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mod.rs
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use crate::abi::Size;
use crate::spec::Target;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_macros::HashStable_Generic;
use rustc_span::Symbol;
use std::fmt;
use std::str::FromStr;
#[macro_use]
macro_rules! def_reg_class {
($arch:ident $arch_regclass:ident {
$(
$class:ident,
)*
}) => {
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash, HashStable_Generic)]
#[allow(non_camel_case_types)]
pub enum $arch_regclass {
$($class,)*
}
impl $arch_regclass {
pub fn name(self) -> &'static str {
match self {
$(Self::$class => stringify!($class),)*
}
}
pub fn parse(_arch: super::InlineAsmArch, name: &str) -> Result<Self, &'static str> {
match name {
$(
stringify!($class) => Ok(Self::$class),
)*
_ => Err("unknown register class"),
}
}
}
pub(super) fn regclass_map() -> rustc_data_structures::fx::FxHashMap<
super::InlineAsmRegClass,
rustc_data_structures::fx::FxHashSet<super::InlineAsmReg>,
> {
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use super::InlineAsmRegClass;
let mut map = FxHashMap::default();
$(
map.insert(InlineAsmRegClass::$arch($arch_regclass::$class), FxHashSet::default());
)*
map
}
}
}
#[macro_use]
macro_rules! def_regs {
($arch:ident $arch_reg:ident $arch_regclass:ident {
$(
$reg:ident: $class:ident $(, $extra_class:ident)* = [$reg_name:literal $(, $alias:literal)*] $(% $filter:ident)?,
)*
$(
#error = [$($bad_reg:literal),+] => $error:literal,
)*
}) => {
#[allow(unreachable_code)]
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash, HashStable_Generic)]
#[allow(non_camel_case_types)]
pub enum $arch_reg {
$($reg,)*
}
impl $arch_reg {
pub fn name(self) -> &'static str {
match self {
$(Self::$reg => $reg_name,)*
}
}
pub fn reg_class(self) -> $arch_regclass {
match self {
$(Self::$reg => $arch_regclass::$class,)*
}
}
pub fn parse(
_arch: super::InlineAsmArch,
mut _has_feature: impl FnMut(&str) -> bool,
_target: &crate::spec::Target,
name: &str,
) -> Result<Self, &'static str> {
match name {
$(
$($alias)|* | $reg_name => {
$($filter(_arch, &mut _has_feature, _target, false)?;)?
Ok(Self::$reg)
}
)*
$(
$($bad_reg)|* => Err($error),
)*
_ => Err("unknown register"),
}
}
}
pub(super) fn fill_reg_map(
_arch: super::InlineAsmArch,
mut _has_feature: impl FnMut(&str) -> bool,
_target: &crate::spec::Target,
_map: &mut rustc_data_structures::fx::FxHashMap<
super::InlineAsmRegClass,
rustc_data_structures::fx::FxHashSet<super::InlineAsmReg>,
>,
) {
#[allow(unused_imports)]
use super::{InlineAsmReg, InlineAsmRegClass};
$(
if $($filter(_arch, &mut _has_feature, _target, true).is_ok() &&)? true {
if let Some(set) = _map.get_mut(&InlineAsmRegClass::$arch($arch_regclass::$class)) {
set.insert(InlineAsmReg::$arch($arch_reg::$reg));
}
$(
if let Some(set) = _map.get_mut(&InlineAsmRegClass::$arch($arch_regclass::$extra_class)) {
set.insert(InlineAsmReg::$arch($arch_reg::$reg));
}
)*
}
)*
}
}
}
#[macro_use]
macro_rules! types {
(
$(_ : $($ty:expr),+;)?
$($feature:literal: $($ty2:expr),+;)*
) => {
{
use super::InlineAsmType::*;
&[
$($(
($ty, None),
)*)?
$($(
($ty2, Some($feature)),
)*)*
]
}
};
}
mod aarch64;
mod arm;
mod hexagon;
mod mips;
mod nvptx;
mod riscv;
mod x86;
pub use aarch64::{AArch64InlineAsmReg, AArch64InlineAsmRegClass};
pub use arm::{ArmInlineAsmReg, ArmInlineAsmRegClass};
pub use hexagon::{HexagonInlineAsmReg, HexagonInlineAsmRegClass};
pub use mips::{MipsInlineAsmReg, MipsInlineAsmRegClass};
pub use nvptx::{NvptxInlineAsmReg, NvptxInlineAsmRegClass};
pub use riscv::{RiscVInlineAsmReg, RiscVInlineAsmRegClass};
pub use x86::{X86InlineAsmReg, X86InlineAsmRegClass};
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash)]
pub enum InlineAsmArch {
X86,
X86_64,
Arm,
AArch64,
RiscV32,
RiscV64,
Nvptx64,
Hexagon,
Mips,
Mips64,
}
impl FromStr for InlineAsmArch {
type Err = ();
fn from_str(s: &str) -> Result<InlineAsmArch, ()> {
match s {
"x86" => Ok(Self::X86),
"x86_64" => Ok(Self::X86_64),
"arm" => Ok(Self::Arm),
"aarch64" => Ok(Self::AArch64),
"riscv32" => Ok(Self::RiscV32),
"riscv64" => Ok(Self::RiscV64),
"nvptx64" => Ok(Self::Nvptx64),
"hexagon" => Ok(Self::Hexagon),
"mips" => Ok(Self::Mips),
"mips64" => Ok(Self::Mips64),
_ => Err(()),
}
}
}
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash, HashStable_Generic)]
pub enum InlineAsmReg {
X86(X86InlineAsmReg),
Arm(ArmInlineAsmReg),
AArch64(AArch64InlineAsmReg),
RiscV(RiscVInlineAsmReg),
Nvptx(NvptxInlineAsmReg),
Hexagon(HexagonInlineAsmReg),
Mips(MipsInlineAsmReg),
}
impl InlineAsmReg {
pub fn name(self) -> &'static str {
match self {
Self::X86(r) => r.name(),
Self::Arm(r) => r.name(),
Self::AArch64(r) => r.name(),
Self::RiscV(r) => r.name(),
Self::Hexagon(r) => r.name(),
Self::Mips(r) => r.name(),
}
}
pub fn reg_class(self) -> InlineAsmRegClass {
match self {
Self::X86(r) => InlineAsmRegClass::X86(r.reg_class()),
Self::Arm(r) => InlineAsmRegClass::Arm(r.reg_class()),
Self::AArch64(r) => InlineAsmRegClass::AArch64(r.reg_class()),
Self::RiscV(r) => InlineAsmRegClass::RiscV(r.reg_class()),
Self::Hexagon(r) => InlineAsmRegClass::Hexagon(r.reg_class()),
Self::Mips(r) => InlineAsmRegClass::Mips(r.reg_class()),
}
}
pub fn parse(
arch: InlineAsmArch,
has_feature: impl FnMut(&str) -> bool,
target: &Target,
name: Symbol,
) -> Result<Self, &'static str> {
// FIXME: use direct symbol comparison for register names
// Use `Symbol::as_str` instead of `Symbol::with` here because `has_feature` may access `Symbol`.
let name = name.as_str();
Ok(match arch {
InlineAsmArch::X86 | InlineAsmArch::X86_64 => {
Self::X86(X86InlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::Arm => {
Self::Arm(ArmInlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::AArch64 => {
Self::AArch64(AArch64InlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::RiscV32 | InlineAsmArch::RiscV64 => {
Self::RiscV(RiscVInlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::Nvptx64 => {
Self::Nvptx(NvptxInlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::Hexagon => {
Self::Hexagon(HexagonInlineAsmReg::parse(arch, has_feature, target, &name)?)
}
InlineAsmArch::Mips | InlineAsmArch::Mips64 => {
Self::Mips(MipsInlineAsmReg::parse(arch, has_feature, target, &name)?)
}
})
}
// NOTE: This function isn't used at the moment, but is needed to support
// falling back to an external assembler.
pub fn emit(
self,
out: &mut dyn fmt::Write,
arch: InlineAsmArch,
modifier: Option<char>,
) -> fmt::Result {
match self {
Self::X86(r) => r.emit(out, arch, modifier),
Self::Arm(r) => r.emit(out, arch, modifier),
Self::AArch64(r) => r.emit(out, arch, modifier),
Self::RiscV(r) => r.emit(out, arch, modifier),
Self::Hexagon(r) => r.emit(out, arch, modifier),
Self::Mips(r) => r.emit(out, arch, modifier),
}
}
pub fn overlapping_regs(self, mut cb: impl FnMut(InlineAsmReg)) {
match self {
Self::X86(r) => r.overlapping_regs(|r| cb(Self::X86(r))),
Self::Arm(r) => r.overlapping_regs(|r| cb(Self::Arm(r))),
Self::AArch64(_) => cb(self),
Self::RiscV(_) => cb(self),
Self::Hexagon(r) => r.overlapping_regs(|r| cb(Self::Hexagon(r))),
Self::Mips(_) => cb(self),
}
}
}
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash, HashStable_Generic)]
pub enum InlineAsmRegClass {
X86(X86InlineAsmRegClass),
Arm(ArmInlineAsmRegClass),
AArch64(AArch64InlineAsmRegClass),
RiscV(RiscVInlineAsmRegClass),
Nvptx(NvptxInlineAsmRegClass),
Hexagon(HexagonInlineAsmRegClass),
Mips(MipsInlineAsmRegClass),
}
impl InlineAsmRegClass {
pub fn name(self) -> &'static str {
match self {
Self::X86(r) => r.name(),
Self::Arm(r) => r.name(),
Self::AArch64(r) => r.name(),
Self::RiscV(r) => r.name(),
Self::Nvptx(r) => r.name(),
Self::Hexagon(r) => r.name(),
Self::Mips(r) => r.name(),
}
}
/// Returns a suggested register class to use for this type. This is called
/// after type checking via `supported_types` fails to give a better error
/// message to the user.
pub fn suggest_class(self, arch: InlineAsmArch, ty: InlineAsmType) -> Option<Self> {
match self {
Self::X86(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::X86),
Self::Arm(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::Arm),
Self::AArch64(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::AArch64),
Self::RiscV(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::RiscV),
Self::Nvptx(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::Nvptx),
Self::Hexagon(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::Hexagon),
Self::Mips(r) => r.suggest_class(arch, ty).map(InlineAsmRegClass::Mips),
}
}
/// Returns a suggested template modifier to use for this type and an
/// example of a register named formatted with it.
///
/// Such suggestions are useful if a type smaller than the full register
/// size is used and a modifier can be used to point to the subregister of
/// the correct size.
pub fn suggest_modifier(
self,
arch: InlineAsmArch,
ty: InlineAsmType,
) -> Option<(char, &'static str)> {
match self {
Self::X86(r) => r.suggest_modifier(arch, ty),
Self::Arm(r) => r.suggest_modifier(arch, ty),
Self::AArch64(r) => r.suggest_modifier(arch, ty),
Self::RiscV(r) => r.suggest_modifier(arch, ty),
Self::Nvptx(r) => r.suggest_modifier(arch, ty),
Self::Hexagon(r) => r.suggest_modifier(arch, ty),
Self::Mips(r) => r.suggest_modifier(arch, ty),
}
}
/// Returns the default modifier for this register and an example of a
/// register named formatted with it.
///
/// This is only needed when the register class can suggest a modifier, so
/// that the user can be shown how to get the default behavior without a
/// warning.
pub fn default_modifier(self, arch: InlineAsmArch) -> Option<(char, &'static str)> {
match self {
Self::X86(r) => r.default_modifier(arch),
Self::Arm(r) => r.default_modifier(arch),
Self::AArch64(r) => r.default_modifier(arch),
Self::RiscV(r) => r.default_modifier(arch),
Self::Nvptx(r) => r.default_modifier(arch),
Self::Hexagon(r) => r.default_modifier(arch),
Self::Mips(r) => r.default_modifier(arch),
}
}
/// Returns a list of supported types for this register class, each with a
/// options target feature required to use this type.
pub fn supported_types(
self,
arch: InlineAsmArch,
) -> &'static [(InlineAsmType, Option<&'static str>)] {
match self {
Self::X86(r) => r.supported_types(arch),
Self::Arm(r) => r.supported_types(arch),
Self::AArch64(r) => r.supported_types(arch),
Self::RiscV(r) => r.supported_types(arch),
Self::Nvptx(r) => r.supported_types(arch),
Self::Hexagon(r) => r.supported_types(arch),
Self::Mips(r) => r.supported_types(arch),
}
}
pub fn parse(arch: InlineAsmArch, name: Symbol) -> Result<Self, &'static str> {
// FIXME: use direct symbol comparison for register class names
name.with(|name| {
Ok(match arch {
InlineAsmArch::X86 | InlineAsmArch::X86_64 => {
Self::X86(X86InlineAsmRegClass::parse(arch, name)?)
}
InlineAsmArch::Arm => Self::Arm(ArmInlineAsmRegClass::parse(arch, name)?),
InlineAsmArch::AArch64 => {
Self::AArch64(AArch64InlineAsmRegClass::parse(arch, name)?)
}
InlineAsmArch::RiscV32 | InlineAsmArch::RiscV64 => {
Self::RiscV(RiscVInlineAsmRegClass::parse(arch, name)?)
}
InlineAsmArch::Nvptx64 => Self::Nvptx(NvptxInlineAsmRegClass::parse(arch, name)?),
InlineAsmArch::Hexagon => {
Self::Hexagon(HexagonInlineAsmRegClass::parse(arch, name)?)
}
InlineAsmArch::Mips | InlineAsmArch::Mips64 => {
Self::Mips(MipsInlineAsmRegClass::parse(arch, name)?)
}
})
})
}
/// Returns the list of template modifiers that can be used with this
/// register class.
pub fn valid_modifiers(self, arch: InlineAsmArch) -> &'static [char] {
match self {
Self::X86(r) => r.valid_modifiers(arch),
Self::Arm(r) => r.valid_modifiers(arch),
Self::AArch64(r) => r.valid_modifiers(arch),
Self::RiscV(r) => r.valid_modifiers(arch),
Self::Nvptx(r) => r.valid_modifiers(arch),
Self::Hexagon(r) => r.valid_modifiers(arch),
Self::Mips(r) => r.valid_modifiers(arch),
}
}
}
#[derive(Copy, Clone, Encodable, Decodable, Debug, Eq, PartialEq, Hash, HashStable_Generic)]
pub enum InlineAsmRegOrRegClass {
Reg(InlineAsmReg),
RegClass(InlineAsmRegClass),
}
impl InlineAsmRegOrRegClass {
pub fn reg_class(self) -> InlineAsmRegClass {
match self {
Self::Reg(r) => r.reg_class(),
Self::RegClass(r) => r,
}
}
}
impl fmt::Display for InlineAsmRegOrRegClass {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Reg(r) => write!(f, "\"{}\"", r.name()),
Self::RegClass(r) => f.write_str(r.name()),
}
}
}
/// Set of types which can be used with a particular register class.
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub enum InlineAsmType {
I8,
I16,
I32,
I64,
I128,
F32,
F64,
VecI8(u64),
VecI16(u64),
VecI32(u64),
VecI64(u64),
VecI128(u64),
VecF32(u64),
VecF64(u64),
}
impl InlineAsmType {
pub fn is_integer(self) -> bool {
matches!(self, Self::I8 | Self::I16 | Self::I32 | Self::I64 | Self::I128)
}
pub fn size(self) -> Size {
Size::from_bytes(match self {
Self::I8 => 1,
Self::I16 => 2,
Self::I32 => 4,
Self::I64 => 8,
Self::I128 => 16,
Self::F32 => 4,
Self::F64 => 8,
Self::VecI8(n) => n * 1,
Self::VecI16(n) => n * 2,
Self::VecI32(n) => n * 4,
Self::VecI64(n) => n * 8,
Self::VecI128(n) => n * 16,
Self::VecF32(n) => n * 4,
Self::VecF64(n) => n * 8,
})
}
}
impl fmt::Display for InlineAsmType {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Self::I8 => f.write_str("i8"),
Self::I16 => f.write_str("i16"),
Self::I32 => f.write_str("i32"),
Self::I64 => f.write_str("i64"),
Self::I128 => f.write_str("i128"),
Self::F32 => f.write_str("f32"),
Self::F64 => f.write_str("f64"),
Self::VecI8(n) => write!(f, "i8x{}", n),
Self::VecI16(n) => write!(f, "i16x{}", n),
Self::VecI32(n) => write!(f, "i32x{}", n),
Self::VecI64(n) => write!(f, "i64x{}", n),
Self::VecI128(n) => write!(f, "i128x{}", n),
Self::VecF32(n) => write!(f, "f32x{}", n),
Self::VecF64(n) => write!(f, "f64x{}", n),
}
}
}
/// Returns the full set of allocatable registers for a given architecture.
///
/// The registers are structured as a map containing the set of allocatable
/// registers in each register class. A particular register may be allocatable
/// from multiple register classes, in which case it will appear multiple times
/// in the map.
// NOTE: This function isn't used at the moment, but is needed to support
// falling back to an external assembler.
pub fn allocatable_registers(
arch: InlineAsmArch,
has_feature: impl FnMut(&str) -> bool,
target: &crate::spec::Target,
) -> FxHashMap<InlineAsmRegClass, FxHashSet<InlineAsmReg>> {
match arch {
InlineAsmArch::X86 | InlineAsmArch::X86_64 => {
let mut map = x86::regclass_map();
x86::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::Arm => {
let mut map = arm::regclass_map();
arm::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::AArch64 => {
let mut map = aarch64::regclass_map();
aarch64::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::RiscV32 | InlineAsmArch::RiscV64 => {
let mut map = riscv::regclass_map();
riscv::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::Nvptx64 => {
let mut map = nvptx::regclass_map();
nvptx::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::Hexagon => {
let mut map = hexagon::regclass_map();
hexagon::fill_reg_map(arch, has_feature, target, &mut map);
map
}
InlineAsmArch::Mips | InlineAsmArch::Mips64 => {
let mut map = mips::regclass_map();
mips::fill_reg_map(arch, has_feature, target, &mut map);
map
}
}
}