ableos/hblang/src/codegen.rs

784 lines
23 KiB
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use {
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crate::{
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instrs, lexer, log,
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parser::{self, Expr},
},
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std::rc::Rc,
};
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type LabelId = u32;
type Reg = u8;
type MaskElem = u64;
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type Type = u32;
mod bt {
use super::*;
const fn builtin_type(id: u32) -> Type {
Type::MAX - id
}
macro_rules! builtin_type {
($($name:ident;)*) => {$(
pub const $name: Type = builtin_type(${index(0)});
)*};
}
builtin_type! {
INT;
BOOL;
MAX;
}
}
enum TypeKind {
Builtin(Type),
Struct(Type),
}
impl TypeKind {
fn from_ty(ty: Type) -> Self {
if ty > bt::MAX {
Self::Builtin(ty)
} else {
Self::Struct(ty)
}
}
}
const STACK_PTR: Reg = 254;
const ZERO: Reg = 0;
const RET_ADDR: Reg = 31;
const ELEM_WIDTH: usize = std::mem::size_of::<MaskElem>() * 8;
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struct Frame {
label: LabelId,
prev_relocs: usize,
offset: u32,
}
struct Reloc {
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id: LabelId,
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offset: u32,
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instr_offset: u16,
size: u16,
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}
struct StackReloc {
offset: u32,
size: u16,
}
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#[derive(Default)]
pub struct Func {
code: Vec<u8>,
relocs: Vec<Reloc>,
}
impl Func {
pub fn extend(&mut self, bytes: &[u8]) {
self.code.extend_from_slice(bytes);
}
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pub fn offset(&mut self, id: LabelId, instr_offset: u16, size: u16) {
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self.relocs.push(Reloc {
id,
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offset: self.code.len() as u32,
instr_offset,
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size,
});
}
fn encode(&mut self, (len, instr): (usize, [u8; instrs::MAX_SIZE])) {
let name = instrs::NAMES[instr[0] as usize];
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log::dbg!(
"{:08x}: {}: {}",
self.code.len(),
name,
instr
.iter()
.take(len)
.skip(1)
.map(|b| format!("{:02x}", b))
.collect::<String>()
);
self.code.extend_from_slice(&instr[..len]);
}
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fn push(&mut self, value: Reg, size: usize) {
self.subi64(STACK_PTR, STACK_PTR, size as _);
self.encode(instrs::st(value, STACK_PTR, 0, size as _));
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}
fn pop(&mut self, value: Reg, size: usize) {
self.encode(instrs::ld(value, STACK_PTR, 0, size as _));
self.encode(instrs::addi64(STACK_PTR, STACK_PTR, size as _));
}
fn subi64(&mut self, dest: Reg, src: Reg, imm: u64) {
self.encode(instrs::addi64(dest, src, imm.wrapping_neg()));
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}
fn call(&mut self, func: LabelId) {
self.offset(func, 3, 4);
self.encode(instrs::jal(RET_ADDR, ZERO, 0));
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}
fn ret(&mut self) {
self.pop(RET_ADDR, 8);
self.encode(instrs::jala(ZERO, RET_ADDR, 0));
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}
fn prelude(&mut self, entry: LabelId) {
self.call(entry);
self.encode(instrs::tx());
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}
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fn relocate(&mut self, labels: &[FnLabel], shift: i64) {
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for reloc in self.relocs.drain(..) {
let label = &labels[reloc.id as usize];
let offset = if reloc.size == 8 {
reloc.offset as i64
} else {
label.offset as i64 - reloc.offset as i64
} + shift;
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log::dbg!(
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label.name.as_ref(),
offset,
reloc.size,
reloc.instr_offset,
reloc.offset,
shift,
label.offset
);
let dest = &mut self.code[reloc.offset as usize + reloc.instr_offset as usize..]
[..reloc.size as usize];
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match reloc.size {
2 => dest.copy_from_slice(&(offset as i16).to_le_bytes()),
4 => dest.copy_from_slice(&(offset as i32).to_le_bytes()),
8 => dest.copy_from_slice(&(offset as i64).to_le_bytes()),
_ => unreachable!(),
};
}
}
}
#[derive(Default)]
pub struct RegAlloc {
free: Vec<Reg>,
// TODO:use 256 bit mask instead
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used: Vec<Reg>,
}
impl RegAlloc {
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fn init_callee(&mut self) {
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self.clear();
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self.free.extend(32..=253);
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}
fn clear(&mut self) {
self.free.clear();
self.used.clear();
}
fn allocate(&mut self) -> Reg {
let reg = self.free.pop().expect("TODO: we need to spill");
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if self.used.binary_search_by_key(&!reg, |&r| !r).is_err() {
self.used.push(reg);
}
reg
}
fn free(&mut self, reg: Reg) {
self.free.push(reg);
}
}
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struct FnLabel {
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offset: u32,
// TODO: use different stile of identifier that does not allocate, eg. index + length into a
// file
name: Rc<str>,
}
struct Variable<'a> {
name: Rc<str>,
offset: u64,
ty: Expr<'a>,
}
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struct RetReloc {
offset: u32,
instr_offset: u16,
size: u16,
}
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struct Loop {
offset: u32,
relocs: Vec<RetReloc>,
}
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struct Struct {
name: Rc<str>,
fields: Vec<(Rc<str>, Type)>,
}
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pub struct Codegen<'a> {
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path: &'a std::path::Path,
ret: Expr<'a>,
gpa: RegAlloc,
code: Func,
temp: Func,
labels: Vec<FnLabel>,
stack_size: u64,
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vars: Vec<Variable<'a>>,
stack_relocs: Vec<StackReloc>,
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ret_relocs: Vec<RetReloc>,
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loops: Vec<Loop>,
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records: Vec<Struct>,
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}
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impl<'a> Codegen<'a> {
pub fn new() -> Self {
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Self {
path: std::path::Path::new(""),
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ret: Expr::Return { val: None, pos: 0 },
gpa: Default::default(),
code: Default::default(),
temp: Default::default(),
labels: Default::default(),
stack_size: 0,
vars: Default::default(),
stack_relocs: Default::default(),
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ret_relocs: Default::default(),
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loops: Default::default(),
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records: Default::default(),
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}
}
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pub fn file(
&mut self,
path: &'a std::path::Path,
exprs: &'a [parser::Expr<'a>],
) -> std::fmt::Result {
self.path = path;
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for expr in exprs {
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self.expr(expr, None);
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}
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Ok(())
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}
fn loc_to_reg(&mut self, loc: Loc) -> Reg {
match loc {
Loc::Reg(reg) => reg,
Loc::Imm(imm) => {
let reg = self.gpa.allocate();
self.code.encode(instrs::li64(reg, imm));
reg
}
Loc::Stack(offset) => {
let reg = self.gpa.allocate();
self.load_stack(reg, offset, 8);
reg
}
}
}
fn alloc_stack(&mut self, size: u32) -> u64 {
let offset = self.stack_size;
self.stack_size += size as u64;
offset
}
fn store_stack(&mut self, reg: Reg, offset: u64, size: u16) {
self.stack_relocs.push(StackReloc {
offset: self.code.code.len() as u32 + 3,
size,
});
self.code.encode(instrs::st(reg, STACK_PTR, offset, size));
}
fn load_stack(&mut self, reg: Reg, offset: u64, size: u16) {
self.stack_relocs.push(StackReloc {
offset: self.code.code.len() as u32 + 3,
size,
});
self.code.encode(instrs::ld(reg, STACK_PTR, offset, size));
}
fn reloc_stack(&mut self, stack_height: u64) {
for reloc in self.stack_relocs.drain(..) {
let dest = &mut self.code.code[reloc.offset as usize..][..reloc.size as usize];
let value = u64::from_ne_bytes(dest.try_into().unwrap());
let offset = stack_height - value;
dest.copy_from_slice(&offset.to_ne_bytes());
}
}
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fn reloc_rets(&mut self) {
let len = self.code.code.len() as i32;
for reloc in self.ret_relocs.drain(..) {
let dest = &mut self.code.code[reloc.offset as usize + reloc.instr_offset as usize..]
[..reloc.size as usize];
debug_assert!(dest.iter().all(|&b| b == 0));
let offset = len - reloc.offset as i32;
dest.copy_from_slice(&offset.to_ne_bytes());
}
}
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fn expr(&mut self, expr: &'a parser::Expr<'a>, expeted: Option<Expr<'a>>) -> Option<Value<'a>> {
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use {lexer::TokenKind as T, parser::Expr as E};
match *expr {
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E::BinOp {
left: E::Ident { name, .. },
op: T::Decl,
right: E::Closure {
ret, body, args, ..
},
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} => {
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let frame = self.add_label(name);
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for (i, &(name, ty)) in args.iter().enumerate() {
let offset = self.alloc_stack(8);
self.decl_var(name, offset, ty);
self.store_stack(i as Reg + 2, offset, 8);
}
self.gpa.init_callee();
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self.ret = **ret;
self.expr(body, None);
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self.vars.clear();
let stack = std::mem::take(&mut self.stack_size);
self.reloc_stack(stack);
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self.write_fn_prelude(frame);
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self.reloc_rets();
self.ret();
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None
}
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E::BinOp {
left: E::Ident { name, .. },
op: T::Decl,
right,
} => {
let val = self.expr(right, None).unwrap();
let reg = self.loc_to_reg(val.loc);
let offset = self.alloc_stack(8);
self.decl_var(name, offset, val.ty);
self.store_stack(reg, offset, 8);
None
}
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E::Call {
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func: E::Ident { name, .. },
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args,
} => {
for (i, arg) in args.iter().enumerate() {
let arg = self.expr(arg, None).unwrap();
let reg = self.loc_to_reg(arg.loc);
self.code.encode(instrs::cp(i as Reg + 2, reg));
}
let func = self.get_or_reserve_label(name);
self.code.call(func);
let reg = self.gpa.allocate();
self.code.encode(instrs::cp(reg, 1));
Some(Value {
ty: self.ret,
loc: Loc::Reg(reg),
})
}
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E::Ident { name, .. } => {
let var = self.vars.iter().find(|v| v.name.as_ref() == name).unwrap();
Some(Value {
ty: var.ty,
loc: Loc::Stack(var.offset),
})
}
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E::Return { val, .. } => {
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if let Some(val) = val {
let val = self.expr(val, Some(self.ret)).unwrap();
if val.ty != self.ret {
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//panic!("expected {:?}, got {:?}", self.ret, val.ty);
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}
self.assign(
Value {
ty: self.ret,
loc: Loc::Reg(1),
},
val,
);
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}
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self.ret_relocs.push(RetReloc {
offset: self.code.code.len() as u32,
instr_offset: 1,
size: 4,
});
self.code.encode(instrs::jmp(0));
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None
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}
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E::Block { stmts, .. } => {
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for stmt in stmts {
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self.expr(stmt, None);
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}
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None
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}
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E::Number { value, .. } => Some(Value {
ty: expeted.unwrap_or(Expr::Ident {
name: "int",
pos: 0,
}),
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loc: Loc::Imm(value),
}),
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E::If {
cond, then, else_, ..
} => {
let cond = self
.expr(
cond,
Some(Expr::Ident {
name: "bool",
pos: 0,
}),
)
.unwrap();
let reg = self.loc_to_reg(cond.loc);
let jump_offset = self.code.code.len() as u32;
self.code.encode(instrs::jeq(reg, 0, 0));
self.gpa.free(reg);
self.expr(then, None);
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let jump;
if let Some(else_) = else_ {
let else_jump_offset = self.code.code.len() as u32;
self.code.encode(instrs::jmp(0));
jump = self.code.code.len() as i16 - jump_offset as i16;
self.expr(else_, None);
let jump = self.code.code.len() as i32 - else_jump_offset as i32;
self.code.code[else_jump_offset as usize + 1..][..4]
.copy_from_slice(&jump.to_ne_bytes());
} else {
jump = self.code.code.len() as i16 - jump_offset as i16;
}
self.code.code[jump_offset as usize + 3..][..2]
.copy_from_slice(&jump.to_ne_bytes());
None
}
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E::Loop { body, .. } => {
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let loop_start = self.code.code.len() as u32;
self.loops.push(Loop {
offset: loop_start,
relocs: Default::default(),
});
self.expr(body, None);
let loop_end = self.code.code.len();
self.code
.encode(instrs::jmp(loop_start as i32 - loop_end as i32));
let loop_end = self.code.code.len() as u32;
let loop_ = self.loops.pop().unwrap();
for reloc in loop_.relocs {
let dest = &mut self.code.code
[reloc.offset as usize + reloc.instr_offset as usize..]
[..reloc.size as usize];
let offset = loop_end as i32 - reloc.offset as i32;
dest.copy_from_slice(&offset.to_ne_bytes());
}
None
}
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E::Break { .. } => {
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let loop_ = self.loops.last_mut().unwrap();
let offset = self.code.code.len() as u32;
self.code.encode(instrs::jmp(0));
loop_.relocs.push(RetReloc {
offset,
instr_offset: 1,
size: 4,
});
None
}
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E::Continue { .. } => {
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let loop_ = self.loops.last().unwrap();
let offset = self.code.code.len() as u32;
self.code
.encode(instrs::jmp(loop_.offset as i32 - offset as i32));
None
}
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E::BinOp { left, op, right } => {
let left = self.expr(left, expeted).unwrap();
let right = self.expr(right, Some(left.ty)).unwrap();
let lhs = self.loc_to_reg(left.loc);
let rhs = self.loc_to_reg(right.loc);
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let op = match op {
T::Plus => instrs::add64,
T::Minus => instrs::sub64,
T::Star => instrs::mul64,
T::Le => {
self.code.encode(instrs::cmpu(lhs, lhs, rhs));
self.gpa.free(rhs);
self.code.encode(instrs::cmpui(lhs, lhs, 1));
return Some(Value {
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ty: Expr::Ident {
name: "bool",
pos: 0,
},
loc: Loc::Reg(lhs),
});
}
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T::Eq => {
self.code.encode(instrs::cmpu(lhs, lhs, rhs));
self.gpa.free(rhs);
self.code.encode(instrs::cmpui(lhs, lhs, 0));
self.code.encode(instrs::not(lhs, lhs));
return Some(Value {
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ty: Expr::Ident {
name: "bool",
pos: 0,
},
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loc: Loc::Reg(lhs),
});
}
T::FSlash => |reg0, reg1, reg2| instrs::diru64(reg0, ZERO, reg1, reg2),
T::Assign => return self.assign(left, right),
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_ => unimplemented!("{:#?}", op),
};
self.code.encode(op(lhs, lhs, rhs));
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self.gpa.free(rhs);
Some(Value {
ty: left.ty,
loc: Loc::Reg(lhs),
})
}
ast => unimplemented!("{:#?}", ast),
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}
}
fn assign(&mut self, left: Value<'a>, right: Value<'a>) -> Option<Value<'a>> {
let rhs = self.loc_to_reg(right.loc);
match left.loc {
Loc::Reg(reg) => self.code.encode(instrs::cp(reg, rhs)),
Loc::Stack(offset) => self.store_stack(rhs, offset, 8),
_ => unimplemented!(),
}
self.gpa.free(rhs);
Some(left)
}
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fn get_or_reserve_label(&mut self, name: &str) -> LabelId {
if let Some(label) = self.labels.iter().position(|l| l.name.as_ref() == name) {
label as u32
} else {
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self.labels.push(FnLabel {
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offset: 0,
name: name.into(),
});
self.labels.len() as u32 - 1
}
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}
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fn add_label(&mut self, name: &str) -> Frame {
let offset = self.code.code.len() as u32;
let label = if let Some(label) = self.labels.iter().position(|l| l.name.as_ref() == name) {
self.labels[label].offset = offset;
label as u32
} else {
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self.labels.push(FnLabel {
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offset,
name: name.into(),
});
self.labels.len() as u32 - 1
};
Frame {
label,
prev_relocs: self.code.relocs.len(),
offset,
}
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}
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fn get_label(&self, name: &str) -> LabelId {
self.labels
.iter()
.position(|l| l.name.as_ref() == name)
.unwrap() as _
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}
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fn write_fn_prelude(&mut self, frame: Frame) {
self.temp.push(RET_ADDR, 8);
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for &reg in self.gpa.used.clone().iter() {
self.temp.push(reg, 8);
}
self.temp.subi64(STACK_PTR, STACK_PTR, self.stack_size as _);
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for reloc in &mut self.code.relocs[frame.prev_relocs..] {
reloc.offset += self.temp.code.len() as u32;
}
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for reloc in &mut self.ret_relocs {
reloc.offset += self.temp.code.len() as u32;
}
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self.code.code.splice(
frame.offset as usize..frame.offset as usize,
self.temp.code.drain(..),
);
}
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fn ret(&mut self) {
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self.code
.encode(instrs::addi64(STACK_PTR, STACK_PTR, self.stack_size as _));
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for reg in self.gpa.used.clone().iter().rev() {
self.code.pop(*reg, 8);
}
self.code.ret();
}
pub fn dump(mut self, out: &mut impl std::io::Write) -> std::io::Result<()> {
self.temp.prelude(self.get_label("main"));
self.temp
.relocate(&self.labels, self.temp.code.len() as i64);
self.code.relocate(&self.labels, 0);
out.write_all(&self.temp.code)?;
out.write_all(&self.code.code)
}
fn decl_var(&mut self, name: &str, offset: u64, ty: Expr<'a>) {
self.vars.push(Variable {
name: name.into(),
offset,
ty,
});
}
}
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pub struct Value<'a> {
ty: Expr<'a>,
loc: Loc,
}
#[derive(Clone, Copy)]
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pub enum Loc {
Reg(Reg),
Imm(u64),
Stack(u64),
}
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#[cfg(test)]
mod tests {
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use crate::{instrs, log};
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struct TestMem;
impl hbvm::mem::Memory for TestMem {
#[inline]
unsafe fn load(
&mut self,
addr: hbvm::mem::Address,
target: *mut u8,
count: usize,
) -> Result<(), hbvm::mem::LoadError> {
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log::dbg!(
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"read: {:x} {} {:?}",
addr.get(),
count,
core::slice::from_raw_parts(target, count)
.iter()
.rev()
.skip_while(|&&b| b == 0)
.map(|&b| format!("{:02x}", b))
.collect::<String>()
);
unsafe { core::ptr::copy(addr.get() as *const u8, target, count) }
Ok(())
}
#[inline]
unsafe fn store(
&mut self,
addr: hbvm::mem::Address,
source: *const u8,
count: usize,
) -> Result<(), hbvm::mem::StoreError> {
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log::dbg!("write: {:x} {}", addr.get(), count);
unsafe { core::ptr::copy(source, addr.get() as *mut u8, count) }
Ok(())
}
#[inline]
unsafe fn prog_read<T: Copy>(&mut self, addr: hbvm::mem::Address) -> T {
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log::dbg!(
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"read-typed: {:x} {} {:?}",
addr.get(),
std::any::type_name::<T>(),
if core::mem::size_of::<T>() == 1 {
instrs::NAMES[std::ptr::read(addr.get() as *const u8) as usize].to_string()
} else {
core::slice::from_raw_parts(addr.get() as *const u8, core::mem::size_of::<T>())
.iter()
.map(|&b| format!("{:02x}", b))
.collect::<String>()
}
);
unsafe { core::ptr::read(addr.get() as *const T) }
}
}
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fn generate(input: &'static str, output: &mut String) {
let path = std::path::Path::new("test");
let arena = crate::parser::Arena::default();
let mut buffer = Vec::new();
let mut parser = super::parser::Parser::new(input, path, &arena, &mut buffer);
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let exprs = parser.file();
let mut codegen = super::Codegen::new();
codegen.file(path, &exprs).unwrap();
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let mut out = Vec::new();
codegen.dump(&mut out).unwrap();
std::fs::write("test.bin", &out).unwrap();
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use std::fmt::Write;
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let mut stack = [0_u64; 1024];
let mut vm = unsafe {
hbvm::Vm::<TestMem, 0>::new(TestMem, hbvm::mem::Address::new(out.as_ptr() as u64))
};
vm.write_reg(
super::STACK_PTR,
unsafe { stack.as_mut_ptr().add(stack.len()) } as u64,
);
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let stat = loop {
match vm.run() {
Ok(hbvm::VmRunOk::End) => break Ok(()),
Ok(ev) => writeln!(output, "ev: {:?}", ev).unwrap(),
Err(e) => break Err(e),
}
};
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writeln!(output, "ret: {:?}", vm.read_reg(1).0).unwrap();
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writeln!(output, "status: {:?}", stat).unwrap();
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}
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crate::run_tests! { generate:
example => include_str!("../examples/main_fn.hb");
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arithmetic => include_str!("../examples/arithmetic.hb");
variables => include_str!("../examples/variables.hb");
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functions => include_str!("../examples/functions.hb");
if_statements => include_str!("../examples/if_statement.hb");
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loops => include_str!("../examples/loops.hb");
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}
}