src/cpu/ppc/vm/assembler_ppc.inline.hpp

rev 12409 : 8171244: PPC64: Make interpreter's math entries consistent with C1 and C2 and support FMA
Reviewed-by:

*** 698,707 ****
--- 698,727 ----
  inline void Assembler::fdiv(  FloatRegister d, FloatRegister a, FloatRegister b) { emit_int32( FDIV_OPCODE  | frt(d) | fra(a) | frb(b) | rc(0)); }
  inline void Assembler::fdiv_( FloatRegister d, FloatRegister a, FloatRegister b) { emit_int32( FDIV_OPCODE  | frt(d) | fra(a) | frb(b) | rc(1)); }
  inline void Assembler::fdivs( FloatRegister d, FloatRegister a, FloatRegister b) { emit_int32( FDIVS_OPCODE | frt(d) | fra(a) | frb(b) | rc(0)); }
  inline void Assembler::fdivs_(FloatRegister d, FloatRegister a, FloatRegister b) { emit_int32( FDIVS_OPCODE | frt(d) | fra(a) | frb(b) | rc(1)); }
  
+ // Fused multiply-accumulate instructions.
+ // WARNING: Use only when rounding between the 2 parts is not desired.
+ // Some floating point tck tests will fail if used incorrectly.
+ inline void Assembler::fmadd(   FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMADD_OPCODE   | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fmadd_(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMADD_OPCODE   | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fmadds(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMADDS_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fmadds_( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMADDS_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fmsub(   FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMSUB_OPCODE   | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fmsub_(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMSUB_OPCODE   | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fmsubs(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMSUBS_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fmsubs_( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FMSUBS_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fnmadd(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMADD_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fnmadd_( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMADD_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fnmadds( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMADDS_OPCODE | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fnmadds_(FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMADDS_OPCODE | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fnmsub(  FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMSUB_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fnmsub_( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMSUB_OPCODE  | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ inline void Assembler::fnmsubs( FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMSUBS_OPCODE | frt(d) | fra(a) | frb(b) | frc(c) | rc(0)); }
+ inline void Assembler::fnmsubs_(FloatRegister d, FloatRegister a, FloatRegister c, FloatRegister b) { emit_int32( FNMSUBS_OPCODE | frt(d) | fra(a) | frb(b) | frc(c) | rc(1)); }
+ 
  // PPC 1, section 4.6.6 Floating-Point Rounding and Conversion Instructions
  inline void Assembler::frsp(  FloatRegister d, FloatRegister b) { emit_int32( FRSP_OPCODE   | frt(d) | frb(b) | rc(0)); }
  inline void Assembler::fctid( FloatRegister d, FloatRegister b) { emit_int32( FCTID_OPCODE  | frt(d) | frb(b) | rc(0)); }
  inline void Assembler::fctidz(FloatRegister d, FloatRegister b) { emit_int32( FCTIDZ_OPCODE | frt(d) | frb(b) | rc(0)); }
  inline void Assembler::fctiw( FloatRegister d, FloatRegister b) { emit_int32( FCTIW_OPCODE  | frt(d) | frb(b) | rc(0)); }