u_field(x,              8,  5); }
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  static int trapcc(   CC         cc)  { return  u_field(cc,            12, 11); }
  static int sx(       int         i)  { return  u_field(i,             12, 12); } // shift x=1 means 64-bit
  static int opf(      int         x)  { return  u_field(x,             13,  5); }

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  static bool is_cbcond( int x ) {
    return (VM_Version::has_cbcond() && (inv_cond(x) > rc_last) &&
            inv_op(x) == branch_op && inv_op2(x) == bpr_op2);
  }
  static bool is_cxb( int x ) {
    assert(is_cbcond(x), "wrong instruction");
    return (x & (1<<21)) != 0;
  }
  static int cond_cbcond( int         x)  { return  u_field((((x & 8)<<1) + 8 + (x & 7)), 29, 25); }
  static int inv_cond_cbcond(int      x)  {
    assert(is_cbcond(x), "wrong instruction");
    return inv_u_field(x, 27, 25) | (inv_u_field(x, 29, 29)<<3);
  }

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  static int opf_cc(   CC          c, bool useFloat ) { return u_field((useFloat ? 0 : 4) + c, 13, 11); }
  static int mov_cc(   CC          c, bool useFloat ) { return u_field(useFloat ? 0 : 1,  18, 18) | u_field(c, 12, 11); }

  static int fd( FloatRegister r,  FloatRegisterImpl::Width fwa) { return u_field(r->encoding(fwa), 29, 25); };
  static int fs1(FloatRegister r,  FloatRegisterImpl::Width fwa) { return u_field(r->encoding(fwa), 18, 14); };
  static int fs2(FloatRegister r,  FloatRegisterImpl::Width fwa) { return u_field(r->encoding(fwa),  4,  0); };
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  static int fs3(FloatRegister r,  FloatRegisterImpl::Width fwa) { return u_field(r->encoding(fwa), 13,  9); };
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  // some float instructions use this encoding on the op3 field
  static int alt_op3(int op, FloatRegisterImpl::Width w) {
    int r;
    switch(w) {
     case FloatRegisterImpl::S: r = op + 0;  break;
     case FloatRegisterImpl::D: r = op + 3;  break;
     case FloatRegisterImpl::Q: r = op + 2;  break;
     default: ShouldNotReachHere(); break;
    }
    return op3(r);
  }


  // compute inverse of simm
  static int inv_simm(int x, int nbits) {
    return (int)(x << (32 - nbits)) >> (32 - nbits);
  }

  static int inv_simm13( int x ) { return inv_simm(x, 13); }

  // signed immediate, in low bits, nbits long
  static int simm(int x, int nbits) {
    assert_signed_range(x, nbits);
    return x  &  (( 1 << nbits ) - 1);
  }

  // compute inverse of wdisp16
  static intptr_t inv_wdisp16(int x, intptr_t pos) {
    int lo = x & (( 1 << 14 ) - 1);
    int hi = (x >> 20) & 3;
    if (hi >= 2) hi |= ~1;
    return (((hi << 14) | lo) << 2) + pos;
  }

  // word offset, 14 bits at LSend, 2 bits at B21, B20
  static int wdisp16(intptr_t x, intptr_t off) {
    intptr_t xx = x - off;
    assert_signed_word_disp_range(xx, 16);
    int r =  (xx >> 2) & ((1 << 14) - 1)
           |  (  ( (xx>>(2+14)) & 3 )  <<  20 );
    assert( inv_wdisp16(r, off) == x,  "inverse is not inverse");
    return r;
  }

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  // compute inverse of wdisp10
  static intptr_t inv_wdisp10(int x, intptr_t pos) {
    assert(is_cbcond(x), "wrong instruction");
    int lo = inv_u_field(x, 12, 5);
    int hi = (x >> 19) & 3;
    if (hi >= 2) hi |= ~1;
    return (((hi << 8) | lo) << 2) + pos;
  }

  // word offset for cbcond, 8 bits at [B12,B5], 2 bits at [B20,B19]
  static int wdisp10(intptr_t x, intptr_t off) {
    assert(VM_Version::has_cbcond(), "This CPU does not have CBCOND instruction");
    intptr_t xx = x - off;
    assert_signed_word_disp_range(xx, 10);
    int r =  ( ( (xx >>  2   ) & ((1 << 8) - 1) ) <<  5 )
           | ( ( (xx >> (2+8)) & 3              ) << 19 );
    // Have to fake cbcond instruction to pass assert in inv_wdisp10()
    assert(inv_wdisp10((r | op(branch_op) | cond_cbcond(rc_last+1) | op2(bpr_op2)), off) == x,  "inverse is not inverse");
    return r;
  }
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  // word displacement in low-order nbits bits

  static intptr_t inv_wdisp( int x, intptr_t pos, int nbits ) {
    int pre_sign_extend = x & (( 1 << nbits ) - 1);
    int r =  pre_sign_extend >= ( 1 << (nbits-1) )
       ?   pre_sign_extend | ~(( 1 << nbits ) - 1)
       :   pre_sign_extend;
    return (r << 2) + pos;
  }

  static int wdisp( intptr_t x, intptr_t off, int nbits ) {
    intptr_t xx = x - off;
    assert_signed_word_disp_range(xx, nbits);
    int r =  (xx >> 2) & (( 1 << nbits ) - 1);
    assert( inv_wdisp( r, off, nbits )  ==  x, "inverse not inverse");
    return r;
  }


  // Extract the top 32 bits in a 64 bit word
  static int32_t hi32( int64_t x ) {
    int32_t r = int32_t( (uint64_t)x >> 32 );
    return r;
  }

  // given a sethi instruction, extract the constant, left-justified
  static int inv_hi22( int x ) {
    return x << 10;
  }

  // create an imm22 field, given a 32-bit left-justified constant
  static int hi22( int x ) {
    int r = int( juint(x) >> 10 );
    assert( (r & ~((1 << 22) - 1))  ==  0, "just checkin'");
    return r;
  }

  // create a low10 __value__ (not a field) for a given a 32-bit constant
  static int low10( int x ) {
    return x & ((1 << 10) - 1);
  }

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  // AES crypto instructions supported only on certain processors
  static void aes_only() { assert( VM_Version::has_aes(), "This instruction only works on SPARC with AES instructions support"); }

  // instruction only in VIS1
  static void vis1_only() { assert( VM_Version::has_vis1(), "This instruction only works on SPARC with VIS1"); }

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  // instruction only in VIS3
  static void vis3_only() { assert( VM_Version::has_vis3(), "This instruction only works on SPARC with VIS3"); }

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  // instruction only in v9
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  static void v9_only() { } // do nothing
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  // instruction deprecated in v9
  static void v9_dep()  { } // do nothing for now

  // v8 has no CC field
  static void v8_no_cc(CC cc)  { if (cc)  v9_only(); }

 protected:
  // Simple delay-slot scheme:
  // In order to check the programmer, the assembler keeps track of deley slots.
  // It forbids CTIs in delay slots (conservative, but should be OK).
  // Also, when putting an instruction into a delay slot, you must say
  // asm->delayed()->add(...), in order to check that you don't omit
  // delay-slot instructions.
  // To implement this, we use a simple FSA

#ifdef ASSERT
  #define CHECK_DELAY
#endif
#ifdef CHECK_DELAY
  enum Delay_state { no_delay, at_delay_slot, filling_delay_slot } delay_state;
#endif

 public:
  // Tells assembler next instruction must NOT be in delay slot.
  // Use at start of multinstruction macros.
  void assert_not_delayed() {
    // This is a separate overloading to avoid creation of string constants
    // in non-asserted code--with some compilers this pollutes the object code.
#ifdef CHECK_DELAY
    assert_not_delayed("next instruction should not be a delay slot");
#endif
  }
  void assert_not_delayed(const char* msg) {
#ifdef CHECK_DELAY
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    assert(delay_state == no_delay, msg);
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#endif
  }

 protected:
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  // Insert a nop if the previous is cbcond
  void insert_nop_after_cbcond() {
    if (UseCBCond && cbcond_before()) {
      nop();
    }
  }
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  // Delay slot helpers
  // cti is called when emitting control-transfer instruction,
  // BEFORE doing the emitting.
  // Only effective when assertion-checking is enabled.
  void cti() {
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    // A cbcond instruction immediately followed by a CTI
    // instruction introduces pipeline stalls, we need to avoid that.
    no_cbcond_before();
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#ifdef CHECK_DELAY
    assert_not_delayed("cti should not be in delay slot");
#endif
  }

  // called when emitting cti with a delay slot, AFTER emitting
  void has_delay_slot() {
#ifdef CHECK_DELAY
    assert_not_delayed("just checking");
    delay_state = at_delay_slot;
#endif
  }

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  // cbcond instruction should not be generated one after an other
  bool cbcond_before() {
    if (offset() == 0) return false; // it is first instruction
    int x = *(int*)(intptr_t(pc()) - 4); // previous instruction
    return is_cbcond(x);
  }

  void no_cbcond_before() {
    assert(offset() == 0 || !cbcond_before(), "cbcond should not follow an other cbcond");
  }
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public:

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  bool use_cbcond(Label& L) {
    if (!UseCBCond || cbcond_before()) return false;
    intptr_t x = intptr_t(target_distance(L)) - intptr_t(pc());
    assert( (x & 3) == 0, "not word aligned");
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    return is_simm12(x);
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  }

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  // Tells assembler you know that next instruction is delayed
  Assembler* delayed() {
#ifdef CHECK_DELAY
    assert ( delay_state == at_delay_slot, "delayed instruction is not in delay slot");
    delay_state = filling_delay_slot;
#endif
    return this;
  }

  void flush() {
#ifdef CHECK_DELAY
    assert ( delay_state == no_delay, "ending code with a delay slot");
#endif
    AbstractAssembler::flush();
  }

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  inline void emit_int32(int);  // shadows AbstractAssembler::emit_int32
  inline void emit_data(int x) { emit_int32(x); }
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  inline void emit_data(int, RelocationHolder const&);
  inline void emit_data(int, relocInfo::relocType rtype);
  // helper for above fcns
  inline void check_delay();


 public:
  // instructions, refer to page numbers in the SPARC Architecture Manual, V9

  // pp 135 (addc was addx in v8)

708
  inline void add(Register s1, Register s2, Register d );
709
  inline void add(Register s1, int simm13a, Register d );
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  void addcc(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(add_op3  | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void addcc(  Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(add_op3  | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void addc(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(addc_op3             ) | rs1(s1) | rs2(s2) ); }
  void addc(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(addc_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void addccc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(addc_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void addccc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(addc_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // 4-operand AES instructions

  void aes_eround01(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_eround01_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_eround23(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_eround23_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_dround01(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_dround01_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_dround23(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_dround23_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_eround01_l(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_eround01_l_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_eround23_l(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_eround23_l_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_dround01_l(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_dround01_l_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_dround23_l(  FloatRegister s1, FloatRegister s2, FloatRegister s3, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | fs3(s3, FloatRegisterImpl::D) | op5(aes_dround23_l_op5) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_kexpand1(  FloatRegister s1, FloatRegister s2, int imm5a, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes4_op3) | fs1(s1, FloatRegisterImpl::D) | u_field(imm5a, 13, 9) | op5(aes_kexpand1_op5) | fs2(s2, FloatRegisterImpl::D) ); }


  // 3-operand AES instructions

  void aes_kexpand0(  FloatRegister s1, FloatRegister s2, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes3_op3) | fs1(s1, FloatRegisterImpl::D) | opf(aes_kexpand0_opf) | fs2(s2, FloatRegisterImpl::D) ); }
  void aes_kexpand2(  FloatRegister s1, FloatRegister s2, FloatRegister d ) { aes_only(); emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(aes3_op3) | fs1(s1, FloatRegisterImpl::D) | opf(aes_kexpand2_opf) | fs2(s2, FloatRegisterImpl::D) ); }

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  // pp 136

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  inline void bpr(RCondition c, bool a, Predict p, Register s1, address d, relocInfo::relocType rt = relocInfo::none);
  inline void bpr(RCondition c, bool a, Predict p, Register s1, Label& L);
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  // compare and branch
  inline void cbcond(Condition c, CC cc, Register s1, Register s2, Label& L);
  inline void cbcond(Condition c, CC cc, Register s1, int simm5, Label& L);

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 protected: // use MacroAssembler::br instead

  // pp 138

  inline void fb( Condition c, bool a, address d, relocInfo::relocType rt = relocInfo::none );
  inline void fb( Condition c, bool a, Label& L );

  // pp 141

  inline void fbp( Condition c, bool a, CC cc, Predict p, address d, relocInfo::relocType rt = relocInfo::none );
  inline void fbp( Condition c, bool a, CC cc, Predict p, Label& L );

  // pp 144

  inline void br( Condition c, bool a, address d, relocInfo::relocType rt = relocInfo::none );
  inline void br( Condition c, bool a, Label& L );

  // pp 146

  inline void bp( Condition c, bool a, CC cc, Predict p, address d, relocInfo::relocType rt = relocInfo::none );
  inline void bp( Condition c, bool a, CC cc, Predict p, Label& L );

  // pp 149

  inline void call( address d,  relocInfo::relocType rt = relocInfo::runtime_call_type );
  inline void call( Label& L,   relocInfo::relocType rt = relocInfo::runtime_call_type );

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 public:

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  // pp 150

  // These instructions compare the contents of s2 with the contents of
  // memory at address in s1. If the values are equal, the contents of memory
  // at address s1 is swapped with the data in d. If the values are not equal,
  // the the contents of memory at s1 is loaded into d, without the swap.

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  void casa(  Register s1, Register s2, Register d, int ia = -1 ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(casa_op3 ) | rs1(s1) | (ia == -1  ? immed(true) : imm_asi(ia)) | rs2(s2)); }
  void casxa( Register s1, Register s2, Register d, int ia = -1 ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(casxa_op3) | rs1(s1) | (ia == -1  ? immed(true) : imm_asi(ia)) | rs2(s2)); }
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  // pp 152

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  void udiv(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(udiv_op3             ) | rs1(s1) | rs2(s2)); }
  void udiv(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(udiv_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void sdiv(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sdiv_op3             ) | rs1(s1) | rs2(s2)); }
  void sdiv(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sdiv_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void udivcc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(udiv_op3 | cc_bit_op3) | rs1(s1) | rs2(s2)); }
  void udivcc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(udiv_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void sdivcc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sdiv_op3 | cc_bit_op3) | rs1(s1) | rs2(s2)); }
  void sdivcc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sdiv_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 155

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  void done()  { v9_only();  cti();  emit_int32( op(arith_op) | fcn(0) | op3(done_op3) ); }
  void retry() { v9_only();  cti();  emit_int32( op(arith_op) | fcn(1) | op3(retry_op3) ); }
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  // pp 156

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  void fadd( FloatRegisterImpl::Width w, FloatRegister s1, FloatRegister s2, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | fs1(s1, w) | opf(0x40 + w) | fs2(s2, w)); }
  void fsub( FloatRegisterImpl::Width w, FloatRegister s1, FloatRegister s2, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | fs1(s1, w) | opf(0x44 + w) | fs2(s2, w)); }
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  // pp 157

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  void fcmp(  FloatRegisterImpl::Width w, CC cc, FloatRegister s1, FloatRegister s2) { emit_int32( op(arith_op) | cmpcc(cc) | op3(fpop2_op3) | fs1(s1, w) | opf(0x50 + w) | fs2(s2, w)); }
  void fcmpe( FloatRegisterImpl::Width w, CC cc, FloatRegister s1, FloatRegister s2) { emit_int32( op(arith_op) | cmpcc(cc) | op3(fpop2_op3) | fs1(s1, w) | opf(0x54 + w) | fs2(s2, w)); }
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  // pp 159

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  void ftox( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { v9_only();  emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(fpop1_op3) | opf(0x80 + w) | fs2(s, w)); }
  void ftoi( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) {             emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::S) | op3(fpop1_op3) | opf(0xd0 + w) | fs2(s, w)); }
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  // pp 160

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  void ftof( FloatRegisterImpl::Width sw, FloatRegisterImpl::Width dw, FloatRegister s, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, dw) | op3(fpop1_op3) | opf(0xc0 + sw + dw*4) | fs2(s, sw)); }
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  // pp 161

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  void fxtof( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { v9_only();  emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0x80 + w*4) | fs2(s, FloatRegisterImpl::D)); }
  void fitof( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) {             emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0xc0 + w*4) | fs2(s, FloatRegisterImpl::S)); }
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  // pp 162

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  void fmov( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0x00 + w) | fs2(s, w)); }
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  void fneg( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0x04 + w) | fs2(s, w)); }
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  void fabs( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0x08 + w) | fs2(s, w)); }
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  // pp 163

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  void fmul( FloatRegisterImpl::Width w,                            FloatRegister s1, FloatRegister s2, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w)  | op3(fpop1_op3) | fs1(s1, w)  | opf(0x48 + w)         | fs2(s2, w)); }
  void fmul( FloatRegisterImpl::Width sw, FloatRegisterImpl::Width dw,  FloatRegister s1, FloatRegister s2, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, dw) | op3(fpop1_op3) | fs1(s1, sw) | opf(0x60 + sw + dw*4) | fs2(s2, sw)); }
  void fdiv( FloatRegisterImpl::Width w,                            FloatRegister s1, FloatRegister s2, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w)  | op3(fpop1_op3) | fs1(s1, w)  | opf(0x4c + w)         | fs2(s2, w)); }
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  // FXORs/FXORd instructions

  void fxor( FloatRegisterImpl::Width w, FloatRegister s1, FloatRegister s2, FloatRegister d ) { vis1_only(); emit_int32( op(arith_op) | fd(d, w) | op3(flog3_op3) | fs1(s1, w) | opf(0x6E - w) | fs2(s2, w)); }

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  // pp 164

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  void fsqrt( FloatRegisterImpl::Width w, FloatRegister s, FloatRegister d ) { emit_int32( op(arith_op) | fd(d, w) | op3(fpop1_op3) | opf(0x28 + w) | fs2(s, w)); }
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  // pp 165

  inline void flush( Register s1, Register s2 );
  inline void flush( Register s1, int simm13a);

  // pp 167

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  void flushw() { v9_only();  emit_int32( op(arith_op) | op3(flushw_op3) ); }
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  // pp 168

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  void illtrap( int const22a) { if (const22a != 0) v9_only();  emit_int32( op(branch_op) | u_field(const22a, 21, 0) ); }
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  // v8 unimp == illtrap(0)

  // pp 169

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  void impdep1( int id1, int const19a ) { v9_only();  emit_int32( op(arith_op) | fcn(id1) | op3(impdep1_op3) | u_field(const19a, 18, 0)); }
  void impdep2( int id1, int const19a ) { v9_only();  emit_int32( op(arith_op) | fcn(id1) | op3(impdep2_op3) | u_field(const19a, 18, 0)); }
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  // pp 170

  void jmpl( Register s1, Register s2, Register d );
  void jmpl( Register s1, int simm13a, Register d, RelocationHolder const& rspec = RelocationHolder() );

  // 171

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  inline void ldf(FloatRegisterImpl::Width w, Register s1, Register s2, FloatRegister d);
  inline void ldf(FloatRegisterImpl::Width w, Register s1, int simm13a, FloatRegister d, RelocationHolder const& rspec = RelocationHolder());
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  inline void ldfsr(  Register s1, Register s2 );
  inline void ldfsr(  Register s1, int simm13a);
  inline void ldxfsr( Register s1, Register s2 );
  inline void ldxfsr( Register s1, int simm13a);

  // 173

884 885
  void ldfa(  FloatRegisterImpl::Width w, Register s1, Register s2, int ia, FloatRegister d ) { v9_only();  emit_int32( op(ldst_op) | fd(d, w) | alt_op3(ldf_op3 | alt_bit_op3, w) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void ldfa(  FloatRegisterImpl::Width w, Register s1, int simm13a,         FloatRegister d ) { v9_only();  emit_int32( op(ldst_op) | fd(d, w) | alt_op3(ldf_op3 | alt_bit_op3, w) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907

  // pp 175, lduw is ld on v8

  inline void ldsb(  Register s1, Register s2, Register d );
  inline void ldsb(  Register s1, int simm13a, Register d);
  inline void ldsh(  Register s1, Register s2, Register d );
  inline void ldsh(  Register s1, int simm13a, Register d);
  inline void ldsw(  Register s1, Register s2, Register d );
  inline void ldsw(  Register s1, int simm13a, Register d);
  inline void ldub(  Register s1, Register s2, Register d );
  inline void ldub(  Register s1, int simm13a, Register d);
  inline void lduh(  Register s1, Register s2, Register d );
  inline void lduh(  Register s1, int simm13a, Register d);
  inline void lduw(  Register s1, Register s2, Register d );
  inline void lduw(  Register s1, int simm13a, Register d);
  inline void ldx(   Register s1, Register s2, Register d );
  inline void ldx(   Register s1, int simm13a, Register d);
  inline void ldd(   Register s1, Register s2, Register d );
  inline void ldd(   Register s1, int simm13a, Register d);

  // pp 177

908 909 910 911 912 913 914 915 916 917 918 919 920 921
  void ldsba(  Register s1, Register s2, int ia, Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldsb_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void ldsba(  Register s1, int simm13a,         Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldsb_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void ldsha(  Register s1, Register s2, int ia, Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldsh_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void ldsha(  Register s1, int simm13a,         Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldsh_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void ldswa(  Register s1, Register s2, int ia, Register d ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(ldsw_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void ldswa(  Register s1, int simm13a,         Register d ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(ldsw_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void lduba(  Register s1, Register s2, int ia, Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldub_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void lduba(  Register s1, int simm13a,         Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(ldub_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void lduha(  Register s1, Register s2, int ia, Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(lduh_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void lduha(  Register s1, int simm13a,         Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(lduh_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void lduwa(  Register s1, Register s2, int ia, Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(lduw_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void lduwa(  Register s1, int simm13a,         Register d ) {             emit_int32( op(ldst_op) | rd(d) | op3(lduw_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void ldxa(   Register s1, Register s2, int ia, Register d ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(ldx_op3  | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void ldxa(   Register s1, int simm13a,         Register d ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(ldx_op3  | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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922 923 924

  // pp 181

925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948
  void and3(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(and_op3              ) | rs1(s1) | rs2(s2) ); }
  void and3(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(and_op3              ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void andcc(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(and_op3  | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void andcc(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(and_op3  | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void andn(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(andn_op3             ) | rs1(s1) | rs2(s2) ); }
  void andn(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(andn_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void andncc(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(andn_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void andncc(  Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(andn_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void or3(     Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(or_op3               ) | rs1(s1) | rs2(s2) ); }
  void or3(     Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(or_op3               ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void orcc(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(or_op3   | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void orcc(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(or_op3   | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void orn(     Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(orn_op3) | rs1(s1) | rs2(s2) ); }
  void orn(     Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(orn_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void orncc(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(orn_op3  | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void orncc(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(orn_op3  | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void xor3(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xor_op3              ) | rs1(s1) | rs2(s2) ); }
  void xor3(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xor_op3              ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void xorcc(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xor_op3  | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void xorcc(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xor_op3  | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void xnor(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xnor_op3             ) | rs1(s1) | rs2(s2) ); }
  void xnor(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xnor_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void xnorcc(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xnor_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void xnorcc(  Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(xnor_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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949 950 951

  // pp 183

952
  void membar( Membar_mask_bits const7a ) { v9_only(); emit_int32( op(arith_op) | op3(membar_op3) | rs1(O7) | immed(true) | u_field( int(const7a), 6, 0)); }
D
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953 954 955

  // pp 185

956
  void fmov( FloatRegisterImpl::Width w, Condition c,  bool floatCC, CC cca, FloatRegister s2, FloatRegister d ) { v9_only();  emit_int32( op(arith_op) | fd(d, w) | op3(fpop2_op3) | cond_mov(c) | opf_cc(cca, floatCC) | opf_low6(w) | fs2(s2, w)); }
D
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957 958 959

  // pp 189

960
  void fmov( FloatRegisterImpl::Width w, RCondition c, Register s1,  FloatRegister s2, FloatRegister d ) { v9_only();  emit_int32( op(arith_op) | fd(d, w) | op3(fpop2_op3) | rs1(s1) | rcond(c) | opf_low5(4 + w) | fs2(s2, w)); }
D
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961 962 963

  // pp 191

964 965
  void movcc( Condition c, bool floatCC, CC cca, Register s2, Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(movcc_op3) | mov_cc(cca, floatCC) | cond_mov(c) | rs2(s2) ); }
  void movcc( Condition c, bool floatCC, CC cca, int simm11a, Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(movcc_op3) | mov_cc(cca, floatCC) | cond_mov(c) | immed(true) | simm(simm11a, 11) ); }
D
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966 967 968

  // pp 195

969 970
  void movr( RCondition c, Register s1, Register s2,  Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(movr_op3) | rs1(s1) | rcond(c) | rs2(s2) ); }
  void movr( RCondition c, Register s1, int simm10a,  Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(movr_op3) | rs1(s1) | rcond(c) | immed(true) | simm(simm10a, 10) ); }
D
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971 972 973

  // pp 196

974 975 976 977 978 979
  void mulx(  Register s1, Register s2, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(mulx_op3 ) | rs1(s1) | rs2(s2) ); }
  void mulx(  Register s1, int simm13a, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(mulx_op3 ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void sdivx( Register s1, Register s2, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(sdivx_op3) | rs1(s1) | rs2(s2) ); }
  void sdivx( Register s1, int simm13a, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(sdivx_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void udivx( Register s1, Register s2, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(udivx_op3) | rs1(s1) | rs2(s2) ); }
  void udivx( Register s1, int simm13a, Register d ) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(udivx_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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980 981 982

  // pp 197

983 984 985 986 987 988 989 990
  void umul(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(umul_op3             ) | rs1(s1) | rs2(s2) ); }
  void umul(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(umul_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void smul(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(smul_op3             ) | rs1(s1) | rs2(s2) ); }
  void smul(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(smul_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void umulcc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(umul_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void umulcc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(umul_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void smulcc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(smul_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void smulcc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(smul_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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991 992 993

  // pp 201

994
  void nop() { emit_int32( op(branch_op) | op2(sethi_op2) ); }
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995 996 997 998


  // pp 202

999 1000
  void popc( Register s,  Register d) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(popc_op3) | rs2(s)); }
  void popc( int simm13a, Register d) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(popc_op3) | immed(true) | simm(simm13a, 13)); }
D
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1001 1002 1003

  // pp 203

1004
  void prefetch(   Register s1, Register s2, PrefetchFcn f) { v9_only();  emit_int32( op(ldst_op) | fcn(f) | op3(prefetch_op3) | rs1(s1) | rs2(s2) ); }
1005 1006
  void prefetch(   Register s1, int simm13a, PrefetchFcn f) { v9_only();  emit_data( op(ldst_op) | fcn(f) | op3(prefetch_op3) | rs1(s1) | immed(true) | simm(simm13a, 13)); }

1007 1008
  void prefetcha(  Register s1, Register s2, int ia, PrefetchFcn f ) { v9_only();  emit_int32( op(ldst_op) | fcn(f) | op3(prefetch_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void prefetcha(  Register s1, int simm13a,         PrefetchFcn f ) { v9_only();  emit_int32( op(ldst_op) | fcn(f) | op3(prefetch_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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1009 1010 1011 1012 1013

  // pp 208

  // not implementing read privileged register

1014 1015 1016 1017 1018 1019
  inline void rdy(    Register d) { v9_dep();  emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(0, 18, 14)); }
  inline void rdccr(  Register d) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(2, 18, 14)); }
  inline void rdasi(  Register d) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(3, 18, 14)); }
  inline void rdtick( Register d) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(4, 18, 14)); } // Spoon!
  inline void rdpc(   Register d) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(5, 18, 14)); }
  inline void rdfprs( Register d) { v9_only(); emit_int32( op(arith_op) | rd(d) | op3(rdreg_op3) | u_field(6, 18, 14)); }
D
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1020 1021 1022 1023 1024 1025 1026 1027

  // pp 213

  inline void rett( Register s1, Register s2);
  inline void rett( Register s1, int simm13a, relocInfo::relocType rt = relocInfo::none);

  // pp 214

1028
  void save(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(save_op3) | rs1(s1) | rs2(s2) ); }
1029 1030 1031
  void save(    Register s1, int simm13a, Register d ) {
    // make sure frame is at least large enough for the register save area
    assert(-simm13a >= 16 * wordSize, "frame too small");
1032
    emit_int32( op(arith_op) | rd(d) | op3(save_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) );
1033
  }
D
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1034

1035 1036
  void restore( Register s1 = G0,  Register s2 = G0, Register d = G0 ) { emit_int32( op(arith_op) | rd(d) | op3(restore_op3) | rs1(s1) | rs2(s2) ); }
  void restore( Register s1,       int simm13a,      Register d      ) { emit_int32( op(arith_op) | rd(d) | op3(restore_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
D
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1037 1038 1039

  // pp 216

1040 1041
  void saved()    { v9_only();  emit_int32( op(arith_op) | fcn(0) | op3(saved_op3)); }
  void restored() { v9_only();  emit_int32( op(arith_op) | fcn(1) | op3(saved_op3)); }
D
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1042 1043 1044 1045 1046 1047

  // pp 217

  inline void sethi( int imm22a, Register d, RelocationHolder const& rspec = RelocationHolder() );
  // pp 218

1048 1049 1050 1051 1052 1053
  void sll(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sll_op3) | rs1(s1) | sx(0) | rs2(s2) ); }
  void sll(  Register s1, int imm5a,   Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sll_op3) | rs1(s1) | sx(0) | immed(true) | u_field(imm5a, 4, 0) ); }
  void srl(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(srl_op3) | rs1(s1) | sx(0) | rs2(s2) ); }
  void srl(  Register s1, int imm5a,   Register d ) { emit_int32( op(arith_op) | rd(d) | op3(srl_op3) | rs1(s1) | sx(0) | immed(true) | u_field(imm5a, 4, 0) ); }
  void sra(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sra_op3) | rs1(s1) | sx(0) | rs2(s2) ); }
  void sra(  Register s1, int imm5a,   Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sra_op3) | rs1(s1) | sx(0) | immed(true) | u_field(imm5a, 4, 0) ); }
D
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1054

1055 1056 1057 1058 1059 1060
  void sllx( Register s1, Register s2, Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(sll_op3) | rs1(s1) | sx(1) | rs2(s2) ); }
  void sllx( Register s1, int imm6a,   Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(sll_op3) | rs1(s1) | sx(1) | immed(true) | u_field(imm6a, 5, 0) ); }
  void srlx( Register s1, Register s2, Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(srl_op3) | rs1(s1) | sx(1) | rs2(s2) ); }
  void srlx( Register s1, int imm6a,   Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(srl_op3) | rs1(s1) | sx(1) | immed(true) | u_field(imm6a, 5, 0) ); }
  void srax( Register s1, Register s2, Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(sra_op3) | rs1(s1) | sx(1) | rs2(s2) ); }
  void srax( Register s1, int imm6a,   Register d ) { v9_only();  emit_int32( op(arith_op) | rd(d) | op3(sra_op3) | rs1(s1) | sx(1) | immed(true) | u_field(imm6a, 5, 0) ); }
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  // pp 220

1064
  void sir( int simm13a ) { emit_int32( op(arith_op) | fcn(15) | op3(sir_op3) | immed(true) | simm(simm13a, 13)); }
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  // pp 221

1068
  void stbar() { emit_int32( op(arith_op) | op3(membar_op3) | u_field(15, 18, 14)); }
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  // pp 222

1072
  inline void stf(    FloatRegisterImpl::Width w, FloatRegister d, Register s1, Register s2);
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  inline void stf(    FloatRegisterImpl::Width w, FloatRegister d, Register s1, int simm13a);

  inline void stfsr(  Register s1, Register s2 );
  inline void stfsr(  Register s1, int simm13a);
  inline void stxfsr( Register s1, Register s2 );
  inline void stxfsr( Register s1, int simm13a);

  //  pp 224

1082 1083
  void stfa(  FloatRegisterImpl::Width w, FloatRegister d, Register s1, Register s2, int ia ) { v9_only();  emit_int32( op(ldst_op) | fd(d, w) | alt_op3(stf_op3 | alt_bit_op3, w) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stfa(  FloatRegisterImpl::Width w, FloatRegister d, Register s1, int simm13a         ) { v9_only();  emit_int32( op(ldst_op) | fd(d, w) | alt_op3(stf_op3 | alt_bit_op3, w) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // p 226

  inline void stb(  Register d, Register s1, Register s2 );
  inline void stb(  Register d, Register s1, int simm13a);
  inline void sth(  Register d, Register s1, Register s2 );
  inline void sth(  Register d, Register s1, int simm13a);
  inline void stw(  Register d, Register s1, Register s2 );
  inline void stw(  Register d, Register s1, int simm13a);
  inline void stx(  Register d, Register s1, Register s2 );
  inline void stx(  Register d, Register s1, int simm13a);
  inline void std(  Register d, Register s1, Register s2 );
  inline void std(  Register d, Register s1, int simm13a);

  // pp 177

1100 1101 1102 1103 1104 1105 1106 1107 1108 1109
  void stba(  Register d, Register s1, Register s2, int ia ) {             emit_int32( op(ldst_op) | rd(d) | op3(stb_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stba(  Register d, Register s1, int simm13a         ) {             emit_int32( op(ldst_op) | rd(d) | op3(stb_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void stha(  Register d, Register s1, Register s2, int ia ) {             emit_int32( op(ldst_op) | rd(d) | op3(sth_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stha(  Register d, Register s1, int simm13a         ) {             emit_int32( op(ldst_op) | rd(d) | op3(sth_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void stwa(  Register d, Register s1, Register s2, int ia ) {             emit_int32( op(ldst_op) | rd(d) | op3(stw_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stwa(  Register d, Register s1, int simm13a         ) {             emit_int32( op(ldst_op) | rd(d) | op3(stw_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void stxa(  Register d, Register s1, Register s2, int ia ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(stx_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stxa(  Register d, Register s1, int simm13a         ) { v9_only();  emit_int32( op(ldst_op) | rd(d) | op3(stx_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void stda(  Register d, Register s1, Register s2, int ia ) {             emit_int32( op(ldst_op) | rd(d) | op3(std_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void stda(  Register d, Register s1, int simm13a         ) {             emit_int32( op(ldst_op) | rd(d) | op3(std_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 230

1113 1114
  void sub(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sub_op3              ) | rs1(s1) | rs2(s2) ); }
  void sub(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sub_op3              ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
1115

1116 1117 1118 1119 1120 1121
  void subcc(  Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sub_op3 | cc_bit_op3 ) | rs1(s1) | rs2(s2) ); }
  void subcc(  Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(sub_op3 | cc_bit_op3 ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void subc(   Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(subc_op3             ) | rs1(s1) | rs2(s2) ); }
  void subc(   Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(subc_op3             ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
  void subccc( Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(subc_op3 | cc_bit_op3) | rs1(s1) | rs2(s2) ); }
  void subccc( Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(subc_op3 | cc_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 231

  inline void swap( Register s1, Register s2, Register d );
  inline void swap( Register s1, int simm13a, Register d);

  // pp 232

1130 1131
  void swapa(   Register s1, Register s2, int ia, Register d ) { v9_dep();  emit_int32( op(ldst_op) | rd(d) | op3(swap_op3 | alt_bit_op3) | rs1(s1) | imm_asi(ia) | rs2(s2) ); }
  void swapa(   Register s1, int simm13a,         Register d ) { v9_dep();  emit_int32( op(ldst_op) | rd(d) | op3(swap_op3 | alt_bit_op3) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 234, note op in book is wrong, see pp 268

1135 1136
  void taddcc(    Register s1, Register s2, Register d ) {            emit_int32( op(arith_op) | rd(d) | op3(taddcc_op3  ) | rs1(s1) | rs2(s2) ); }
  void taddcc(    Register s1, int simm13a, Register d ) {            emit_int32( op(arith_op) | rd(d) | op3(taddcc_op3  ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 235

1140 1141
  void tsubcc(    Register s1, Register s2, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(tsubcc_op3  ) | rs1(s1) | rs2(s2) ); }
  void tsubcc(    Register s1, int simm13a, Register d ) { emit_int32( op(arith_op) | rd(d) | op3(tsubcc_op3  ) | rs1(s1) | immed(true) | simm(simm13a, 13) ); }
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  // pp 237

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  void trap( Condition c, CC cc, Register s1, Register s2 ) { emit_int32( op(arith_op) | cond(c) | op3(trap_op3) | rs1(s1) | trapcc(cc) | rs2(s2)); }
  void trap( Condition c, CC cc, Register s1, int trapa   ) { emit_int32( op(arith_op) | cond(c) | op3(trap_op3) | rs1(s1) | trapcc(cc) | immed(true) | u_field(trapa, 6, 0)); }
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  // simple uncond. trap
  void trap( int trapa ) { trap( always, icc, G0, trapa ); }

  // pp 239 omit write priv register for now

1152 1153 1154
  inline void wry(    Register d) { v9_dep();  emit_int32( op(arith_op) | rs1(d) | op3(wrreg_op3) | u_field(0, 29, 25)); }
  inline void wrccr(Register s) { v9_only(); emit_int32( op(arith_op) | rs1(s) | op3(wrreg_op3) | u_field(2, 29, 25)); }
  inline void wrccr(Register s, int simm13a) { v9_only(); emit_int32( op(arith_op) |
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                                                                           rs1(s) |
                                                                           op3(wrreg_op3) |
                                                                           u_field(2, 29, 25) |
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                                                                           immed(true) |
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                                                                           simm(simm13a, 13)); }
1160
  inline void wrasi(Register d) { v9_only(); emit_int32( op(arith_op) | rs1(d) | op3(wrreg_op3) | u_field(3, 29, 25)); }
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  // wrasi(d, imm) stores (d xor imm) to asi
1162
  inline void wrasi(Register d, int simm13a) { v9_only(); emit_int32( op(arith_op) | rs1(d) | op3(wrreg_op3) |
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                                               u_field(3, 29, 25) | immed(true) | simm(simm13a, 13)); }
1164
  inline void wrfprs( Register d) { v9_only(); emit_int32( op(arith_op) | rs1(d) | op3(wrreg_op3) | u_field(6, 29, 25)); }
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  // VIS3 instructions

1169 1170 1171
  void movstosw( FloatRegister s, Register d ) { vis3_only();  emit_int32( op(arith_op) | rd(d) | op3(mftoi_op3) | opf(mstosw_opf) | fs2(s, FloatRegisterImpl::S)); }
  void movstouw( FloatRegister s, Register d ) { vis3_only();  emit_int32( op(arith_op) | rd(d) | op3(mftoi_op3) | opf(mstouw_opf) | fs2(s, FloatRegisterImpl::S)); }
  void movdtox(  FloatRegister s, Register d ) { vis3_only();  emit_int32( op(arith_op) | rd(d) | op3(mftoi_op3) | opf(mdtox_opf) | fs2(s, FloatRegisterImpl::D)); }
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1173 1174
  void movwtos( Register s, FloatRegister d ) { vis3_only();  emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::S) | op3(mftoi_op3) | opf(mwtos_opf) | rs2(s)); }
  void movxtod( Register s, FloatRegister d ) { vis3_only();  emit_int32( op(arith_op) | fd(d, FloatRegisterImpl::D) | op3(mftoi_op3) | opf(mxtod_opf) | rs2(s)); }
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  // Creation
  Assembler(CodeBuffer* code) : AbstractAssembler(code) {
#ifdef CHECK_DELAY
    delay_state = no_delay;
#endif
  }
};

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#endif // CPU_SPARC_VM_ASSEMBLER_SPARC_HPP