VIXL Supported Instruction List
===============================
This is a list of the AArch64 instructions supported by the VIXL assembler,
disassembler and simulator. The simulator may not support all floating point
operations to the precision required by AArch64 - please check the simulator
source code for details.
AArch64 integer instructions
----------------------------
### ADC ###
Add with carry bit.
void adc(const Register& rd,
const Register& rn,
const Operand& operand)
### ADCS ###
Add with carry bit and update status flags.
void adcs(const Register& rd,
const Register& rn,
const Operand& operand)
### ADD ###
Add.
void add(const Register& rd,
const Register& rn,
const Operand& operand)
### ADDS ###
Add and update status flags.
void adds(const Register& rd,
const Register& rn,
const Operand& operand)
### ADR ###
Calculate the address of a PC offset.
void adr(const Register& rd, int imm21)
### ADR ###
Calculate the address of a label.
void adr(const Register& rd, Label* label)
### ADRP ###
Calculate the page address of a PC offset.
void adrp(const Register& rd, int imm21)
### ADRP ###
Calculate the page address of a label.
void adrp(const Register& rd, Label* label)
### AND ###
Bitwise and (A & B).
void and_(const Register& rd,
const Register& rn,
const Operand& operand)
### ANDS ###
Bitwise and (A & B) and update status flags.
void ands(const Register& rd,
const Register& rn,
const Operand& operand)
### ASR ###
Arithmetic shift right.
void asr(const Register& rd, const Register& rn, unsigned shift)
### ASRV ###
Arithmetic shift right by variable.
void asrv(const Register& rd, const Register& rn, const Register& rm)
### B ###
Conditional branch to PC offset.
void b(int imm19, Condition cond)
### B ###
Conditional branch to label.
void b(Label* label, Condition cond)
### B ###
Unconditional branch to PC offset.
void b(int imm26)
### B ###
Unconditional branch to label.
void b(Label* label)
### BFI ###
Bitfield insert.
void bfi(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### BFM ###
Bitfield move.
void bfm(const Register& rd,
const Register& rn,
unsigned immr,
unsigned imms)
### BFXIL ###
Bitfield extract and insert low.
void bfxil(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### BIC ###
Bit clear (A & ~B).
void bic(const Register& rd,
const Register& rn,
const Operand& operand)
### BICS ###
Bit clear (A & ~B) and update status flags.
void bics(const Register& rd,
const Register& rn,
const Operand& operand)
### BL ###
Branch with link to PC offset.
void bl(int imm26)
### BL ###
Branch with link to label.
void bl(Label* label)
### BLR ###
Branch with link to register.
void blr(const Register& xn)
### BR ###
Branch to register.
void br(const Register& xn)
### BRK ###
Monitor debug-mode breakpoint.
void brk(int code)
### CBNZ ###
Compare and branch to PC offset if not zero.
void cbnz(const Register& rt, int imm19)
### CBNZ ###
Compare and branch to label if not zero.
void cbnz(const Register& rt, Label* label)
### CBZ ###
Compare and branch to PC offset if zero.
void cbz(const Register& rt, int imm19)
### CBZ ###
Compare and branch to label if zero.
void cbz(const Register& rt, Label* label)
### CCMN ###
Conditional compare negative.
void ccmn(const Register& rn,
const Operand& operand,
StatusFlags nzcv,
Condition cond)
### CCMP ###
Conditional compare.
void ccmp(const Register& rn,
const Operand& operand,
StatusFlags nzcv,
Condition cond)
### CINC ###
Conditional increment: rd = cond ? rn + 1 : rn.
void cinc(const Register& rd, const Register& rn, Condition cond)
### CINV ###
Conditional invert: rd = cond ? ~rn : rn.
void cinv(const Register& rd, const Register& rn, Condition cond)
### CLREX ###
Clear exclusive monitor.
void clrex(int imm4 = 0xf)
### CLS ###
Count leading sign bits.
void cls(const Register& rd, const Register& rn)
### CLZ ###
Count leading zeroes.
void clz(const Register& rd, const Register& rn)
### CMN ###
Compare negative.
void cmn(const Register& rn, const Operand& operand)
### CMP ###
Compare.
void cmp(const Register& rn, const Operand& operand)
### CNEG ###
Conditional negate: rd = cond ? -rn : rn.
void cneg(const Register& rd, const Register& rn, Condition cond)
### CRC32B ###
CRC-32 checksum from byte.
void crc32b(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32CB ###
CRC-32 C checksum from byte.
void crc32cb(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32CH ###
CRC-32 C checksum from half-word.
void crc32ch(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32CW ###
CRC-32 C checksum from word.
void crc32cw(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32CX ###
CRC-32C checksum from double word.
void crc32cx(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32H ###
CRC-32 checksum from half-word.
void crc32h(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32W ###
CRC-32 checksum from word.
void crc32w(const Register& rd,
const Register& rn,
const Register& rm)
### CRC32X ###
CRC-32 checksum from double word.
void crc32x(const Register& rd,
const Register& rn,
const Register& rm)
### CSEL ###
Conditional select: rd = cond ? rn : rm.
void csel(const Register& rd,
const Register& rn,
const Register& rm,
Condition cond)
### CSET ###
Conditional set: rd = cond ? 1 : 0.
void cset(const Register& rd, Condition cond)
### CSETM ###
Conditional set mask: rd = cond ? -1 : 0.
void csetm(const Register& rd, Condition cond)
### CSINC ###
Conditional select increment: rd = cond ? rn : rm + 1.
void csinc(const Register& rd,
const Register& rn,
const Register& rm,
Condition cond)
### CSINV ###
Conditional select inversion: rd = cond ? rn : ~rm.
void csinv(const Register& rd,
const Register& rn,
const Register& rm,
Condition cond)
### CSNEG ###
Conditional select negation: rd = cond ? rn : -rm.
void csneg(const Register& rd,
const Register& rn,
const Register& rm,
Condition cond)
### DC ###
System data cache operation.
void dc(DataCacheOp op, const Register& rt)
### DMB ###
Data memory barrier.
void dmb(BarrierDomain domain, BarrierType type)
### DSB ###
Data synchronization barrier.
void dsb(BarrierDomain domain, BarrierType type)
### EON ###
Bitwise enor/xnor (A ^ ~B).
void eon(const Register& rd, const Register& rn, const Operand& operand)
### EOR ###
Bitwise eor/xor (A ^ B).
void eor(const Register& rd, const Register& rn, const Operand& operand)
### EXTR ###
Extract.
void extr(const Register& rd,
const Register& rn,
const Register& rm,
unsigned lsb)
### HINT ###
System hint.
void hint(SystemHint code)
### HLT ###
Halting debug-mode breakpoint.
void hlt(int code)
### IC ###
System instruction cache operation.
void ic(InstructionCacheOp op, const Register& rt)
### ISB ###
Instruction synchronization barrier.
void isb()
### LDAR ###
Load-acquire register.
void ldar(const Register& rt, const MemOperand& src)
### LDARB ###
Load-acquire byte.
void ldarb(const Register& rt, const MemOperand& src)
### LDARH ###
Load-acquire half-word.
void ldarh(const Register& rt, const MemOperand& src)
### LDAXP ###
Load-acquire exclusive register pair.
void ldaxp(const Register& rt, const Register& rt2, const MemOperand& src)
### LDAXR ###
Load-acquire exclusive register.
void ldaxr(const Register& rt, const MemOperand& src)
### LDAXRB ###
Load-acquire exclusive byte.
void ldaxrb(const Register& rt, const MemOperand& src)
### LDAXRH ###
Load-acquire exclusive half-word.
void ldaxrh(const Register& rt, const MemOperand& src)
### LDNP ###
Load integer or FP register pair, non-temporal.
void ldnp(const CPURegister& rt, const CPURegister& rt2,
const MemOperand& src)
### LDP ###
Load integer or FP register pair.
void ldp(const CPURegister& rt, const CPURegister& rt2,
const MemOperand& src)
### LDPSW ###
Load word pair with sign extension.
void ldpsw(const Register& rt, const Register& rt2, const MemOperand& src)
### LDR ###
Load integer or FP register from literal pool.
void ldr(const CPURegister& rt, RawLiteral* literal)
### LDR ###
Load integer or FP register from pc + imm19 << 2.
void ldr(const CPURegister& rt, int imm19)
### LDR ###
Load integer or FP register.
void ldr(const CPURegister& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDRB ###
Load byte.
void ldrb(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDRH ###
Load half-word.
void ldrh(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDRSB ###
Load byte with sign extension.
void ldrsb(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDRSH ###
Load half-word with sign extension.
void ldrsh(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDRSW ###
Load word with sign extension from literal pool.
void ldrsw(const Register& rt, RawLiteral* literal)
### LDRSW ###
Load word with sign extension from pc + imm19 << 2.
void ldrsw(const Register& rt, int imm19)
### LDRSW ###
Load word with sign extension.
void ldrsw(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferScaledOffset)
### LDUR ###
Load integer or FP register (with unscaled offset).
void ldur(const CPURegister& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDURB ###
Load byte (with unscaled offset).
void ldurb(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDURH ###
Load half-word (with unscaled offset).
void ldurh(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDURSB ###
Load byte with sign extension (and unscaled offset).
void ldursb(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDURSH ###
Load half-word with sign extension (and unscaled offset).
void ldursh(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDURSW ###
Load word with sign extension.
void ldursw(const Register& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### LDXP ###
Load exclusive register pair.
void ldxp(const Register& rt, const Register& rt2, const MemOperand& src)
### LDXR ###
Load exclusive register.
void ldxr(const Register& rt, const MemOperand& src)
### LDXRB ###
Load exclusive byte.
void ldxrb(const Register& rt, const MemOperand& src)
### LDXRH ###
Load exclusive half-word.
void ldxrh(const Register& rt, const MemOperand& src)
### LSL ###
Logical shift left.
void lsl(const Register& rd, const Register& rn, unsigned shift)
### LSLV ###
Logical shift left by variable.
void lslv(const Register& rd, const Register& rn, const Register& rm)
### LSR ###
Logical shift right.
void lsr(const Register& rd, const Register& rn, unsigned shift)
### LSRV ###
Logical shift right by variable.
void lsrv(const Register& rd, const Register& rn, const Register& rm)
### MADD ###
Multiply and accumulate.
void madd(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### MNEG ###
Negated multiply.
void mneg(const Register& rd, const Register& rn, const Register& rm)
### MOV ###
Move register to register.
void mov(const Register& rd, const Register& rn)
### MOVK ###
Move immediate and keep.
void movk(const Register& rd, uint64_t imm, int shift = -1)
### MOVN ###
Move inverted immediate.
void movn(const Register& rd, uint64_t imm, int shift = -1)
### MOVZ ###
Move immediate.
void movz(const Register& rd, uint64_t imm, int shift = -1)
### MRS ###
Move to register from system register.
void mrs(const Register& rt, SystemRegister sysreg)
### MSR ###
Move from register to system register.
void msr(SystemRegister sysreg, const Register& rt)
### MSUB ###
Multiply and subtract.
void msub(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### MUL ###
Multiply.
void mul(const Register& rd, const Register& rn, const Register& rm)
### MVN ###
Move inverted operand to register.
void mvn(const Register& rd, const Operand& operand)
### NEG ###
Negate.
void neg(const Register& rd,
const Operand& operand)
### NEGS ###
Negate and update status flags.
void negs(const Register& rd,
const Operand& operand)
### NGC ###
Negate with carry bit.
void ngc(const Register& rd,
const Operand& operand)
### NGCS ###
Negate with carry bit and update status flags.
void ngcs(const Register& rd,
const Operand& operand)
### NOP ###
No-op.
void nop()
### ORN ###
Bitwise nor (A | ~B).
void orn(const Register& rd, const Register& rn, const Operand& operand)
### ORR ###
Bitwise or (A | B).
void orr(const Register& rd, const Register& rn, const Operand& operand)
### PRFM ###
Prefetch from pc + imm19 << 2.
void prfm(PrefetchOperation op, int imm19)
### PRFM ###
Prefetch memory in the literal pool.
void prfm(PrefetchOperation op, RawLiteral* literal)
### PRFM ###
Prefetch memory.
void prfm(PrefetchOperation op, const MemOperand& addr,
LoadStoreScalingOption option = PreferScaledOffset)
### PRFUM ###
Prefetch memory (with unscaled offset).
void prfum(PrefetchOperation op, const MemOperand& addr,
LoadStoreScalingOption option = PreferUnscaledOffset)
### RBIT ###
Bit reverse.
void rbit(const Register& rd, const Register& rn)
### RET ###
Branch to register with return hint.
void ret(const Register& xn = lr)
### REV ###
Reverse bytes.
void rev(const Register& rd, const Register& rn)
### REV16 ###
Reverse bytes in 16-bit half words.
void rev16(const Register& rd, const Register& rn)
### REV32 ###
Reverse bytes in 32-bit words.
void rev32(const Register& rd, const Register& rn)
### ROR ###
Rotate right.
void ror(const Register& rd, const Register& rs, unsigned shift)
### RORV ###
Rotate right by variable.
void rorv(const Register& rd, const Register& rn, const Register& rm)
### SBC ###
Subtract with carry bit.
void sbc(const Register& rd,
const Register& rn,
const Operand& operand)
### SBCS ###
Subtract with carry bit and update status flags.
void sbcs(const Register& rd,
const Register& rn,
const Operand& operand)
### SBFIZ ###
Signed bitfield insert with zero at right.
void sbfiz(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### SBFM ###
Signed bitfield move.
void sbfm(const Register& rd,
const Register& rn,
unsigned immr,
unsigned imms)
### SBFX ###
Signed bitfield extract.
void sbfx(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### SDIV ###
Signed integer divide.
void sdiv(const Register& rd, const Register& rn, const Register& rm)
### SMADDL ###
Signed long multiply and accumulate: 32 x 32 + 64 -> 64-bit.
void smaddl(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### SMSUBL ###
Signed long multiply and subtract: 64 - (32 x 32) -> 64-bit.
void smsubl(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### SMULH ###
Signed multiply high: 64 x 64 -> 64-bit <127:64>.
void smulh(const Register& xd, const Register& xn, const Register& xm)
### SMULL ###
Signed long multiply: 32 x 32 -> 64-bit.
void smull(const Register& rd, const Register& rn, const Register& rm)
### STLR ###
Store-release register.
void stlr(const Register& rt, const MemOperand& dst)
### STLRB ###
Store-release byte.
void stlrb(const Register& rt, const MemOperand& dst)
### STLRH ###
Store-release half-word.
void stlrh(const Register& rt, const MemOperand& dst)
### STLXP ###
Store-release exclusive register pair.
void stlxp(const Register& rs,
const Register& rt,
const Register& rt2,
const MemOperand& dst)
### STLXR ###
Store-release exclusive register.
void stlxr(const Register& rs, const Register& rt, const MemOperand& dst)
### STLXRB ###
Store-release exclusive byte.
void stlxrb(const Register& rs, const Register& rt, const MemOperand& dst)
### STLXRH ###
Store-release exclusive half-word.
void stlxrh(const Register& rs, const Register& rt, const MemOperand& dst)
### STNP ###
Store integer or FP register pair, non-temporal.
void stnp(const CPURegister& rt, const CPURegister& rt2,
const MemOperand& dst)
### STP ###
Store integer or FP register pair.
void stp(const CPURegister& rt, const CPURegister& rt2,
const MemOperand& dst)
### STR ###
Store integer or FP register.
void str(const CPURegister& rt, const MemOperand& dst,
LoadStoreScalingOption option = PreferScaledOffset)
### STRB ###
Store byte.
void strb(const Register& rt, const MemOperand& dst,
LoadStoreScalingOption option = PreferScaledOffset)
### STRH ###
Store half-word.
void strh(const Register& rt, const MemOperand& dst,
LoadStoreScalingOption option = PreferScaledOffset)
### STUR ###
Store integer or FP register (with unscaled offset).
void stur(const CPURegister& rt, const MemOperand& src,
LoadStoreScalingOption option = PreferUnscaledOffset)
### STURB ###
Store byte (with unscaled offset).
void sturb(const Register& rt, const MemOperand& dst,
LoadStoreScalingOption option = PreferUnscaledOffset)
### STURH ###
Store half-word (with unscaled offset).
void sturh(const Register& rt, const MemOperand& dst,
LoadStoreScalingOption option = PreferUnscaledOffset)
### STXP ###
Store exclusive register pair.
void stxp(const Register& rs,
const Register& rt,
const Register& rt2,
const MemOperand& dst)
### STXR ###
Store exclusive register.
void stxr(const Register& rs, const Register& rt, const MemOperand& dst)
### STXRB ###
Store exclusive byte.
void stxrb(const Register& rs, const Register& rt, const MemOperand& dst)
### STXRH ###
Store exclusive half-word.
void stxrh(const Register& rs, const Register& rt, const MemOperand& dst)
### SUB ###
Subtract.
void sub(const Register& rd,
const Register& rn,
const Operand& operand)
### SUBS ###
Subtract and update status flags.
void subs(const Register& rd,
const Register& rn,
const Operand& operand)
### SVC ###
Generate exception targeting EL1.
void svc(int code)
### SXTB ###
Signed extend byte.
void sxtb(const Register& rd, const Register& rn)
### SXTH ###
Signed extend halfword.
void sxth(const Register& rd, const Register& rn)
### SXTW ###
Signed extend word.
void sxtw(const Register& rd, const Register& rn)
### SYS ###
System instruction with pre-encoded op (op1:crn:crm:op2).
void sys(int op, const Register& rt = xzr)
### SYS ###
System instruction.
void sys(int op1, int crn, int crm, int op2, const Register& rt = xzr)
### TBNZ ###
Test bit and branch to PC offset if not zero.
void tbnz(const Register& rt, unsigned bit_pos, int imm14)
### TBNZ ###
Test bit and branch to label if not zero.
void tbnz(const Register& rt, unsigned bit_pos, Label* label)
### TBZ ###
Test bit and branch to PC offset if zero.
void tbz(const Register& rt, unsigned bit_pos, int imm14)
### TBZ ###
Test bit and branch to label if zero.
void tbz(const Register& rt, unsigned bit_pos, Label* label)
### TST ###
Bit test and set flags.
void tst(const Register& rn, const Operand& operand)
### UBFIZ ###
Unsigned bitfield insert with zero at right.
void ubfiz(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### UBFM ###
Unsigned bitfield move.
void ubfm(const Register& rd,
const Register& rn,
unsigned immr,
unsigned imms)
### UBFX ###
Unsigned bitfield extract.
void ubfx(const Register& rd,
const Register& rn,
unsigned lsb,
unsigned width)
### UDIV ###
Unsigned integer divide.
void udiv(const Register& rd, const Register& rn, const Register& rm)
### UMADDL ###
Unsigned long multiply and accumulate: 32 x 32 + 64 -> 64-bit.
void umaddl(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### UMSUBL ###
Unsigned long multiply and subtract: 64 - (32 x 32) -> 64-bit.
void umsubl(const Register& rd,
const Register& rn,
const Register& rm,
const Register& ra)
### UXTB ###
Unsigned extend byte.
void uxtb(const Register& rd, const Register& rn)
### UXTH ###
Unsigned extend halfword.
void uxth(const Register& rd, const Register& rn)
### UXTW ###
Unsigned extend word.
void uxtw(const Register& rd, const Register& rn)
AArch64 floating point and NEON instructions
--------------------------------------------
### ABS ###
Absolute value.
void abs(const VRegister& vd,
const VRegister& vn)
### ADD ###
Add.
void add(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ADDHN ###
Add narrow returning high half.
void addhn(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ADDHN2 ###
Add narrow returning high half (second part).
void addhn2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ADDP ###
Add pair of elements scalar.
void addp(const VRegister& vd,
const VRegister& vn)
### ADDP ###
Add pairwise.
void addp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ADDV ###
Add across vector.
void addv(const VRegister& vd,
const VRegister& vn)
### AND ###
Bitwise and.
void and_(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### BIC ###
Bit clear immediate.
void bic(const VRegister& vd,
const int imm8,
const int left_shift = 0)
### BIC ###
Bit clear.
void bic(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### BIF ###
Bitwise insert if false.
void bif(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### BIT ###
Bitwise insert if true.
void bit(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### BSL ###
Bitwise select.
void bsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CLS ###
Count leading sign bits.
void cls(const VRegister& vd,
const VRegister& vn)
### CLZ ###
Count leading zero bits (vector).
void clz(const VRegister& vd,
const VRegister& vn)
### CMEQ ###
Compare bitwise to zero.
void cmeq(const VRegister& vd,
const VRegister& vn,
int value)
### CMEQ ###
Compare equal.
void cmeq(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CMGE ###
Compare signed greater than or equal to zero.
void cmge(const VRegister& vd,
const VRegister& vn,
int value)
### CMGE ###
Compare signed greater than or equal.
void cmge(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CMGT ###
Compare signed greater than zero.
void cmgt(const VRegister& vd,
const VRegister& vn,
int value)
### CMGT ###
Compare signed greater than.
void cmgt(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CMHI ###
Compare unsigned higher.
void cmhi(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CMHS ###
Compare unsigned higher or same.
void cmhs(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CMLE ###
Compare signed less than or equal to zero.
void cmle(const VRegister& vd,
const VRegister& vn,
int value)
### CMLT ###
Compare signed less than zero.
void cmlt(const VRegister& vd,
const VRegister& vn,
int value)
### CMTST ###
Compare bitwise test bits nonzero.
void cmtst(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### CNT ###
Population count per byte.
void cnt(const VRegister& vd,
const VRegister& vn)
### DUP ###
Duplicate general-purpose register to vector.
void dup(const VRegister& vd,
const Register& rn)
### DUP ###
Duplicate vector element to vector or scalar.
void dup(const VRegister& vd,
const VRegister& vn,
int vn_index)
### EOR ###
Bitwise eor.
void eor(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### EXT ###
Extract vector from pair of vectors.
void ext(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int index)
### FABD ###
FP absolute difference.
void fabd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FABS ###
FP absolute.
void fabs(const VRegister& vd, const VRegister& vn)
### FACGE ###
FP absolute greater than or equal.
void facge(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FACGT ###
FP absolute greater than.
void facgt(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FADD ###
FP add.
void fadd(const VRegister& vd, const VRegister& vn, const VRegister& vm)
### FADDP ###
FP pairwise add scalar.
void faddp(const VRegister& vd,
const VRegister& vn)
### FADDP ###
FP pairwise add vector.
void faddp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FCCMP ###
FP conditional compare.
void fccmp(const VRegister& vn,
const VRegister& vm,
StatusFlags nzcv,
Condition cond)
### FCMEQ ###
FP compare equal to zero.
void fcmeq(const VRegister& vd,
const VRegister& vn,
double imm)
### FCMEQ ###
FP compare equal.
void fcmeq(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FCMGE ###
FP greater than or equal to zero.
void fcmge(const VRegister& vd,
const VRegister& vn,
double imm)
### FCMGE ###
FP greater than or equal.
void fcmge(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FCMGT ###
FP greater than zero.
void fcmgt(const VRegister& vd,
const VRegister& vn,
double imm)
### FCMGT ###
FP greater than.
void fcmgt(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FCMLE ###
FP less than or equal to zero.
void fcmle(const VRegister& vd,
const VRegister& vn,
double imm)
### FCMLT ###
FP less than to zero.
void fcmlt(const VRegister& vd,
const VRegister& vn,
double imm)
### FCMP ###
FP compare immediate.
void fcmp(const VRegister& vn, double value)
### FCMP ###
FP compare registers.
void fcmp(const VRegister& vn, const VRegister& vm)
### FCSEL ###
FP conditional select.
void fcsel(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
Condition cond)
### FCVT ###
FP convert between precisions.
void fcvt(const VRegister& vd, const VRegister& vn)
### FCVTAS ###
FP convert to signed integer, nearest with ties to away.
void fcvtas(const Register& rd, const VRegister& vn)
### FCVTAS ###
FP convert to signed integer, nearest with ties to away.
void fcvtas(const VRegister& vd, const VRegister& vn)
### FCVTAU ###
FP convert to unsigned integer, nearest with ties to away.
void fcvtau(const Register& rd, const VRegister& vn)
### FCVTAU ###
FP convert to unsigned integer, nearest with ties to away.
void fcvtau(const VRegister& vd, const VRegister& vn)
### FCVTL ###
FP convert to higher precision.
void fcvtl(const VRegister& vd, const VRegister& vn)
### FCVTL2 ###
FP convert to higher precision (second part).
void fcvtl2(const VRegister& vd, const VRegister& vn)
### FCVTMS ###
FP convert to signed integer, round towards -infinity.
void fcvtms(const VRegister& vd, const VRegister& vn)
### FCVTMS ###
FP convert to signed integer, round towards -infinity.
void fcvtms(const Register& rd, const VRegister& vn)
### FCVTMU ###
FP convert to unsigned integer, round towards -infinity.
void fcvtmu(const VRegister& vd, const VRegister& vn)
### FCVTMU ###
FP convert to unsigned integer, round towards -infinity.
void fcvtmu(const Register& rd, const VRegister& vn)
### FCVTN ###
FP convert to lower precision.
void fcvtn(const VRegister& vd, const VRegister& vn)
### FCVTN2 ###
FP convert to lower prevision (second part).
void fcvtn2(const VRegister& vd, const VRegister& vn)
### FCVTNS ###
FP convert to signed integer, nearest with ties to even.
void fcvtns(const Register& rd, const VRegister& vn)
### FCVTNS ###
FP convert to signed integer, nearest with ties to even.
void fcvtns(const VRegister& rd, const VRegister& vn)
### FCVTNU ###
FP convert to unsigned integer, nearest with ties to even.
void fcvtnu(const Register& rd, const VRegister& vn)
### FCVTNU ###
FP convert to unsigned integer, nearest with ties to even.
void fcvtnu(const VRegister& rd, const VRegister& vn)
### FCVTPS ###
FP convert to signed integer, round towards +infinity.
void fcvtps(const VRegister& vd, const VRegister& vn)
### FCVTPS ###
FP convert to signed integer, round towards +infinity.
void fcvtps(const Register& rd, const VRegister& vn)
### FCVTPU ###
FP convert to unsigned integer, round towards +infinity.
void fcvtpu(const VRegister& vd, const VRegister& vn)
### FCVTPU ###
FP convert to unsigned integer, round towards +infinity.
void fcvtpu(const Register& rd, const VRegister& vn)
### FCVTXN ###
FP convert to lower precision, rounding to odd.
void fcvtxn(const VRegister& vd, const VRegister& vn)
### FCVTXN2 ###
FP convert to lower precision, rounding to odd (second part).
void fcvtxn2(const VRegister& vd, const VRegister& vn)
### FCVTZS ###
FP convert to signed integer or fixed-point, round towards zero.
void fcvtzs(const VRegister& vd, const VRegister& vn, int fbits = 0)
### FCVTZS ###
FP convert to signed integer or fixed-point, round towards zero.
void fcvtzs(const Register& rd, const VRegister& vn, int fbits = 0)
### FCVTZU ###
FP convert to unsigned integer or fixed-point, round towards zero.
void fcvtzu(const Register& rd, const VRegister& vn, int fbits = 0)
### FCVTZU ###
FP convert to unsigned integer or fixed-point, round towards zero.
void fcvtzu(const VRegister& vd, const VRegister& vn, int fbits = 0)
### FDIV ###
FP divide.
void fdiv(const VRegister& vd, const VRegister& fn, const VRegister& vm)
### FMADD ###
FP fused multiply-add.
void fmadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
const VRegister& va)
### FMAX ###
FP maximum.
void fmax(const VRegister& vd, const VRegister& fn, const VRegister& vm)
### FMAXNM ###
FP maximum number.
void fmaxnm(const VRegister& vd, const VRegister& fn, const VRegister& vm)
### FMAXNMP ###
FP pairwise maximum number scalar.
void fmaxnmp(const VRegister& vd,
const VRegister& vn)
### FMAXNMP ###
FP pairwise maximum number vector.
void fmaxnmp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMAXNMV ###
FP maximum number across vector.
void fmaxnmv(const VRegister& vd,
const VRegister& vn)
### FMAXP ###
FP pairwise maximum scalar.
void fmaxp(const VRegister& vd,
const VRegister& vn)
### FMAXP ###
FP pairwise maximum vector.
void fmaxp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMAXV ###
FP maximum across vector.
void fmaxv(const VRegister& vd,
const VRegister& vn)
### FMIN ###
FP minimum.
void fmin(const VRegister& vd, const VRegister& fn, const VRegister& vm)
### FMINNM ###
FP minimum number.
void fminnm(const VRegister& vd, const VRegister& fn, const VRegister& vm)
### FMINNMP ###
FP pairwise minimum number scalar.
void fminnmp(const VRegister& vd,
const VRegister& vn)
### FMINNMP ###
FP pairwise minimum number vector.
void fminnmp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMINNMV ###
FP minimum number across vector.
void fminnmv(const VRegister& vd,
const VRegister& vn)
### FMINP ###
FP pairwise minimum scalar.
void fminp(const VRegister& vd,
const VRegister& vn)
### FMINP ###
FP pairwise minimum vector.
void fminp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMINV ###
FP minimum across vector.
void fminv(const VRegister& vd,
const VRegister& vn)
### FMLA ###
FP fused multiply-add to accumulator by element.
void fmla(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### FMLA ###
FP vector multiply accumulate.
void fmla(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMLS ###
FP fused multiply-sub from accumulator by element.
void fmls(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### FMLS ###
FP vector multiply subtract.
void fmls(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FMOV ###
Move 64-bit register to top half of 128-bit FP register.
void fmov(const VRegister& vd, int index, const Register& rn)
### FMOV ###
Move FP register to FP register.
void fmov(const VRegister& vd, const VRegister& fn)
### FMOV ###
Move FP register to register.
void fmov(const Register& rd, const VRegister& fn)
### FMOV ###
Move double precision immediate to FP register.
void fmov(const VRegister& vd, double imm)
### FMOV ###
Move register to FP register.
void fmov(const VRegister& vd, const Register& rn)
### FMOV ###
Move single precision immediate to FP register.
void fmov(const VRegister& vd, float imm)
### FMOV ###
Move top half of 128-bit FP register to 64-bit register.
void fmov(const Register& rd, const VRegister& vn, int index)
### FMSUB ###
FP fused multiply-subtract.
void fmsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
const VRegister& va)
### FMUL ###
FP multiply by element.
void fmul(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### FMUL ###
FP multiply.
void fmul(const VRegister& vd, const VRegister& vn, const VRegister& vm)
### FMULX ###
FP multiply extended by element.
void fmulx(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### FMULX ###
FP vector multiply extended.
void fmulx(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FNEG ###
FP negate.
void fneg(const VRegister& vd, const VRegister& vn)
### FNMADD ###
FP fused multiply-add and negate.
void fnmadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
const VRegister& va)
### FNMSUB ###
FP fused multiply-subtract and negate.
void fnmsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
const VRegister& va)
### FNMUL ###
FP multiply-negate scalar.
void fnmul(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FRECPE ###
FP reciprocal estimate.
void frecpe(const VRegister& vd,
const VRegister& vn)
### FRECPS ###
FP reciprocal step.
void frecps(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FRECPX ###
FP reciprocal exponent scalar.
void frecpx(const VRegister& vd,
const VRegister& vn)
### FRINTA ###
FP round to integer, nearest with ties to away.
void frinta(const VRegister& vd, const VRegister& vn)
### FRINTI ###
FP round to integer, implicit rounding.
void frinti(const VRegister& vd, const VRegister& vn)
### FRINTM ###
FP round to integer, toward minus infinity.
void frintm(const VRegister& vd, const VRegister& vn)
### FRINTN ###
FP round to integer, nearest with ties to even.
void frintn(const VRegister& vd, const VRegister& vn)
### FRINTP ###
FP round to integer, toward plus infinity.
void frintp(const VRegister& vd, const VRegister& vn)
### FRINTX ###
FP round to integer, exact, implicit rounding.
void frintx(const VRegister& vd, const VRegister& vn)
### FRINTZ ###
FP round to integer, towards zero.
void frintz(const VRegister& vd, const VRegister& vn)
### FRSQRTE ###
FP reciprocal square root estimate.
void frsqrte(const VRegister& vd,
const VRegister& vn)
### FRSQRTS ###
FP reciprocal square root step.
void frsqrts(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### FSQRT ###
FP square root.
void fsqrt(const VRegister& vd, const VRegister& vn)
### FSUB ###
FP subtract.
void fsub(const VRegister& vd, const VRegister& vn, const VRegister& vm)
### INS ###
Insert vector element from another vector element.
void ins(const VRegister& vd,
int vd_index,
const VRegister& vn,
int vn_index)
### INS ###
Insert vector element from general-purpose register.
void ins(const VRegister& vd,
int vd_index,
const Register& rn)
### LD1 ###
One-element single structure load to one lane.
void ld1(const VRegister& vt,
int lane,
const MemOperand& src)
### LD1 ###
One-element structure load to four registers.
void ld1(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
const MemOperand& src)
### LD1 ###
One-element structure load to one register.
void ld1(const VRegister& vt,
const MemOperand& src)
### LD1 ###
One-element structure load to three registers.
void ld1(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const MemOperand& src)
### LD1 ###
One-element structure load to two registers.
void ld1(const VRegister& vt,
const VRegister& vt2,
const MemOperand& src)
### LD1R ###
One-element single structure load to all lanes.
void ld1r(const VRegister& vt,
const MemOperand& src)
### LD2 ###
Two-element single structure load to one lane.
void ld2(const VRegister& vt,
const VRegister& vt2,
int lane,
const MemOperand& src)
### LD2 ###
Two-element structure load.
void ld2(const VRegister& vt,
const VRegister& vt2,
const MemOperand& src)
### LD2R ###
Two-element single structure load to all lanes.
void ld2r(const VRegister& vt,
const VRegister& vt2,
const MemOperand& src)
### LD3 ###
Three-element single structure load to one lane.
void ld3(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
int lane,
const MemOperand& src)
### LD3 ###
Three-element structure load.
void ld3(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const MemOperand& src)
### LD3R ###
Three-element single structure load to all lanes.
void ld3r(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const MemOperand& src)
### LD4 ###
Four-element single structure load to one lane.
void ld4(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
int lane,
const MemOperand& src)
### LD4 ###
Four-element structure load.
void ld4(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
const MemOperand& src)
### LD4R ###
Four-element single structure load to all lanes.
void ld4r(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
const MemOperand& src)
### MLA ###
Multiply-add by scalar element.
void mla(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### MLA ###
Multiply-add to accumulator.
void mla(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### MLS ###
Multiply-subtract by scalar element.
void mls(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### MLS ###
Multiply-subtract to accumulator.
void mls(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### MOV ###
Move general-purpose register to a vector element.
void mov(const VRegister& vd,
int vd_index,
const Register& rn)
### MOV ###
Move register to register.
void mov(const VRegister& vd,
const VRegister& vn)
### MOV ###
Move vector element to another vector element.
void mov(const VRegister& vd,
int vd_index,
const VRegister& vn,
int vn_index)
### MOV ###
Move vector element to general-purpose register.
void mov(const Register& rd,
const VRegister& vn,
int vn_index)
### MOV ###
Move vector element to scalar.
void mov(const VRegister& vd,
const VRegister& vn,
int vn_index)
### MOVI ###
Vector move immediate.
void movi(const VRegister& vd,
const uint64_t imm,
Shift shift = LSL,
const int shift_amount = 0)
### MUL ###
Multiply by scalar element.
void mul(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### MUL ###
Multiply.
void mul(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### MVN ###
Bitwise not.
void mvn(const VRegister& vd,
const VRegister& vn)
### MVNI ###
Vector move inverted immediate.
void mvni(const VRegister& vd,
const int imm8,
Shift shift = LSL,
const int shift_amount = 0)
### NEG ###
Negate.
void neg(const VRegister& vd,
const VRegister& vn)
### NOT ###
Bitwise not.
void not_(const VRegister& vd,
const VRegister& vn)
### ORN ###
Bitwise orn.
void orn(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ORR ###
Bitwise or immediate.
void orr(const VRegister& vd,
const int imm8,
const int left_shift = 0)
### ORR ###
Bitwise or.
void orr(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### PMUL ###
Polynomial multiply.
void pmul(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### PMULL ###
Polynomial multiply long.
void pmull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### PMULL2 ###
Polynomial multiply long (second part).
void pmull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### RADDHN ###
Rounding add narrow returning high half.
void raddhn(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### RADDHN2 ###
Rounding add narrow returning high half (second part).
void raddhn2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### RBIT ###
Reverse bit order.
void rbit(const VRegister& vd,
const VRegister& vn)
### REV16 ###
Reverse elements in 16-bit halfwords.
void rev16(const VRegister& vd,
const VRegister& vn)
### REV32 ###
Reverse elements in 32-bit words.
void rev32(const VRegister& vd,
const VRegister& vn)
### REV64 ###
Reverse elements in 64-bit doublewords.
void rev64(const VRegister& vd,
const VRegister& vn)
### RSHRN ###
Rounding shift right narrow by immediate.
void rshrn(const VRegister& vd,
const VRegister& vn,
int shift)
### RSHRN2 ###
Rounding shift right narrow by immediate (second part).
void rshrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### RSUBHN ###
Rounding subtract narrow returning high half.
void rsubhn(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### RSUBHN2 ###
Rounding subtract narrow returning high half (second part).
void rsubhn2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABA ###
Signed absolute difference and accumulate.
void saba(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABAL ###
Signed absolute difference and accumulate long.
void sabal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABAL2 ###
Signed absolute difference and accumulate long (second part).
void sabal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABD ###
Signed absolute difference.
void sabd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABDL ###
Signed absolute difference long.
void sabdl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SABDL2 ###
Signed absolute difference long (second part).
void sabdl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SADALP ###
Signed pairwise long add and accumulate.
void sadalp(const VRegister& vd,
const VRegister& vn)
### SADDL ###
Signed add long.
void saddl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SADDL2 ###
Signed add long (second part).
void saddl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SADDLP ###
Signed pairwise long add.
void saddlp(const VRegister& vd,
const VRegister& vn)
### SADDLV ###
Signed add long across vector.
void saddlv(const VRegister& vd,
const VRegister& vn)
### SADDW ###
Signed add wide.
void saddw(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SADDW2 ###
Signed add wide (second part).
void saddw2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SCVTF ###
Convert signed integer or fixed point to FP.
void scvtf(const VRegister& fd, const Register& rn, int fbits = 0)
### SCVTF ###
Convert signed integer or fixed-point to FP.
void scvtf(const VRegister& fd, const VRegister& vn, int fbits = 0)
### SHADD ###
Signed halving add.
void shadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SHL ###
Shift left by immediate.
void shl(const VRegister& vd,
const VRegister& vn,
int shift)
### SHLL ###
Shift left long by element size.
void shll(const VRegister& vd,
const VRegister& vn,
int shift)
### SHLL2 ###
Shift left long by element size (second part).
void shll2(const VRegister& vd,
const VRegister& vn,
int shift)
### SHRN ###
Shift right narrow by immediate.
void shrn(const VRegister& vd,
const VRegister& vn,
int shift)
### SHRN2 ###
Shift right narrow by immediate (second part).
void shrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### SHSUB ###
Signed halving sub.
void shsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SLI ###
Shift left by immediate and insert.
void sli(const VRegister& vd,
const VRegister& vn,
int shift)
### SMAX ###
Signed maximum.
void smax(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMAXP ###
Signed pairwise maximum.
void smaxp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMAXV ###
Signed maximum across vector.
void smaxv(const VRegister& vd,
const VRegister& vn)
### SMIN ###
Signed minimum.
void smin(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMINP ###
Signed minimum pairwise.
void sminp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMINV ###
Signed minimum across vector.
void sminv(const VRegister& vd,
const VRegister& vn)
### SMLAL ###
Signed long multiply-add by scalar element.
void smlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SMLAL ###
Signed long multiply-add.
void smlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMLAL2 ###
Signed long multiply-add (second part).
void smlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMLAL2 ###
Signed long multiply-add by scalar element (second part).
void smlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SMLSL ###
Signed long multiply-sub by scalar element.
void smlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SMLSL ###
Signed long multiply-sub.
void smlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMLSL2 ###
Signed long multiply-sub (second part).
void smlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMLSL2 ###
Signed long multiply-sub by scalar element (second part).
void smlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SMOV ###
Signed move vector element to general-purpose register.
void smov(const Register& rd,
const VRegister& vn,
int vn_index)
### SMULL ###
Signed long multiply by scalar element.
void smull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SMULL ###
Signed long multiply.
void smull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMULL2 ###
Signed long multiply (second part).
void smull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SMULL2 ###
Signed long multiply by scalar element (second part).
void smull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQABS ###
Signed saturating absolute value.
void sqabs(const VRegister& vd,
const VRegister& vn)
### SQADD ###
Signed saturating add.
void sqadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMLAL ###
Signed saturating doubling long multiply-add by element.
void sqdmlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMLAL ###
Signed saturating doubling long multiply-add.
void sqdmlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMLAL2 ###
Signed saturating doubling long multiply-add (second part).
void sqdmlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMLAL2 ###
Signed saturating doubling long multiply-add by element (second part).
void sqdmlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMLSL ###
Signed saturating doubling long multiply-sub by element.
void sqdmlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMLSL ###
Signed saturating doubling long multiply-subtract.
void sqdmlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMLSL2 ###
Signed saturating doubling long multiply-sub by element (second part).
void sqdmlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMLSL2 ###
Signed saturating doubling long multiply-subtract (second part).
void sqdmlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMULH ###
Signed saturating doubling multiply element returning high half.
void sqdmulh(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMULH ###
Signed saturating doubling multiply returning high half.
void sqdmulh(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMULL ###
Signed saturating double long multiply by element.
void sqdmull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMULL ###
Signed saturating doubling long multiply.
void sqdmull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQDMULL2 ###
Signed saturating double long multiply by element (second part).
void sqdmull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQDMULL2 ###
Signed saturating doubling long multiply (second part).
void sqdmull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQNEG ###
Signed saturating negate.
void sqneg(const VRegister& vd,
const VRegister& vn)
### SQRDMULH ###
Signed saturating rounding doubling multiply element returning high half.
void sqrdmulh(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### SQRDMULH ###
Signed saturating rounding doubling multiply returning high half.
void sqrdmulh(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQRSHL ###
Signed saturating rounding shift left by register.
void sqrshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQRSHRN ###
Signed saturating rounded shift right narrow by immediate.
void sqrshrn(const VRegister& vd,
const VRegister& vn,
int shift)
### SQRSHRN2 ###
Signed saturating rounded shift right narrow by immediate (second part).
void sqrshrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### SQRSHRUN ###
Signed sat rounded shift right unsigned narrow by immediate.
void sqrshrun(const VRegister& vd,
const VRegister& vn,
int shift)
### SQRSHRUN2 ###
Signed sat rounded shift right unsigned narrow by immediate (second part).
void sqrshrun2(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHL ###
Signed saturating shift left by immediate.
void sqshl(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHL ###
Signed saturating shift left by register.
void sqshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQSHLU ###
Signed saturating shift left unsigned by immediate.
void sqshlu(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHRN ###
Signed saturating shift right narrow by immediate.
void sqshrn(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHRN2 ###
Signed saturating shift right narrow by immediate (second part).
void sqshrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHRUN ###
Signed saturating shift right unsigned narrow by immediate.
void sqshrun(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSHRUN2 ###
Signed saturating shift right unsigned narrow by immediate (second part).
void sqshrun2(const VRegister& vd,
const VRegister& vn,
int shift)
### SQSUB ###
Signed saturating subtract.
void sqsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SQXTN ###
Signed saturating extract narrow.
void sqxtn(const VRegister& vd,
const VRegister& vn)
### SQXTN2 ###
Signed saturating extract narrow (second part).
void sqxtn2(const VRegister& vd,
const VRegister& vn)
### SQXTUN ###
Signed saturating extract unsigned narrow.
void sqxtun(const VRegister& vd,
const VRegister& vn)
### SQXTUN2 ###
Signed saturating extract unsigned narrow (second part).
void sqxtun2(const VRegister& vd,
const VRegister& vn)
### SRHADD ###
Signed rounding halving add.
void srhadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SRI ###
Shift right by immediate and insert.
void sri(const VRegister& vd,
const VRegister& vn,
int shift)
### SRSHL ###
Signed rounding shift left by register.
void srshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SRSHR ###
Signed rounding shift right by immediate.
void srshr(const VRegister& vd,
const VRegister& vn,
int shift)
### SRSRA ###
Signed rounding shift right by immediate and accumulate.
void srsra(const VRegister& vd,
const VRegister& vn,
int shift)
### SSHL ###
Signed shift left by register.
void sshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SSHLL ###
Signed shift left long by immediate.
void sshll(const VRegister& vd,
const VRegister& vn,
int shift)
### SSHLL2 ###
Signed shift left long by immediate (second part).
void sshll2(const VRegister& vd,
const VRegister& vn,
int shift)
### SSHR ###
Signed shift right by immediate.
void sshr(const VRegister& vd,
const VRegister& vn,
int shift)
### SSRA ###
Signed shift right by immediate and accumulate.
void ssra(const VRegister& vd,
const VRegister& vn,
int shift)
### SSUBL ###
Signed subtract long.
void ssubl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SSUBL2 ###
Signed subtract long (second part).
void ssubl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SSUBW ###
Signed integer subtract wide.
void ssubw(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SSUBW2 ###
Signed integer subtract wide (second part).
void ssubw2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ST1 ###
One-element single structure store from one lane.
void st1(const VRegister& vt,
int lane,
const MemOperand& src)
### ST1 ###
One-element structure store from four registers.
void st1(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
const MemOperand& src)
### ST1 ###
One-element structure store from one register.
void st1(const VRegister& vt,
const MemOperand& src)
### ST1 ###
One-element structure store from three registers.
void st1(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const MemOperand& src)
### ST1 ###
One-element structure store from two registers.
void st1(const VRegister& vt,
const VRegister& vt2,
const MemOperand& src)
### ST2 ###
Two-element single structure store from two lanes.
void st2(const VRegister& vt,
const VRegister& vt2,
int lane,
const MemOperand& src)
### ST2 ###
Two-element structure store from two registers.
void st2(const VRegister& vt,
const VRegister& vt2,
const MemOperand& src)
### ST3 ###
Three-element single structure store from three lanes.
void st3(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
int lane,
const MemOperand& src)
### ST3 ###
Three-element structure store from three registers.
void st3(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const MemOperand& src)
### ST4 ###
Four-element single structure store from four lanes.
void st4(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
int lane,
const MemOperand& src)
### ST4 ###
Four-element structure store from four registers.
void st4(const VRegister& vt,
const VRegister& vt2,
const VRegister& vt3,
const VRegister& vt4,
const MemOperand& src)
### SUB ###
Subtract.
void sub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SUBHN ###
Subtract narrow returning high half.
void subhn(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SUBHN2 ###
Subtract narrow returning high half (second part).
void subhn2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### SUQADD ###
Signed saturating accumulate of unsigned value.
void suqadd(const VRegister& vd,
const VRegister& vn)
### SXTL ###
Signed extend long.
void sxtl(const VRegister& vd,
const VRegister& vn)
### SXTL2 ###
Signed extend long (second part).
void sxtl2(const VRegister& vd,
const VRegister& vn)
### TBL ###
Table lookup from four registers.
void tbl(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vn3,
const VRegister& vn4,
const VRegister& vm)
### TBL ###
Table lookup from one register.
void tbl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### TBL ###
Table lookup from three registers.
void tbl(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vn3,
const VRegister& vm)
### TBL ###
Table lookup from two registers.
void tbl(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vm)
### TBX ###
Table lookup extension from four registers.
void tbx(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vn3,
const VRegister& vn4,
const VRegister& vm)
### TBX ###
Table lookup extension from one register.
void tbx(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### TBX ###
Table lookup extension from three registers.
void tbx(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vn3,
const VRegister& vm)
### TBX ###
Table lookup extension from two registers.
void tbx(const VRegister& vd,
const VRegister& vn,
const VRegister& vn2,
const VRegister& vm)
### TRN1 ###
Transpose vectors (primary).
void trn1(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### TRN2 ###
Transpose vectors (secondary).
void trn2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABA ###
Unsigned absolute difference and accumulate.
void uaba(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABAL ###
Unsigned absolute difference and accumulate long.
void uabal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABAL2 ###
Unsigned absolute difference and accumulate long (second part).
void uabal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABD ###
Unsigned absolute difference.
void uabd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABDL ###
Unsigned absolute difference long.
void uabdl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UABDL2 ###
Unsigned absolute difference long (second part).
void uabdl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UADALP ###
Unsigned pairwise long add and accumulate.
void uadalp(const VRegister& vd,
const VRegister& vn)
### UADDL ###
Unsigned add long.
void uaddl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UADDL2 ###
Unsigned add long (second part).
void uaddl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UADDLP ###
Unsigned pairwise long add.
void uaddlp(const VRegister& vd,
const VRegister& vn)
### UADDLV ###
Unsigned add long across vector.
void uaddlv(const VRegister& vd,
const VRegister& vn)
### UADDW ###
Unsigned add wide.
void uaddw(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UADDW2 ###
Unsigned add wide (second part).
void uaddw2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UCVTF ###
Convert unsigned integer or fixed point to FP.
void ucvtf(const VRegister& fd, const Register& rn, int fbits = 0)
### UCVTF ###
Convert unsigned integer or fixed-point to FP.
void ucvtf(const VRegister& fd, const VRegister& vn, int fbits = 0)
### UHADD ###
Unsigned halving add.
void uhadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UHSUB ###
Unsigned halving sub.
void uhsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMAX ###
Unsigned maximum.
void umax(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMAXP ###
Unsigned pairwise maximum.
void umaxp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMAXV ###
Unsigned maximum across vector.
void umaxv(const VRegister& vd,
const VRegister& vn)
### UMIN ###
Unsigned minimum.
void umin(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMINP ###
Unsigned pairwise minimum.
void uminp(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMINV ###
Unsigned minimum across vector.
void uminv(const VRegister& vd,
const VRegister& vn)
### UMLAL ###
Unsigned long multiply-add by scalar element.
void umlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UMLAL ###
Unsigned long multiply-add.
void umlal(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMLAL2 ###
Unsigned long multiply-add (second part).
void umlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMLAL2 ###
Unsigned long multiply-add by scalar element (second part).
void umlal2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UMLSL ###
Unsigned long multiply-sub by scalar element.
void umlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UMLSL ###
Unsigned long multiply-sub.
void umlsl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMLSL2 ###
Unsigned long multiply-sub (second part).
void umlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMLSL2 ###
Unsigned long multiply-sub by scalar element (second part).
void umlsl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UMOV ###
Unsigned move vector element to general-purpose register.
void umov(const Register& rd,
const VRegister& vn,
int vn_index)
### UMULL ###
Unsigned long multiply by scalar element.
void umull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UMULL ###
Unsigned long multiply long.
void umull(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMULL2 ###
Unsigned long multiply (second part).
void umull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UMULL2 ###
Unsigned long multiply by scalar element (second part).
void umull2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm,
int vm_index)
### UQADD ###
Unsigned saturating add.
void uqadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UQRSHL ###
Unsigned saturating rounding shift left by register.
void uqrshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UQRSHRN ###
Unsigned saturating rounding shift right narrow by immediate.
void uqrshrn(const VRegister& vd,
const VRegister& vn,
int shift)
### UQRSHRN2 ###
Unsigned saturating rounding shift right narrow by immediate (second part).
void uqrshrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### UQSHL ###
Unsigned saturating shift left by immediate.
void uqshl(const VRegister& vd,
const VRegister& vn,
int shift)
### UQSHL ###
Unsigned saturating shift left by register.
void uqshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UQSHRN ###
Unsigned saturating shift right narrow by immediate.
void uqshrn(const VRegister& vd,
const VRegister& vn,
int shift)
### UQSHRN2 ###
Unsigned saturating shift right narrow by immediate (second part).
void uqshrn2(const VRegister& vd,
const VRegister& vn,
int shift)
### UQSUB ###
Unsigned saturating subtract.
void uqsub(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UQXTN ###
Unsigned saturating extract narrow.
void uqxtn(const VRegister& vd,
const VRegister& vn)
### UQXTN2 ###
Unsigned saturating extract narrow (second part).
void uqxtn2(const VRegister& vd,
const VRegister& vn)
### URECPE ###
Unsigned reciprocal estimate.
void urecpe(const VRegister& vd,
const VRegister& vn)
### URHADD ###
Unsigned rounding halving add.
void urhadd(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### URSHL ###
Unsigned rounding shift left by register.
void urshl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### URSHR ###
Unsigned rounding shift right by immediate.
void urshr(const VRegister& vd,
const VRegister& vn,
int shift)
### URSQRTE ###
Unsigned reciprocal square root estimate.
void ursqrte(const VRegister& vd,
const VRegister& vn)
### URSRA ###
Unsigned rounding shift right by immediate and accumulate.
void ursra(const VRegister& vd,
const VRegister& vn,
int shift)
### USHL ###
Unsigned shift left by register.
void ushl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### USHLL ###
Unsigned shift left long by immediate.
void ushll(const VRegister& vd,
const VRegister& vn,
int shift)
### USHLL2 ###
Unsigned shift left long by immediate (second part).
void ushll2(const VRegister& vd,
const VRegister& vn,
int shift)
### USHR ###
Unsigned shift right by immediate.
void ushr(const VRegister& vd,
const VRegister& vn,
int shift)
### USQADD ###
Unsigned saturating accumulate of signed value.
void usqadd(const VRegister& vd,
const VRegister& vn)
### USRA ###
Unsigned shift right by immediate and accumulate.
void usra(const VRegister& vd,
const VRegister& vn,
int shift)
### USUBL ###
Unsigned subtract long.
void usubl(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### USUBL2 ###
Unsigned subtract long (second part).
void usubl2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### USUBW ###
Unsigned subtract wide.
void usubw(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### USUBW2 ###
Unsigned subtract wide (second part).
void usubw2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UXTL ###
Unsigned extend long.
void uxtl(const VRegister& vd,
const VRegister& vn)
### UXTL2 ###
Unsigned extend long (second part).
void uxtl2(const VRegister& vd,
const VRegister& vn)
### UZP1 ###
Unzip vectors (primary).
void uzp1(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### UZP2 ###
Unzip vectors (secondary).
void uzp2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### XTN ###
Extract narrow.
void xtn(const VRegister& vd,
const VRegister& vn)
### XTN2 ###
Extract narrow (second part).
void xtn2(const VRegister& vd,
const VRegister& vn)
### ZIP1 ###
Zip vectors (primary).
void zip1(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
### ZIP2 ###
Zip vectors (secondary).
void zip2(const VRegister& vd,
const VRegister& vn,
const VRegister& vm)
Additional or pseudo instructions
---------------------------------
### BIND ###
Bind a label to the current PC.
void bind(Label* label)
### DC32 ###
Emit 32 bits of data into the instruction stream.
void dc32(uint32_t data)
### DC64 ###
Emit 64 bits of data into the instruction stream.
void dc64(uint64_t data)
### DCI ###
Emit raw instructions into the instruction stream.
void dci(Instr raw_inst)
### PLACE ###
Place a literal at the current PC.
void place(RawLiteral* literal)