use self::inst::EmitInfo;
use super::TargetIsa;
use crate::ir::{condcodes::IntCC, Function};
#[cfg(feature = "unwind")]
use crate::isa::unwind::systemv;
use crate::isa::x64::{inst::regs::create_reg_universe_systemv, settings as x64_settings};
use crate::isa::Builder as IsaBuilder;
use crate::machinst::{compile, MachBackend, MachCompileResult, TargetIsaAdapter, VCode};
use crate::result::CodegenResult;
use crate::settings::{self as shared_settings, Flags};
use alloc::{boxed::Box, vec::Vec};
use core::hash::{Hash, Hasher};
use regalloc::{PrettyPrint, RealRegUniverse, Reg};
use target_lexicon::Triple;
mod abi;
pub mod encoding;
mod inst;
mod lower;
mod settings;
pub(crate) struct X64Backend {
triple: Triple,
flags: Flags,
x64_flags: x64_settings::Flags,
reg_universe: RealRegUniverse,
}
impl X64Backend {
fn new_with_flags(triple: Triple, flags: Flags, x64_flags: x64_settings::Flags) -> Self {
let reg_universe = create_reg_universe_systemv(&flags);
Self {
triple,
flags,
x64_flags,
reg_universe,
}
}
fn compile_vcode(&self, func: &Function, flags: Flags) -> CodegenResult<VCode<inst::Inst>> {
let emit_info = EmitInfo::new(flags.clone(), self.x64_flags.clone());
let abi = Box::new(abi::X64ABICallee::new(&func, flags)?);
compile::compile::<Self>(&func, self, abi, emit_info)
}
}
impl MachBackend for X64Backend {
fn compile_function(
&self,
func: &Function,
want_disasm: bool,
) -> CodegenResult<MachCompileResult> {
let flags = self.flags();
let vcode = self.compile_vcode(func, flags.clone())?;
let (buffer, bb_starts, bb_edges) = vcode.emit();
let buffer = buffer.finish();
let frame_size = vcode.frame_size();
let value_labels_ranges = vcode.value_labels_ranges();
let stackslot_offsets = vcode.stackslot_offsets().clone();
let disasm = if want_disasm {
Some(vcode.show_rru(Some(&create_reg_universe_systemv(flags))))
} else {
None
};
Ok(MachCompileResult {
buffer,
frame_size,
disasm,
value_labels_ranges,
stackslot_offsets,
bb_starts,
bb_edges,
})
}
fn flags(&self) -> &Flags {
&self.flags
}
fn isa_flags(&self) -> Vec<shared_settings::Value> {
self.x64_flags.iter().collect()
}
fn hash_all_flags(&self, mut hasher: &mut dyn Hasher) {
self.flags.hash(&mut hasher);
self.x64_flags.hash(&mut hasher);
}
fn name(&self) -> &'static str {
"x64"
}
fn triple(&self) -> Triple {
self.triple.clone()
}
fn reg_universe(&self) -> &RealRegUniverse {
&self.reg_universe
}
fn unsigned_add_overflow_condition(&self) -> IntCC {
IntCC::UnsignedLessThan
}
fn unsigned_sub_overflow_condition(&self) -> IntCC {
IntCC::UnsignedLessThan
}
#[cfg(feature = "unwind")]
fn emit_unwind_info(
&self,
result: &MachCompileResult,
kind: crate::machinst::UnwindInfoKind,
) -> CodegenResult<Option<crate::isa::unwind::UnwindInfo>> {
use crate::isa::unwind::UnwindInfo;
use crate::machinst::UnwindInfoKind;
Ok(match kind {
UnwindInfoKind::SystemV => {
let mapper = self::inst::unwind::systemv::RegisterMapper;
Some(UnwindInfo::SystemV(
crate::isa::unwind::systemv::create_unwind_info_from_insts(
&result.buffer.unwind_info[..],
result.buffer.data.len(),
&mapper,
)?,
))
}
UnwindInfoKind::Windows => Some(UnwindInfo::WindowsX64(
crate::isa::unwind::winx64::create_unwind_info_from_insts::<
self::inst::unwind::winx64::RegisterMapper,
>(&result.buffer.unwind_info[..])?,
)),
_ => None,
})
}
#[cfg(feature = "unwind")]
fn create_systemv_cie(&self) -> Option<gimli::write::CommonInformationEntry> {
Some(inst::unwind::systemv::create_cie())
}
#[cfg(feature = "unwind")]
fn map_reg_to_dwarf(&self, reg: Reg) -> Result<u16, systemv::RegisterMappingError> {
inst::unwind::systemv::map_reg(reg).map(|reg| reg.0)
}
}
pub(crate) fn isa_builder(triple: Triple) -> IsaBuilder {
IsaBuilder {
triple,
setup: x64_settings::builder(),
constructor: isa_constructor,
}
}
fn isa_constructor(
triple: Triple,
shared_flags: Flags,
builder: shared_settings::Builder,
) -> Box<dyn TargetIsa> {
let isa_flags = x64_settings::Flags::new(&shared_flags, builder);
let backend = X64Backend::new_with_flags(triple, shared_flags, isa_flags);
Box::new(TargetIsaAdapter::new(backend))
}