;; VSX patterns. ;; Copyright (C) 2009 ;; Free Software Foundation, Inc. ;; Contributed by Michael Meissner ;; This file is part of GCC. ;; GCC is free software; you can redistribute it and/or modify it ;; under the terms of the GNU General Public License as published ;; by the Free Software Foundation; either version 3, or (at your ;; option) any later version. ;; GCC 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 for more details. ;; You should have received a copy of the GNU General Public License ;; along with GCC; see the file COPYING3. If not see ;; . ;; Iterator for both scalar and vector floating point types supported by VSX (define_mode_iterator VSX_B [DF V4SF V2DF]) ;; Iterator for the 2 64-bit vector types (define_mode_iterator VSX_D [V2DF V2DI]) ;; Iterator for the 2 32-bit vector types (define_mode_iterator VSX_W [V4SF V4SI]) ;; Iterator for vector floating point types supported by VSX (define_mode_iterator VSX_F [V4SF V2DF]) ;; Iterator for logical types supported by VSX (define_mode_iterator VSX_L [V16QI V8HI V4SI V2DI V4SF V2DF TI]) ;; Iterator for memory move. Handle TImode specially to allow ;; it to use gprs as well as vsx registers. (define_mode_iterator VSX_M [V16QI V8HI V4SI V2DI V4SF V2DF]) ;; Map into the appropriate load/store name based on the type (define_mode_attr VSm [(V16QI "vw4") (V8HI "vw4") (V4SI "vw4") (V4SF "vw4") (V2DF "vd2") (V2DI "vd2") (DF "d") (TI "vw4")]) ;; Map into the appropriate suffix based on the type (define_mode_attr VSs [(V16QI "sp") (V8HI "sp") (V4SI "sp") (V4SF "sp") (V2DF "dp") (V2DI "dp") (DF "dp") (SF "sp") (TI "sp")]) ;; Map the register class used (define_mode_attr VSr [(V16QI "v") (V8HI "v") (V4SI "v") (V4SF "wf") (V2DI "wd") (V2DF "wd") (DF "ws") (SF "d") (TI "wd")]) ;; Map the register class used for float<->int conversions (define_mode_attr VSr2 [(V2DF "wd") (V4SF "wf") (DF "!f#r")]) (define_mode_attr VSr3 [(V2DF "wa") (V4SF "wa") (DF "!f#r")]) ;; Map the register class for sp<->dp float conversions, destination (define_mode_attr VSr4 [(SF "ws") (DF "f") (V2DF "wd") (V4SF "v")]) ;; Map the register class for sp<->dp float conversions, destination (define_mode_attr VSr5 [(SF "ws") (DF "f") (V2DF "v") (V4SF "wd")]) ;; Same size integer type for floating point data (define_mode_attr VSi [(V4SF "v4si") (V2DF "v2di") (DF "di")]) (define_mode_attr VSI [(V4SF "V4SI") (V2DF "V2DI") (DF "DI")]) ;; Word size for same size conversion (define_mode_attr VSc [(V4SF "w") (V2DF "d") (DF "d")]) ;; Map into either s or v, depending on whether this is a scalar or vector ;; operation (define_mode_attr VSv [(V16QI "v") (V8HI "v") (V4SI "v") (V4SF "v") (V2DI "v") (V2DF "v") (TI "v") (DF "s")]) ;; Appropriate type for add ops (and other simple FP ops) (define_mode_attr VStype_simple [(V2DF "vecfloat") (V4SF "vecfloat") (DF "fp")]) (define_mode_attr VSfptype_simple [(V2DF "fp_addsub_d") (V4SF "fp_addsub_s") (DF "fp_addsub_d")]) ;; Appropriate type for multiply ops (define_mode_attr VStype_mul [(V2DF "vecfloat") (V4SF "vecfloat") (DF "dmul")]) (define_mode_attr VSfptype_mul [(V2DF "fp_mul_d") (V4SF "fp_mul_s") (DF "fp_mul_d")]) ;; Appropriate type for divide ops. For now, just lump the vector divide with ;; the scalar divides (define_mode_attr VStype_div [(V2DF "ddiv") (V4SF "sdiv") (DF "ddiv")]) (define_mode_attr VSfptype_div [(V2DF "fp_div_d") (V4SF "fp_div_s") (DF "fp_div_d")]) ;; Appropriate type for sqrt ops. For now, just lump the vector sqrt with ;; the scalar sqrt (define_mode_attr VStype_sqrt [(V2DF "dsqrt") (V4SF "sdiv") (DF "ddiv")]) (define_mode_attr VSfptype_sqrt [(V2DF "fp_sqrt_d") (V4SF "fp_sqrt_s") (DF "fp_sqrt_d")]) ;; Iterator and modes for sp<->dp conversions ;; Because scalar SF values are represented internally as double, use the ;; V4SF type to represent this than SF. (define_mode_iterator VSX_SPDP [DF V4SF V2DF]) (define_mode_attr VS_spdp_res [(DF "V4SF") (V4SF "V2DF") (V2DF "V4SF")]) (define_mode_attr VS_spdp_insn [(DF "xscvdpsp") (V4SF "xvcvspdp") (V2DF "xvcvdpsp")]) (define_mode_attr VS_spdp_type [(DF "fp") (V4SF "vecfloat") (V2DF "vecfloat")]) ;; Map the scalar mode for a vector type (define_mode_attr VS_scalar [(V2DF "DF") (V2DI "DI") (V4SF "SF") (V4SI "SI") (V8HI "HI") (V16QI "QI")]) ;; Constants for creating unspecs (define_constants [(UNSPEC_VSX_CONCAT 500) (UNSPEC_VSX_CVDPSXWS 501) (UNSPEC_VSX_CVDPUXWS 502) (UNSPEC_VSX_CVSPDP 503) (UNSPEC_VSX_CVSXWDP 504) (UNSPEC_VSX_CVUXWDP 505) (UNSPEC_VSX_CVSXDSP 506) (UNSPEC_VSX_CVUXDSP 507) (UNSPEC_VSX_CVSPSXDS 508) (UNSPEC_VSX_CVSPUXDS 509) (UNSPEC_VSX_MADD 510) (UNSPEC_VSX_MSUB 511) (UNSPEC_VSX_NMADD 512) (UNSPEC_VSX_NMSUB 513) ;; 514 deleted (UNSPEC_VSX_TDIV 515) (UNSPEC_VSX_TSQRT 516) (UNSPEC_VSX_XXPERMDI 517) (UNSPEC_VSX_SET 518) (UNSPEC_VSX_ROUND_I 519) (UNSPEC_VSX_ROUND_IC 520) (UNSPEC_VSX_SLDWI 521)]) ;; VSX moves (define_insn "*vsx_mov" [(set (match_operand:VSX_M 0 "nonimmediate_operand" "=Z,,,?Z,?wa,?wa,*o,*r,*r,,?wa,v,wZ,v") (match_operand:VSX_M 1 "input_operand" ",Z,,wa,Z,wa,r,o,r,j,j,W,v,wZ"))] "VECTOR_MEM_VSX_P (mode) && (register_operand (operands[0], mode) || register_operand (operands[1], mode))" { switch (which_alternative) { case 0: case 3: gcc_assert (MEM_P (operands[0]) && GET_CODE (XEXP (operands[0], 0)) != PRE_INC && GET_CODE (XEXP (operands[0], 0)) != PRE_DEC && GET_CODE (XEXP (operands[0], 0)) != PRE_MODIFY); return "stxx %x1,%y0"; case 1: case 4: gcc_assert (MEM_P (operands[1]) && GET_CODE (XEXP (operands[1], 0)) != PRE_INC && GET_CODE (XEXP (operands[1], 0)) != PRE_DEC && GET_CODE (XEXP (operands[1], 0)) != PRE_MODIFY); return "lxx %x0,%y1"; case 2: case 5: return "xxlor %x0,%x1,%x1"; case 6: case 7: case 8: return "#"; case 9: case 10: return "xxlxor %x0,%x0,%x0"; case 11: return output_vec_const_move (operands); case 12: gcc_assert (MEM_P (operands[0]) && GET_CODE (XEXP (operands[0], 0)) != PRE_INC && GET_CODE (XEXP (operands[0], 0)) != PRE_DEC && GET_CODE (XEXP (operands[0], 0)) != PRE_MODIFY); return "stvx %1,%y0"; case 13: gcc_assert (MEM_P (operands[0]) && GET_CODE (XEXP (operands[0], 0)) != PRE_INC && GET_CODE (XEXP (operands[0], 0)) != PRE_DEC && GET_CODE (XEXP (operands[0], 0)) != PRE_MODIFY); return "lvx %0,%y1"; default: gcc_unreachable (); } } [(set_attr "type" "vecstore,vecload,vecsimple,vecstore,vecload,vecsimple,*,*,*,vecsimple,vecsimple,*,vecstore,vecload")]) ;; Unlike other VSX moves, allow the GPRs, since a normal use of TImode is for ;; unions. However for plain data movement, slightly favor the vector loads (define_insn "*vsx_movti" [(set (match_operand:TI 0 "nonimmediate_operand" "=Z,wa,wa,?o,?r,?r,wa,v,v,wZ") (match_operand:TI 1 "input_operand" "wa,Z,wa,r,o,r,j,W,wZ,v"))] "VECTOR_MEM_VSX_P (TImode) && (register_operand (operands[0], TImode) || register_operand (operands[1], TImode))" { switch (which_alternative) { case 0: return "stxvd2x %x1,%y0"; case 1: return "lxvd2x %x0,%y1"; case 2: return "xxlor %x0,%x1,%x1"; case 3: case 4: case 5: return "#"; case 6: return "xxlxor %x0,%x0,%x0"; case 7: return output_vec_const_move (operands); case 8: return "stvx %1,%y0"; case 9: return "lvx %0,%y1"; default: gcc_unreachable (); } } [(set_attr "type" "vecstore,vecload,vecsimple,*,*,*,vecsimple,*,vecstore,vecload")]) ;; VSX scalar and vector floating point arithmetic instructions (define_insn "*vsx_add3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (plus:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xadd %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_sub3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (minus:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xsub %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_mul3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xmul %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_div3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (div:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xdiv %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; *tdiv* instruction returning the FG flag (define_expand "vsx_tdiv3_fg" [(set (match_dup 3) (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "")] UNSPEC_VSX_TDIV)) (set (match_operand:SI 0 "gpc_reg_operand" "") (gt:SI (match_dup 3) (const_int 0)))] "VECTOR_UNIT_VSX_P (mode)" { operands[3] = gen_reg_rtx (CCFPmode); }) ;; *tdiv* instruction returning the FE flag (define_expand "vsx_tdiv3_fe" [(set (match_dup 3) (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "")] UNSPEC_VSX_TDIV)) (set (match_operand:SI 0 "gpc_reg_operand" "") (eq:SI (match_dup 3) (const_int 0)))] "VECTOR_UNIT_VSX_P (mode)" { operands[3] = gen_reg_rtx (CCFPmode); }) (define_insn "*vsx_tdiv3_internal" [(set (match_operand:CCFP 0 "cc_reg_operand" "=x,x") (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")] UNSPEC_VSX_TDIV))] "VECTOR_UNIT_VSX_P (mode)" "xtdiv %0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fre2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_FRES))] "VECTOR_UNIT_VSX_P (mode)" "xre %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_neg2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (neg:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xneg %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_abs2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (abs:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xabs %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_nabs2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (neg:VSX_B (abs:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa"))))] "VECTOR_UNIT_VSX_P (mode)" "xnabs %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_smax3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (smax:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xmax %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_smin3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (smin:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa") (match_operand:VSX_B 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xmin %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_sqrt2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (sqrt:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xsqrt %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_rsqrte2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_RSQRT))] "VECTOR_UNIT_VSX_P (mode)" "xrsqrte %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; *tsqrt* returning the fg flag (define_expand "vsx_tsqrt2_fg" [(set (match_dup 3) (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" "")] UNSPEC_VSX_TSQRT)) (set (match_operand:SI 0 "gpc_reg_operand" "") (gt:SI (match_dup 3) (const_int 0)))] "VECTOR_UNIT_VSX_P (mode)" { operands[3] = gen_reg_rtx (CCFPmode); }) ;; *tsqrt* returning the fe flag (define_expand "vsx_tsqrt2_fe" [(set (match_dup 3) (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" "")] UNSPEC_VSX_TSQRT)) (set (match_operand:SI 0 "gpc_reg_operand" "") (eq:SI (match_dup 3) (const_int 0)))] "VECTOR_UNIT_VSX_P (mode)" { operands[3] = gen_reg_rtx (CCFPmode); }) (define_insn "*vsx_tsqrt2_internal" [(set (match_operand:CCFP 0 "cc_reg_operand" "=x,x") (unspec:CCFP [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_VSX_TSQRT))] "VECTOR_UNIT_VSX_P (mode)" "xtsqrt %0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; Fused vector multiply/add instructions ;; Note we have a pattern for the multiply/add operations that uses unspec and ;; does not check -mfused-madd to allow users to use these ops when they know ;; they want the fused multiply/add. (define_expand "vsx_fmadd4" [(set (match_operand:VSX_B 0 "vsx_register_operand" "") (plus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "")) (match_operand:VSX_B 3 "vsx_register_operand" "")))] "VECTOR_UNIT_VSX_P (mode)" { if (!TARGET_FUSED_MADD) { emit_insn (gen_vsx_fmadd4_2 (operands[0], operands[1], operands[2], operands[3])); DONE; } }) (define_insn "*vsx_fmadd4_1" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (plus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0")) (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD" "@ xmadda %x0,%x1,%x2 xmaddm %x0,%x1,%x3 xmadda %x0,%x1,%x2 xmaddm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fmadd4_2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0") (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")] UNSPEC_VSX_MADD))] "VECTOR_UNIT_VSX_P (mode)" "@ xmadda %x0,%x1,%x2 xmaddm %x0,%x1,%x3 xmadda %x0,%x1,%x2 xmaddm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_expand "vsx_fmsub4" [(set (match_operand:VSX_B 0 "vsx_register_operand" "") (minus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "")) (match_operand:VSX_B 3 "vsx_register_operand" "")))] "VECTOR_UNIT_VSX_P (mode)" { if (!TARGET_FUSED_MADD) { emit_insn (gen_vsx_fmsub4_2 (operands[0], operands[1], operands[2], operands[3])); DONE; } }) (define_insn "*vsx_fmsub4_1" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (minus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0")) (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD" "@ xmsuba %x0,%x1,%x2 xmsubm %x0,%x1,%x3 xmsuba %x0,%x1,%x2 xmsubm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fmsub4_2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0") (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")] UNSPEC_VSX_MSUB))] "VECTOR_UNIT_VSX_P (mode)" "@ xmsuba %x0,%x1,%x2 xmsubm %x0,%x1,%x3 xmsuba %x0,%x1,%x2 xmsubm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_expand "vsx_fnmadd4" [(match_operand:VSX_B 0 "vsx_register_operand" "") (match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "") (match_operand:VSX_B 3 "vsx_register_operand" "")] "VECTOR_UNIT_VSX_P (mode)" { if (TARGET_FUSED_MADD && HONOR_SIGNED_ZEROS (DFmode)) { emit_insn (gen_vsx_fnmadd4_1 (operands[0], operands[1], operands[2], operands[3])); DONE; } else if (TARGET_FUSED_MADD && !HONOR_SIGNED_ZEROS (DFmode)) { emit_insn (gen_vsx_fnmadd4_2 (operands[0], operands[1], operands[2], operands[3])); DONE; } else { emit_insn (gen_vsx_fnmadd4_3 (operands[0], operands[1], operands[2], operands[3])); DONE; } }) (define_insn "vsx_fnmadd4_1" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (neg:VSX_B (plus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0")) (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa"))))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD && HONOR_SIGNED_ZEROS (DFmode)" "@ xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3 xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fnmadd4_2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (minus:VSX_B (mult:VSX_B (neg:VSX_B (match_operand:VSX_B 1 "gpc_reg_operand" ",,wa,wa")) (match_operand:VSX_B 2 "gpc_reg_operand" ",0,wa,0")) (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD && !HONOR_SIGNED_ZEROS (DFmode)" "@ xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3 xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fnmadd4_3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0") (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")] UNSPEC_VSX_NMADD))] "VECTOR_UNIT_VSX_P (mode)" "@ xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3 xnmadda %x0,%x1,%x2 xnmaddm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_expand "vsx_fnmsub4" [(match_operand:VSX_B 0 "vsx_register_operand" "") (match_operand:VSX_B 1 "vsx_register_operand" "") (match_operand:VSX_B 2 "vsx_register_operand" "") (match_operand:VSX_B 3 "vsx_register_operand" "")] "VECTOR_UNIT_VSX_P (mode)" { if (TARGET_FUSED_MADD && HONOR_SIGNED_ZEROS (DFmode)) { emit_insn (gen_vsx_fnmsub4_1 (operands[0], operands[1], operands[2], operands[3])); DONE; } else if (TARGET_FUSED_MADD && !HONOR_SIGNED_ZEROS (DFmode)) { emit_insn (gen_vsx_fnmsub4_2 (operands[0], operands[1], operands[2], operands[3])); DONE; } else { emit_insn (gen_vsx_fnmsub4_3 (operands[0], operands[1], operands[2], operands[3])); DONE; } }) (define_insn "vsx_fnmsub4_1" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (neg:VSX_B (minus:VSX_B (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0")) (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa"))))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD && HONOR_SIGNED_ZEROS (DFmode)" "@ xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3 xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fnmsub4_2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (minus:VSX_B (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa") (mult:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0"))))] "VECTOR_UNIT_VSX_P (mode) && TARGET_FUSED_MADD && !HONOR_SIGNED_ZEROS (DFmode)" "@ xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3 xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fnmsub4_3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,,?wa,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" "%,,wa,wa") (match_operand:VSX_B 2 "vsx_register_operand" ",0,wa,0") (match_operand:VSX_B 3 "vsx_register_operand" "0,,0,wa")] UNSPEC_VSX_NMSUB))] "VECTOR_UNIT_VSX_P (mode)" "@ xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3 xnmsuba %x0,%x1,%x2 xnmsubm %x0,%x1,%x3" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; Vector conditional expressions (no scalar version for these instructions) (define_insn "vsx_eq" [(set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (eq:VSX_F (match_operand:VSX_F 1 "vsx_register_operand" ",wa") (match_operand:VSX_F 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpeq %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_gt" [(set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (gt:VSX_F (match_operand:VSX_F 1 "vsx_register_operand" ",wa") (match_operand:VSX_F 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpgt %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_ge" [(set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (ge:VSX_F (match_operand:VSX_F 1 "vsx_register_operand" ",wa") (match_operand:VSX_F 2 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpge %x0,%x1,%x2" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; Floating point scalar compare (define_insn "*vsx_cmpdf_internal1" [(set (match_operand:CCFP 0 "cc_reg_operand" "=y,?y") (compare:CCFP (match_operand:DF 1 "gpc_reg_operand" "ws,wa") (match_operand:DF 2 "gpc_reg_operand" "ws,wa")))] "TARGET_HARD_FLOAT && TARGET_FPRS && TARGET_DOUBLE_FLOAT && VECTOR_UNIT_VSX_P (DFmode)" "xscmpudp %0,%x1,%x2" [(set_attr "type" "fpcompare")]) ;; Compare vectors producing a vector result and a predicate, setting CR6 to ;; indicate a combined status (define_insn "*vsx_eq__p" [(set (reg:CC 74) (unspec:CC [(eq:CC (match_operand:VSX_F 1 "vsx_register_operand" ",?wa") (match_operand:VSX_F 2 "vsx_register_operand" ",?wa"))] UNSPEC_PREDICATE)) (set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (eq:VSX_F (match_dup 1) (match_dup 2)))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpeq. %x0,%x1,%x2" [(set_attr "type" "veccmp")]) (define_insn "*vsx_gt__p" [(set (reg:CC 74) (unspec:CC [(gt:CC (match_operand:VSX_F 1 "vsx_register_operand" ",?wa") (match_operand:VSX_F 2 "vsx_register_operand" ",?wa"))] UNSPEC_PREDICATE)) (set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (gt:VSX_F (match_dup 1) (match_dup 2)))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpgt. %x0,%x1,%x2" [(set_attr "type" "veccmp")]) (define_insn "*vsx_ge__p" [(set (reg:CC 74) (unspec:CC [(ge:CC (match_operand:VSX_F 1 "vsx_register_operand" ",?wa") (match_operand:VSX_F 2 "vsx_register_operand" ",?wa"))] UNSPEC_PREDICATE)) (set (match_operand:VSX_F 0 "vsx_register_operand" "=,?wa") (ge:VSX_F (match_dup 1) (match_dup 2)))] "VECTOR_UNIT_VSX_P (mode)" "xvcmpge. %x0,%x1,%x2" [(set_attr "type" "veccmp")]) ;; Vector select (define_insn "*vsx_xxsel" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (if_then_else:VSX_L (ne:CC (match_operand:VSX_L 1 "vsx_register_operand" ",wa") (const_int 0)) (match_operand:VSX_L 2 "vsx_register_operand" ",wa") (match_operand:VSX_L 3 "vsx_register_operand" ",wa")))] "VECTOR_MEM_VSX_P (mode)" "xxsel %x0,%x3,%x2,%x1" [(set_attr "type" "vecperm")]) (define_insn "*vsx_xxsel_uns" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (if_then_else:VSX_L (ne:CCUNS (match_operand:VSX_L 1 "vsx_register_operand" ",wa") (const_int 0)) (match_operand:VSX_L 2 "vsx_register_operand" ",wa") (match_operand:VSX_L 3 "vsx_register_operand" ",wa")))] "VECTOR_MEM_VSX_P (mode)" "xxsel %x0,%x3,%x2,%x1" [(set_attr "type" "vecperm")]) ;; Copy sign (define_insn "vsx_copysign3" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (if_then_else:VSX_B (ge:VSX_B (match_operand:VSX_B 2 "vsx_register_operand" ",wa") (match_operand:VSX_B 3 "zero_constant" "j,j")) (abs:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa")) (neg:VSX_B (abs:VSX_B (match_dup 1)))))] "VECTOR_UNIT_VSX_P (mode)" "xcpsgn %x0,%x2,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; Special version of copysign for single precision that knows internally ;; scalar single values are kept as double (define_insn "vsx_copysignsf3" [(set (match_operand:SF 0 "vsx_register_operand" "=f") (if_then_else:SF (ge:SF (match_operand:SF 2 "vsx_register_operand" "f") (match_operand:SF 3 "zero_constant" "j")) (abs:SF (match_operand:SF 1 "vsx_register_operand" "f")) (neg:SF (abs:SF (match_dup 1)))))] "VECTOR_UNIT_VSX_P (DFmode)" "xscpsgndp %x0,%x2,%x1" [(set_attr "type" "fp") (set_attr "fp_type" "fp_addsub_d")]) ;; For the conversions, limit the register class for the integer value to be ;; the fprs because we don't want to add the altivec registers to movdi/movsi. ;; For the unsigned tests, there isn't a generic double -> unsigned conversion ;; in rs6000.md so don't test VECTOR_UNIT_VSX_P, just test against VSX. (define_insn "vsx_float2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (float:VSX_B (match_operand: 1 "vsx_register_operand" ",")))] "VECTOR_UNIT_VSX_P (mode)" "xcvsx %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_floatuns2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unsigned_float:VSX_B (match_operand: 1 "vsx_register_operand" ",")))] "VECTOR_UNIT_VSX_P (mode)" "xcvux %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fix_trunc2" [(set (match_operand: 0 "vsx_register_operand" "=,?") (fix: (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xcvsxs %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_fixuns_trunc2" [(set (match_operand: 0 "vsx_register_operand" "=,?") (unsigned_fix: (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xcvuxs %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; Math rounding functions (define_insn "vsx_xri" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_VSX_ROUND_I))] "VECTOR_UNIT_VSX_P (mode)" "xri %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_xric" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_VSX_ROUND_IC))] "VECTOR_UNIT_VSX_P (mode)" "xric %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_btrunc2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (fix:VSX_B (match_operand:VSX_B 1 "vsx_register_operand" ",wa")))] "VECTOR_UNIT_VSX_P (mode)" "xriz %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "*vsx_b2trunc2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_FRIZ))] "VECTOR_UNIT_VSX_P (mode)" "xriz %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_floor2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_FRIM))] "VECTOR_UNIT_VSX_P (mode)" "xrim %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) (define_insn "vsx_ceil2" [(set (match_operand:VSX_B 0 "vsx_register_operand" "=,?wa") (unspec:VSX_B [(match_operand:VSX_B 1 "vsx_register_operand" ",wa")] UNSPEC_FRIP))] "VECTOR_UNIT_VSX_P (mode)" "xrip %x0,%x1" [(set_attr "type" "") (set_attr "fp_type" "")]) ;; VSX convert to/from double vector ;; Convert between single and double precision ;; Don't use xscvspdp and xscvdpsp for scalar conversions, since the normal ;; scalar single precision instructions internally use the double format. ;; Prefer the altivec registers, since we likely will need to do a vperm (define_insn "vsx_" [(set (match_operand: 0 "vsx_register_operand" "=,?wa") (unspec: [(match_operand:VSX_SPDP 1 "vsx_register_operand" ",wa")] UNSPEC_VSX_CVSPDP))] "VECTOR_UNIT_VSX_P (mode)" " %x0,%x1" [(set_attr "type" "")]) ;; xscvspdp, represent the scalar SF type as V4SF (define_insn "vsx_xscvspdp" [(set (match_operand:DF 0 "vsx_register_operand" "=ws,?wa") (unspec:DF [(match_operand:V4SF 1 "vsx_register_operand" "wa,wa")] UNSPEC_VSX_CVSPDP))] "VECTOR_UNIT_VSX_P (DFmode)" "xscvspdp %x0,%x1" [(set_attr "type" "fp")]) ;; xscvdpsp used for splat'ing a scalar to V4SF, knowing that the internal SF ;; format of scalars is actually DF. (define_insn "vsx_xscvdpsp_scalar" [(set (match_operand:V4SF 0 "vsx_register_operand" "=wa") (unspec:V4SF [(match_operand:SF 1 "vsx_register_operand" "f")] UNSPEC_VSX_CVSPDP))] "VECTOR_UNIT_VSX_P (DFmode)" "xscvdpsp %x0,%x1" [(set_attr "type" "fp")]) ;; Convert from 64-bit to 32-bit types ;; Note, favor the Altivec registers since the usual use of these instructions ;; is in vector converts and we need to use the Altivec vperm instruction. (define_insn "vsx_xvcvdpsxws" [(set (match_operand:V4SI 0 "vsx_register_operand" "=v,?wa") (unspec:V4SI [(match_operand:V2DF 1 "vsx_register_operand" "wd,wa")] UNSPEC_VSX_CVDPSXWS))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvdpsxws %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvdpuxws" [(set (match_operand:V4SI 0 "vsx_register_operand" "=v,?wa") (unspec:V4SI [(match_operand:V2DF 1 "vsx_register_operand" "wd,wa")] UNSPEC_VSX_CVDPUXWS))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvdpuxws %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvsxdsp" [(set (match_operand:V4SI 0 "vsx_register_operand" "=wd,?wa") (unspec:V4SI [(match_operand:V2DF 1 "vsx_register_operand" "wf,wa")] UNSPEC_VSX_CVSXDSP))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvsxdsp %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvuxdsp" [(set (match_operand:V4SI 0 "vsx_register_operand" "=wd,?wa") (unspec:V4SI [(match_operand:V2DF 1 "vsx_register_operand" "wf,wa")] UNSPEC_VSX_CVUXDSP))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvuxwdp %x0,%x1" [(set_attr "type" "vecfloat")]) ;; Convert from 32-bit to 64-bit types (define_insn "vsx_xvcvsxwdp" [(set (match_operand:V2DF 0 "vsx_register_operand" "=wd,?wa") (unspec:V2DF [(match_operand:V4SI 1 "vsx_register_operand" "wf,wa")] UNSPEC_VSX_CVSXWDP))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvsxwdp %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvuxwdp" [(set (match_operand:V2DF 0 "vsx_register_operand" "=wd,?wa") (unspec:V2DF [(match_operand:V4SI 1 "vsx_register_operand" "wf,wa")] UNSPEC_VSX_CVUXWDP))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvuxwdp %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvspsxds" [(set (match_operand:V2DI 0 "vsx_register_operand" "=v,?wa") (unspec:V2DI [(match_operand:V4SF 1 "vsx_register_operand" "wd,wa")] UNSPEC_VSX_CVSPSXDS))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvspsxds %x0,%x1" [(set_attr "type" "vecfloat")]) (define_insn "vsx_xvcvspuxds" [(set (match_operand:V2DI 0 "vsx_register_operand" "=v,?wa") (unspec:V2DI [(match_operand:V4SF 1 "vsx_register_operand" "wd,wa")] UNSPEC_VSX_CVSPUXDS))] "VECTOR_UNIT_VSX_P (V2DFmode)" "xvcvspuxds %x0,%x1" [(set_attr "type" "vecfloat")]) ;; Logical and permute operations (define_insn "*vsx_and3" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (and:VSX_L (match_operand:VSX_L 1 "vsx_register_operand" ",?wa") (match_operand:VSX_L 2 "vsx_register_operand" ",?wa")))] "VECTOR_MEM_VSX_P (mode)" "xxland %x0,%x1,%x2" [(set_attr "type" "vecsimple")]) (define_insn "*vsx_ior3" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (ior:VSX_L (match_operand:VSX_L 1 "vsx_register_operand" ",?wa") (match_operand:VSX_L 2 "vsx_register_operand" ",?wa")))] "VECTOR_MEM_VSX_P (mode)" "xxlor %x0,%x1,%x2" [(set_attr "type" "vecsimple")]) (define_insn "*vsx_xor3" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (xor:VSX_L (match_operand:VSX_L 1 "vsx_register_operand" ",?wa") (match_operand:VSX_L 2 "vsx_register_operand" ",?wa")))] "VECTOR_MEM_VSX_P (mode)" "xxlxor %x0,%x1,%x2" [(set_attr "type" "vecsimple")]) (define_insn "*vsx_one_cmpl2" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (not:VSX_L (match_operand:VSX_L 1 "vsx_register_operand" ",?wa")))] "VECTOR_MEM_VSX_P (mode)" "xxlnor %x0,%x1,%x1" [(set_attr "type" "vecsimple")]) (define_insn "*vsx_nor3" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (not:VSX_L (ior:VSX_L (match_operand:VSX_L 1 "vsx_register_operand" ",?wa") (match_operand:VSX_L 2 "vsx_register_operand" ",?wa"))))] "VECTOR_MEM_VSX_P (mode)" "xxlnor %x0,%x1,%x2" [(set_attr "type" "vecsimple")]) (define_insn "*vsx_andc3" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=,?wa") (and:VSX_L (not:VSX_L (match_operand:VSX_L 2 "vsx_register_operand" ",?wa")) (match_operand:VSX_L 1 "vsx_register_operand" ",?wa")))] "VECTOR_MEM_VSX_P (mode)" "xxlandc %x0,%x1,%x2" [(set_attr "type" "vecsimple")]) ;; Permute operations ;; Build a V2DF/V2DI vector from two scalars (define_insn "vsx_concat_" [(set (match_operand:VSX_D 0 "vsx_register_operand" "=wd,?wa") (unspec:VSX_D [(match_operand: 1 "vsx_register_operand" "ws,wa") (match_operand: 2 "vsx_register_operand" "ws,wa")] UNSPEC_VSX_CONCAT))] "VECTOR_MEM_VSX_P (mode)" "xxpermdi %x0,%x1,%x2,0" [(set_attr "type" "vecperm")]) ;; Special purpose concat using xxpermdi to glue two single precision values ;; together, relying on the fact that internally scalar floats are represented ;; as doubles. This is used to initialize a V4SF vector with 4 floats (define_insn "vsx_concat_v2sf" [(set (match_operand:V2DF 0 "vsx_register_operand" "=wd,?wa") (unspec:V2DF [(match_operand:SF 1 "vsx_register_operand" "f,f") (match_operand:SF 2 "vsx_register_operand" "f,f")] UNSPEC_VSX_CONCAT))] "VECTOR_MEM_VSX_P (V2DFmode)" "xxpermdi %x0,%x1,%x2,0" [(set_attr "type" "vecperm")]) ;; Set the element of a V2DI/VD2F mode (define_insn "vsx_set_" [(set (match_operand:VSX_D 0 "vsx_register_operand" "=wd,?wa") (unspec:VSX_D [(match_operand:VSX_D 1 "vsx_register_operand" "wd,wa") (match_operand: 2 "vsx_register_operand" "ws,wa") (match_operand:QI 3 "u5bit_cint_operand" "i,i")] UNSPEC_VSX_SET))] "VECTOR_MEM_VSX_P (mode)" { if (INTVAL (operands[3]) == 0) return \"xxpermdi %x0,%x1,%x2,1\"; else if (INTVAL (operands[3]) == 1) return \"xxpermdi %x0,%x2,%x1,0\"; else gcc_unreachable (); } [(set_attr "type" "vecperm")]) ;; Extract a DF/DI element from V2DF/V2DI (define_insn "vsx_extract_" [(set (match_operand: 0 "vsx_register_operand" "=ws,d,?wa") (vec_select: (match_operand:VSX_D 1 "vsx_register_operand" "wd,wd,wa") (parallel [(match_operand:QI 2 "u5bit_cint_operand" "i,i,i")])))] "VECTOR_MEM_VSX_P (mode)" { gcc_assert (UINTVAL (operands[2]) <= 1); operands[3] = GEN_INT (INTVAL (operands[2]) << 1); return \"xxpermdi %x0,%x1,%x1,%3\"; } [(set_attr "type" "vecperm")]) ;; Optimize extracting element 0 from memory (define_insn "*vsx_extract__zero" [(set (match_operand: 0 "vsx_register_operand" "=ws,d,?wa") (vec_select: (match_operand:VSX_D 1 "indexed_or_indirect_operand" "Z,Z,Z") (parallel [(const_int 0)])))] "VECTOR_MEM_VSX_P (mode) && WORDS_BIG_ENDIAN" "lxsd%U1x %x0,%y1" [(set_attr "type" "fpload") (set_attr "length" "4")]) ;; General double word oriented permute, allow the other vector types for ;; optimizing the permute instruction. (define_insn "vsx_xxpermdi_" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=wd,?wa") (unspec:VSX_L [(match_operand:VSX_L 1 "vsx_register_operand" "wd,wa") (match_operand:VSX_L 2 "vsx_register_operand" "wd,wa") (match_operand:QI 3 "u5bit_cint_operand" "i,i")] UNSPEC_VSX_XXPERMDI))] "VECTOR_MEM_VSX_P (mode)" "xxpermdi %x0,%x1,%x2,%3" [(set_attr "type" "vecperm")]) ;; Varient of xxpermdi that is emitted by the vec_interleave functions (define_insn "*vsx_xxpermdi2_" [(set (match_operand:VSX_D 0 "vsx_register_operand" "=wd") (vec_concat:VSX_D (vec_select: (match_operand:VSX_D 1 "vsx_register_operand" "wd") (parallel [(match_operand:QI 2 "u5bit_cint_operand" "i")])) (vec_select: (match_operand:VSX_D 3 "vsx_register_operand" "wd") (parallel [(match_operand:QI 4 "u5bit_cint_operand" "i")]))))] "VECTOR_MEM_VSX_P (mode)" { gcc_assert ((UINTVAL (operands[2]) <= 1) && (UINTVAL (operands[4]) <= 1)); operands[5] = GEN_INT (((INTVAL (operands[2]) & 1) << 1) | (INTVAL (operands[4]) & 1)); return \"xxpermdi %x0,%x1,%x3,%5\"; } [(set_attr "type" "vecperm")]) ;; V2DF/V2DI splat (define_insn "vsx_splat_" [(set (match_operand:VSX_D 0 "vsx_register_operand" "=wd,wd,wd,?wa,?wa,?wa") (vec_duplicate:VSX_D (match_operand: 1 "input_operand" "ws,f,Z,wa,wa,Z")))] "VECTOR_MEM_VSX_P (mode)" "@ xxpermdi %x0,%x1,%x1,0 xxpermdi %x0,%x1,%x1,0 lxvdsx %x0,%y1 xxpermdi %x0,%x1,%x1,0 xxpermdi %x0,%x1,%x1,0 lxvdsx %x0,%y1" [(set_attr "type" "vecperm,vecperm,vecload,vecperm,vecperm,vecload")]) ;; V4SF/V4SI splat (define_insn "vsx_xxspltw_" [(set (match_operand:VSX_W 0 "vsx_register_operand" "=wf,?wa") (vec_duplicate:VSX_W (vec_select: (match_operand:VSX_W 1 "vsx_register_operand" "wf,wa") (parallel [(match_operand:QI 2 "u5bit_cint_operand" "i,i")]))))] "VECTOR_MEM_VSX_P (mode)" "xxspltw %x0,%x1,%2" [(set_attr "type" "vecperm")]) ;; V4SF/V4SI interleave (define_insn "vsx_xxmrghw_" [(set (match_operand:VSX_W 0 "vsx_register_operand" "=wf,?wa") (vec_merge:VSX_W (vec_select:VSX_W (match_operand:VSX_W 1 "vsx_register_operand" "wf,wa") (parallel [(const_int 0) (const_int 2) (const_int 1) (const_int 3)])) (vec_select:VSX_W (match_operand:VSX_W 2 "vsx_register_operand" "wf,wa") (parallel [(const_int 2) (const_int 0) (const_int 3) (const_int 1)])) (const_int 5)))] "VECTOR_MEM_VSX_P (mode)" "xxmrghw %x0,%x1,%x2" [(set_attr "type" "vecperm")]) (define_insn "vsx_xxmrglw_" [(set (match_operand:VSX_W 0 "vsx_register_operand" "=wf,?wa") (vec_merge:VSX_W (vec_select:VSX_W (match_operand:VSX_W 1 "vsx_register_operand" "wf,wa") (parallel [(const_int 2) (const_int 0) (const_int 3) (const_int 1)])) (vec_select:VSX_W (match_operand:VSX_W 2 "vsx_register_operand" "wf,?wa") (parallel [(const_int 0) (const_int 2) (const_int 1) (const_int 3)])) (const_int 5)))] "VECTOR_MEM_VSX_P (mode)" "xxmrglw %x0,%x1,%x2" [(set_attr "type" "vecperm")]) ;; Shift left double by word immediate (define_insn "vsx_xxsldwi_" [(set (match_operand:VSX_L 0 "vsx_register_operand" "=wa") (unspec:VSX_L [(match_operand:VSX_L 1 "vsx_register_operand" "wa") (match_operand:VSX_L 2 "vsx_register_operand" "wa") (match_operand:QI 3 "u5bit_cint_operand" "i")] UNSPEC_VSX_SLDWI))] "VECTOR_MEM_VSX_P (mode)" "xxsldwi %x0,%x1,%x2,%3" [(set_attr "type" "vecperm")])