/* * Copyright (C) 2012-2019 Free Software Foundation, Inc. * * This file is part of GNU lightning. * * GNU lightning is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation; either version 3, or (at your option) * any later version. * * GNU lightning 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 Lesser General Public * License for more details. * * Authors: * Paulo Cesar Pereira de Andrade */ #if PROTO /* as per vfp_regno macro, required due to "support" to soft float registers * or using integer registers as arguments to float operations */ # define _D8_REGNO 32 # define ARM_V_Q 0x00000040 # define FPSCR_N 0x80000000 /* Negative flag */ # define FPSCR_Z 0x40000000 /* Zero flag */ # define FPSCR_C 0x20000000 /* Carry flag */ # define FPSCR_V 0x10000000 /* Overflow flag */ # define FPSCR_QC 0x08000000 /* Cumulative saturation */ # define FPSCR_AHP 0x04000000 /* Alt. half-precision */ # define FPSCR_DN 0x02000000 /* Default NaN mode */ # define FPSCR_FZ 0x01000000 /* Flush to zero */ # define FPSCR_RMASK 0x00c00000 # define FPSCR_RN 0x00000000 /* Round to Nearest */ # define FPSCR_RP 0x00400000 /* Round to Plus Infinity */ # define FPSCR_RM 0x00800000 /* Round to Minus Infinity */ # define FPSCR_RZ 0x00c00000 /* Round towards Zero */ # define FPSCR_STRIDE 0x00300000 # define FPSCR_RES1 0x00080000 /* Reserved, UNK/SBZP */ # define FPSCR_LEN 0x00070000 # define FPSCR_IDE 0x00008000 /* Input Denormal trap */ # define FPSCR_IXE 0x00001000 /* Inexact trap */ # define FPSCR_UFE 0x00000800 /* Underflow trap */ # define FPSCR_OFE 0x00000400 /* Overflow trap */ # define FPSCR_DZE 0x00000200 /* Division by zero trap */ # define FPSCR_IOE 0x00000100 /* Invalid Operation trap */ # define FPSCR_IDC 0x00000080 /* Input Denormal flag */ # define FPSCR_RES0 0x00000060 /* Reserved, UNK/SBZP */ # define FPSCR_IXC 0x00000010 /* Inexact flag */ # define FPSCR_UFC 0x00000008 /* Underflow flag */ # define FPSCR_OFC 0x00000004 /* Overflow flag */ # define FPSCR_DZC 0x00000002 /* Division by zero flag */ # define FPSCR_IOC 0x00000001 /* Invalid Operation flag */ # define ARM_V_E 0x00000080 /* ARM_VCMP except if NaN */ # define ARM_V_Z 0x00010000 /* ARM_VCMP with zero */ # define ARM_V_F64 0x00000100 # define ARM_VADD_F 0x0e300a00 # define ARM_VSUB_F 0x0e300a40 # define ARM_VMUL_F 0x0e200a00 # define ARM_VDIV_F 0x0e800a00 # define ARM_VABS_F 0x0eb00ac0 # define ARM_VNEG_F 0x0eb10a40 # define ARM_VSQRT_F 0x0eb10ac0 # define ARM_VMOV_F 0x0eb00a40 # define ARM_VMOV_A_S 0x0e100a10 /* vmov rn, sn */ # define ARM_VMOV_S_A 0x0e000a10 /* vmov sn, rn */ # define ARM_VMOV_AA_D 0x0c500b10 /* vmov rn,rn, dn */ # define ARM_VMOV_D_AA 0x0c400b10 /* vmov dn, rn,rn */ # define ARM_VCMP 0x0eb40a40 # define ARM_VMRS 0x0ef10a10 # define ARM_VMSR 0x0ee10a10 # define ARM_VCVT_2I 0x00040000 /* to integer */ # define ARM_VCVT_2S 0x00010000 /* to signed */ # define ARM_VCVT_RS 0x00000080 /* round to zero or signed */ # define ARM_VCVT 0x0eb80a40 # define ARM_VCVT_S32_F32 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_2S|ARM_VCVT_RS # define ARM_VCVT_U32_F32 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_RS # define ARM_VCVT_S32_F64 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_2S|ARM_VCVT_RS|ARM_V_F64 # define ARM_VCVT_U32_F64 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_RS|ARM_V_F64 # define ARM_VCVT_F32_S32 ARM_VCVT|ARM_VCVT_RS # define ARM_VCVT_F32_U32 ARM_VCVT # define ARM_VCVT_F64_S32 ARM_VCVT|ARM_VCVT_RS|ARM_V_F64 # define ARM_VCVT_F64_U32 ARM_VCVT|ARM_V_F64 # define ARM_VCVT_F 0x0eb70ac0 # define ARM_VCVT_F32_F64 ARM_VCVT_F # define ARM_VCVT_F64_F32 ARM_VCVT_F|ARM_V_F64 # define ARM_VCVTR_S32_F32 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_2S # define ARM_VCVTR_U32_F32 ARM_VCVT|ARM_VCVT_2I # define ARM_VCVTR_S32_F64 ARM_VCVT|ARM_VCVT_2I|ARM_VCVT_2S|ARM_V_F64 # define ARM_VCVTR_U32_F64 ARM_VCVT|ARM_VCVT_2I|ARM_V_F64 # define ARM_V_D 0x00400000 # define ARM_V_N 0x00000080 # define ARM_V_Q 0x00000040 # define ARM_V_M 0x00000020 # define ARM_V_U 0x01000000 # define ARM_V_I16 0x00100000 # define ARM_V_I32 0x00200000 # define ARM_V_I64 0x00300000 # define ARM_V_S16 0x00040000 # define ARM_V_S32 0x00080000 # define ARM_VADD_I 0x02000800 # define ARM_VQADD_I 0x02000010 /* set flag on over/carry */ # define ARM_VADDL_I 0x02800000 /* q=d+d */ # define ARM_VADDW_I 0x02800100 /* q=q+d */ # define ARM_VSUB_I 0x03000800 # define ARM_VQSUB_I 0x02000210 /* set flag on over/carry */ # define ARM_VSUBL_I 0x02800200 # define ARM_VSUBW_I 0x02800300 # define ARM_VMUL_I 0x02000910 # define ARM_VMULL_I 0x02800c00 # define ARM_VABS_I 0x03b10300 # define ARM_VQABS_I 0x03b00700 /* sets flag on overflow */ # define ARM_VNEG_I 0x03b10380 # define ARM_VQNEG_I 0x03b00780 /* sets flag on overflow */ # define ARM_VAND 0x02000110 # define ARM_VBIC 0x02100110 # define ARM_VORR 0x02200110 # define ARM_VORN 0x02300110 # define ARM_VEOR 0x03000110 # define ARM_VMOVL_S8 0x00080000 # define ARM_VMOVL_S16 0x00100000 # define ARM_VMOVL_S32 0x00200000 # define ARM_VMOVL_I 0x02800a10 # define ARM_VMOVI 0x02800010 # define ARM_VMVNI 0x02800030 # define ARM_VLDR 0x0d100a00 # define ARM_VSTR 0x0d000a00 # define ARM_VM 0x0c000a00 # define ARM_VMOV_ADV_U 0x00800000 /* zero extend */ # define ARM_VMOV_ADV_8 0x00400000 # define ARM_VMOV_ADV_16 0x00000020 # define ARM_VMOV_A_D 0x0e100b10 # define ARM_VMOV_D_A 0x0e000b10 # define vodi(oi,r0) _vodi(_jit,oi,r0) static void _vodi(jit_state_t*,int,int) maybe_unused; # define voqi(oi,r0) _voqi(_jit,oi,r0) static void _voqi(jit_state_t*,int,int) maybe_unused; # define vo_ss(o,r0,r1) _cc_vo_ss(_jit,ARM_CC_NV,o,r0,r1) # define cc_vo_ss(cc,o,r0,r1) _cc_vo_ss(_jit,cc,o,r0,r1) static void _cc_vo_ss(jit_state_t*,int,int,int,int); # define vo_dd(o,r0,r1) _cc_vo_dd(_jit,ARM_CC_NV,o,r0,r1) # define cc_vo_dd(cc,o,r0,r1) _cc_vo_dd(_jit,cc,o,r0,r1) static void _cc_vo_dd(jit_state_t*,int,int,int,int); # define vo_qd(o,r0,r1) _cc_vo_qd(_jit,ARM_CC_NV,o,r0,r1) # define cc_vo_qd(cc,o,r0,r1) _cc_vo_qd(_jit,cc,o,r0,r1) static void _cc_vo_qd(jit_state_t*,int,int,int,int) maybe_unused; # define vo_qq(o,r0,r1) _cc_vo_qq(_jit,ARM_CC_NV,o,r0,r1) # define cc_vo_qq(cc,o,r0,r1) _cc_vo_qq(_jit,cc,o,r0,r1) static void _cc_vo_qq(jit_state_t*,int,int,int,int) maybe_unused; # define vorr_(o,r0,r1) _cc_vorr_(_jit,ARM_CC_NV,o,r0,r1) # define cc_vorr_(cc,o,r0,r1) _cc_vorr_(_jit,cc,o,r0,r1) static void _cc_vorr_(jit_state_t*,int,int,int,int); # define vors_(o,r0,r1) _cc_vors_(_jit,ARM_CC_NV,o,r0,r1) # define cc_vors_(cc,o,r0,r1) _cc_vors_(_jit,cc,o,r0,r1) static void _cc_vors_(jit_state_t*,int,int,int,int); # define vorv_(o,r0,r1) _cc_vorv_(_jit,ARM_CC_NV,o,r0,r1) # define cc_vorv_(cc,o,r0,r1) _cc_vorv_(_jit,cc,o,r0,r1) static void _cc_vorv_(jit_state_t*,int,int,int,int) maybe_unused; # define vori_(o,r0,r1) _cc_vori_(_jit,ARM_CC_NV,o,r0,r1) # define cc_vori_(cc,o,r0,r1) _cc_vori_(_jit,cc,o,r0,r1) static void _cc_vori_(jit_state_t*,int,int,int,int); # define vorrd(o,r0,r1,r2) _cc_vorrd(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_vorrd(cc,o,r0,r1,r2) _cc_vorrd(_jit,cc,o,r0,r1,r2) static void _cc_vorrd(jit_state_t*,int,int,int,int,int); # define vosss(o,r0,r1,r2) _cc_vosss(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_vosss(cc,o,r0,r1,r2) _cc_vosss(_jit,cc,o,r0,r1,r2) static void _cc_vosss(jit_state_t*,int,int,int,int,int); # define voddd(o,r0,r1,r2) _cc_voddd(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_voddd(cc,o,r0,r1,r2) _cc_voddd(_jit,cc,o,r0,r1,r2) static void _cc_voddd(jit_state_t*,int,int,int,int,int); # define voqdd(o,r0,r1,r2) _cc_voqdd(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_voqdd(cc,o,r0,r1,r2) _cc_voqdd(_jit,cc,o,r0,r1,r2) static void _cc_voqdd(jit_state_t*,int,int,int,int,int) maybe_unused; # define voqqd(o,r0,r1,r2) _cc_voqqd(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_voqqd(cc,o,r0,r1,r2) _cc_voqqd(_jit,cc,o,r0,r1,r2) static void _cc_voqqd(jit_state_t*,int,int,int,int,int) maybe_unused; # define voqqq(o,r0,r1,r2) _cc_voqqq(_jit,ARM_CC_NV,o,r0,r1,r2) # define cc_voqqq(cc,o,r0,r1,r2) _cc_voqqq(_jit,cc,o,r0,r1,r2) static void _cc_voqqq(jit_state_t*,int,int,int,int,int) maybe_unused; # define cc_vldst(cc,o,r0,r1,i0) _cc_vldst(_jit,cc,o,r0,r1,i0) static void _cc_vldst(jit_state_t*,int,int,int,int,int); # define cc_vorsl(cc,o,r0,r1,i0) _cc_vorsl(_jit,cc,o,r0,r1,i0) static void _cc_vorsl(jit_state_t*,int,int,int,int,int); # define CC_VADD_F32(cc,r0,r1,r2) cc_vosss(cc,ARM_VADD_F,r0,r1,r2) # define VADD_F32(r0,r1,r2) CC_VADD_F32(ARM_CC_AL,r0,r1,r2) # define CC_VADD_F64(cc,r0,r1,r2) cc_voddd(cc,ARM_VADD_F|ARM_V_F64,r0,r1,r2) # define VADD_F64(r0,r1,r2) CC_VADD_F64(ARM_CC_AL,r0,r1,r2) # define CC_VSUB_F32(cc,r0,r1,r2) cc_vosss(cc,ARM_VSUB_F,r0,r1,r2) # define VSUB_F32(r0,r1,r2) CC_VSUB_F32(ARM_CC_AL,r0,r1,r2) # define CC_VSUB_F64(cc,r0,r1,r2) cc_voddd(cc,ARM_VSUB_F|ARM_V_F64,r0,r1,r2) # define VSUB_F64(r0,r1,r2) CC_VSUB_F64(ARM_CC_AL,r0,r1,r2) # define CC_VMUL_F32(cc,r0,r1,r2) cc_vosss(cc,ARM_VMUL_F,r0,r1,r2) # define VMUL_F32(r0,r1,r2) CC_VMUL_F32(ARM_CC_AL,r0,r1,r2) # define CC_VMUL_F64(cc,r0,r1,r2) cc_voddd(cc,ARM_VMUL_F|ARM_V_F64,r0,r1,r2) # define VMUL_F64(r0,r1,r2) CC_VMUL_F64(ARM_CC_AL,r0,r1,r2) # define CC_VDIV_F32(cc,r0,r1,r2) cc_vosss(cc,ARM_VDIV_F,r0,r1,r2) # define VDIV_F32(r0,r1,r2) CC_VDIV_F32(ARM_CC_AL,r0,r1,r2) # define CC_VDIV_F64(cc,r0,r1,r2) cc_voddd(cc,ARM_VDIV_F|ARM_V_F64,r0,r1,r2) # define VDIV_F64(r0,r1,r2) CC_VDIV_F64(ARM_CC_AL,r0,r1,r2) # define CC_VABS_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VABS_F,r0,r1) # define VABS_F32(r0,r1) CC_VABS_F32(ARM_CC_AL,r0,r1) # define CC_VABS_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VABS_F|ARM_V_F64,r0,r1) # define VABS_F64(r0,r1) CC_VABS_F64(ARM_CC_AL,r0,r1) # define CC_VNEG_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VNEG_F,r0,r1) # define VNEG_F32(r0,r1) CC_VNEG_F32(ARM_CC_AL,r0,r1) # define CC_VNEG_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VNEG_F|ARM_V_F64,r0,r1) # define VNEG_F64(r0,r1) CC_VNEG_F64(ARM_CC_AL,r0,r1) # define CC_VSQRT_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VSQRT_F,r0,r1) # define VSQRT_F32(r0,r1) CC_VSQRT_F32(ARM_CC_AL,r0,r1) # define CC_VSQRT_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VSQRT_F|ARM_V_F64,r0,r1) # define VSQRT_F64(r0,r1) CC_VSQRT_F64(ARM_CC_AL,r0,r1) # define CC_VMOV_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VMOV_F,r0,r1) # define VMOV_F32(r0,r1) CC_VMOV_F32(ARM_CC_AL,r0,r1) # define CC_VMOV_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VMOV_F|ARM_V_F64,r0,r1) # define VMOV_F64(r0,r1) CC_VMOV_F64(ARM_CC_AL,r0,r1) # define CC_VMOV_AA_D(cc,r0,r1,r2) cc_vorrd(cc,ARM_VMOV_AA_D,r0,r1,r2) # define VMOV_AA_D(r0,r1,r2) CC_VMOV_AA_D(ARM_CC_AL,r0,r1,r2) # define CC_VMOV_D_AA(cc,r0,r1,r2) cc_vorrd(cc,ARM_VMOV_D_AA,r1,r2,r0) # define VMOV_D_AA(r0,r1,r2) CC_VMOV_D_AA(ARM_CC_AL,r0,r1,r2) # define CC_VMOV_A_S(cc,r0,r1) cc_vors_(cc,ARM_VMOV_A_S,r0,r1) # define VMOV_A_S(r0,r1) CC_VMOV_A_S(ARM_CC_AL,r0,r1) # define CC_VMOV_S_A(cc,r0,r1) cc_vors_(cc,ARM_VMOV_S_A,r1,r0) # define VMOV_S_A(r0,r1) CC_VMOV_S_A(ARM_CC_AL,r0,r1) # define CC_VCMP_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCMP,r0,r1) # define VCMP_F32(r0,r1) CC_VCMP_F32(ARM_CC_AL,r0,r1) # define CC_VCMP_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VCMP|ARM_V_F64,r0,r1) # define VCMP_F64(r0,r1) CC_VCMP_F64(ARM_CC_AL,r0,r1) # define CC_VCMPE_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCMP|ARM_V_E,r0,r1) # define VCMPE_F32(r0,r1) CC_VCMPE_F32(ARM_CC_AL,r0,r1) # define CC_VCMPE_F64(cc,r0,r1) cc_vo_dd(cc,ARM_VCMP|ARM_V_E|ARM_V_F64,r0,r1) # define VCMPE_F64(r0,r1) CC_VCMPE_F64(ARM_CC_AL,r0,r1) # define CC_VCMPZ_F32(cc,r0) cc_vo_ss(cc,ARM_VCMP|ARM_V_Z,r0,0) # define VCMPZ_F32(r0) CC_VCMPZ_F32(ARM_CC_AL,r0) # define CC_VCMPZ_F64(cc,r0) cc_vo_dd(cc,ARM_VCMP|ARM_V_Z|ARM_V_F64,r0,0) # define VCMPZ_F64(r0) CC_VCMPZ_F64(ARM_CC_AL,r0) # define CC_VCMPEZ_F32(cc,r0) cc_vo_ss(cc,ARM_VCMP|ARM_V_Z|ARM_V_E,r0,0) # define VCMPEZ_F32(r0) CC_VCMPEZ_F32(ARM_CC_AL,r0) # define CC_VCMPEZ_F64(cc,r0) cc_vo_dd(cc,ARM_VCMP|ARM_V_Z|ARM_V_E|ARM_V_F64,r0,0) # define VCMPEZ_F64(r0) CC_VCMPEZ_F64(ARM_CC_AL,r0) # define CC_VMRS(cc,r0) cc_vorr_(cc,ARM_VMRS,r0,0) # define VMRS(r0) CC_VMRS(ARM_CC_AL,r0) # define CC_VMSR(cc,r0) cc_vorr_(cc,ARM_VMSR,r0,0) # define VMSR(r0) CC_VMSR(ARM_CC_AL,r0) # define CC_VCVT_S32_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_S32_F32,r0,r1) # define VCVT_S32_F32(r0,r1) CC_VCVT_S32_F32(ARM_CC_AL,r0,r1) # define CC_VCVT_U32_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_U32_F32,r0,r1) # define VCVT_U32_F32(r0,r1) CC_VCVT_U32_F32(ARM_CC_AL,r0,r1) # define CC_VCVT_S32_F64(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_S32_F64,r0,r1) # define VCVT_S32_F64(r0,r1) CC_VCVT_S32_F64(ARM_CC_AL,r0,r1) # define CC_VCVT_U32_F64(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_U32_F64,r0,r1) # define VCVT_U32_F64(r0,r1) CC_VCVT_U32_F64(ARM_CC_AL,r0,r1) # define CC_VCVT_F32_S32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F32_S32,r0,r1) # define VCVT_F32_S32(r0,r1) CC_VCVT_F32_S32(ARM_CC_AL,r0,r1) # define CC_VCVT_F32_U32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F32_U32,r0,r1) # define VCVT_F32_U32(r0,r1) CC_VCVT_F32_U32(ARM_CC_AL,r0,r1) # define CC_VCVT_F64_S32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F64_S32,r0,r1) # define VCVT_F64_S32(r0,r1) CC_VCVT_F64_S32(ARM_CC_AL,r0,r1) # define CC_VCVT_F64_U32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F64_U32,r0,r1) # define VCVT_F64_U32(r0,r1) CC_VCVT_F64_U32(ARM_CC_AL,r0,r1) # define CC_VCVT_F32_F64(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F32_F64,r0,r1) # define VCVT_F32_F64(r0,r1) CC_VCVT_F32_F64(ARM_CC_AL,r0,r1) # define CC_VCVT_F64_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVT_F64_F32,r0,r1) # define VCVT_F64_F32(r0,r1) CC_VCVT_F64_F32(ARM_CC_AL,r0,r1) # define CC_VCVTR_S32_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVTR_S32_F32,r0,r1) # define VCVTR_S32_F32(r0,r1) CC_VCVTR_S32_F32(ARM_CC_AL,r0,r1) # define CC_VCVTR_U32_F32(cc,r0,r1) cc_vo_ss(cc,ARM_VCVTR_U32_F32,r0,r1) # define VCVTR_U32_F32(r0,r1) CC_VCVTR_U32_F32(ARM_CC_AL,r0,r1) # define CC_VCVTR_S32_F64(cc,r0,r1) cc_vo_ss(cc,ARM_VCVTR_S32_F64,r0,r1) # define VCVTR_S32_F64(r0,r1) CC_VCVTR_S32_F64(ARM_CC_AL,r0,r1) # define CC_VCVTR_U32_F64(cc,r0,r1) cc_vo_ss(cc,ARM_VCVTR_U32_F64,r0,r1) # define VCVTR_U32_F64(r0,r1) CC_VCVTR_U32_F64(ARM_CC_AL,r0,r1) # define CC_VLDMIA_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_I,r0,r1,i0) # define VLDMIA_F32(r0,r1,i0) CC_VLDMIA_F32(ARM_CC_AL,r0,r1,i0) # define CC_VLDMIA_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_I|ARM_V_F64,r0,r1,i0) # define VLDMIA_F64(r0,r1,i0) CC_VLDMIA_F64(ARM_CC_AL,r0,r1,i0) # define CC_VSTMIA_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_I,r0,r1,i0) # define VSTMIA_F32(r0,r1,i0) CC_VSTMIA_F32(ARM_CC_AL,r0,r1,i0) # define CC_VSTMIA_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_I|ARM_V_F64,r0,r1,i0) # define VSTMIA_F64(r0,r1,i0) CC_VSTMIA_F64(ARM_CC_AL,r0,r1,i0) # define CC_VLDMIA_U_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_I|ARM_M_U,r0,r1,i0) # define VLDMIA_U_F32(r0,r1,i0) CC_VLDMIA_U_F32(ARM_CC_AL,r0,r1,i0) # define CC_VLDMIA_U_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_I|ARM_M_U|ARM_V_F64,r0,r1,i0) # define VLDMIA_U_F64(r0,r1,i0) CC_VLDMIA_U_F64(ARM_CC_AL,r0,r1,i0) # define CC_VSTMIA_U_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_I|ARM_M_U,r0,r1,i0) # define VSTMIA_U_F32(r0,r1,i0) CC_VSTMIA_U_F32(ARM_CC_AL,r0,r1,i0) # define CC_VSTMIA_U_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_I|ARM_M_U|ARM_V_F64,r0,r1,i0) # define VSTMIA_U_F64(r0,r1,i0) CC_VSTMIA_U_F64(ARM_CC_AL,r0,r1,i0) # define CC_VLDMDB_U_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_B|ARM_M_U,r0,r1,i0) # define VLDMDB_U_F32(r0,r1,i0) CC_VLDMDB_U_F32(ARM_CC_AL,r0,r1,i0) # define CC_VLDMDB_U_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_L|ARM_M_B|ARM_M_U|ARM_V_F64,r0,r1,i0) # define VLDMDB_U_F64(r0,r1,i0) CC_VLDMDB_U_F64(ARM_CC_AL,r0,r1,i0) # define CC_VSTMDB_U_F32(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_B|ARM_M_U,r0,r1,i0) # define VSTMDB_U_F32(r0,r1,i0) CC_VSTMDB_U_F32(ARM_CC_AL,r0,r1,i0) # define CC_VSTMDB_U_F64(cc,r0,r1,i0) cc_vorsl(cc,ARM_VM|ARM_M_B|ARM_M_U|ARM_V_F64,r0,r1,i0) # define VSTMDB_U_F64(r0,r1,i0) CC_VSTMDB_U_F64(ARM_CC_AL,r0,r1,i0) # define CC_VPUSH_F32(cc,r0,i0) CC_VSTMDB_U_F32(cc,_SP_REGNO,r0,i0) # define VPUSH_F32(r0,i0) CC_VPUSH_F32(ARM_CC_AL,r0,i0) # define CC_VPUSH_F64(cc,r0,i0) CC_VSTMDB_U_F64(cc,_SP_REGNO,r0,i0) # define VPUSH_F64(r0,i0) CC_VPUSH_F64(ARM_CC_AL,r0,i0) # define CC_VPOP_F32(cc,r0,i0) CC_VLDMIA_U_F32(cc,_SP_REGNO,r0,i0) # define VPOP_F32(r0,i0) CC_VPOP_F32(ARM_CC_AL,r0,i0) # define CC_VPOP_F64(cc,r0,i0) CC_VLDMIA_U_F64(cc,_SP_REGNO,r0,i0) # define VPOP_F64(r0,i0) CC_VPOP_F64(ARM_CC_AL,r0,i0) # define CC_VMOV_A_S8(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_A_D|ARM_VMOV_ADV_8,r0,r1) # define VMOV_A_S8(r0,r1) CC_VMOV_A_S8(ARM_CC_AL,r0,r1) # define CC_VMOV_A_U8(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_A_D|ARM_VMOV_ADV_8|ARM_VMOV_ADV_U,r0,r1) # define VMOV_A_U8(r0,r1) CC_VMOV_A_U8(ARM_CC_AL,r0,r1) # define CC_VMOV_A_S16(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_A_D|ARM_VMOV_ADV_16,r0,r1) # define VMOV_A_S16(r0,r1) CC_VMOV_A_S16(ARM_CC_AL,r0,r1) # define CC_VMOV_A_U16(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_A_D|ARM_VMOV_ADV_16|ARM_VMOV_ADV_U,r0,r1) # define VMOV_A_U16(r0,r1) CC_VMOV_A_U16(ARM_CC_AL,r0,r1) # define CC_VMOV_A_S32(cc,r0,r1) cc_vori_(cc,ARM_VMOV_A_D,r0,r1) # define VMOV_A_S32(r0,r1) CC_VMOV_A_S32(ARM_CC_AL,r0,r1) # define CC_VMOV_A_U32(cc,r0,r1) cc_vori_(cc,ARM_VMOV_A_D|ARM_VMOV_ADV_U,r0,r1) # define VMOV_A_U32(r0,r1) CC_VMOV_A_U32(ARM_CC_AL,r0,r1) # define CC_VMOV_V_I8(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_D_A|ARM_VMOV_ADV_8,r1,r0) # define VMOV_V_I8(r0,r1) CC_VMOV_V_I8(ARM_CC_AL,r0,r1) # define CC_VMOV_V_I16(cc,r0,r1) cc_vorv_(cc,ARM_VMOV_D_A|ARM_VMOV_ADV_16,r1,r0) # define VMOV_V_I16(r0,r1) CC_VMOV_V_I16(ARM_CC_AL,r0,r1) # define CC_VMOV_V_I32(cc,r0,r1) cc_vori_(cc,ARM_VMOV_D_A,r1,r0) # define VMOV_V_I32(r0,r1) CC_VMOV_V_I32(ARM_CC_AL,r0,r1) # define VADD_I8(r0,r1,r2) voddd(ARM_VADD_I,r0,r1,r2) # define VADDQ_I8(r0,r1,r2) voqqq(ARM_VADD_I|ARM_V_Q,r0,r1,r2) # define VADD_I16(r0,r1,r2) voddd(ARM_VADD_I|ARM_V_I16,r0,r1,r2) # define VADDQ_I16(r0,r1,r2) voqqq(ARM_VADD_I|ARM_V_I16|ARM_V_Q,r0,r1,r2) # define VADD_I32(r0,r1,r2) voddd(ARM_VADD_I|ARM_V_I32,r0,r1,r2) # define VADDQ_I32(r0,r1,r2) voqqq(ARM_VADD_I|ARM_V_I32|ARM_V_Q,r0,r1,r2) # define VADD_I64(r0,r1,r2) voddd(ARM_VADD_I|ARM_V_I64,r0,r1,r2) # define VADDQ_I64(r0,r1,r2) voqqq(ARM_VADD_I|ARM_V_I64|ARM_V_Q,r0,r1,r2) # define VQADD_S8(r0,r1,r2) voddd(ARM_VQADD_I,r0,r1,r2) # define VQADDQ_S8(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_Q,r0,r1,r2) # define VQADD_U8(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_U,r0,r1,r2) # define VQADDQ_U8(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQADD_S16(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I16,r0,r1,r2) # define VQADDQ_S16(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I16|ARM_V_Q,r0,r1,r2) # define VQADD_U16(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VQADDQ_U16(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I16|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQADD_S32(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I32,r0,r1,r2) # define VQADDQ_S32(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I32|ARM_V_Q,r0,r1,r2) # define VQADD_U32(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VQADDQ_U32(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I32|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQADD_S64(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I64,r0,r1,r2) # define VQADDQ_S64(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I64|ARM_V_Q,r0,r1,r2) # define VQADD_U64(r0,r1,r2) voddd(ARM_VQADD_I|ARM_V_I64|ARM_V_U,r0,r1,r2) # define VQADDQ_U64(r0,r1,r2) voqqq(ARM_VQADD_I|ARM_V_I64|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VADDL_S8(r0,r1,r2) voqdd(ARM_VADDL_I,r0,r1,r2) # define VADDL_U8(r0,r1,r2) voqdd(ARM_VADDL_I|ARM_V_U,r0,r1,r2) # define VADDL_S16(r0,r1,r2) voqdd(ARM_VADDL_I|ARM_V_I16,r0,r1,r2) # define VADDL_U16(r0,r1,r2) voqdd(ARM_VADDL_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VADDL_S32(r0,r1,r2) voqdd(ARM_VADDL_I|ARM_V_I32,r0,r1,r2) # define VADDL_U32(r0,r1,r2) voqdd(ARM_VADDL_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VADDW_S8(r0,r1,r2) voqqd(ARM_VADDW_I,r0,r1,r2) # define VADDW_U8(r0,r1,r2) voqqd(ARM_VADDW_I|ARM_V_U,r0,r1,r2) # define VADDW_S16(r0,r1,r2) voqqd(ARM_VADDW_I|ARM_V_I16,r0,r1,r2) # define VADDW_U16(r0,r1,r2) voqqd(ARM_VADDW_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VADDW_S32(r0,r1,r2) voqqd(ARM_VADDW_I|ARM_V_I32,r0,r1,r2) # define VADDW_U32(r0,r1,r2) voqqd(ARM_VADDW_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VSUB_I8(r0,r1,r2) voddd(ARM_VSUB_I,r0,r1,r2) # define VSUBQ_I8(r0,r1,r2) voqqq(ARM_VSUB_I|ARM_V_Q,r0,r1,r2) # define VSUB_I16(r0,r1,r2) voddd(ARM_VSUB_I|ARM_V_I16,r0,r1,r2) # define VSUBQ_I16(r0,r1,r2) voqqq(ARM_VSUB_I|ARM_V_I16|ARM_V_Q,r0,r1,r2) # define VSUB_I32(r0,r1,r2) voddd(ARM_VSUB_I|ARM_V_I32,r0,r1,r2) # define VSUBQ_I32(r0,r1,r2) voqqq(ARM_VSUB_I|ARM_V_I32|ARM_V_Q,r0,r1,r2) # define VSUB_I64(r0,r1,r2) voddd(ARM_VSUB_I|ARM_V_I64,r0,r1,r2) # define VSUBQ_I64(r0,r1,r2) voqqq(ARM_VSUB_I|ARM_V_I64|ARM_V_Q,r0,r1,r2) # define VQSUB_S8(r0,r1,r2) voddd(ARM_VQSUB_I,r0,r1,r2) # define VQSUBQ_S8(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_Q,r0,r1,r2) # define VQSUB_U8(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_U,r0,r1,r2) # define VQSUBQ_U8(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQSUB_S16(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I16,r0,r1,r2) # define VQSUBQ_S16(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I16|ARM_V_Q,r0,r1,r2) # define VQSUB_U16(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VQSUBQ_U16(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I16|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQSUB_S32(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I32,r0,r1,r2) # define VQSUBQ_S32(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I32|ARM_V_Q,r0,r1,r2) # define VQSUB_U32(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VQSUBQ_U32(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I32|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VQSUB_S64(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I64,r0,r1,r2) # define VQSUBQ_S64(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I64|ARM_V_Q,r0,r1,r2) # define VQSUB_U64(r0,r1,r2) voddd(ARM_VQSUB_I|ARM_V_I64|ARM_V_U,r0,r1,r2) # define VQSUBQ_U64(r0,r1,r2) voqqq(ARM_VQSUB_I|ARM_V_I64|ARM_V_U|ARM_V_Q,r0,r1,r2) # define VSUBL_S8(r0,r1,r2) voqdd(ARM_VSUBL_I,r0,r1,r2) # define VSUBL_U8(r0,r1,r2) voqdd(ARM_VSUBL_I|ARM_V_U,r0,r1,r2) # define VSUBL_S16(r0,r1,r2) voqdd(ARM_VSUBL_I|ARM_V_I16,r0,r1,r2) # define VSUBL_U16(r0,r1,r2) voqdd(ARM_VSUBL_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VSUBL_S32(r0,r1,r2) voqdd(ARM_VSUBL_I|ARM_V_I32,r0,r1,r2) # define VSUBL_U32(r0,r1,r2) voqdd(ARM_VSUBL_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VSUBW_S8(r0,r1,r2) voqqd(ARM_VSUBW_I,r0,r1,r2) # define VSUBW_U8(r0,r1,r2) voqqd(ARM_VSUBW_I|ARM_V_U,r0,r1,r2) # define VSUBW_S16(r0,r1,r2) voqqd(ARM_VSUBW_I|ARM_V_I16,r0,r1,r2) # define VSUBW_U16(r0,r1,r2) voqqd(ARM_VSUBW_I|ARM_V_I16|ARM_V_U,r0,r1,r2) # define VSUBW_S32(r0,r1,r2) voqqd(ARM_VSUBW_I|ARM_V_I32,r0,r1,r2) # define VSUBW_U32(r0,r1,r2) voqqd(ARM_VSUBW_I|ARM_V_I32|ARM_V_U,r0,r1,r2) # define VMUL_I8(r0,r1,r2) voddd(ARM_VMUL_I,r0,r1,r2) # define VMULQ_I8(r0,r1,r2) voqqq(ARM_VMUL_I|ARM_V_Q,r0,r1,r2) # define VMUL_I16(r0,r1,r2) voddd(ARM_VMUL_I|ARM_V_I16,r0,r1,r2) # define VMULQ_I16(r0,r1,r2) voqqq(ARM_VMUL_I|ARM_V_Q|ARM_V_I16,r0,r1,r2) # define VMUL_I32(r0,r1,r2) voddd(ARM_VMUL_I|ARM_V_I32,r0,r1,r2) # define VMULQ_I32(r0,r1,r2) voqqq(ARM_VMUL_I|ARM_V_Q|ARM_V_I32,r0,r1,r2) # define VMULL_S8(r0,r1,r2) voddd(ARM_VMULL_I,r0,r1,r2) # define VMULL_U8(r0,r1,r2) voqqq(ARM_VMULL_I|ARM_V_U,r0,r1,r2) # define VMULL_S16(r0,r1,r2) voddd(ARM_VMULL_I|ARM_V_I16,r0,r1,r2) # define VMULL_U16(r0,r1,r2) voqqq(ARM_VMULL_I|ARM_V_U|ARM_V_I16,r0,r1,r2) # define VMULL_S32(r0,r1,r2) voddd(ARM_VMULL_I|ARM_V_I32,r0,r1,r2) # define VMULL_U32(r0,r1,r2) voqqq(ARM_VMULL_I|ARM_V_U|ARM_V_I32,r0,r1,r2) # define VABS_S8(r0,r1) vo_dd(ARM_VABS_I,r0,r1) # define VABSQ_S8(r0,r1) vo_qq(ARM_VABS_I|ARM_V_Q,r0,r1) # define VABS_S16(r0,r1) vo_dd(ARM_VABS_I|ARM_V_S16,r0,r1) # define VABSQ_S16(r0,r1) vo_qq(ARM_VABS_I|ARM_V_S16|ARM_V_Q,r0,r1) # define VABS_S32(r0,r1) vo_dd(ARM_VABS_I|ARM_V_S32,r0,r1) # define VABSQ_S32(r0,r1) vo_qq(ARM_VABS_I|ARM_V_S32|ARM_V_Q,r0,r1) # define VQABS_S8(r0,r1) vo_dd(ARM_VQABS_I,r0,r1) # define VQABSQ_S8(r0,r1) vo_qq(ARM_VQABS_I|ARM_V_Q,r0,r1) # define VQABS_S16(r0,r1) vo_dd(ARM_VQABS_I|ARM_V_S16,r0,r1) # define VQABSQ_S16(r0,r1) vo_qq(ARM_VQABS_I|ARM_V_S16|ARM_V_Q,r0,r1) # define VQABS_S32(r0,r1) vo_dd(ARM_VQABS_I|ARM_V_S32,r0,r1) # define VQABSQ_S32(r0,r1) vo_qq(ARM_VQABS_I|ARM_V_S32|ARM_V_Q,r0,r1) # define VNEG_S8(r0,r1) vo_dd(ARM_VNEG_I,r0,r1) # define VNEGQ_S8(r0,r1) vo_qq(ARM_VNEG_I|ARM_V_Q,r0,r1) # define VNEG_S16(r0,r1) vo_dd(ARM_VNEG_I|ARM_V_S16,r0,r1) # define VNEGQ_S16(r0,r1) vo_qq(ARM_VNEG_I|ARM_V_S16|ARM_V_Q,r0,r1) # define VNEG_S32(r0,r1) vo_dd(ARM_VNEG_I|ARM_V_S32,r0,r1) # define VNEGQ_S32(r0,r1) vo_qq(ARM_VNEG_I|ARM_V_S32|ARM_V_Q,r0,r1) # define VQNEG_S8(r0,r1) vo_dd(ARM_VQNEG_I,r0,r1) # define VQNEGQ_S8(r0,r1) vo_qq(ARM_VQNEG_I|ARM_V_Q,r0,r1) # define VQNEG_S16(r0,r1) vo_dd(ARM_VQNEG_I|ARM_V_S16,r0,r1) # define VQNEGQ_S16(r0,r1) vo_qq(ARM_VQNEG_I|ARM_V_S16|ARM_V_Q,r0,r1) # define VQNEG_S32(r0,r1) vo_dd(ARM_VQNEG_I|ARM_V_S32,r0,r1) # define VQNEGQ_S32(r0,r1) vo_qq(ARM_VQNEG_I|ARM_V_S32|ARM_V_Q,r0,r1) # define VAND(r0,r1,r2) voddd(ARM_VAND,r0,r1,r2) # define VANDQ(r0,r1,r2) voqqq(ARM_VAND|ARM_V_Q,r0,r1,r2) # define VBIC(r0,r1,r2) voddd(ARM_VBIC,r0,r1,r2) # define VBICQ(r0,r1,r2) voqqq(ARM_VBIC|ARM_V_Q,r0,r1,r2) # define VORR(r0,r1,r2) voddd(ARM_VORR,r0,r1,r2) # define VORRQ(r0,r1,r2) voqqq(ARM_VORR|ARM_V_Q,r0,r1,r2) # define VORN(r0,r1,r2) voddd(ARM_VORN,r0,r1,r2) # define VORNQ(r0,r1,r2) voqqq(ARM_VORN|ARM_V_Q,r0,r1,r2) # define VEOR(r0,r1,r2) voddd(ARM_VEOR,r0,r1,r2) # define VEORQ(r0,r1,r2) voqqq(ARM_VEOR|ARM_V_Q,r0,r1,r2) # define VMOV(r0,r1) VORR(r0,r1,r1) # define VMOVQ(r0,r1) VORRQ(r0,r1,r1) # define VMOVL_S8(r0,r1) vo_qd(ARM_VMOVL_I|ARM_VMOVL_S8,r0,r1) # define VMOVL_U8(r0,r1) vo_qd(ARM_VMOVL_I|ARM_V_U|ARM_VMOVL_S8,r0,r1) # define VMOVL_S16(r0,r1) vo_qd(ARM_VMOVL_I|ARM_VMOVL_S16,r0,r1) # define VMOVL_U16(r0,r1) vo_qd(ARM_VMOVL_I|ARM_V_U|ARM_VMOVL_S16,r0,r1) # define VMOVL_S32(r0,r1) vo_qd(ARM_VMOVL_I|ARM_VMOVL_S32,r0,r1) # define VMOVL_U32(r0,r1) vo_qd(ARM_VMOVL_I|ARM_V_U|ARM_VMOVL_S32,r0,r1) /* "oi" should be the result of encode_vfp_double */ # define VIMM(oi,r0) vodi(oi,r0) # define VIMMQ(oi,r0) voqi(oi|ARM_V_Q,r0) /* index is multipled by four */ # define CC_VLDRN_F32(cc,r0,r1,i0) cc_vldst(cc,ARM_VLDR,r0,r1,i0) # define VLDRN_F32(r0,r1,i0) CC_VLDRN_F32(ARM_CC_AL,r0,r1,i0) # define CC_VLDR_F32(cc,r0,r1,i0) cc_vldst(cc,ARM_VLDR|ARM_P,r0,r1,i0) # define VLDR_F32(r0,r1,i0) CC_VLDR_F32(ARM_CC_AL,r0,r1,i0) # define CC_VLDRN_F64(cc,r0,r1,i0) cc_vldst(cc,ARM_VLDR|ARM_V_F64,r0,r1,i0) # define VLDRN_F64(r0,r1,i0) CC_VLDRN_F64(ARM_CC_AL,r0,r1,i0) # define CC_VLDR_F64(cc,r0,r1,i0) cc_vldst(cc,ARM_VLDR|ARM_V_F64|ARM_P,r0,r1,i0) # define VLDR_F64(r0,r1,i0) CC_VLDR_F64(ARM_CC_AL,r0,r1,i0) # define CC_VSTRN_F32(cc,r0,r1,i0) cc_vldst(cc,ARM_VSTR,r0,r1,i0) # define VSTRN_F32(r0,r1,i0) CC_VSTRN_F32(ARM_CC_AL,r0,r1,i0) # define CC_VSTR_F32(cc,r0,r1,i0) cc_vldst(cc,ARM_VSTR|ARM_P,r0,r1,i0) # define VSTR_F32(r0,r1,i0) CC_VSTR_F32(ARM_CC_AL,r0,r1,i0) # define CC_VSTRN_F64(cc,r0,r1,i0) cc_vldst(cc,ARM_VSTR|ARM_V_F64,r0,r1,i0) # define VSTRN_F64(r0,r1,i0) CC_VSTRN_F64(ARM_CC_AL,r0,r1,i0) # define CC_VSTR_F64(cc,r0,r1,i0) cc_vldst(cc,ARM_VSTR|ARM_V_F64|ARM_P,r0,r1,i0) # define VSTR_F64(r0,r1,i0) CC_VSTR_F64(ARM_CC_AL,r0,r1,i0) # define vfp_movr_f(r0,r1) _vfp_movr_f(_jit,r0,r1) static void _vfp_movr_f(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_movr_d(r0,r1) _vfp_movr_d(_jit,r0,r1) static void _vfp_movr_d(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_movi_f(r0,i0) _vfp_movi_f(_jit,r0,i0) static void _vfp_movi_f(jit_state_t*,jit_int32_t,jit_float32_t); # define vfp_movi_d(r0,i0) _vfp_movi_d(_jit,r0,i0) static void _vfp_movi_d(jit_state_t*,jit_int32_t,jit_float64_t); # define vfp_extr_f(r0,r1) _vfp_extr_f(_jit,r0,r1) static void _vfp_extr_f(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_extr_d(r0,r1) _vfp_extr_d(_jit,r0,r1) static void _vfp_extr_d(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_extr_d_f(r0,r1) _vfp_extr_d_f(_jit,r0,r1) static void _vfp_extr_d_f(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_extr_f_d(r0,r1) _vfp_extr_f_d(_jit,r0,r1) static void _vfp_extr_f_d(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_truncr_f_i(r0,r1) _vfp_truncr_f_i(_jit,r0,r1) static void _vfp_truncr_f_i(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_truncr_d_i(r0,r1) _vfp_truncr_d_i(_jit,r0,r1) static void _vfp_truncr_d_i(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_absr_f(r0,r1) VABS_F32(r0,r1) # define vfp_absr_d(r0,r1) VABS_F64(r0,r1) # define vfp_negr_f(r0,r1) VNEG_F32(r0,r1) # define vfp_negr_d(r0,r1) VNEG_F64(r0,r1) # define vfp_sqrtr_f(r0,r1) VSQRT_F32(r0,r1) # define vfp_sqrtr_d(r0,r1) VSQRT_F64(r0,r1) # define vfp_addr_f(r0,r1,r2) VADD_F32(r0,r1,r2) # define vfp_addi_f(r0,r1,i0) _vfp_addi_f(_jit,r0,r1,i0) static void _vfp_addi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_addr_d(r0,r1,r2) VADD_F64(r0,r1,r2) # define vfp_addi_d(r0,r1,i0) _vfp_addi_d(_jit,r0,r1,i0) static void _vfp_addi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_subr_f(r0,r1,r2) VSUB_F32(r0,r1,r2) # define vfp_subi_f(r0,r1,i0) _vfp_subi_f(_jit,r0,r1,i0) static void _vfp_subi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_subr_d(r0,r1,r2) VSUB_F64(r0,r1,r2) # define vfp_subi_d(r0,r1,i0) _vfp_subi_d(_jit,r0,r1,i0) static void _vfp_subi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_rsbr_f(r0,r1,r2) vfp_subr_f(r0,r2,r1) # define vfp_rsbi_f(r0,r1,i0) _vfp_rsbi_f(_jit,r0,r1,i0) static void _vfp_rsbi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_rsbr_d(r0,r1,r2) vfp_subr_d(r0,r2,r1) # define vfp_rsbi_d(r0,r1,i0) _vfp_rsbi_d(_jit,r0,r1,i0) static void _vfp_rsbi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_mulr_f(r0,r1,r2) VMUL_F32(r0,r1,r2) # define vfp_muli_f(r0,r1,i0) _vfp_muli_f(_jit,r0,r1,i0) static void _vfp_muli_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_mulr_d(r0,r1,r2) VMUL_F64(r0,r1,r2) # define vfp_muli_d(r0,r1,i0) _vfp_muli_d(_jit,r0,r1,i0) static void _vfp_muli_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_divr_f(r0,r1,r2) VDIV_F32(r0,r1,r2) # define vfp_divi_f(r0,r1,i0) _vfp_divi_f(_jit,r0,r1,i0) static void _vfp_divi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_divr_d(r0,r1,r2) VDIV_F64(r0,r1,r2) # define vfp_divi_d(r0,r1,i0) _vfp_divi_d(_jit,r0,r1,i0) static void _vfp_divi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_cmp_f(r0,r1) _vfp_cmp_f(_jit,r0,r1) static void _vfp_cmp_f(jit_state_t*,jit_int32_t,jit_int32_t); # define vfp_cmp_d(r0,r1) _vfp_cmp_d(_jit,r0,r1) static void _vfp_cmp_d(jit_state_t*,jit_int32_t,jit_int32_t); # define vcmp01_x(c0,c1,r0) _vcmp01_x(_jit,c0,c1,r0) static void _vcmp01_x(jit_state_t*,int,int,jit_int32_t); # define vcmp01_f(c0,c1,r0,r1,r2) _vcmp01_f(_jit,c0,c1,r0,r1,r2) static void _vcmp01_f(jit_state_t*,int,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vcmp01_d(c0,c1,r0,r1,r2) _vcmp01_d(_jit,c0,c1,r0,r1,r2) static void _vcmp01_d(jit_state_t*,int,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ltr_f(r0,r1,r2) vcmp01_f(ARM_CC_PL,ARM_CC_MI,r0,r1,r2) # define vfp_lti_f(r0,r1,i0) _vfp_lti_f(_jit,r0,r1,i0) static void _vfp_lti_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ltr_d(r0,r1,r2) vcmp01_d(ARM_CC_PL,ARM_CC_MI,r0,r1,r2) # define vfp_lti_d(r0,r1,i0) _vfp_lti_d(_jit,r0,r1,i0) static void _vfp_lti_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ler_f(r0,r1,r2) vcmp01_f(ARM_CC_HS,ARM_CC_LS,r0,r1,r2) # define vfp_lei_f(r0,r1,i0) _vfp_lei_f(_jit,r0,r1,i0) static void _vfp_lei_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ler_d(r0,r1,r2) vcmp01_d(ARM_CC_HS,ARM_CC_LS,r0,r1,r2) # define vfp_lei_d(r0,r1,i0) _vfp_lei_d(_jit,r0,r1,i0) static void _vfp_lei_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_eqr_f(r0,r1,r2) vcmp01_f(ARM_CC_NE,ARM_CC_EQ,r0,r1,r2) # define vfp_eqi_f(r0,r1,i0) _vfp_eqi_f(_jit,r0,r1,i0) static void _vfp_eqi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_eqr_d(r0,r1,r2) vcmp01_d(ARM_CC_NE,ARM_CC_EQ,r0,r1,r2) # define vfp_eqi_d(r0,r1,i0) _vfp_eqi_d(_jit,r0,r1,i0) static void _vfp_eqi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ger_f(r0,r1,r2) vcmp01_f(ARM_CC_LT,ARM_CC_GE,r0,r1,r2) # define vfp_gei_f(r0,r1,i0) _vfp_gei_f(_jit,r0,r1,i0) static void _vfp_gei_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ger_d(r0,r1,r2) vcmp01_d(ARM_CC_LT,ARM_CC_GE,r0,r1,r2) # define vfp_gei_d(r0,r1,i0) _vfp_gei_d(_jit,r0,r1,i0) static void _vfp_gei_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_gtr_f(r0,r1,r2) vcmp01_f(ARM_CC_LE,ARM_CC_GT,r0,r1,r2) # define vfp_gti_f(r0,r1,i0) _vfp_gti_f(_jit,r0,r1,i0) static void _vfp_gti_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_gtr_d(r0,r1,r2) vcmp01_d(ARM_CC_LE,ARM_CC_GT,r0,r1,r2) # define vfp_gti_d(r0,r1,i0) _vfp_gti_d(_jit,r0,r1,i0) static void _vfp_gti_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ner_f(r0,r1,r2) vcmp01_f(ARM_CC_EQ,ARM_CC_NE,r0,r1,r2) # define vfp_nei_f(r0,r1,i0) _vfp_nei_f(_jit,r0,r1,i0) static void _vfp_nei_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ner_d(r0,r1,r2) vcmp01_d(ARM_CC_EQ,ARM_CC_NE,r0,r1,r2) # define vfp_nei_d(r0,r1,i0) _vfp_nei_d(_jit,r0,r1,i0) static void _vfp_nei_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vcmp10_x(c0,r0) _vcmp10_x(_jit,c0,r0) static void _vcmp10_x(jit_state_t*,int,jit_int32_t); # define vcmp_10_f(c0,r0,r1,r2) _vcmp_10_f(_jit,c0,r0,r1,r2) static void _vcmp_10_f(jit_state_t*,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vcmp_10_d(c0,r0,r1,r2) _vcmp_10_d(_jit,c0,r0,r1,r2) static void _vcmp_10_d(jit_state_t*,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_unltr_f(r0,r1,r2) vcmp_10_f(ARM_CC_GE,r0,r1,r2) # define vfp_unlti_f(r0,r1,i0) _vfp_unlti_f(_jit,r0,r1,i0) static void _vfp_unlti_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_unltr_d(r0,r1,r2) vcmp_10_d(ARM_CC_GE,r0,r1,r2) # define vfp_unlti_d(r0,r1,i0) _vfp_unlti_d(_jit,r0,r1,i0) static void _vfp_unlti_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_unler_f(r0,r1,r2) vcmp_10_f(ARM_CC_GT,r0,r1,r2) # define vfp_unlei_f(r0,r1,i0) _vfp_unlei_f(_jit,r0,r1,i0) static void _vfp_unlei_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_unler_d(r0,r1,r2) vcmp_10_d(ARM_CC_GT,r0,r1,r2) # define vfp_unlei_d(r0,r1,i0) _vfp_unlei_d(_jit,r0,r1,i0) static void _vfp_unlei_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_uneqr_x(r0) _vfp_uneqr_x(_jit,r0) static void _vfp_uneqr_x(jit_state_t*,jit_int32_t); # define vfp_uneqr_f(r0,r1,r2) _vfp_uneqr_f(_jit,r0,r1,r2) static void _vfp_uneqr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_uneqi_f(r0,r1,i0) _vfp_uneqi_f(_jit,r0,r1,i0) static void _vfp_uneqi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_uneqr_d(r0,r1,r2) _vfp_uneqr_d(_jit,r0,r1,r2) static void _vfp_uneqr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_uneqi_d(r0,r1,i0) _vfp_uneqi_d(_jit,r0,r1,i0) static void _vfp_uneqi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vcmp_01_x(c0,r0) _vcmp_01_x(_jit,c0,r0) static void _vcmp_01_x(jit_state_t*,int,jit_int32_t); # define vcmp_01_f(c0,r0,r1,r2) _vcmp_01_f(_jit,c0,r0,r1,r2) static void _vcmp_01_f(jit_state_t*,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vcmp_01_d(c0,r0,r1,r2) _vcmp_01_d(_jit,c0,r0,r1,r2) static void _vcmp_01_d(jit_state_t*,int,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_unger_f(r0,r1,r2) vcmp_01_f(ARM_CC_CS,r0,r1,r2) # define vfp_ungei_f(r0,r1,i0) _vfp_ungei_f(_jit,r0,r1,i0) static void _vfp_ungei_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_unger_d(r0,r1,r2) vcmp_01_d(ARM_CC_CS,r0,r1,r2) # define vfp_ungei_d(r0,r1,i0) _vfp_ungei_d(_jit,r0,r1,i0) static void _vfp_ungei_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ungtr_f(r0,r1,r2) vcmp_01_f(ARM_CC_HI,r0,r1,r2) # define vfp_ungti_f(r0,r1,i0) _vfp_ungti_f(_jit,r0,r1,i0) static void _vfp_ungti_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ungtr_d(r0,r1,r2) vcmp_01_d(ARM_CC_HI,r0,r1,r2) # define vfp_ungti_d(r0,r1,i0) _vfp_ungti_d(_jit,r0,r1,i0) static void _vfp_ungti_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ltgtr_x(r0) _vfp_ltgtr_x(_jit,r0) static void _vfp_ltgtr_x(jit_state_t*,jit_int32_t); # define vfp_ltgtr_f(r0,r1,r2) _vfp_ltgtr_f(_jit,r0,r1,r2) static void _vfp_ltgtr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ltgti_f(r0,r1,i0) _vfp_ltgti_f(_jit,r0,r1,i0) static void _vfp_ltgti_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ltgtr_d(r0,r1,r2) _vfp_ltgtr_d(_jit,r0,r1,r2) static void _vfp_ltgtr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ltgti_d(r0,r1,i0) _vfp_ltgti_d(_jit,r0,r1,i0) static void _vfp_ltgti_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_ordr_f(r0,r1,r2) _vfp_ordr_f(_jit,r0,r1,r2) static void _vfp_ordr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ordi_f(r0,r1,i0) _vfp_ordi_f(_jit,r0,r1,i0) static void _vfp_ordi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_ordr_d(r0,r1,r2) _vfp_ordr_d(_jit,r0,r1,r2) static void _vfp_ordr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ordi_d(r0,r1,i0) _vfp_ordi_d(_jit,r0,r1,i0) static void _vfp_ordi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vfp_unordr_f(r0,r1,r2) _vfp_unordr_f(_jit,r0,r1,r2) static void _vfp_unordr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_unordi_f(r0,r1,i0) _vfp_unordi_f(_jit,r0,r1,i0) static void _vfp_unordi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_float32_t); # define vfp_unordr_d(r0,r1,r2) _vfp_unordr_d(_jit,r0,r1,r2) static void _vfp_unordr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_unordi_d(r0,r1,i0) _vfp_unordi_d(_jit,r0,r1,i0) static void _vfp_unordi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_float64_t); # define vbcmp_x(cc,i0) _vbcmp_x(_jit,cc,i0) static jit_word_t _vbcmp_x(jit_state_t*,int,jit_word_t); # define vbcmp_f(cc,i0,r0,r1) _vbcmp_f(_jit,cc,i0,r0,r1) static jit_word_t _vbcmp_f(jit_state_t*,int,jit_word_t,jit_int32_t,jit_int32_t); # define vbcmp_x(cc,i0) _vbcmp_x(_jit,cc,i0) static jit_word_t _vbcmp_x(jit_state_t*,int,jit_word_t); # define vbcmp_d(cc,i0,r0,r1) _vbcmp_d(_jit,cc,i0,r0,r1) static jit_word_t _vbcmp_d(jit_state_t*,int,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bltr_f(i0,r0,r1) vbcmp_f(ARM_CC_MI,i0,r0,r1) # define vfp_blti_f(i0,r0,i1) _vfp_blti_f(_jit,i0,r0,i1) static jit_word_t _vfp_blti_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bltr_d(i0,r0,r1) vbcmp_d(ARM_CC_MI,i0,r0,r1) static jit_word_t _vfp_blti_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_blti_d(i0,r0,i1) _vfp_blti_d(_jit,i0,r0,i1) # define vfp_bler_f(i0,r0,r1) vbcmp_f(ARM_CC_LS,i0,r0,r1) # define vfp_blei_f(i0,r0,i1) _vfp_blei_f(_jit,i0,r0,i1) static jit_word_t _vfp_blei_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bler_d(i0,r0,r1) vbcmp_d(ARM_CC_LS,i0,r0,r1) # define vfp_blei_d(i0,r0,i1) _vfp_blei_d(_jit,i0,r0,i1) static jit_word_t _vfp_blei_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_beqr_f(i0,r0,r1) vbcmp_f(ARM_CC_EQ,i0,r0,r1) # define vfp_beqi_f(i0,r0,i1) _vfp_beqi_f(_jit,i0,r0,i1) static jit_word_t _vfp_beqi_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_beqr_d(i0,r0,r1) vbcmp_d(ARM_CC_EQ,i0,r0,r1) # define vfp_beqi_d(i0,r0,i1) _vfp_beqi_d(_jit,i0,r0,i1) static jit_word_t _vfp_beqi_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bger_f(i0,r0,r1) vbcmp_f(ARM_CC_GE,i0,r0,r1) # define vfp_bgei_f(i0,r0,i1) _vfp_bgei_f(_jit,i0,r0,i1) static jit_word_t _vfp_bgei_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bger_d(i0,r0,r1) vbcmp_d(ARM_CC_GE,i0,r0,r1) # define vfp_bgei_d(i0,r0,i1) _vfp_bgei_d(_jit,i0,r0,i1) static jit_word_t _vfp_bgei_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bgtr_f(i0,r0,r1) vbcmp_f(ARM_CC_GT,i0,r0,r1) # define vfp_bgti_f(i0,r0,i1) _vfp_bgti_f(_jit,i0,r0,i1) static jit_word_t _vfp_bgti_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bgtr_d(i0,r0,r1) vbcmp_d(ARM_CC_GT,i0,r0,r1) # define vfp_bgti_d(i0,r0,i1) _vfp_bgti_d(_jit,i0,r0,i1) static jit_word_t _vfp_bgti_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bner_f(i0,r0,r1) vbcmp_f(ARM_CC_NE,i0,r0,r1) # define vfp_bnei_f(i0,r0,i1) _vfp_bnei_f(_jit,i0,r0,i1) static jit_word_t _vfp_bnei_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bner_d(i0,r0,r1) vbcmp_d(ARM_CC_NE,i0,r0,r1) # define vfp_bnei_d(i0,r0,i1) _vfp_bnei_d(_jit,i0,r0,i1) static jit_word_t _vfp_bnei_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vbncmp_x(cc,i0) _vbncmp_x(_jit,cc,i0) static jit_word_t _vbncmp_x(jit_state_t*,int,jit_word_t); # define vbncmp_f(cc,i0,r0,r1) _vbncmp_f(_jit,cc,i0,r0,r1) static jit_word_t _vbncmp_f(jit_state_t*,int,jit_word_t,jit_int32_t,jit_int32_t); # define vbncmp_d(cc,i0,r0,r1) _vbncmp_d(_jit,cc,i0,r0,r1) static jit_word_t _vbncmp_d(jit_state_t*,int,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bunltr_f(i0,r0,r1) vbncmp_f(ARM_CC_GE,i0,r0,r1) # define vfp_bunlti_f(i0,r0,i1) _vfp_bunlti_f(_jit,i0,r0,i1) static jit_word_t _vfp_bunlti_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bunltr_d(i0,r0,r1) vbncmp_d(ARM_CC_GE,i0,r0,r1) # define vfp_bunlti_d(i0,r0,i1) _vfp_bunlti_d(_jit,i0,r0,i1) static jit_word_t _vfp_bunlti_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bunler_f(i0,r0,r1) vbncmp_f(ARM_CC_GT,i0,r0,r1) # define vfp_bunlei_f(i0,r0,i1) _vfp_bunlei_f(_jit,i0,r0,i1) static jit_word_t _vfp_bunlei_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bunler_d(i0,r0,r1) vbncmp_d(ARM_CC_GT,i0,r0,r1) # define vfp_bunlei_d(i0,r0,i1) _vfp_bunlei_d(_jit,i0,r0,i1) static jit_word_t _vfp_bunlei_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_buneqr_x(i0) _vfp_buneqr_x(_jit,i0) static jit_word_t _vfp_buneqr_x(jit_state_t*,jit_word_t); # define vfp_buneqr_f(i0,r0,r1) _vfp_buneqr_f(_jit,i0,r0,r1) static jit_word_t _vfp_buneqr_f(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_buneqi_f(i0,r0,i1) _vfp_buneqi_f(_jit,i0,r0,i1) static jit_word_t _vfp_buneqi_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_buneqr_d(i0,r0,r1) _vfp_buneqr_d(_jit,i0,r0,r1) static jit_word_t _vfp_buneqr_d(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_buneqi_d(i0,r0,i1) _vfp_buneqi_d(_jit,i0,r0,i1) static jit_word_t _vfp_buneqi_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bunger_x(i0) _vfp_bunger_x(_jit,i0) static jit_word_t _vfp_bunger_x(jit_state_t*,jit_word_t); # define vfp_bunger_f(i0,r0,r1) _vfp_bunger_f(_jit,i0,r0,r1) static jit_word_t _vfp_bunger_f(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bungei_f(i0,r0,i1) _vfp_bungei_f(_jit,i0,r0,i1) static jit_word_t _vfp_bungei_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bunger_d(i0,r0,r1) _vfp_bunger_d(_jit,i0,r0,r1) static jit_word_t _vfp_bunger_d(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bungei_d(i0,r0,i1) _vfp_bungei_d(_jit,i0,r0,i1) static jit_word_t _vfp_bungei_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bungtr_f(i0,r0,r1) vbcmp_f(ARM_CC_HI,i0,r0,r1) # define vfp_bungti_f(i0,r0,i1) _vfp_bungti_f(_jit,i0,r0,i1) static jit_word_t _vfp_bungti_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bungtr_d(i0,r0,r1) vbcmp_d(ARM_CC_HI,i0,r0,r1) # define vfp_bungti_d(i0,r0,i1) _vfp_bungti_d(_jit,i0,r0,i1) static jit_word_t _vfp_bungti_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bltgtr_x(i0) _vfp_bltgtr_x(_jit,i0) static jit_word_t _vfp_bltgtr_x(jit_state_t*,jit_word_t); # define vfp_bltgtr_f(i0,r0,r1) _vfp_bltgtr_f(_jit,i0,r0,r1) static jit_word_t _vfp_bltgtr_f(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bltgti_f(i0,r0,i1) _vfp_bltgti_f(_jit,i0,r0,i1) static jit_word_t _vfp_bltgti_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bltgtr_d(i0,r0,r1) _vfp_bltgtr_d(_jit,i0,r0,r1) static jit_word_t _vfp_bltgtr_d(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_bltgti_d(i0,r0,i1) _vfp_bltgti_d(_jit,i0,r0,i1) static jit_word_t _vfp_bltgti_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bordr_f(i0,r0,r1) vbcmp_f(ARM_CC_VC,i0,r0,r1) # define vfp_bordi_f(i0,r0,i1) _vfp_bordi_f(_jit,i0,r0,i1) static jit_word_t _vfp_bordi_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bordr_d(i0,r0,r1) vbcmp_d(ARM_CC_VC,i0,r0,r1) # define vfp_bordi_d(i0,r0,i1) _vfp_bordi_d(_jit,i0,r0,i1) static jit_word_t _vfp_bordi_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_bunordr_f(i0,r0,r1) vbcmp_f(ARM_CC_VS,i0,r0,r1) # define vfp_bunordi_f(i0,r0,i1) _vfp_bunordi_f(_jit,i0,r0,i1) static jit_word_t _vfp_bunordi_f(jit_state_t*,jit_word_t,jit_int32_t,jit_float32_t); # define vfp_bunordr_d(i0,r0,r1) vbcmp_d(ARM_CC_VS,i0,r0,r1) # define vfp_bunordi_d(i0,r0,i1) _vfp_bunordi_d(_jit,i0,r0,i1) static jit_word_t _vfp_bunordi_d(jit_state_t*,jit_word_t,jit_int32_t,jit_float64_t); # define vfp_ldr_f(r0,r1) VLDR_F32(r0,r1,0) # define vfp_ldr_d(r0,r1) VLDR_F64(r0,r1,0) # define vfp_ldi_f(r0,i0) _vfp_ldi_f(_jit,r0,i0) static void _vfp_ldi_f(jit_state_t*,jit_int32_t,jit_word_t); # define vfp_ldi_d(r0,i0) _vfp_ldi_d(_jit,r0,i0) static void _vfp_ldi_d(jit_state_t*,jit_int32_t,jit_word_t); # define vfp_ldxr_f(r0,r1,r2) _vfp_ldxr_f(_jit,r0,r1,r2) static void _vfp_ldxr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ldxr_d(r0,r1,r2) _vfp_ldxr_d(_jit,r0,r1,r2) static void _vfp_ldxr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_ldxi_f(r0,r1,i0) _vfp_ldxi_f(_jit,r0,r1,i0) static void _vfp_ldxi_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define vfp_ldxi_d(r0,r1,i0) _vfp_ldxi_d(_jit,r0,r1,i0) static void _vfp_ldxi_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_word_t); # define vfp_str_f(r0,r1) VSTR_F32(r1,r0,0) # define vfp_str_d(r0,r1) VSTR_F64(r1,r0,0) # define vfp_sti_f(i0,r0) _vfp_sti_f(_jit,i0,r0) static void _vfp_sti_f(jit_state_t*,jit_word_t,jit_int32_t); # define vfp_sti_d(i0,r0) _vfp_sti_d(_jit,i0,r0) static void _vfp_sti_d(jit_state_t*,jit_word_t,jit_int32_t); # define vfp_stxr_f(r0,r1,r2) _vfp_stxr_f(_jit,r0,r1,r2) static void _vfp_stxr_f(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_stxr_d(r0,r1,r2) _vfp_stxr_d(_jit,r0,r1,r2) static void _vfp_stxr_d(jit_state_t*,jit_int32_t,jit_int32_t,jit_int32_t); # define vfp_stxi_f(i0,r0,r1) _vfp_stxi_f(_jit,i0,r0,r1) static void _vfp_stxi_f(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_stxi_d(i0,r0,r1) _vfp_stxi_d(_jit,i0,r0,r1) static void _vfp_stxi_d(jit_state_t*,jit_word_t,jit_int32_t,jit_int32_t); # define vfp_vaarg_d(r0, r1) _vfp_vaarg_d(_jit, r0, r1) static void _vfp_vaarg_d(jit_state_t*, jit_int32_t, jit_int32_t); #endif #if CODE # define vfp_regno(rn) (((rn) - 16) >> 1) static int encode_vfp_double(int mov, int inv, unsigned lo, unsigned hi) { int code, mode, imm, mask; if (hi != lo) { if (mov && !inv) { /* (I64) * aaaaaaaabbbbbbbbccccccccddddddddeeeeeeeeffffffffgggggggghhhhhhhh */ for (mode = 0, mask = 0xff; mode < 4; mask <<= 8, mode++) { imm = lo & mask; if (imm != mask && imm != 0) goto fail; imm = hi & mask; if (imm != mask && imm != 0) goto fail; } mode = 0xe20; imm = (((hi & 0x80000000) >> 24) | ((hi & 0x00800000) >> 17) | ((hi & 0x00008000) >> 10) | ((hi & 0x00000080) >> 3) | ((lo & 0x80000000) >> 28) | ((lo & 0x00800000) >> 21) | ((lo & 0x00008000) >> 14) | ((lo & 0x00000080) >> 7)); goto success; } goto fail; } /* (I32) * 00000000 00000000 00000000 abcdefgh * 00000000 00000000 abcdefgh 00000000 * 00000000 abcdefgh 00000000 00000000 * abcdefgh 00000000 00000000 00000000 */ for (mode = 0, mask = 0xff; mode < 4; mask <<= 8, mode++) { if ((lo & mask) == lo) { imm = lo >> (mode << 3); mode <<= 9; goto success; } } /* (I16) * 00000000 abcdefgh 00000000 abcdefgh * abcdefgh 00000000 abcdefgh 00000000 */ for (mode = 0, mask = 0xff; mode < 2; mask <<= 8, mode++) { if ((lo & mask) && ((lo & (mask << 16)) >> 16) == (lo & mask)) { imm = lo >> (mode << 3); mode = 0x800 | (mode << 9); goto success; } } if (mov) { /* (I32) * 00000000 00000000 abcdefgh 11111111 * 00000000 abcdefgh 11111111 11111111 */ for (mode = 0, mask = 0xff; mode < 2; mask = (mask << 8) | 0xff, mode++) { if ((lo & mask) == mask && !((lo & ~mask) >> 8) && (imm = lo >> (8 + (mode << 8)))) { mode = 0xc00 | (mode << 8); goto success; } } if (!inv) { /* (F32) * aBbbbbbc defgh000 00000000 00000000 * from the ARM Architecture Reference Manual: * In this entry, B = NOT(b). The bit pattern represents the * floating-point number (-1)^s* 2^exp * mantissa, where * S = UInt(a), * exp = UInt(NOT(b):c:d)-3 and * mantissa = (16+UInt(e:f:g:h))/16. */ if ((lo & 0x7ffff) == 0 && (((lo & 0x7e000000) == 0x3e000000) || ((lo & 0x7e000000) == 0x40000000))) { mode = 0xf00; imm = ((lo >> 24) & 0x80) | ((lo >> 19) & 0x7f); goto success; } } } fail: /* need another approach (load from memory, move from arm register, etc) */ return (-1); success: code = inv ? ARM_VMVNI : ARM_VMOVI; switch ((mode & 0xf00) >> 8) { case 0x0: case 0x2: case 0x4: case 0x6: case 0x8: case 0xa: if (inv) mode |= 0x20; if (!mov) mode |= 0x100; break; case 0x1: case 0x3: case 0x5: case 0x7: /* should actually not reach here */ assert(!inv); case 0x9: case 0xb: assert(!mov); break; case 0xc: case 0xd: /* should actually not reach here */ assert(inv); case 0xe: assert(mode & 0x20); assert(mov && !inv); break; default: assert(!(mode & 0x20)); break; } imm = ((imm & 0x80) << 17) | ((imm & 0x70) << 12) | (imm & 0x0f); code |= mode | imm; if (jit_thumb_p()) { if (code & 0x1000000) code |= 0xff000000; else code |= 0xef000000; } else code |= ARM_CC_NV; return (code); } static void _vodi(jit_state_t *_jit, int oi, int r0) { jit_thumb_t thumb; assert(!(oi & 0x0000f000)); assert(!(r0 & 1)); r0 = vfp_regno(r0); thumb.i = oi|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _voqi(jit_state_t *_jit, int oi, int r0) { jit_thumb_t thumb; assert(!(oi & 0x0000f000)); assert(!(r0 & 3)); r0 = vfp_regno(r0); thumb.i = oi|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vo_ss(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); if (r0 & 1) o |= ARM_V_D; r0 = vfp_regno(r0); if (r1 & 1) o |= ARM_V_M; r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r0)<<12)|_u4(r1); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vo_dd(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); assert(!(r0 & 1) && !(r1 & 1)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r0)<<12)|_u4(r1); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vo_qd(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); assert(!(r0 & 3) && !(r1 & 1)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r0)<<12)|_u4(r1); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vo_qq(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); assert(!(r0 & 3) && !(r1 & 3)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r0)<<12)|_u4(r1); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vorr_(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vors_(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); if (r1 & 1) o |= ARM_V_N; r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vorv_(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); if (r1 & 1) o |= ARM_V_M; r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vori_(jit_state_t *_jit, int cc, int o, int r0, int r1) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf000f00f)); /* use same bit pattern, to set opc1... */ if (r1 & 1) o |= ARM_V_I32; r1 = vfp_regno(r1); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vorrd(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); assert(!(r2 & 1)); r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vosss(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); if (r0 & 1) o |= ARM_V_D; r0 = vfp_regno(r0); if (r1 & 1) o |= ARM_V_N; r1 = vfp_regno(r1); if (r2 & 1) o |= ARM_V_M; r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_voddd(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); assert(!(r0 & 1) && !(r1 & 1) && !(r2 & 1)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_voqdd(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); assert(!(r0 & 3) && !(r1 & 1) && !(r2 & 1)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_voqqd(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); assert(!(r0 & 3) && !(r1 & 3) && !(r2 & 1)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_voqqq(jit_state_t *_jit, int cc, int o, int r0, int r1, int r2) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff00f)); assert(!(r0 & 3) && !(r1 & 3) && !(r2 & 3)); r0 = vfp_regno(r0); r1 = vfp_regno(r1); r2 = vfp_regno(r2); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u4(r2); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vldst(jit_state_t *_jit, int cc, int o, int r0, int r1, int i0) { jit_thumb_t thumb; /* i0 << 2 is byte offset */ assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff0ff)); if (r0 & 1) { assert(!(o & ARM_V_F64)); o |= ARM_V_D; } r0 = vfp_regno(r0); thumb.i = cc|o|(_u4(r1)<<16)|(_u4(r0)<<12)|_u8(i0); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _cc_vorsl(jit_state_t *_jit, int cc, int o, int r0, int r1, int i0) { jit_thumb_t thumb; assert(!(cc & 0x0fffffff)); assert(!(o & 0xf00ff0ff)); /* save i0 double precision registers */ if (o & ARM_V_F64) i0 <<= 1; /* if (r1 & 1) cc & ARM_V_F64 must be false */ if (r1 & 1) o |= ARM_V_D; r1 = vfp_regno(r1); assert(i0 && !(i0 & 1) && r1 + i0 <= 32); thumb.i = cc|o|(_u4(r0)<<16)|(_u4(r1)<<12)|_u8(i0); if (jit_thumb_p()) iss(thumb.s[0], thumb.s[1]); else ii(thumb.i); } static void _vfp_movr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { if (r0 != r1) { if (jit_fpr_p(r1)) { if (jit_fpr_p(r0)) VMOV_F32(r0, r1); else VMOV_A_S(r0, r1); } else if (jit_fpr_p(r0)) VMOV_S_A(r0, r1); else movr(r0, r1); } } static void _vfp_movr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { if (r0 != r1) { if (jit_fpr_p(r1)) { if (jit_fpr_p(r0)) VMOV_F64(r0, r1); else VMOV_AA_D(r0, r0 + 1, r1); } else if (jit_fpr_p(r0)) VMOV_D_AA(r0, r1, r1 + 1); else { /* minor consistency check */ assert(r0 + 1 != r1 && r0 -1 != r1); movr(r0, r1); movr(r0 + 1, r1 + 1); } } } static void _vfp_movi_f(jit_state_t *_jit, jit_int32_t r0, jit_float32_t i0) { union { jit_int32_t i; jit_float32_t f; } u; jit_int32_t reg; jit_int32_t code; u.f = i0; if (jit_fpr_p(r0)) { /* float arguments are packed, for others, * lightning only address even registers */ if (!(r0 & 1) && (r0 - 16) >= 0 && ((code = encode_vfp_double(1, 0, u.i, u.i)) != -1 || (code = encode_vfp_double(1, 1, ~u.i, ~u.i)) != -1)) VIMM(code, r0); else { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), u.i); VMOV_S_A(r0, rn(reg)); jit_unget_reg(reg); } } else movi(r0, u.i); } static void _vfp_movi_d(jit_state_t *_jit, jit_int32_t r0, jit_float64_t i0) { union { jit_int32_t i[2]; jit_float64_t d; } u; jit_int32_t code; jit_int32_t rg0, rg1; u.d = i0; if (jit_fpr_p(r0)) { if ((code = encode_vfp_double(1, 0, u.i[0], u.i[1])) != -1 || (code = encode_vfp_double(1, 1, ~u.i[0], ~u.i[1])) != -1) VIMM(code, r0); else { rg0 = jit_get_reg(jit_class_gpr); rg1 = jit_get_reg(jit_class_gpr); movi(rn(rg0), u.i[0]); movi(rn(rg1), u.i[1]); VMOV_D_AA(r0, rn(rg0), rn(rg1)); jit_unget_reg(rg1); jit_unget_reg(rg0); } } else { movi(r0, u.i[0]); movi(r0 + 1, u.i[1]); } } static void _vfp_extr_d_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r1)) { if (jit_fpr_p(r0)) VCVT_F64_F32(r0, r1); else { reg = jit_get_reg(jit_class_fpr); VCVT_F64_F32(rn(reg), r1); VMOV_A_S(r0, rn(reg)); jit_unget_reg(reg); } } else { reg = jit_get_reg(jit_class_fpr); VMOV_S_A(rn(reg), r1); VCVT_F64_F32(rn(reg), rn(reg)); if (jit_fpr_p(r0)) VMOV_F32(r0, rn(reg)); else VMOV_A_S(r0, rn(reg)); jit_unget_reg(reg); } } static void _vfp_extr_f_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r1)) { if (jit_fpr_p(r0)) VCVT_F32_F64(r0, r1); else { reg = jit_get_reg(jit_class_fpr); VCVT_F32_F64(rn(reg), r1); VMOV_AA_D(r0, r0 + 1, rn(reg)); jit_unget_reg(reg); } } else { reg = jit_get_reg(jit_class_fpr); VMOV_D_AA(rn(reg), r1, r1 + 1); VCVT_F32_F64(rn(reg), rn(reg)); if (jit_fpr_p(r0)) VMOV_F64(r0, rn(reg)); else VMOV_AA_D(r0, r0 + 1, rn(reg)); jit_unget_reg(reg); } } static void _vfp_extr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r0)) { VMOV_V_I32(r0, r1); VCVT_F32_S32(r0, r0); } else { reg = jit_get_reg(jit_class_fpr); VMOV_V_I32(rn(reg), r1); VCVT_F32_S32(rn(reg), rn(reg)); VMOV_F32(r0, rn(reg)); jit_unget_reg(reg); } } static void _vfp_extr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r0)) { VMOV_V_I32(r0, r1); VCVT_F64_S32(r0, r0); } else { reg = jit_get_reg(jit_class_fpr); VMOV_V_I32(rn(reg), r1); VCVT_F64_S32(rn(reg), rn(reg)); VMOV_F64(r0, rn(reg)); jit_unget_reg(reg); } } static void _vfp_truncr_f_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; reg = jit_get_reg(jit_class_fpr); if (jit_fpr_p(r1)) VCVT_S32_F32(rn(reg), r1); else { VMOV_V_I32(rn(reg), r1); VCVT_S32_F32(rn(reg), rn(reg)); } VMOV_A_S32(r0, rn(reg)); jit_unget_reg(reg); } static void _vfp_truncr_d_i(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; reg = jit_get_reg(jit_class_fpr); if (jit_fpr_p(r1)) VCVT_S32_F64(rn(reg), r1); else { VMOV_V_I32(rn(reg), r1); VCVT_S32_F64(rn(reg), rn(reg)); } VMOV_A_S32(r0, rn(reg)); jit_unget_reg(reg); } # define fopi(name) \ static void \ _vfp_##name##i_f(jit_state_t *_jit, \ jit_int32_t r0, jit_int32_t r1, jit_float32_t i0) \ { \ jit_int32_t reg = jit_get_reg(jit_class_fpr); \ vfp_movi_f(rn(reg), i0); \ vfp_##name##r_f(r0, r1, rn(reg)); \ jit_unget_reg(reg); \ } # define dopi(name) \ static void \ _vfp_##name##i_d(jit_state_t *_jit, \ jit_int32_t r0, jit_int32_t r1, jit_float64_t i0) \ { \ jit_int32_t reg = jit_get_reg(jit_class_fpr); \ vfp_movi_d(rn(reg), i0); \ vfp_##name##r_d(r0, r1, rn(reg)); \ jit_unget_reg(reg); \ } # define fbopi(name) \ static jit_word_t \ _vfp_b##name##i_f(jit_state_t *_jit, \ jit_int32_t r0, jit_int32_t r1, jit_float32_t i0) \ { \ jit_word_t word; \ jit_int32_t reg = jit_get_reg(jit_class_fpr| \ jit_class_nospill); \ vfp_movi_f(rn(reg), i0); \ word = vfp_b##name##r_f(r0, r1, rn(reg)); \ jit_unget_reg(reg); \ return (word); \ } # define dbopi(name) \ static jit_word_t \ _vfp_b##name##i_d(jit_state_t *_jit, \ jit_int32_t r0, jit_int32_t r1, jit_float64_t i0) \ { \ jit_word_t word; \ jit_int32_t reg = jit_get_reg(jit_class_fpr| \ jit_class_nospill); \ vfp_movi_d(rn(reg), i0); \ word = vfp_b##name##r_d(r0, r1, rn(reg)); \ jit_unget_reg(reg); \ return (word); \ } fopi(add) dopi(add) fopi(sub) fopi(rsb) dopi(rsb) dopi(sub) fopi(mul) dopi(mul) fopi(div) dopi(div) static void _vfp_cmp_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t rg0, rg1; if (jit_fpr_p(r0)) { if (jit_fpr_p(r1)) VCMP_F32(r0, r1); else { rg1 = jit_get_reg(jit_class_fpr); VMOV_S_A(rn(rg1), r1); VCMP_F32(r0, rn(rg1)); jit_unget_reg(rg1); } } else { rg0 = jit_get_reg(jit_class_fpr); VMOV_S_A(rn(rg0), r0); if (jit_fpr_p(r1)) VCMP_F32(rn(rg0), r1); else { rg1 = jit_get_reg(jit_class_fpr); VMOV_S_A(rn(rg1), r1); VCMP_F32(rn(rg0), rn(rg1)); jit_unget_reg(rg1); } jit_unget_reg(rg0); } } static void _vfp_cmp_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t rg0, rg1; if (jit_fpr_p(r0)) { if (jit_fpr_p(r1)) VCMP_F64(r0, r1); else { rg1 = jit_get_reg(jit_class_fpr); VMOV_D_AA(rn(rg1), r1, r1 + 1); VCMP_F64(r0, rn(rg1)); jit_unget_reg(rg1); } } else { rg0 = jit_get_reg(jit_class_fpr); VMOV_D_AA(rn(rg0), r0, r0 + 1); if (jit_fpr_p(r1)) VCMP_F64(rn(rg0), r1); else { rg1 = jit_get_reg(jit_class_fpr); VMOV_D_AA(rn(rg1), r1, r1 + 1); VCMP_F64(rn(rg0), rn(rg1)); jit_unget_reg(rg1); } jit_unget_reg(rg0); } } static void _vcmp01_x(jit_state_t *_jit, int c0, int c1, jit_int32_t r0) { VMRS(_R15_REGNO); if (jit_thumb_p()) { if ((c0 ^ c1) >> 28 == 1) { ITE(c0); if (r0 < 8) { T1_MOVI(r0, 0); T1_MOVI(r0, 1); } else { T2_MOVI(r0, 0); T2_MOVI(r0, 1); } } else { if (r0 < 8) { IT(c0); T1_MOVI(r0, 0); IT(c1); T1_MOVI(r0, 1); } else { IT(c0); T2_MOVI(r0, 0); IT(c1); T2_MOVI(r0, 1); } } } else { CC_MOVI(c0, r0, 0); CC_MOVI(c1, r0, 1); } } static void _vcmp01_f(jit_state_t *_jit, int c0, int c1, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vcmp01_x(c0, c1, r0); } static void _vcmp01_d(jit_state_t *_jit, int c0, int c1, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vcmp01_x(c0, c1, r0); } static void _vcmp10_x(jit_state_t *_jit, int cc, jit_int32_t r0) { if (jit_thumb_p()) { if (r0 < 8) { T1_MOVI(r0, 1); VMRS(_R15_REGNO); IT(cc); T1_MOVI(r0, 0); } else { T2_MOVI(r0, 1); VMRS(_R15_REGNO); IT(cc); T2_MOVI(r0, 0); } } else { VMRS(_R15_REGNO); MOVI(r0, 1); CC_MOVI(cc, r0, 0); } } static void _vcmp_10_f(jit_state_t *_jit, int cc, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vcmp10_x(cc, r0); } static void _vcmp_10_d(jit_state_t *_jit, int cc, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vcmp10_x(cc, r0); } fopi(lt) dopi(lt) fopi(le) dopi(le) fopi(eq) dopi(eq) fopi(ge) dopi(ge) fopi(gt) dopi(gt) fopi(ne) dopi(ne) fopi(unlt) dopi(unlt) fopi(unle) dopi(unle) static void _vfp_uneqr_x(jit_state_t *_jit, jit_int32_t r0) { VMRS(_R15_REGNO); if (jit_thumb_p()) { ITE(ARM_CC_NE); if (r0 < 8) { T1_MOVI(r0, 0); T1_MOVI(r0, 1); IT(ARM_CC_VS); T1_MOVI(r0, 1); } else { T2_MOVI(r0, 0); T2_MOVI(r0, 1); IT(ARM_CC_VS); T2_MOVI(r0, 1); } } else { CC_MOVI(ARM_CC_NE, r0, 0); CC_MOVI(ARM_CC_EQ, r0, 1); CC_MOVI(ARM_CC_VS, r0, 1); } } static void _vfp_uneqr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vfp_uneqr_x(r0); } fopi(uneq) static void _vfp_uneqr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vfp_uneqr_x(r0); } dopi(uneq) static void _vcmp_01_x(jit_state_t *_jit, int cc, jit_int32_t r0) { if (jit_thumb_p()) { if (r0 < 8) { T1_MOVI(r0, 0); VMRS(_R15_REGNO); IT(cc); T1_MOVI(r0, 1); } else { T2_MOVI(r0, 0); VMRS(_R15_REGNO); IT(cc); T2_MOVI(r0, 1); } } else { MOVI(r0, 0); VMRS(_R15_REGNO); CC_MOVI(cc, r0, 1); } } static void _vcmp_01_f(jit_state_t *_jit, int cc, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vcmp_01_x(cc, r0); } static void _vcmp_01_d(jit_state_t *_jit, int cc, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vcmp_01_x(cc, r0); } fopi(unge) dopi(unge) fopi(ungt) dopi(ungt) static void _vfp_ltgtr_x(jit_state_t *_jit, jit_int32_t r0) { VMRS(_R15_REGNO); if (jit_thumb_p()) { ITE(ARM_CC_NE); if (r0 < 8) { T1_MOVI(r0, 1); T1_MOVI(r0, 0); IT(ARM_CC_VS); T1_MOVI(r0, 0); } else { T2_MOVI(r0, 1); T2_MOVI(r0, 0); IT(ARM_CC_VS); T2_MOVI(r0, 0); } } else { CC_MOVI(ARM_CC_NE, r0, 1); CC_MOVI(ARM_CC_EQ, r0, 0); CC_MOVI(ARM_CC_VS, r0, 0); } } static void _vfp_ltgtr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vfp_ltgtr_x(r0); } fopi(ltgt) static void _vfp_ltgtr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vfp_ltgtr_x(r0); } dopi(ltgt) static void _vfp_ordr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vcmp10_x(ARM_CC_VS, r0); } fopi(ord) static void _vfp_ordr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vcmp10_x(ARM_CC_VS, r0); } dopi(ord) static void _vfp_unordr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_f(r1, r2); vcmp_01_x(ARM_CC_VS, r0); } fopi(unord) static void _vfp_unordr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { vfp_cmp_d(r1, r2); vcmp_01_x(ARM_CC_VS, r0); } dopi(unord) static jit_word_t _vbcmp_x(jit_state_t *_jit, int cc, jit_word_t i0) { jit_word_t d, w; VMRS(_R15_REGNO); w = _jit->pc.w; if (jit_thumb_p()) { d = ((i0 - w) >> 1) - 2; assert(_s20P(d)); T2_CC_B(cc, encode_thumb_cc_jump(d)); } else { d = ((i0 - w) >> 2) - 2; assert(_s24P(d)); CC_B(cc, d & 0x00ffffff); } return (w); } static jit_word_t _vbcmp_f(jit_state_t *_jit, int cc, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_f(r0, r1); return (vbcmp_x(cc, i0)); } static jit_word_t _vbcmp_d(jit_state_t *_jit, int cc, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_d(r0, r1); return (vbcmp_x(cc, i0)); } static jit_word_t _vbncmp_x(jit_state_t *_jit, int cc, jit_word_t i0) { jit_word_t d, p, w; VMRS(_R15_REGNO); p = _jit->pc.w; if (jit_thumb_p()) { T2_CC_B(cc, 0); w = _jit->pc.w; d = ((i0 - w) >> 1) - 2; assert(_s20P(d)); T2_B(encode_thumb_jump(d)); } else { CC_B(cc, 0); w = _jit->pc.w; d = ((i0 - w) >> 2) - 2; assert(_s24P(d)); B(d & 0x00ffffff); } patch_at(arm_patch_jump, p, _jit->pc.w); return (w); } static jit_word_t _vbncmp_f(jit_state_t *_jit, int cc, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_f(r0, r1); return (vbncmp_x(cc, i0)); } static jit_word_t _vbncmp_d(jit_state_t *_jit, int cc, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_d(r0, r1); return (vbncmp_x(cc, i0)); } fbopi(lt) dbopi(lt) fbopi(le) dbopi(le) fbopi(eq) dbopi(eq) fbopi(ge) dbopi(ge) fbopi(gt) dbopi(gt) fbopi(ne) dbopi(ne) fbopi(unlt) dbopi(unlt) fbopi(unle) dbopi(unle) static jit_word_t _vfp_buneqr_x(jit_state_t *_jit, jit_word_t i0) { jit_word_t d, p, q, w; VMRS(_R15_REGNO); p = _jit->pc.w; if (jit_thumb_p()) { T2_CC_B(ARM_CC_VS, 0); q = _jit->pc.w; T2_CC_B(ARM_CC_NE, 0); patch_at(arm_patch_jump, p, _jit->pc.w); w = _jit->pc.w; d = ((i0 - w) >> 1) - 2; assert(_s20P(d)); T2_B(encode_thumb_jump(d)); } else { CC_B(ARM_CC_VS, 0); q = _jit->pc.w; CC_B(ARM_CC_NE, 0); patch_at(arm_patch_jump, p, _jit->pc.w); w = _jit->pc.w; d = ((i0 - w) >> 2) - 2; assert(_s24P(d)); B(d & 0x00ffffff); } patch_at(arm_patch_jump, q, _jit->pc.w); return (w); } static jit_word_t _vfp_buneqr_f(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_f(r0, r1); return (vfp_buneqr_x(i0)); } fbopi(uneq) static jit_word_t _vfp_buneqr_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_d(r0, r1); return (vfp_buneqr_x(i0)); } dbopi(uneq) static jit_word_t _vfp_bunger_x(jit_state_t *_jit, jit_word_t i0) { jit_word_t d, p, w; VMRS(_R15_REGNO); p = _jit->pc.w; if (jit_thumb_p()) { T2_CC_B(ARM_CC_MI, 0); w = _jit->pc.w; d = ((i0 - w) >> 1) - 2; assert(_s20P(d)); T2_CC_B(ARM_CC_HS, encode_thumb_cc_jump(d)); } else { CC_B(ARM_CC_MI, 0); w = _jit->pc.w; d = ((i0 - w) >> 2) - 2; assert(_s24P(d)); CC_B(ARM_CC_HS, d & 0x00ffffff); } patch_at(arm_patch_jump, p, _jit->pc.w); return (w); } static jit_word_t _vfp_bunger_f(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_f(r0, r1); return (vfp_bunger_x(i0)); } fbopi(unge) static jit_word_t _vfp_bunger_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_d(r0, r1); return (vfp_bunger_x(i0)); } dbopi(unge) static jit_word_t _vfp_bltgtr_x(jit_state_t *_jit, jit_word_t i0) { jit_word_t d, p, q, w; VMRS(_R15_REGNO); p = _jit->pc.w; if (jit_thumb_p()) { T2_CC_B(ARM_CC_VS, 0); q = _jit->pc.w; T2_CC_B(ARM_CC_EQ, 0); w = _jit->pc.w; d = ((i0 - w) >> 1) - 2; assert(_s20P(d)); T2_B(encode_thumb_jump(d)); } else { CC_B(ARM_CC_VS, 0); q = _jit->pc.w; CC_B(ARM_CC_EQ, 0); w = _jit->pc.w; d = ((i0 - w) >> 2) - 2; assert(_s24P(d)); B(d & 0x00ffffff); } patch_at(arm_patch_jump, p, _jit->pc.w); patch_at(arm_patch_jump, q, _jit->pc.w); return (w); } static jit_word_t _vfp_bltgtr_f(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_f(r0, r1); return (vfp_bltgtr_x(i0)); } fbopi(ungt) dbopi(ungt) fbopi(ltgt) static jit_word_t _vfp_bltgtr_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { vfp_cmp_d(r0, r1); return (vfp_bltgtr_x(i0)); } dbopi(ltgt) fbopi(ord) dbopi(ord) fbopi(unord) dbopi(unord) static void _vfp_ldi_f(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t gpr; if (jit_fpr_p(r0)) { gpr = jit_get_reg(jit_class_gpr); movi(rn(gpr), i0); VLDR_F32(r0, rn(gpr), 0); jit_unget_reg(gpr); } else ldi_i(r0, i0); } static void _vfp_ldi_d(jit_state_t *_jit, jit_int32_t r0, jit_word_t i0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); if (jit_fpr_p(r0)) VLDR_F64(r0, rn(reg), 0); else { ldr_i(r0, rn(reg)); ldxi_i(r0 + 1, rn(reg), 4); } jit_unget_reg(reg); } static void _vfp_ldxr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; if (jit_fpr_p(r0)) { reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); VLDR_F32(r0, rn(reg), 0); jit_unget_reg(reg); } else ldxr_i(r0, r1, r2); } static void _vfp_ldxr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r1, r2); if (jit_fpr_p(r0)) VLDR_F64(r0, rn(reg), 0); else { ldr_i(r0, rn(reg)); ldxi_i(r0 + 1, rn(reg), 4); } jit_unget_reg(reg); } static void _vfp_ldxi_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (jit_fpr_p(r0)) { if (i0 >= 0) { assert(!(i0 & 3)); if (i0 < 1024) VLDR_F32(r0, r1, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); VLDR_F32(r0, rn(reg), 0); jit_unget_reg(reg); } } else { i0 = -i0; assert(!(i0 & 3)); if (i0 < 1024) VLDRN_F32(r0, r1, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); subi(rn(reg), r1, i0); VLDR_F32(r0, rn(reg), 0); jit_unget_reg(reg); } } } else ldxi_i(r0, r1, i0); } static void _vfp_ldxi_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0) { jit_int32_t reg; if (jit_fpr_p(r0)) { if (i0 >= 0) { assert(!(i0 & 3)); if (i0 < 1024) VLDR_F64(r0, r1, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); VLDR_F64(r0, rn(reg), 0); jit_unget_reg(reg); } } else { i0 = -i0; assert(!(i0 & 3)); if (i0 < 1024) VLDRN_F64(r0, r1, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); subi(rn(reg), r1, i0); VLDR_F64(r0, rn(reg), 0); jit_unget_reg(reg); } } } else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r1, i0); ldr_i(r0, rn(reg)); ldxi_i(r0 + 1, rn(reg), 4); jit_unget_reg(reg); } } static void _vfp_sti_f(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; if (jit_fpr_p(r0)) { reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); VSTR_F32(r0, rn(reg), 0); jit_unget_reg(reg); } else sti_i(i0, r0); } static void _vfp_sti_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); movi(rn(reg), i0); if (jit_fpr_p(r0)) VSTR_F64(r0, rn(reg), 0); else { str_i(rn(reg), r0); stxi_i(4, rn(reg), r0 + 1); } jit_unget_reg(reg); } static void _vfp_stxr_f(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; if (jit_fpr_p(r2)) { reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); VSTR_F32(r2, rn(reg), 0); jit_unget_reg(reg); } else stxr_i(r0, r1, r2); } static void _vfp_stxr_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_int32_t r2) { jit_int32_t reg; reg = jit_get_reg(jit_class_gpr); addr(rn(reg), r0, r1); if (jit_fpr_p(r2)) VSTR_F64(r2, rn(reg), 0); else { str_i(rn(reg), r2); stxi_i(4, rn(reg), r2 + 1); } jit_unget_reg(reg); } static void _vfp_stxi_f(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r1)) { if (i0 >= 0) { assert(!(i0 & 3)); if (i0 < 1024) VSTR_F32(r1, r0, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); VSTR_F32(r1, rn(reg), 0); jit_unget_reg(reg); } } else { i0 = -i0; assert(!(i0 & 3)); if (i0 < 1024) VSTRN_F32(r1, r0, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); subi(rn(reg), r0, i0); VSTR_F32(r1, rn(reg), 0); jit_unget_reg(reg); } } } else stxi_i(i0, r0, r1); } static void _vfp_stxi_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; if (jit_fpr_p(r1)) { if (i0 >= 0) { assert(!(i0 & 3)); if (i0 < 0124) VSTR_F64(r1, r0, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); VSTR_F64(r1, rn(reg), 0); jit_unget_reg(reg); } } else { i0 = -i0; assert(!(i0 & 3)); if (i0 < 1024) VSTRN_F64(r1, r0, i0 >> 2); else { reg = jit_get_reg(jit_class_gpr); subi(rn(reg), r0, i0); VSTR_F64(r1, rn(reg), 0); jit_unget_reg(reg); } } } else { reg = jit_get_reg(jit_class_gpr); addi(rn(reg), r0, i0); str_i(rn(reg), r1); stxi_i(4, rn(reg), r1 + 1); jit_unget_reg(reg); } } static void _vfp_vaarg_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1) { jit_int32_t reg; assert(_jitc->function->self.call & jit_call_varargs); /* Adjust pointer. */ reg = jit_get_reg(jit_class_gpr); andi(rn(reg), r1, 7); addr(r1, r1, rn(reg)); jit_unget_reg(reg); /* Load argument. */ vfp_ldr_d(r0, r1); /* Update stack pointer. */ addi(r1, r1, sizeof(jit_float64_t)); } # undef dbopi # undef fbopi # undef dopi # undef fopi #endif