hs Cdiff src/hotspot/cpu/s390/assembler

src/hotspot/cpu/s390/assembler_s390.inline.hpp


*** 332,347 ****
--- 332,351 ----
  
  //-----------------------------------
  // SHIFT/RORATE OPERATIONS
  //-----------------------------------
  inline void Assembler::z_sla( Register r1,              int64_t d2, Register b2) { emit_32( SLA_ZOPC  | regt(r1, 8, 32) | uimm12(d2, 20, 32) | reg(b2, 16, 32)); }
+ inline void Assembler::z_slak(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SLAK_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_slag(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SLAG_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_sra( Register r1,              int64_t d2, Register b2) { emit_32( SRA_ZOPC  | regt(r1, 8, 32) | uimm12(d2, 20, 32) | reg(b2, 16, 32)); }
+ inline void Assembler::z_srak(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SRAK_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_srag(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SRAG_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_sll( Register r1,              int64_t d2, Register b2) { emit_32( SLL_ZOPC  | regt(r1, 8, 32) | uimm12(d2, 20, 32) | reg(b2, 16, 32)); }
+ inline void Assembler::z_sllk(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SLLK_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_sllg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SLLG_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_srl( Register r1,              int64_t d2, Register b2) { emit_32( SRL_ZOPC  | regt(r1, 8, 32) | uimm12(d2, 20, 32) | reg(b2, 16, 32)); }
+ inline void Assembler::z_srlk(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SRLK_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  inline void Assembler::z_srlg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( SRLG_ZOPC | regt(r1, 8, 48) | simm20(d2)         | reg(b2, 16, 48) | reg(r3, 12, 48)); }
  
  // rotate left
  inline void Assembler::z_rll( Register r1, Register r3, int64_t d2, Register b2) { emit_48( RLL_ZOPC  | regt(r1, 8, 48) | reg(r3, 12, 48) | simm20(d2) | reg(b2, 16, 48)); }
  inline void Assembler::z_rllg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( RLLG_ZOPC | regt(r1, 8, 48) | reg(r3, 12, 48) | simm20(d2) | reg(b2, 16, 48)); }
*** 688,701 ****
  inline void Assembler::z_ahhhr(Register r1, Register r2, Register r3) { emit_32( AHHHR_ZOPC  | reg(r3, 16, 32) | reg(r1, 24, 32) | reg(r2, 28, 32)); }
  inline void Assembler::z_ahhlr(Register r1, Register r2, Register r3) { emit_32( AHHLR_ZOPC  | reg(r3, 16, 32) | reg(r1, 24, 32) | reg(r2, 28, 32)); }
  
  inline void Assembler::z_tam() { emit_16( TAM_ZOPC); }
  inline void Assembler::z_stckf(int64_t d2, Register b2) { emit_32( STCKF_ZOPC | uimm12(d2, 20, 32) | regz(b2, 16, 32)); }
! inline void Assembler::z_stmg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( STMG_ZOPC | simm20(d2) | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) ); }
! inline void Assembler::z_lmg(Register r1, Register r3, int64_t d2, Register b2)  { emit_48( LMG_ZOPC  | simm20(d2) | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) ); }
  
! inline void Assembler::z_cs(Register r1, Register r3, int64_t d2, Register b2)  { emit_32( CS_ZOPC  | regt(r1, 8, 32) | reg(r3, 12, 32) | reg(b2, 16, 32) | uimm12(d2, 20, 32)); }
  inline void Assembler::z_csy(Register r1, Register r3, int64_t d2, Register b2) { emit_48( CSY_ZOPC | regt(r1, 8, 48) | reg(r3, 12, 48) | reg(b2, 16, 48) | simm20(d2)); }
  inline void Assembler::z_csg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( CSG_ZOPC | regt(r1, 8, 48) | reg(r3, 12, 48) | reg(b2, 16, 48) | simm20(d2)); }
  inline void Assembler::z_cs( Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_cs( r1, r3, a.disp(), a.baseOrR0()); }
  inline void Assembler::z_csy(Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_csy(r1, r3, a.disp(), a.baseOrR0()); }
  inline void Assembler::z_csg(Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_csg(r1, r3, a.disp(), a.baseOrR0()); }
--- 692,709 ----
  inline void Assembler::z_ahhhr(Register r1, Register r2, Register r3) { emit_32( AHHHR_ZOPC  | reg(r3, 16, 32) | reg(r1, 24, 32) | reg(r2, 28, 32)); }
  inline void Assembler::z_ahhlr(Register r1, Register r2, Register r3) { emit_32( AHHLR_ZOPC  | reg(r3, 16, 32) | reg(r1, 24, 32) | reg(r2, 28, 32)); }
  
  inline void Assembler::z_tam() { emit_16( TAM_ZOPC); }
  inline void Assembler::z_stckf(int64_t d2, Register b2) { emit_32( STCKF_ZOPC | uimm12(d2, 20, 32) | regz(b2, 16, 32)); }
! inline void Assembler::z_stm( Register r1, Register r3, int64_t d2, Register b2) { emit_32( STM_ZOPC  | reg(r1, 8, 32) | reg(r3,12,32)| reg(b2,16,32) | uimm12(d2, 20,32)); }
! inline void Assembler::z_stmy(Register r1, Register r3, int64_t d2, Register b2) { emit_48( STMY_ZOPC | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) | simm20(d2) ); }
! inline void Assembler::z_stmg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( STMG_ZOPC | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) | simm20(d2) ); }
! inline void Assembler::z_lm(  Register r1, Register r3, int64_t d2, Register b2) { emit_32( LM_ZOPC   | reg(r1, 8, 32) | reg(r3,12,32)| reg(b2,16,32) | uimm12(d2, 20,32)); }
! inline void Assembler::z_lmy( Register r1, Register r3, int64_t d2, Register b2) { emit_48( LMY_ZOPC  | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) | simm20(d2) ); }
! inline void Assembler::z_lmg( Register r1, Register r3, int64_t d2, Register b2) { emit_48( LMG_ZOPC  | reg(r1, 8, 48) | reg(r3,12,48)| reg(b2,16,48) | simm20(d2) ); }
  
! inline void Assembler::z_cs( Register r1, Register r3, int64_t d2, Register b2) { emit_32( CS_ZOPC  | regt(r1, 8, 32) | reg(r3, 12, 32) | reg(b2, 16, 32) | uimm12(d2, 20, 32)); }
  inline void Assembler::z_csy(Register r1, Register r3, int64_t d2, Register b2) { emit_48( CSY_ZOPC | regt(r1, 8, 48) | reg(r3, 12, 48) | reg(b2, 16, 48) | simm20(d2)); }
  inline void Assembler::z_csg(Register r1, Register r3, int64_t d2, Register b2) { emit_48( CSG_ZOPC | regt(r1, 8, 48) | reg(r3, 12, 48) | reg(b2, 16, 48) | simm20(d2)); }
  inline void Assembler::z_cs( Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_cs( r1, r3, a.disp(), a.baseOrR0()); }
  inline void Assembler::z_csy(Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_csy(r1, r3, a.disp(), a.baseOrR0()); }
  inline void Assembler::z_csg(Register r1, Register r3, const Address& a) { assert(!a.has_index(), "Cannot encode index"); z_csg(r1, r3, a.disp(), a.baseOrR0()); }
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