ableos/hblang/src/parser.rs

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use std::{cell::Cell, ops::Not, ptr::NonNull};
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use crate::lexer::{Lexer, Token, TokenKind};
pub struct Parser<'a, 'b> {
path: &'a std::path::Path,
lexer: Lexer<'a>,
arena: &'b Arena<'a>,
expr_buf: &'b mut Vec<Expr<'a>>,
token: Token,
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}
impl<'a, 'b> Parser<'a, 'b> {
pub fn new(
input: &'a str,
path: &'a std::path::Path,
arena: &'b Arena<'a>,
expr_buf: &'b mut Vec<Expr<'static>>,
) -> Self {
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let mut lexer = Lexer::new(input);
let token = lexer.next();
Self {
lexer,
token,
path,
arena,
// we ensure its empty before returning form parse
expr_buf: unsafe { std::mem::transmute(expr_buf) },
}
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}
pub fn file(&mut self) -> &'a [Expr<'a>] {
self.collect(|s| (s.token.kind != TokenKind::Eof).then(|| s.expr()))
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}
fn next(&mut self) -> Token {
std::mem::replace(&mut self.token, self.lexer.next())
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}
fn ptr_expr(&mut self) -> &'a Expr<'a> {
self.arena.alloc(self.expr())
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}
fn expr(&mut self) -> Expr<'a> {
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let left = self.unit_expr();
self.bin_expr(left, 0)
}
fn bin_expr(&mut self, mut left: Expr<'a>, min_prec: u8) -> Expr<'a> {
loop {
let Some(prec) = self.token.kind.precedence() else {
break;
};
if prec < min_prec {
break;
}
let op = self.next().kind;
let right = self.unit_expr();
let right = self.bin_expr(right, prec);
left = Expr::BinOp {
left: self.arena.alloc(left),
right: self.arena.alloc(right),
op,
};
}
left
}
fn unit_expr(&mut self) -> Expr<'a> {
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use {Expr as E, TokenKind as T};
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let token = self.next();
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let mut expr = match token.kind {
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T::Ident => E::Ident {
pos: token.start,
name: self.arena.alloc_str(self.lexer.slice(token)),
},
T::If => E::If {
pos: token.start,
cond: self.ptr_expr(),
then: self.ptr_expr(),
else_: self.advance_if(T::Else).then(|| self.ptr_expr()),
},
T::Loop => E::Loop {
pos: token.start,
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body: self.ptr_expr(),
},
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T::Break => E::Break { pos: token.start },
T::Continue => E::Continue { pos: token.start },
T::Return => E::Return {
pos: token.start,
val: (self.token.kind != T::Semi).then(|| self.ptr_expr()),
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},
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T::Fn => E::Closure {
pos: token.start,
args: {
self.expect_advance(T::LParen);
self.collect_list(T::Comma, T::RParen, |s| {
let name = s.expect_advance(T::Ident);
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let name = s.arena.alloc_str(s.lexer.slice(name));
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s.expect_advance(T::Colon);
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let val = s.expr();
(name, val)
})
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},
ret: {
self.expect_advance(T::Colon);
self.ptr_expr()
},
body: self.ptr_expr(),
},
T::LBrace => E::Block {
pos: token.start,
stmts: self.collect_list(T::Semi, T::RBrace, Self::expr),
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},
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T::Number => E::Number {
pos: token.start,
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value: match self.lexer.slice(token).parse() {
Ok(value) => value,
Err(e) => self.report(format_args!("invalid number: {e}")),
},
},
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T::LParen => {
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let expr = self.expr();
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self.expect_advance(T::RParen);
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expr
}
tok => self.report(format_args!("unexpected token: {tok:?}")),
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};
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loop {
expr = match self.token.kind {
TokenKind::LParen => {
self.next();
Expr::Call {
func: self.arena.alloc(expr),
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args: self.collect_list(TokenKind::Comma, TokenKind::RParen, Self::expr),
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}
}
_ => break,
}
}
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self.advance_if(TokenKind::Semi);
expr
}
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fn collect_list<T: Copy>(
&mut self,
delim: TokenKind,
end: TokenKind,
mut f: impl FnMut(&mut Self) -> T,
) -> &'a [T] {
self.collect(|s| {
s.advance_if(end).not().then(|| {
let val = f(s);
s.advance_if(delim);
val
})
})
}
fn collect<T: Copy>(&mut self, mut f: impl FnMut(&mut Self) -> Option<T>) -> &'a [T] {
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let vec = std::iter::from_fn(|| f(self)).collect::<Vec<_>>();
self.arena.alloc_slice(&vec)
}
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fn advance_if(&mut self, kind: TokenKind) -> bool {
if self.token.kind == kind {
self.next();
true
} else {
false
}
}
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fn expect_advance(&mut self, kind: TokenKind) -> Token {
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if self.token.kind != kind {
self.report(format_args!(
"expected {:?}, found {:?}",
kind, self.token.kind
));
}
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self.next()
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}
fn report(&self, msg: impl std::fmt::Display) -> ! {
let (line, col) = self.lexer.line_col(self.token.start);
eprintln!("{}:{}:{} => {}", self.path.display(), line, col, msg);
unreachable!();
}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum Expr<'a> {
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Break {
pos: u32,
},
Continue {
pos: u32,
},
Closure {
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pos: u32,
args: &'a [(&'a str, Expr<'a>)],
ret: &'a Expr<'a>,
body: &'a Expr<'a>,
},
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Call {
func: &'a Expr<'a>,
args: &'a [Expr<'a>],
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},
Return {
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pos: u32,
val: Option<&'a Expr<'a>>,
},
Ident {
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pos: u32,
name: &'a str,
},
Block {
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pos: u32,
stmts: &'a [Expr<'a>],
},
Number {
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pos: u32,
value: u64,
},
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BinOp {
left: &'a Expr<'a>,
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op: TokenKind,
right: &'a Expr<'a>,
},
If {
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pos: u32,
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cond: &'a Expr<'a>,
then: &'a Expr<'a>,
else_: Option<&'a Expr<'a>>,
},
Loop {
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pos: u32,
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body: &'a Expr<'a>,
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},
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}
impl<'a> std::fmt::Display for Expr<'a> {
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fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
thread_local! {
static INDENT: Cell<usize> = Cell::new(0);
}
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match *self {
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Self::Break { .. } => write!(f, "break;"),
Self::Continue { .. } => write!(f, "continue;"),
Self::If {
cond, then, else_, ..
} => {
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write!(f, "if {} {}", cond, then)?;
if let Some(else_) = else_ {
write!(f, " else {}", else_)?;
}
Ok(())
}
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Self::Loop { body, .. } => write!(f, "loop {}", body),
Self::Closure {
ret, body, args, ..
} => {
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write!(f, "|")?;
let first = &mut true;
for (name, val) in args {
if !std::mem::take(first) {
write!(f, ", ")?;
}
write!(f, "{}: {}", name, val)?;
}
write!(f, "|: {} {}", ret, body)
}
Self::Call { func, args } => {
write!(f, "{}(", func)?;
let first = &mut true;
for arg in args {
if !std::mem::take(first) {
write!(f, ", ")?;
}
write!(f, "{}", arg)?;
}
write!(f, ")")
}
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Self::Return { val: Some(val), .. } => write!(f, "return {};", val),
Self::Return { val: None, .. } => write!(f, "return;"),
Self::Ident { name, .. } => write!(f, "{}", name),
Self::Block { stmts, .. } => {
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writeln!(f, "{{")?;
INDENT.with(|i| i.set(i.get() + 1));
let res = (|| {
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for stmt in stmts {
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for _ in 0..INDENT.with(|i| i.get()) {
write!(f, " ")?;
}
writeln!(f, "{}", stmt)?;
}
Ok(())
})();
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INDENT.with(|i| i.set(i.get() - 1));
write!(f, "}}")?;
res
}
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Self::Number { value, .. } => write!(f, "{}", value),
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Self::BinOp { left, right, op } => {
let display_branch = |f: &mut std::fmt::Formatter, expr: &Self| {
if let Self::BinOp { op: lop, .. } = expr
&& op.precedence() > lop.precedence()
{
write!(f, "({})", expr)
} else {
write!(f, "{}", expr)
}
};
display_branch(f, left)?;
write!(f, " {} ", op)?;
display_branch(f, right)
}
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}
}
}
#[derive(Default)]
pub struct Arena<'a> {
chunk: Cell<ArenaChunk>,
ph: std::marker::PhantomData<&'a ()>,
}
impl<'a> Arena<'a> {
pub fn alloc_str(&self, token: &str) -> &'a str {
let ptr = self.alloc_slice(token.as_bytes());
unsafe { std::str::from_utf8_unchecked_mut(ptr) }
}
pub fn alloc<T>(&self, value: T) -> &'a mut T {
let layout = std::alloc::Layout::new::<T>();
let ptr = self.alloc_low(layout);
unsafe { ptr.cast::<T>().write(value) };
unsafe { ptr.cast::<T>().as_mut() }
}
pub fn alloc_slice<T: Copy>(&self, slice: &[T]) -> &'a mut [T] {
let layout = std::alloc::Layout::array::<T>(slice.len()).unwrap();
let ptr = self.alloc_low(layout);
unsafe {
ptr.as_ptr()
.cast::<T>()
.copy_from_nonoverlapping(slice.as_ptr(), slice.len())
};
unsafe { std::slice::from_raw_parts_mut(ptr.as_ptr() as _, slice.len()) }
}
pub fn clear(&mut self) {
let chunk = self.chunk.get_mut();
if chunk.base.is_null() {
return;
}
loop {
let prev = ArenaChunk::prev(chunk.base);
if prev.is_null() {
break;
}
chunk.base = prev;
}
chunk.end = unsafe { chunk.base.add(ArenaChunk::PREV_OFFSET) };
}
fn with_chunk<R>(&self, f: impl FnOnce(&mut ArenaChunk) -> R) -> R {
let mut chunk = self.chunk.get();
let r = f(&mut chunk);
self.chunk.set(chunk);
r
}
fn alloc_low(&self, layout: std::alloc::Layout) -> NonNull<u8> {
assert!(layout.align() <= ArenaChunk::ALIGN);
assert!(layout.size() <= ArenaChunk::CHUNK_SIZE);
self.with_chunk(|chunk| {
if let Some(ptr) = chunk.alloc(layout) {
return ptr;
}
if let Some(prev) = ArenaChunk::reset(ArenaChunk::prev(chunk.base)) {
*chunk = prev;
} else {
*chunk = ArenaChunk::new(chunk.base);
}
chunk.alloc(layout).unwrap()
})
}
}
impl<'a> Drop for Arena<'a> {
fn drop(&mut self) {
use ArenaChunk as AC;
let mut current = self.chunk.get().base;
let mut prev = AC::prev(current);
while !prev.is_null() {
let next = AC::next(prev);
unsafe { std::alloc::dealloc(prev, AC::LAYOUT) };
prev = next;
}
while !current.is_null() {
let next = AC::next(current);
unsafe { std::alloc::dealloc(current, AC::LAYOUT) };
current = next;
}
}
}
#[derive(Clone, Copy)]
struct ArenaChunk {
base: *mut u8,
end: *mut u8,
}
impl Default for ArenaChunk {
fn default() -> Self {
Self {
base: std::ptr::null_mut(),
end: std::ptr::null_mut(),
}
}
}
impl ArenaChunk {
const CHUNK_SIZE: usize = 1 << 16;
const ALIGN: usize = std::mem::align_of::<Self>();
const NEXT_OFFSET: usize = Self::CHUNK_SIZE - std::mem::size_of::<*mut u8>();
const PREV_OFFSET: usize = Self::NEXT_OFFSET - std::mem::size_of::<*mut u8>();
const LAYOUT: std::alloc::Layout =
unsafe { std::alloc::Layout::from_size_align_unchecked(Self::CHUNK_SIZE, Self::ALIGN) };
fn new(next: *mut u8) -> Self {
let base = unsafe { std::alloc::alloc(Self::LAYOUT) };
let end = unsafe { base.add(Self::PREV_OFFSET) };
if !next.is_null() {
Self::set_prev(next, base);
}
Self::set_next(base, next);
Self::set_prev(base, std::ptr::null_mut());
Self { base, end }
}
fn set_next(curr: *mut u8, next: *mut u8) {
unsafe { std::ptr::write(curr.add(Self::NEXT_OFFSET) as *mut _, next) };
}
fn set_prev(curr: *mut u8, prev: *mut u8) {
unsafe { std::ptr::write(curr.add(Self::PREV_OFFSET) as *mut _, prev) };
}
fn next(curr: *mut u8) -> *mut u8 {
unsafe { std::ptr::read(curr.add(Self::NEXT_OFFSET) as *mut _) }
}
fn prev(curr: *mut u8) -> *mut u8 {
if curr.is_null() {
return std::ptr::null_mut();
}
unsafe { std::ptr::read(curr.add(Self::PREV_OFFSET) as *mut _) }
}
fn reset(prev: *mut u8) -> Option<Self> {
if prev.is_null() {
return None;
}
Some(Self {
base: prev,
end: unsafe { prev.add(Self::CHUNK_SIZE) },
})
}
fn alloc(&mut self, layout: std::alloc::Layout) -> Option<NonNull<u8>> {
let padding = self.end as usize - (self.end as usize & !(layout.align() - 1));
let size = layout.size() + padding;
if size > self.end as usize - self.base as usize {
return None;
}
unsafe { self.end = self.end.sub(size) };
unsafe { Some(NonNull::new_unchecked(self.end)) }
}
}
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#[cfg(test)]
mod tests {
fn parse(input: &'static str, output: &mut String) {
use std::fmt::Write;
let mut arena = super::Arena::default();
let mut buffer = Vec::new();
let mut parser =
super::Parser::new(input, std::path::Path::new("test"), &arena, &mut buffer);
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for expr in parser.file() {
writeln!(output, "{}", expr).unwrap();
}
arena.clear();
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}
crate::run_tests! { parse:
example => include_str!("../examples/main_fn.hb");
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arithmetic => include_str!("../examples/arithmetic.hb");
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}
}