wasmer/lib/dynasm-backend/src/machine.rs
2019-03-29 12:06:28 +08:00

216 lines
5.9 KiB
Rust

use crate::emitter_x64::*;
use std::collections::HashSet;
use wasmparser::Type as WpType;
struct MachineStackOffset(usize);
pub struct Machine {
used_gprs: HashSet<GPR>,
used_xmms: HashSet<XMM>,
stack_offset: MachineStackOffset
}
impl Machine {
pub fn new() -> Self {
Machine {
used_gprs: HashSet::new(),
used_xmms: HashSet::new(),
stack_offset: MachineStackOffset(0),
}
}
/// Picks an unused general purpose register for local/stack/argument use.
///
/// This method does not mark the register as used.
pub fn pick_gpr(&self) -> Option<GPR> {
use GPR::*;
static REGS: &'static [GPR] = &[
RCX,
RDX,
RBX,
RSI,
RDI,
R8,
R9,
R10,
R11,
];
for r in REGS {
if !self.used_gprs.contains(r) {
return Some(*r)
}
}
None
}
/// Picks an unused general purpose register for internal temporary use.
///
/// This method does not mark the register as used.
pub fn pick_temp_gpr(&self) -> Option<GPR> {
use GPR::*;
static REGS: &'static [GPR] = &[
RAX,
R12,
R13,
R14,
R15
];
for r in REGS {
if !self.used_gprs.contains(r) {
return Some(*r)
}
}
None
}
/// Acquires a temporary GPR.
pub fn acquire_temp_gpr(&mut self) -> Option<GPR> {
let gpr = self.pick_temp_gpr();
if let Some(x) = gpr {
self.used_gprs.insert(x);
}
gpr
}
/// Releases a temporary GPR.
pub fn release_temp_gpr(&mut self, gpr: GPR) {
assert_eq!(self.used_gprs.remove(&gpr), true);
}
/// Picks an unused XMM register.
///
/// This method does not mark the register as used.
pub fn pick_xmm(&self) -> Option<XMM> {
use XMM::*;
static REGS: &'static [XMM] = &[
XMM3,
XMM4,
XMM5,
XMM6,
XMM7,
];
for r in REGS {
if !self.used_xmms.contains(r) {
return Some(*r)
}
}
None
}
/// Picks an unused XMM register for internal temporary use.
///
/// This method does not mark the register as used.
pub fn pick_temp_xmm(&self) -> Option<XMM> {
use XMM::*;
static REGS: &'static [XMM] = &[
XMM0,
XMM1,
XMM2,
];
for r in REGS {
if !self.used_xmms.contains(r) {
return Some(*r)
}
}
None
}
/// Acquires a temporary XMM register.
pub fn acquire_temp_xmm(&mut self) -> Option<XMM> {
let xmm = self.pick_temp_xmm();
if let Some(x) = xmm {
self.used_xmms.insert(x);
}
xmm
}
/// Releases a temporary XMM register.
pub fn release_temp_xmm(&mut self, xmm: XMM) {
assert_eq!(self.used_xmms.remove(&xmm), true);
}
/// Acquires locations from the machine state.
///
/// If the returned locations are used for stack value, `release_location` needs to be called on them;
/// Otherwise, if the returned locations are used for locals, `release_location` does not need to be called on them.
pub fn acquire_locations<E: Emitter>(
&mut self,
assembler: &mut E,
tys: &[WpType],
zeroed: bool,
) -> Vec<Location> {
let mut ret = vec![];
let mut delta_stack_offset: usize = 0;
for ty in tys {
let loc = match *ty {
WpType::F32 | WpType::F64 => {
self.pick_xmm().map(Location::XMM).or_else(
|| self.pick_gpr().map(Location::GPR)
)
},
WpType::I32 | WpType::I64 => {
self.pick_gpr().map(Location::GPR)
},
_ => unreachable!()
};
let loc = if let Some(x) = loc {
x
} else {
self.stack_offset.0 += 8;
delta_stack_offset += 8;
Location::Memory(GPR::RBP, -(self.stack_offset.0 as i32))
};
if let Location::GPR(x) = loc {
self.used_gprs.insert(x);
} else if let Location::XMM(x) = loc {
self.used_xmms.insert(x);
}
ret.push(loc);
}
assembler.emit_sub(Size::S64, Location::Imm32(delta_stack_offset as u32), Location::GPR(GPR::RSP));
if zeroed {
for i in 0..tys.len() {
assembler.emit_mov(Size::S64, Location::Imm32(0), Location::Memory(GPR::RSP, (i * 8) as i32));
}
}
ret
}
/// Releases locations used for stack value.
pub fn release_locations<E: Emitter>(
&mut self,
assembler: &mut E,
locs: &[Location]
) {
let mut delta_stack_offset: usize = 0;
for loc in locs {
match *loc {
Location::GPR(ref x) => {
assert_eq!(self.used_gprs.remove(x), true);
},
Location::XMM(ref x) => {
assert_eq!(self.used_xmms.remove(x), true);
},
Location::Memory(GPR::RBP, x) => {
if x >= 0 {
unreachable!();
}
let offset = (-x) as usize;
if offset != self.stack_offset.0 {
unreachable!();
}
self.stack_offset.0 -= 8;
delta_stack_offset += 8;
},
_ => {}
}
}
assembler.emit_add(Size::S64, Location::Imm32(delta_stack_offset as u32), Location::GPR(GPR::RSP));
}
}