use crate::attributes;
use crate::builder::Builder;
use crate::common::Funclet;
use crate::context::CodegenCx;
use crate::llvm;
use crate::type_::Type;
use crate::type_of::LayoutLlvmExt;
use crate::value::Value;
use rustc_ast::{InlineAsmOptions, InlineAsmTemplatePiece};
use rustc_codegen_ssa::mir::operand::OperandValue;
use rustc_codegen_ssa::traits::*;
use rustc_data_structures::fx::FxHashMap;
use rustc_middle::ty::layout::TyAndLayout;
use rustc_middle::{bug, span_bug, ty::Instance};
use rustc_span::{Pos, Span};
use rustc_target::abi::*;
use rustc_target::asm::*;
use libc::{c_char, c_uint};
use smallvec::SmallVec;
impl<'ll, 'tcx> AsmBuilderMethods<'tcx> for Builder<'_, 'll, 'tcx> {
fn codegen_inline_asm(
&mut self,
template: &[InlineAsmTemplatePiece],
operands: &[InlineAsmOperandRef<'tcx, Self>],
options: InlineAsmOptions,
line_spans: &[Span],
instance: Instance<'_>,
dest_catch_funclet: Option<(Self::BasicBlock, Self::BasicBlock, Option<&Self::Funclet>)>,
) {
let asm_arch = self.tcx.sess.asm_arch.unwrap();
let mut constraints = vec![];
let mut clobbers = vec![];
let mut output_types = vec![];
let mut op_idx = FxHashMap::default();
let mut clobbered_x87 = false;
for (idx, op) in operands.iter().enumerate() {
match *op {
InlineAsmOperandRef::Out { reg, late, place } => {
let is_target_supported = |reg_class: InlineAsmRegClass| {
for &(_, feature) in reg_class.supported_types(asm_arch) {
if let Some(feature) = feature {
if self
.tcx
.asm_target_features(instance.def_id())
.contains(&feature)
{
return true;
}
} else {
return true;
}
}
false
};
let mut layout = None;
let ty = if let Some(ref place) = place {
layout = Some(&place.layout);
llvm_fixup_output_type(self.cx, reg.reg_class(), &place.layout)
} else if matches!(
reg.reg_class(),
InlineAsmRegClass::X86(
X86InlineAsmRegClass::mmx_reg | X86InlineAsmRegClass::x87_reg
)
) {
if !clobbered_x87 {
clobbered_x87 = true;
clobbers.push("~{st}".to_string());
for i in 1..=7 {
clobbers.push(format!("~{{st({})}}", i));
}
}
continue;
} else if !is_target_supported(reg.reg_class())
|| reg.reg_class().is_clobber_only(asm_arch)
{
assert!(matches!(reg, InlineAsmRegOrRegClass::Reg(_)));
clobbers.push(format!("~{}", reg_to_llvm(reg, None)));
continue;
} else {
dummy_output_type(self.cx, reg.reg_class())
};
output_types.push(ty);
op_idx.insert(idx, constraints.len());
let prefix = if late { "=" } else { "=&" };
constraints.push(format!("{}{}", prefix, reg_to_llvm(reg, layout)));
}
InlineAsmOperandRef::InOut { reg, late, in_value, out_place } => {
let layout = if let Some(ref out_place) = out_place {
&out_place.layout
} else {
&in_value.layout
};
let ty = llvm_fixup_output_type(self.cx, reg.reg_class(), layout);
output_types.push(ty);
op_idx.insert(idx, constraints.len());
let prefix = if late { "=" } else { "=&" };
constraints.push(format!("{}{}", prefix, reg_to_llvm(reg, Some(layout))));
}
_ => {}
}
}
let mut inputs = vec![];
for (idx, op) in operands.iter().enumerate() {
match *op {
InlineAsmOperandRef::In { reg, value } => {
let llval =
llvm_fixup_input(self, value.immediate(), reg.reg_class(), &value.layout);
inputs.push(llval);
op_idx.insert(idx, constraints.len());
constraints.push(reg_to_llvm(reg, Some(&value.layout)));
}
InlineAsmOperandRef::InOut { reg, late, in_value, out_place: _ } => {
let value = llvm_fixup_input(
self,
in_value.immediate(),
reg.reg_class(),
&in_value.layout,
);
inputs.push(value);
if late && matches!(reg, InlineAsmRegOrRegClass::Reg(_)) {
constraints.push(reg_to_llvm(reg, Some(&in_value.layout)).to_string());
} else {
constraints.push(format!("{}", op_idx[&idx]));
}
}
InlineAsmOperandRef::SymFn { instance } => {
inputs.push(self.cx.get_fn(instance));
op_idx.insert(idx, constraints.len());
constraints.push("s".to_string());
}
InlineAsmOperandRef::SymStatic { def_id } => {
inputs.push(self.cx.get_static(def_id));
op_idx.insert(idx, constraints.len());
constraints.push("s".to_string());
}
_ => {}
}
}
let mut template_str = String::new();
for piece in template {
match *piece {
InlineAsmTemplatePiece::String(ref s) => {
if s.contains('$') {
for c in s.chars() {
if c == '$' {
template_str.push_str("$$");
} else {
template_str.push(c);
}
}
} else {
template_str.push_str(s)
}
}
InlineAsmTemplatePiece::Placeholder { operand_idx, modifier, span: _ } => {
match operands[operand_idx] {
InlineAsmOperandRef::In { reg, .. }
| InlineAsmOperandRef::Out { reg, .. }
| InlineAsmOperandRef::InOut { reg, .. } => {
let modifier = modifier_to_llvm(asm_arch, reg.reg_class(), modifier);
if let Some(modifier) = modifier {
template_str.push_str(&format!(
"${{{}:{}}}",
op_idx[&operand_idx], modifier
));
} else {
template_str.push_str(&format!("${{{}}}", op_idx[&operand_idx]));
}
}
InlineAsmOperandRef::Const { ref string } => {
template_str.push_str(string);
}
InlineAsmOperandRef::SymFn { .. }
| InlineAsmOperandRef::SymStatic { .. } => {
template_str.push_str(&format!("${{{}:c}}", op_idx[&operand_idx]));
}
}
}
}
}
constraints.append(&mut clobbers);
if !options.contains(InlineAsmOptions::PRESERVES_FLAGS) {
match asm_arch {
InlineAsmArch::AArch64 | InlineAsmArch::Arm => {
constraints.push("~{cc}".to_string());
}
InlineAsmArch::X86 | InlineAsmArch::X86_64 => {
constraints.extend_from_slice(&[
"~{dirflag}".to_string(),
"~{fpsr}".to_string(),
"~{flags}".to_string(),
]);
}
InlineAsmArch::RiscV32 | InlineAsmArch::RiscV64 => {
constraints.extend_from_slice(&[
"~{vtype}".to_string(),
"~{vl}".to_string(),
"~{vxsat}".to_string(),
"~{vxrm}".to_string(),
]);
}
InlineAsmArch::Avr => {
constraints.push("~{sreg}".to_string());
}
InlineAsmArch::Nvptx64 => {}
InlineAsmArch::PowerPC | InlineAsmArch::PowerPC64 => {}
InlineAsmArch::Hexagon => {}
InlineAsmArch::LoongArch64 => {
constraints.extend_from_slice(&[
"~{$fcc0}".to_string(),
"~{$fcc1}".to_string(),
"~{$fcc2}".to_string(),
"~{$fcc3}".to_string(),
"~{$fcc4}".to_string(),
"~{$fcc5}".to_string(),
"~{$fcc6}".to_string(),
"~{$fcc7}".to_string(),
]);
}
InlineAsmArch::Mips | InlineAsmArch::Mips64 => {}
InlineAsmArch::S390x => {
constraints.push("~{cc}".to_string());
}
InlineAsmArch::SpirV => {}
InlineAsmArch::Wasm32 | InlineAsmArch::Wasm64 => {}
InlineAsmArch::Bpf => {}
InlineAsmArch::Msp430 => {
constraints.push("~{sr}".to_string());
}
InlineAsmArch::M68k => {
constraints.push("~{ccr}".to_string());
}
InlineAsmArch::CSKY => {}
}
}
if !options.contains(InlineAsmOptions::NOMEM) {
constraints.push("~{memory}".to_string());
}
let volatile = !options.contains(InlineAsmOptions::PURE);
let alignstack = !options.contains(InlineAsmOptions::NOSTACK);
let output_type = match &output_types[..] {
[] => self.type_void(),
[ty] => ty,
tys => self.type_struct(tys, false),
};
let dialect = match asm_arch {
InlineAsmArch::X86 | InlineAsmArch::X86_64
if !options.contains(InlineAsmOptions::ATT_SYNTAX) =>
{
llvm::AsmDialect::Intel
}
_ => llvm::AsmDialect::Att,
};
let result = inline_asm_call(
self,
&template_str,
&constraints.join(","),
&inputs,
output_type,
volatile,
alignstack,
dialect,
line_spans,
options.contains(InlineAsmOptions::MAY_UNWIND),
dest_catch_funclet,
)
.unwrap_or_else(|| span_bug!(line_spans[0], "LLVM asm constraint validation failed"));
let mut attrs = SmallVec::<[_; 2]>::new();
if options.contains(InlineAsmOptions::PURE) {
if options.contains(InlineAsmOptions::NOMEM) {
attrs.push(llvm::MemoryEffects::None.create_attr(self.cx.llcx));
} else if options.contains(InlineAsmOptions::READONLY) {
attrs.push(llvm::MemoryEffects::ReadOnly.create_attr(self.cx.llcx));
}
attrs.push(llvm::AttributeKind::WillReturn.create_attr(self.cx.llcx));
} else if options.contains(InlineAsmOptions::NOMEM) {
attrs.push(llvm::MemoryEffects::InaccessibleMemOnly.create_attr(self.cx.llcx));
} else {
}
attributes::apply_to_callsite(result, llvm::AttributePlace::Function, &{ attrs });
if let Some((dest, _, _)) = dest_catch_funclet {
self.switch_to_block(dest);
}
for (idx, op) in operands.iter().enumerate() {
if let InlineAsmOperandRef::Out { reg, place: Some(place), .. }
| InlineAsmOperandRef::InOut { reg, out_place: Some(place), .. } = *op
{
let value = if output_types.len() == 1 {
result
} else {
self.extract_value(result, op_idx[&idx] as u64)
};
let value = llvm_fixup_output(self, value, reg.reg_class(), &place.layout);
OperandValue::Immediate(value).store(self, place);
}
}
}
}
impl<'tcx> AsmMethods<'tcx> for CodegenCx<'_, 'tcx> {
fn codegen_global_asm(
&self,
template: &[InlineAsmTemplatePiece],
operands: &[GlobalAsmOperandRef<'tcx>],
options: InlineAsmOptions,
_line_spans: &[Span],
) {
let asm_arch = self.tcx.sess.asm_arch.unwrap();
let intel_syntax = matches!(asm_arch, InlineAsmArch::X86 | InlineAsmArch::X86_64)
&& !options.contains(InlineAsmOptions::ATT_SYNTAX);
let mut template_str = String::new();
if intel_syntax {
template_str.push_str(".intel_syntax\n");
}
for piece in template {
match *piece {
InlineAsmTemplatePiece::String(ref s) => template_str.push_str(s),
InlineAsmTemplatePiece::Placeholder { operand_idx, modifier: _, span: _ } => {
match operands[operand_idx] {
GlobalAsmOperandRef::Const { ref string } => {
template_str.push_str(string);
}
GlobalAsmOperandRef::SymFn { instance } => {
let llval = self.get_fn(instance);
self.add_compiler_used_global(llval);
let symbol = llvm::build_string(|s| unsafe {
llvm::LLVMRustGetMangledName(llval, s);
})
.expect("symbol is not valid UTF-8");
template_str.push_str(&symbol);
}
GlobalAsmOperandRef::SymStatic { def_id } => {
let llval = self
.renamed_statics
.borrow()
.get(&def_id)
.copied()
.unwrap_or_else(|| self.get_static(def_id));
self.add_compiler_used_global(llval);
let symbol = llvm::build_string(|s| unsafe {
llvm::LLVMRustGetMangledName(llval, s);
})
.expect("symbol is not valid UTF-8");
template_str.push_str(&symbol);
}
}
}
}
}
if intel_syntax {
template_str.push_str("\n.att_syntax\n");
}
unsafe {
llvm::LLVMAppendModuleInlineAsm(
self.llmod,
template_str.as_ptr().cast(),
template_str.len(),
);
}
}
}
pub(crate) fn inline_asm_call<'ll>(
bx: &mut Builder<'_, 'll, '_>,
asm: &str,
cons: &str,
inputs: &[&'ll Value],
output: &'ll llvm::Type,
volatile: bool,
alignstack: bool,
dia: llvm::AsmDialect,
line_spans: &[Span],
unwind: bool,
dest_catch_funclet: Option<(
&'ll llvm::BasicBlock,
&'ll llvm::BasicBlock,
Option<&Funclet<'ll>>,
)>,
) -> Option<&'ll Value> {
let volatile = if volatile { llvm::True } else { llvm::False };
let alignstack = if alignstack { llvm::True } else { llvm::False };
let can_throw = if unwind { llvm::True } else { llvm::False };
let argtys = inputs
.iter()
.map(|v| {
debug!("Asm Input Type: {:?}", *v);
bx.cx.val_ty(*v)
})
.collect::<Vec<_>>();
debug!("Asm Output Type: {:?}", output);
let fty = bx.cx.type_func(&argtys, output);
unsafe {
let constraints_ok = llvm::LLVMRustInlineAsmVerify(fty, cons.as_ptr().cast(), cons.len());
debug!("constraint verification result: {:?}", constraints_ok);
if constraints_ok {
let v = llvm::LLVMRustInlineAsm(
fty,
asm.as_ptr().cast(),
asm.len(),
cons.as_ptr().cast(),
cons.len(),
volatile,
alignstack,
dia,
can_throw,
);
let call = if let Some((dest, catch, funclet)) = dest_catch_funclet {
bx.invoke(fty, None, None, v, inputs, dest, catch, funclet)
} else {
bx.call(fty, None, None, v, inputs, None)
};
let key = "srcloc";
let kind = llvm::LLVMGetMDKindIDInContext(
bx.llcx,
key.as_ptr() as *const c_char,
key.len() as c_uint,
);
let mut srcloc = vec![];
if dia == llvm::AsmDialect::Intel && line_spans.len() > 1 {
srcloc.push(bx.const_i32(0));
}
srcloc.extend(line_spans.iter().map(|span| bx.const_i32(span.lo().to_u32() as i32)));
let md = llvm::LLVMMDNodeInContext(bx.llcx, srcloc.as_ptr(), srcloc.len() as u32);
llvm::LLVMSetMetadata(call, kind, md);
Some(call)
} else {
None
}
}
}
fn xmm_reg_index(reg: InlineAsmReg) -> Option<u32> {
match reg {
InlineAsmReg::X86(reg)
if reg as u32 >= X86InlineAsmReg::xmm0 as u32
&& reg as u32 <= X86InlineAsmReg::xmm15 as u32 =>
{
Some(reg as u32 - X86InlineAsmReg::xmm0 as u32)
}
InlineAsmReg::X86(reg)
if reg as u32 >= X86InlineAsmReg::ymm0 as u32
&& reg as u32 <= X86InlineAsmReg::ymm15 as u32 =>
{
Some(reg as u32 - X86InlineAsmReg::ymm0 as u32)
}
InlineAsmReg::X86(reg)
if reg as u32 >= X86InlineAsmReg::zmm0 as u32
&& reg as u32 <= X86InlineAsmReg::zmm31 as u32 =>
{
Some(reg as u32 - X86InlineAsmReg::zmm0 as u32)
}
_ => None,
}
}
fn a64_reg_index(reg: InlineAsmReg) -> Option<u32> {
match reg {
InlineAsmReg::AArch64(AArch64InlineAsmReg::x0) => Some(0),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x1) => Some(1),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x2) => Some(2),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x3) => Some(3),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x4) => Some(4),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x5) => Some(5),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x6) => Some(6),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x7) => Some(7),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x8) => Some(8),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x9) => Some(9),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x10) => Some(10),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x11) => Some(11),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x12) => Some(12),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x13) => Some(13),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x14) => Some(14),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x15) => Some(15),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x16) => Some(16),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x17) => Some(17),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x18) => Some(18),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x20) => Some(20),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x21) => Some(21),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x22) => Some(22),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x23) => Some(23),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x24) => Some(24),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x25) => Some(25),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x26) => Some(26),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x27) => Some(27),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x28) => Some(28),
InlineAsmReg::AArch64(AArch64InlineAsmReg::x30) => Some(30),
_ => None,
}
}
fn a64_vreg_index(reg: InlineAsmReg) -> Option<u32> {
match reg {
InlineAsmReg::AArch64(reg)
if reg as u32 >= AArch64InlineAsmReg::v0 as u32
&& reg as u32 <= AArch64InlineAsmReg::v31 as u32 =>
{
Some(reg as u32 - AArch64InlineAsmReg::v0 as u32)
}
_ => None,
}
}
fn reg_to_llvm(reg: InlineAsmRegOrRegClass, layout: Option<&TyAndLayout<'_>>) -> String {
match reg {
InlineAsmRegOrRegClass::Reg(reg) => {
if let Some(idx) = xmm_reg_index(reg) {
let class = if let Some(layout) = layout {
match layout.size.bytes() {
64 => 'z',
32 => 'y',
_ => 'x',
}
} else {
'x'
};
format!("{{{}mm{}}}", class, idx)
} else if let Some(idx) = a64_reg_index(reg) {
let class = if let Some(layout) = layout {
match layout.size.bytes() {
8 => 'x',
_ => 'w',
}
} else {
'w'
};
if class == 'x' && reg == InlineAsmReg::AArch64(AArch64InlineAsmReg::x30) {
"{lr}".to_string()
} else {
format!("{{{}{}}}", class, idx)
}
} else if let Some(idx) = a64_vreg_index(reg) {
let class = if let Some(layout) = layout {
match layout.size.bytes() {
16 => 'q',
8 => 'd',
4 => 's',
2 => 'h',
1 => 'd', _ => unreachable!(),
}
} else {
'q'
};
format!("{{{}{}}}", class, idx)
} else if reg == InlineAsmReg::Arm(ArmInlineAsmReg::r14) {
"{lr}".to_string()
} else {
format!("{{{}}}", reg.name())
}
}
InlineAsmRegOrRegClass::RegClass(reg) => match reg {
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::reg) => "r",
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg) => "w",
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16) => "x",
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::preg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low16)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low8) => "t",
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg_low16)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low8)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low4) => "x",
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg) => "w",
InlineAsmRegClass::Hexagon(HexagonInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::LoongArch(LoongArchInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::LoongArch(LoongArchInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::Mips(MipsInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::Mips(MipsInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg16) => "h",
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg32) => "r",
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg64) => "l",
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::reg_nonzero) => "b",
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::cr)
| InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::xer) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::vreg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg) => "r",
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd) => "Q",
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_byte) => "q",
InlineAsmRegClass::X86(X86InlineAsmRegClass::xmm_reg)
| InlineAsmRegClass::X86(X86InlineAsmRegClass::ymm_reg) => "x",
InlineAsmRegClass::X86(X86InlineAsmRegClass::zmm_reg) => "v",
InlineAsmRegClass::X86(X86InlineAsmRegClass::kreg) => "^Yk",
InlineAsmRegClass::X86(
X86InlineAsmRegClass::x87_reg
| X86InlineAsmRegClass::mmx_reg
| X86InlineAsmRegClass::kreg0
| X86InlineAsmRegClass::tmm_reg,
) => unreachable!("clobber-only"),
InlineAsmRegClass::Wasm(WasmInlineAsmRegClass::local) => "r",
InlineAsmRegClass::Bpf(BpfInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::Bpf(BpfInlineAsmRegClass::wreg) => "w",
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_upper) => "d",
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_pair) => "r",
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_iw) => "w",
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_ptr) => "e",
InlineAsmRegClass::S390x(S390xInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::S390x(S390xInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::Msp430(Msp430InlineAsmRegClass::reg) => "r",
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg_addr) => "a",
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg_data) => "d",
InlineAsmRegClass::CSKY(CSKYInlineAsmRegClass::reg) => "r",
InlineAsmRegClass::CSKY(CSKYInlineAsmRegClass::freg) => "f",
InlineAsmRegClass::SpirV(SpirVInlineAsmRegClass::reg) => {
bug!("LLVM backend does not support SPIR-V")
}
InlineAsmRegClass::Err => unreachable!(),
}
.to_string(),
}
}
fn modifier_to_llvm(
arch: InlineAsmArch,
reg: InlineAsmRegClass,
modifier: Option<char>,
) -> Option<char> {
match reg {
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::reg) => modifier,
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg)
| InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16) => {
if modifier == Some('v') { None } else { modifier }
}
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::preg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::reg) => None,
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg_low16) => None,
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low16)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low8) => Some('P'),
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low8)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low4) => {
if modifier.is_none() {
Some('q')
} else {
modifier
}
}
InlineAsmRegClass::Hexagon(_) => None,
InlineAsmRegClass::LoongArch(_) => None,
InlineAsmRegClass::Mips(_) => None,
InlineAsmRegClass::Nvptx(_) => None,
InlineAsmRegClass::PowerPC(_) => None,
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::reg)
| InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::freg) => None,
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::vreg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg)
| InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd) => match modifier {
None if arch == InlineAsmArch::X86_64 => Some('q'),
None => Some('k'),
Some('l') => Some('b'),
Some('h') => Some('h'),
Some('x') => Some('w'),
Some('e') => Some('k'),
Some('r') => Some('q'),
_ => unreachable!(),
},
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_byte) => None,
InlineAsmRegClass::X86(reg @ X86InlineAsmRegClass::xmm_reg)
| InlineAsmRegClass::X86(reg @ X86InlineAsmRegClass::ymm_reg)
| InlineAsmRegClass::X86(reg @ X86InlineAsmRegClass::zmm_reg) => match (reg, modifier) {
(X86InlineAsmRegClass::xmm_reg, None) => Some('x'),
(X86InlineAsmRegClass::ymm_reg, None) => Some('t'),
(X86InlineAsmRegClass::zmm_reg, None) => Some('g'),
(_, Some('x')) => Some('x'),
(_, Some('y')) => Some('t'),
(_, Some('z')) => Some('g'),
_ => unreachable!(),
},
InlineAsmRegClass::X86(X86InlineAsmRegClass::kreg) => None,
InlineAsmRegClass::X86(
X86InlineAsmRegClass::x87_reg
| X86InlineAsmRegClass::mmx_reg
| X86InlineAsmRegClass::kreg0
| X86InlineAsmRegClass::tmm_reg,
) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::Wasm(WasmInlineAsmRegClass::local) => None,
InlineAsmRegClass::Bpf(_) => None,
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_pair)
| InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_iw)
| InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_ptr) => match modifier {
Some('h') => Some('B'),
Some('l') => Some('A'),
_ => None,
},
InlineAsmRegClass::Avr(_) => None,
InlineAsmRegClass::S390x(_) => None,
InlineAsmRegClass::Msp430(_) => None,
InlineAsmRegClass::SpirV(SpirVInlineAsmRegClass::reg) => {
bug!("LLVM backend does not support SPIR-V")
}
InlineAsmRegClass::M68k(_) => None,
InlineAsmRegClass::CSKY(_) => None,
InlineAsmRegClass::Err => unreachable!(),
}
}
fn dummy_output_type<'ll>(cx: &CodegenCx<'ll, '_>, reg: InlineAsmRegClass) -> &'ll Type {
match reg {
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg)
| InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16) => {
cx.type_vector(cx.type_i64(), 2)
}
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::preg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg_low16) => cx.type_f32(),
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low16)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::dreg_low8) => cx.type_f64(),
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low8)
| InlineAsmRegClass::Arm(ArmInlineAsmRegClass::qreg_low4) => {
cx.type_vector(cx.type_i64(), 2)
}
InlineAsmRegClass::Hexagon(HexagonInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::LoongArch(LoongArchInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::LoongArch(LoongArchInlineAsmRegClass::freg) => cx.type_f32(),
InlineAsmRegClass::Mips(MipsInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::Mips(MipsInlineAsmRegClass::freg) => cx.type_f32(),
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg16) => cx.type_i16(),
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg32) => cx.type_i32(),
InlineAsmRegClass::Nvptx(NvptxInlineAsmRegClass::reg64) => cx.type_i64(),
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::reg_nonzero) => cx.type_i32(),
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::freg) => cx.type_f64(),
InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::cr)
| InlineAsmRegClass::PowerPC(PowerPCInlineAsmRegClass::xer) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::freg) => cx.type_f32(),
InlineAsmRegClass::RiscV(RiscVInlineAsmRegClass::vreg) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg)
| InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd) => cx.type_i32(),
InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_byte) => cx.type_i8(),
InlineAsmRegClass::X86(X86InlineAsmRegClass::xmm_reg)
| InlineAsmRegClass::X86(X86InlineAsmRegClass::ymm_reg)
| InlineAsmRegClass::X86(X86InlineAsmRegClass::zmm_reg) => cx.type_f32(),
InlineAsmRegClass::X86(X86InlineAsmRegClass::kreg) => cx.type_i16(),
InlineAsmRegClass::X86(
X86InlineAsmRegClass::x87_reg
| X86InlineAsmRegClass::mmx_reg
| X86InlineAsmRegClass::kreg0
| X86InlineAsmRegClass::tmm_reg,
) => {
unreachable!("clobber-only")
}
InlineAsmRegClass::Wasm(WasmInlineAsmRegClass::local) => cx.type_i32(),
InlineAsmRegClass::Bpf(BpfInlineAsmRegClass::reg) => cx.type_i64(),
InlineAsmRegClass::Bpf(BpfInlineAsmRegClass::wreg) => cx.type_i32(),
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg) => cx.type_i8(),
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_upper) => cx.type_i8(),
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_pair) => cx.type_i16(),
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_iw) => cx.type_i16(),
InlineAsmRegClass::Avr(AvrInlineAsmRegClass::reg_ptr) => cx.type_i16(),
InlineAsmRegClass::S390x(S390xInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::S390x(S390xInlineAsmRegClass::freg) => cx.type_f64(),
InlineAsmRegClass::Msp430(Msp430InlineAsmRegClass::reg) => cx.type_i16(),
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg_addr) => cx.type_i32(),
InlineAsmRegClass::M68k(M68kInlineAsmRegClass::reg_data) => cx.type_i32(),
InlineAsmRegClass::CSKY(CSKYInlineAsmRegClass::reg) => cx.type_i32(),
InlineAsmRegClass::CSKY(CSKYInlineAsmRegClass::freg) => cx.type_f32(),
InlineAsmRegClass::SpirV(SpirVInlineAsmRegClass::reg) => {
bug!("LLVM backend does not support SPIR-V")
}
InlineAsmRegClass::Err => unreachable!(),
}
}
fn llvm_asm_scalar_type<'ll>(cx: &CodegenCx<'ll, '_>, scalar: Scalar) -> &'ll Type {
let dl = &cx.tcx.data_layout;
match scalar.primitive() {
Primitive::Int(Integer::I8, _) => cx.type_i8(),
Primitive::Int(Integer::I16, _) => cx.type_i16(),
Primitive::Int(Integer::I32, _) => cx.type_i32(),
Primitive::Int(Integer::I64, _) => cx.type_i64(),
Primitive::F32 => cx.type_f32(),
Primitive::F64 => cx.type_f64(),
Primitive::Pointer(_) => cx.type_from_integer(dl.ptr_sized_integer()),
_ => unreachable!(),
}
}
fn llvm_fixup_input<'ll, 'tcx>(
bx: &mut Builder<'_, 'll, 'tcx>,
mut value: &'ll Value,
reg: InlineAsmRegClass,
layout: &TyAndLayout<'tcx>,
) -> &'ll Value {
let dl = &bx.tcx.data_layout;
match (reg, layout.abi) {
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg), Abi::Scalar(s)) => {
if let Primitive::Int(Integer::I8, _) = s.primitive() {
let vec_ty = bx.cx.type_vector(bx.cx.type_i8(), 8);
bx.insert_element(bx.const_undef(vec_ty), value, bx.const_i32(0))
} else {
value
}
}
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16), Abi::Scalar(s)) => {
let elem_ty = llvm_asm_scalar_type(bx.cx, s);
let count = 16 / layout.size.bytes();
let vec_ty = bx.cx.type_vector(elem_ty, count);
if let Primitive::Pointer(_) = s.primitive() {
let t = bx.type_from_integer(dl.ptr_sized_integer());
value = bx.ptrtoint(value, t);
}
bx.insert_element(bx.const_undef(vec_ty), value, bx.const_i32(0))
}
(
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16),
Abi::Vector { element, count },
) if layout.size.bytes() == 8 => {
let elem_ty = llvm_asm_scalar_type(bx.cx, element);
let vec_ty = bx.cx.type_vector(elem_ty, count);
let indices: Vec<_> = (0..count * 2).map(|x| bx.const_i32(x as i32)).collect();
bx.shuffle_vector(value, bx.const_undef(vec_ty), bx.const_vector(&indices))
}
(InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd), Abi::Scalar(s))
if s.primitive() == Primitive::F64 =>
{
bx.bitcast(value, bx.cx.type_i64())
}
(
InlineAsmRegClass::X86(X86InlineAsmRegClass::xmm_reg | X86InlineAsmRegClass::zmm_reg),
Abi::Vector { .. },
) if layout.size.bytes() == 64 => bx.bitcast(value, bx.cx.type_vector(bx.cx.type_f64(), 8)),
(
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg | ArmInlineAsmRegClass::sreg_low16),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I32, _) = s.primitive() {
bx.bitcast(value, bx.cx.type_f32())
} else {
value
}
}
(
InlineAsmRegClass::Arm(
ArmInlineAsmRegClass::dreg
| ArmInlineAsmRegClass::dreg_low8
| ArmInlineAsmRegClass::dreg_low16,
),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I64, _) = s.primitive() {
bx.bitcast(value, bx.cx.type_f64())
} else {
value
}
}
(InlineAsmRegClass::Mips(MipsInlineAsmRegClass::reg), Abi::Scalar(s)) => {
match s.primitive() {
Primitive::Int(Integer::I8 | Integer::I16, _) => bx.zext(value, bx.cx.type_i32()),
Primitive::F32 => bx.bitcast(value, bx.cx.type_i32()),
Primitive::F64 => bx.bitcast(value, bx.cx.type_i64()),
_ => value,
}
}
_ => value,
}
}
fn llvm_fixup_output<'ll, 'tcx>(
bx: &mut Builder<'_, 'll, 'tcx>,
mut value: &'ll Value,
reg: InlineAsmRegClass,
layout: &TyAndLayout<'tcx>,
) -> &'ll Value {
match (reg, layout.abi) {
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg), Abi::Scalar(s)) => {
if let Primitive::Int(Integer::I8, _) = s.primitive() {
bx.extract_element(value, bx.const_i32(0))
} else {
value
}
}
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16), Abi::Scalar(s)) => {
value = bx.extract_element(value, bx.const_i32(0));
if let Primitive::Pointer(_) = s.primitive() {
value = bx.inttoptr(value, layout.llvm_type(bx.cx));
}
value
}
(
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16),
Abi::Vector { element, count },
) if layout.size.bytes() == 8 => {
let elem_ty = llvm_asm_scalar_type(bx.cx, element);
let vec_ty = bx.cx.type_vector(elem_ty, count * 2);
let indices: Vec<_> = (0..count).map(|x| bx.const_i32(x as i32)).collect();
bx.shuffle_vector(value, bx.const_undef(vec_ty), bx.const_vector(&indices))
}
(InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd), Abi::Scalar(s))
if s.primitive() == Primitive::F64 =>
{
bx.bitcast(value, bx.cx.type_f64())
}
(
InlineAsmRegClass::X86(X86InlineAsmRegClass::xmm_reg | X86InlineAsmRegClass::zmm_reg),
Abi::Vector { .. },
) if layout.size.bytes() == 64 => bx.bitcast(value, layout.llvm_type(bx.cx)),
(
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg | ArmInlineAsmRegClass::sreg_low16),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I32, _) = s.primitive() {
bx.bitcast(value, bx.cx.type_i32())
} else {
value
}
}
(
InlineAsmRegClass::Arm(
ArmInlineAsmRegClass::dreg
| ArmInlineAsmRegClass::dreg_low8
| ArmInlineAsmRegClass::dreg_low16,
),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I64, _) = s.primitive() {
bx.bitcast(value, bx.cx.type_i64())
} else {
value
}
}
(InlineAsmRegClass::Mips(MipsInlineAsmRegClass::reg), Abi::Scalar(s)) => {
match s.primitive() {
Primitive::Int(Integer::I8, _) => bx.trunc(value, bx.cx.type_i8()),
Primitive::Int(Integer::I16, _) => bx.trunc(value, bx.cx.type_i16()),
Primitive::F32 => bx.bitcast(value, bx.cx.type_f32()),
Primitive::F64 => bx.bitcast(value, bx.cx.type_f64()),
_ => value,
}
}
_ => value,
}
}
fn llvm_fixup_output_type<'ll, 'tcx>(
cx: &CodegenCx<'ll, 'tcx>,
reg: InlineAsmRegClass,
layout: &TyAndLayout<'tcx>,
) -> &'ll Type {
match (reg, layout.abi) {
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg), Abi::Scalar(s)) => {
if let Primitive::Int(Integer::I8, _) = s.primitive() {
cx.type_vector(cx.type_i8(), 8)
} else {
layout.llvm_type(cx)
}
}
(InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16), Abi::Scalar(s)) => {
let elem_ty = llvm_asm_scalar_type(cx, s);
let count = 16 / layout.size.bytes();
cx.type_vector(elem_ty, count)
}
(
InlineAsmRegClass::AArch64(AArch64InlineAsmRegClass::vreg_low16),
Abi::Vector { element, count },
) if layout.size.bytes() == 8 => {
let elem_ty = llvm_asm_scalar_type(cx, element);
cx.type_vector(elem_ty, count * 2)
}
(InlineAsmRegClass::X86(X86InlineAsmRegClass::reg_abcd), Abi::Scalar(s))
if s.primitive() == Primitive::F64 =>
{
cx.type_i64()
}
(
InlineAsmRegClass::X86(X86InlineAsmRegClass::xmm_reg | X86InlineAsmRegClass::zmm_reg),
Abi::Vector { .. },
) if layout.size.bytes() == 64 => cx.type_vector(cx.type_f64(), 8),
(
InlineAsmRegClass::Arm(ArmInlineAsmRegClass::sreg | ArmInlineAsmRegClass::sreg_low16),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I32, _) = s.primitive() {
cx.type_f32()
} else {
layout.llvm_type(cx)
}
}
(
InlineAsmRegClass::Arm(
ArmInlineAsmRegClass::dreg
| ArmInlineAsmRegClass::dreg_low8
| ArmInlineAsmRegClass::dreg_low16,
),
Abi::Scalar(s),
) => {
if let Primitive::Int(Integer::I64, _) = s.primitive() {
cx.type_f64()
} else {
layout.llvm_type(cx)
}
}
(InlineAsmRegClass::Mips(MipsInlineAsmRegClass::reg), Abi::Scalar(s)) => {
match s.primitive() {
Primitive::Int(Integer::I8 | Integer::I16, _) => cx.type_i32(),
Primitive::F32 => cx.type_i32(),
Primitive::F64 => cx.type_i64(),
_ => layout.llvm_type(cx),
}
}
_ => layout.llvm_type(cx),
}
}