// // Copyright 2011 Xamarin Inc // // Licensed under the MIT license. See LICENSE file in the project root for full license information. #ifndef __MONO_ARM_VFP_CODEGEN_H__ #define __MONO_ARM_VFP_CODEGEN_H__ #include "arm-codegen.h" enum { /* VFP registers */ ARM_VFP_F0, ARM_VFP_F1, ARM_VFP_F2, ARM_VFP_F3, ARM_VFP_F4, ARM_VFP_F5, ARM_VFP_F6, ARM_VFP_F7, ARM_VFP_F8, ARM_VFP_F9, ARM_VFP_F10, ARM_VFP_F11, ARM_VFP_F12, ARM_VFP_F13, ARM_VFP_F14, ARM_VFP_F15, ARM_VFP_F16, ARM_VFP_F17, ARM_VFP_F18, ARM_VFP_F19, ARM_VFP_F20, ARM_VFP_F21, ARM_VFP_F22, ARM_VFP_F23, ARM_VFP_F24, ARM_VFP_F25, ARM_VFP_F26, ARM_VFP_F27, ARM_VFP_F28, ARM_VFP_F29, ARM_VFP_F30, ARM_VFP_F31, ARM_VFP_D0 = ARM_VFP_F0, ARM_VFP_D1 = ARM_VFP_F2, ARM_VFP_D2 = ARM_VFP_F4, ARM_VFP_D3 = ARM_VFP_F6, ARM_VFP_D4 = ARM_VFP_F8, ARM_VFP_D5 = ARM_VFP_F10, ARM_VFP_D6 = ARM_VFP_F12, ARM_VFP_D7 = ARM_VFP_F14, ARM_VFP_D8 = ARM_VFP_F16, ARM_VFP_D9 = ARM_VFP_F18, ARM_VFP_D10 = ARM_VFP_F20, ARM_VFP_D11 = ARM_VFP_F22, ARM_VFP_D12 = ARM_VFP_F24, ARM_VFP_D13 = ARM_VFP_F26, ARM_VFP_D14 = ARM_VFP_F28, ARM_VFP_D15 = ARM_VFP_F30, ARM_VFP_COPROC_SINGLE = 10, ARM_VFP_COPROC_DOUBLE = 11, #define ARM_VFP_OP(p,q,r,s) (((p) << 23) | ((q) << 21) | ((r) << 20) | ((s) << 6)) #define ARM_VFP_OP2(Fn,N) (ARM_VFP_OP (1,1,1,1) | ((Fn) << 16) | ((N) << 7)) ARM_VFP_MUL = ARM_VFP_OP (0,1,0,0), ARM_VFP_NMUL = ARM_VFP_OP (0,1,0,1), ARM_VFP_ADD = ARM_VFP_OP (0,1,1,0), ARM_VFP_SUB = ARM_VFP_OP (0,1,1,1), ARM_VFP_DIV = ARM_VFP_OP (1,0,0,0), ARM_VFP_CPY = ARM_VFP_OP2 (0,0), ARM_VFP_ABS = ARM_VFP_OP2 (0,1), ARM_VFP_NEG = ARM_VFP_OP2 (1,0), ARM_VFP_SQRT = ARM_VFP_OP2 (1,1), ARM_VFP_CMP = ARM_VFP_OP2 (4,0), ARM_VFP_CMPE = ARM_VFP_OP2 (4,1), ARM_VFP_CMPZ = ARM_VFP_OP2 (5,0), ARM_VFP_CMPEZ = ARM_VFP_OP2 (5,1), ARM_VFP_CVT = ARM_VFP_OP2 (7,1), ARM_VFP_UITO = ARM_VFP_OP2 (8,0), ARM_VFP_SITO = ARM_VFP_OP2 (8,1), ARM_VFP_TOUI = ARM_VFP_OP2 (12,0), ARM_VFP_TOSI = ARM_VFP_OP2 (13,0), ARM_VFP_TOUIZ = ARM_VFP_OP2 (12,1), ARM_VFP_TOSIZ = ARM_VFP_OP2 (13,1), ARM_VFP_SID = 0, ARM_VFP_SCR = 1 << 1, ARM_VFP_EXC = 8 << 1 }; #define ARM_DEF_VFP_DYADIC(cond,cp,op,Fd,Fn,Fm) \ (14 << 24) | \ ((cp) << 8) | \ (op) | \ (((Fd) >> 1) << 12) | \ (((Fd) & 1) << 22) | \ (((Fn) >> 1) << 16) | \ (((Fn) & 1) << 7) | \ (((Fm) >> 1) << 0) | \ (((Fm) & 1) << 5) | \ ARM_DEF_COND(cond) #define ARM_DEF_VFP_MONADIC(cond,cp,op,Fd,Fm) \ (14 << 24) | \ ((cp) << 8) | \ (op) | \ (((Fd) >> 1) << 12) | \ (((Fd) & 1) << 22) | \ (((Fm) >> 1) << 0) | \ (((Fm) & 1) << 5) | \ ARM_DEF_COND(cond) #define ARM_DEF_VFP_LSF(cond,cp,post,ls,wback,basereg,Fd,offset) \ ((offset) >= 0? (offset)>>2: -(offset)>>2) | \ (6 << 25) | \ ((cp) << 8) | \ (((Fd) >> 1) << 12) | \ (((Fd) & 1) << 22) | \ ((basereg) << 16) | \ ((ls) << 20) | \ ((wback) << 21) | \ (((offset) >= 0) << 23) | \ ((wback) << 21) | \ ((post) << 24) | \ ARM_DEF_COND(cond) #define ARM_DEF_VFP_CPT(cond,cp,op,L,Fn,Rd) \ (14 << 24) | \ (1 << 4) | \ ((cp) << 8) | \ ((op) << 21) | \ ((L) << 20) | \ ((Rd) << 12) | \ (((Fn) >> 1) << 16) | \ (((Fn) & 1) << 7) | \ ARM_DEF_COND(cond) /* FP load and stores */ #define ARM_FLDS_COND(p,freg,base,offset,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_SINGLE,1,ARMOP_LDR,0,(base),(freg),(offset))) #define ARM_FLDS(p,freg,base,offset) \ ARM_FLDS_COND(p,freg,base,offset,ARMCOND_AL) #define ARM_FLDD_COND(p,freg,base,offset,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_DOUBLE,1,ARMOP_LDR,0,(base),(freg),(offset))) #define ARM_FLDD(p,freg,base,offset) \ ARM_FLDD_COND(p,freg,base,offset,ARMCOND_AL) #define ARM_FSTS_COND(p,freg,base,offset,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_SINGLE,1,ARMOP_STR,0,(base),(freg),(offset))) #define ARM_FSTS(p,freg,base,offset) \ ARM_FSTS_COND(p,freg,base,offset,ARMCOND_AL) #define ARM_FSTD_COND(p,freg,base,offset,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_DOUBLE,1,ARMOP_STR,0,(base),(freg),(offset))) #define ARM_FSTD(p,freg,base,offset) \ ARM_FSTD_COND(p,freg,base,offset,ARMCOND_AL) #define ARM_FLDMD_COND(p,first_reg,nregs,base,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_DOUBLE,0,ARMOP_LDR,0,(base),(first_reg),((nregs) * 2) << 2)) #define ARM_FLDMD(p,first_reg,nregs,base) \ ARM_FLDMD_COND(p,first_reg,nregs,base,ARMCOND_AL) #define ARM_FSTMD_COND(p,first_reg,nregs,base,cond) \ ARM_EMIT((p), ARM_DEF_VFP_LSF((cond),ARM_VFP_COPROC_DOUBLE,0,ARMOP_STR,0,(base),(first_reg),((nregs) * 2) << 2)) #define ARM_FSTMD(p,first_reg,nregs,base) \ ARM_FSTMD_COND(p,first_reg,nregs,base,ARMCOND_AL) #include /* coprocessor register transfer */ #define ARM_FMSR(p,freg,reg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_SINGLE,0,0,(freg),(reg))) #define ARM_FMRS(p,reg,freg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_SINGLE,0,1,(freg),(reg))) #define ARM_FMDLR(p,freg,reg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,0,0,(freg),(reg))) #define ARM_FMRDL(p,reg,freg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,0,1,(freg),(reg))) #define ARM_FMDHR(p,freg,reg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,1,0,(freg),(reg))) #define ARM_FMRDH(p,reg,freg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,1,1,(freg),(reg))) #define ARM_FMXR(p,freg,reg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_SINGLE,7,0,(freg),(reg))) #define ARM_FMRX(p,reg,fcreg) \ ARM_EMIT((p), ARM_DEF_VFP_CPT(ARMCOND_AL,ARM_VFP_COPROC_SINGLE,7,1,(fcreg),(reg))) #define ARM_FMSTAT(p) \ ARM_FMRX((p),ARMREG_R15,ARM_VFP_SCR) #define ARM_DEF_MCRR(cond,cp,rn,rd,Fm,M) \ ((Fm) << 0) | \ (1 << 4) | \ ((M) << 5) | \ ((cp) << 8) | \ ((rd) << 12) | \ ((rn) << 16) | \ ((2) << 21) | \ (12 << 24) | \ ARM_DEF_COND(cond) #define ARM_FMDRR(p,rd,rn,dm) \ ARM_EMIT((p), ARM_DEF_MCRR(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,(rn),(rd),(dm) >> 1, (dm) & 1)) #define ARM_DEF_FMRRD(cond,cp,rn,rd,Dm,D) \ ((Dm) << 0) | \ (1 << 4) | \ ((cp) << 8) | \ ((rd) << 12) | \ ((rn) << 16) | \ ((0xc5) << 20) | \ ARM_DEF_COND(cond) #define ARM_FMRRD(p,rd,rn,dm) \ ARM_EMIT((p), ARM_DEF_FMRRD(ARMCOND_AL,ARM_VFP_COPROC_DOUBLE,(rn),(rd),(dm) >> 1, (dm) & 1)) #define ARM_DEF_FUITOS(cond,Dd,D,Fm,M) ((cond) << 28) | ((0x1d) << 23) | ((D) << 22) | ((0x3) << 20) | ((8) << 16) | ((Dd) << 12) | ((0xa) << 8) | ((1) << 6) | ((M) << 5) | ((Fm) << 0) #define ARM_FUITOS(p,dreg,sreg) \ ARM_EMIT((p), ARM_DEF_FUITOS (ARMCOND_AL, (dreg) >> 1, (dreg) & 1, (sreg) >> 1, (sreg) & 1)) #define ARM_DEF_FUITOD(cond,Dd,D,Fm,M) ((cond) << 28) | ((0x1d) << 23) | ((D) << 22) | ((0x3) << 20) | ((8) << 16) | ((Dd) << 12) | ((0xb) << 8) | ((1) << 6) | ((M) << 5) | ((Fm) << 0) #define ARM_FUITOD(p,dreg,sreg) \ ARM_EMIT((p), ARM_DEF_FUITOD (ARMCOND_AL, (dreg) >> 1, (dreg) & 1, (sreg) >> 1, (sreg) & 1)) #define ARM_DEF_FSITOS(cond,Dd,D,Fm,M) ((cond) << 28) | ((0x1d) << 23) | ((D) << 22) | ((0x3) << 20) | ((8) << 16) | ((Dd) << 12) | ((0xa) << 8) | ((1) << 7) | ((1) << 6) | ((M) << 5) | ((Fm) << 0) #define ARM_FSITOS(p,dreg,sreg) \ ARM_EMIT((p), ARM_DEF_FSITOS (ARMCOND_AL, (dreg) >> 1, (dreg) & 1, (sreg) >> 1, (sreg) & 1)) #define ARM_DEF_FSITOD(cond,Dd,D,Fm,M) ((cond) << 28) | ((0x1d) << 23) | ((D) << 22) | ((0x3) << 20) | ((8) << 16) | ((Dd) << 12) | ((0xb) << 8) | ((1) << 7) | ((1) << 6) | ((M) << 5) | ((Fm) << 0) #define ARM_FSITOD(p,dreg,sreg) \ ARM_EMIT((p), ARM_DEF_FSITOD (ARMCOND_AL, (dreg) >> 1, (dreg) & 1, (sreg) >> 1, (sreg) & 1)) #endif /* __MONO_ARM_VFP_CODEGEN_H__ */