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//! Zve64x vector store instructions
#[cfg(test)]
mod tests;
use crate::instructions::Instruction;
use crate::instructions::v::Eew;
use crate::registers::general_purpose::Register;
use crate::registers::vector::VReg;
use ab_riscv_macros::instruction;
use core::fmt;
/// RISC-V Zve64x vector store instruction.
///
/// Encoded under the STORE-FP major opcode (0x27). All stores use rs1 (GPR) as a base address and
/// vs3 (vector register) as a source.
#[instruction]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
#[rustfmt::skip]
#[doc(hidden)]
pub enum Zve64xStoreInstruction<Reg> {
/// Unit-stride store: `vse{eew}.v vs3, (rs1), vm`
///
/// mop=00, sumop=00000, nf=000
Vse { vs3: VReg, rs1: Reg, vm: bool, eew: Eew },
/// Unit-stride mask store: `vsm.v vs3, (rs1)`
///
/// mop=00, sumop=01011, nf=000, eew=e8, vm=1
Vsm { vs3: VReg, rs1: Reg },
/// Strided store: `vsse{eew}.v vs3, (rs1), rs2, vm`
///
/// mop=10, nf=000
Vsse { vs3: VReg, rs1: Reg, rs2: Reg, vm: bool, eew: Eew },
/// Indexed-unordered store: `vsuxei{eew}.v vs3, (rs1), vs2, vm`
///
/// mop=01, nf=000. eew is the index element width.
Vsuxei { vs3: VReg, rs1: Reg, vs2: VReg, vm: bool, eew: Eew },
/// Indexed-ordered store: `vsoxei{eew}.v vs3, (rs1), vs2, vm`
///
/// mop=11, nf=000. eew is the index element width.
Vsoxei { vs3: VReg, rs1: Reg, vs2: VReg, vm: bool, eew: Eew },
/// Whole-register store: `vs{nreg}r.v vs3, (rs1)`
///
/// mop=00, sumop=01000, vm=1. nreg must be 1, 2, 4, or 8.
Vsr { vs3: VReg, rs1: Reg, nreg: u8 },
/// Unit-stride segment store: `vsseg{nf}e{eew}.v vs3, (rs1), vm`
///
/// mop=00, sumop=00000, nf>0
Vsseg { vs3: VReg, rs1: Reg, vm: bool, eew: Eew, nf: u8 },
/// Strided segment store: `vssseg{nf}e{eew}.v vs3, (rs1), rs2, vm`
///
/// mop=10, nf>0
Vssseg { vs3: VReg, rs1: Reg, rs2: Reg, vm: bool, eew: Eew, nf: u8 },
/// Indexed-unordered segment store: `vsuxseg{nf}ei{eew}.v vs3, (rs1), vs2, vm`
///
/// mop=01, nf>0
Vsuxseg { vs3: VReg, rs1: Reg, vs2: VReg, vm: bool, eew: Eew, nf: u8 },
/// Indexed-ordered segment store: `vsoxseg{nf}ei{eew}.v vs3, (rs1), vs2, vm`
///
/// mop=11, nf>0
Vsoxseg { vs3: VReg, rs1: Reg, vs2: VReg, vm: bool, eew: Eew, nf: u8 },
}
#[instruction]
impl<Reg> const Instruction for Zve64xStoreInstruction<Reg>
where
Reg: [const] Register,
{
type Reg = Reg;
#[inline(always)]
fn try_decode(instruction: u32) -> Option<Self> {
let opcode = (instruction & 0b111_1111) as u8;
// STORE-FP major opcode
if opcode != 0b0100111 {
None?;
}
let vs3_bits = ((instruction >> 7) & 0x1f) as u8;
let width = ((instruction >> 12) & 0b111) as u8;
let rs1_bits = ((instruction >> 15) & 0x1f) as u8;
let rs2_bits = ((instruction >> 20) & 0x1f) as u8;
let vm = ((instruction >> 25) & 1) != 0;
let mop = ((instruction >> 26) & 0b11) as u8;
let mew = ((instruction >> 28) & 1) as u8;
let nf = ((instruction >> 29) & 0b111) as u8;
// mew must be 0
if mew != 0 {
None?;
}
let vs3 = VReg::from_bits(vs3_bits)?;
let rs1 = Reg::from_bits(rs1_bits)?;
let nf_val = nf + 1;
match mop {
// Unit-stride
0b00 => {
let sumop = rs2_bits;
match sumop {
// Regular unit-stride store
0b00000 => {
let eew = Eew::from_width(width)?;
if nf == 0 {
Some(Self::Vse { vs3, rs1, vm, eew })
} else {
Some(Self::Vsseg {
vs3,
rs1,
vm,
eew,
nf: nf_val,
})
}
}
// Whole-register store
0b01000 => {
// vm must be 1, width must be e8 (0b000)
if !vm || width != 0b000 {
None?;
}
// nreg must be 1, 2, 4, or 8
match nf_val {
1 | 2 | 4 | 8 => Some(Self::Vsr {
vs3,
rs1,
nreg: nf_val,
}),
_ => None,
}
}
// Mask store
0b01011 => {
// Must be eew=e8, vm=1, nf=0
if width != 0b000 || !vm || nf != 0 {
None?;
}
Some(Self::Vsm { vs3, rs1 })
}
_ => None,
}
}
// Indexed-unordered
0b01 => {
let eew = Eew::from_width(width)?;
let vs2 = VReg::from_bits(rs2_bits)?;
if nf == 0 {
Some(Self::Vsuxei {
vs3,
rs1,
vs2,
vm,
eew,
})
} else {
Some(Self::Vsuxseg {
vs3,
rs1,
vs2,
vm,
eew,
nf: nf_val,
})
}
}
// Strided
0b10 => {
let eew = Eew::from_width(width)?;
let rs2 = Reg::from_bits(rs2_bits)?;
if nf == 0 {
Some(Self::Vsse {
vs3,
rs1,
rs2,
vm,
eew,
})
} else {
Some(Self::Vssseg {
vs3,
rs1,
rs2,
vm,
eew,
nf: nf_val,
})
}
}
// Indexed-ordered
0b11 => {
let eew = Eew::from_width(width)?;
let vs2 = VReg::from_bits(rs2_bits)?;
if nf == 0 {
Some(Self::Vsoxei {
vs3,
rs1,
vs2,
vm,
eew,
})
} else {
Some(Self::Vsoxseg {
vs3,
rs1,
vs2,
vm,
eew,
nf: nf_val,
})
}
}
_ => None,
}
}
#[inline(always)]
fn alignment() -> u8 {
align_of::<u32>() as u8
}
#[inline(always)]
fn size(&self) -> u8 {
size_of::<u32>() as u8
}
}
impl<Reg> fmt::Display for Zve64xStoreInstruction<Reg>
where
Reg: fmt::Display,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
#[rustfmt::skip]
match self {
Self::Vse { vs3, rs1, vm, eew } => write!(f, "vse{}.v {}, ({}){}", eew, vs3, rs1, mask_suffix(vm)),
Self::Vsm { vs3, rs1 } => write!(f, "vsm.v {}, ({})", vs3, rs1),
Self::Vsse { vs3, rs1, rs2, vm, eew } => write!(f, "vsse{eew}.v {vs3}, ({rs1}), {rs2}{}", mask_suffix(vm)),
Self::Vsuxei { vs3, rs1, vs2, vm, eew } => write!(f, "vsuxei{eew}.v {vs3}, ({rs1}), {vs2}{}", mask_suffix(vm)),
Self::Vsoxei { vs3, rs1, vs2, vm, eew } => write!(f, "vsoxei{eew}.v {vs3}, ({rs1}), {vs2}{}", mask_suffix(vm)),
Self::Vsr { vs3, rs1, nreg } => write!(f, "vs{}r.v {}, ({})", nreg, vs3, rs1),
Self::Vsseg { vs3, rs1, vm, eew, nf } => write!(f, "vsseg{nf}e{eew}.v {vs3}, ({rs1}){}", mask_suffix(vm)),
Self::Vssseg { vs3, rs1, rs2, vm, eew, nf } => write!(f, "vssseg{nf}e{eew}.v {vs3}, ({rs1}), {rs2}{}", mask_suffix(vm)),
Self::Vsuxseg { vs3, rs1, vs2, vm, eew, nf } => write!(f, "vsuxseg{nf}ei{eew}.v {vs3}, ({rs1}), {vs2}{}", mask_suffix(vm)),
Self::Vsoxseg { vs3, rs1, vs2, vm, eew, nf } => write!(f, "vsoxseg{nf}ei{eew}.v {vs3}, ({rs1}), {vs2}{}", mask_suffix(vm)),
}
}
}
/// Format mask suffix for display
#[inline(always)]
fn mask_suffix(vm: &bool) -> &'static str {
if *vm { "" } else { ", v0.t" }
}