use { crate::{ ident::{self, Ident}, lexer::{self, Lexer, Token, TokenKind}, }, alloc::{boxed::Box, string::String, vec::Vec}, core::{ cell::UnsafeCell, fmt::{self, Write}, ops::{Deref, Not}, ptr::NonNull, sync::atomic::AtomicUsize, }, }; pub type Pos = u32; pub type IdentFlags = u32; pub type Symbols = Vec; pub type FileId = u32; pub type IdentIndex = u16; pub type LoaderError = String; pub type Loader<'a> = &'a (dyn Fn(&str, &str) -> Result + 'a); pub mod idfl { use super::*; macro_rules! flags { ($($name:ident,)*) => { $(pub const $name: IdentFlags = 1 << (core::mem::size_of::() * 8 - 1 - ${index(0)});)* pub const ALL: IdentFlags = 0 $(| $name)*; }; } flags! { MUTABLE, REFERENCED, COMPTIME, } } pub fn no_loader(_: &str, _: &str) -> Result { Err(String::new()) } #[derive(Debug)] pub struct Symbol { pub name: Ident, pub flags: IdentFlags, } #[derive(Clone, Copy)] struct ScopeIdent { ident: Ident, declared: bool, flags: IdentFlags, } pub struct Parser<'a, 'b> { path: &'b str, loader: Loader<'b>, lexer: Lexer<'b>, arena: &'b Arena<'a>, token: Token, symbols: &'b mut Symbols, ns_bound: usize, trailing_sep: bool, packed: bool, idents: Vec, captured: Vec, } impl<'a, 'b> Parser<'a, 'b> { pub fn new(arena: &'b Arena<'a>, symbols: &'b mut Symbols, loader: Loader<'b>) -> Self { let mut lexer = Lexer::new(""); Self { loader, token: lexer.next(), lexer, path: "", arena, symbols, ns_bound: 0, trailing_sep: false, packed: false, idents: Vec::new(), captured: Vec::new(), } } pub fn file(&mut self, input: &'b str, path: &'b str) -> &'a [Expr<'a>] { self.path = path; self.lexer = Lexer::new(input); self.token = self.lexer.next(); let f = self.collect_list(TokenKind::Semi, TokenKind::Eof, |s| s.expr_low(true)); self.pop_scope(0); let mut errors = String::new(); for id in self.idents.drain(..) { report_to( self.lexer.source(), self.path, ident::pos(id.ident), format_args!("undeclared identifier: {}", self.lexer.slice(ident::range(id.ident))), &mut errors, ); } if !errors.is_empty() { // TODO: we need error recovery log::error!("{errors}"); unreachable!(); } f } fn next(&mut self) -> Token { core::mem::replace(&mut self.token, self.lexer.next()) } fn ptr_expr(&mut self) -> &'a Expr<'a> { self.arena.alloc(self.expr()) } fn expr_low(&mut self, top_level: bool) -> Expr<'a> { let left = self.unit_expr(); self.bin_expr(left, 0, top_level) } fn expr(&mut self) -> Expr<'a> { self.expr_low(false) } fn bin_expr(&mut self, mut fold: Expr<'a>, min_prec: u8, top_level: bool) -> Expr<'a> { loop { let Some(prec) = self.token.kind.precedence() else { break; }; if prec <= min_prec { break; } let checkpoint = self.token.start; let op = self.next().kind; if op == TokenKind::Decl { self.declare_rec(&fold, top_level); } let op_ass = op.ass_op().map(|op| { // this abomination reparses the left side, so that the desubaring adheres to the // parser invariants. let source = self.lexer.slice(0..checkpoint as usize); let prev_lexer = core::mem::replace(&mut self.lexer, Lexer::restore(source, fold.pos())); let prev_token = core::mem::replace(&mut self.token, self.lexer.next()); let clone = self.expr(); self.lexer = prev_lexer; self.token = prev_token; (op, clone) }); let right = self.unit_expr(); let right = self.bin_expr(right, prec, false); let right = self.arena.alloc(right); let left = self.arena.alloc(fold); if let Some((op, clone)) = op_ass { self.flag_idents(*left, idfl::MUTABLE); let right = Expr::BinOp { left: self.arena.alloc(clone), op, right }; fold = Expr::BinOp { left, op: TokenKind::Assign, right: self.arena.alloc(right) }; } else { fold = Expr::BinOp { left, right, op }; if op == TokenKind::Assign { self.flag_idents(*left, idfl::MUTABLE); } } } fold } fn declare_rec(&mut self, expr: &Expr, top_level: bool) { match *expr { Expr::Ident { pos, id, is_first, .. } => self.declare(pos, id, is_first || top_level), Expr::Ctor { fields, .. } => { for CtorField { value, .. } in fields { self.declare_rec(value, top_level) } } _ => self.report(expr.pos(), "cant declare this shit (yet)"), } } fn declare(&mut self, pos: Pos, id: Ident, valid_order: bool) { if !valid_order { self.report( pos, format_args!( "out of order declaration not allowed: {}", self.lexer.slice(ident::range(id)) ), ); } let index = self.idents.binary_search_by_key(&id, |s| s.ident).expect("fck up"); if core::mem::replace(&mut self.idents[index].declared, true) { self.report( pos, format_args!("redeclaration of identifier: {}", self.lexer.slice(ident::range(id))), ) } } fn resolve_ident(&mut self, token: Token) -> (Ident, bool) { let is_ct = token.kind == TokenKind::CtIdent; let name = self.lexer.slice(token.range()); if let Some(builtin) = crate::ty::from_str(name) { return (builtin, false); } let (i, id, bl) = match self .idents .iter_mut() .enumerate() .rfind(|(_, elem)| self.lexer.slice(ident::range(elem.ident)) == name) { Some((i, elem)) => (i, elem, false), None => { let id = ident::new(token.start, name.len() as _); self.idents.push(ScopeIdent { ident: id, declared: false, flags: 0 }); (self.idents.len() - 1, self.idents.last_mut().unwrap(), true) } }; id.flags |= idfl::COMPTIME * is_ct as u32; if id.declared && self.ns_bound > i { id.flags |= idfl::COMPTIME; self.captured.push(id.ident); } (id.ident, bl) } fn move_str(&mut self, range: Token) -> &'a str { self.arena.alloc_str(self.lexer.slice(range.range())) } fn unit_expr(&mut self) -> Expr<'a> { use {Expr as E, TokenKind as T}; let frame = self.idents.len(); let token @ Token { start: pos, .. } = self.next(); let prev_boundary = self.ns_bound; let prev_captured = self.captured.len(); let mut expr = match token.kind { T::Ct => E::Ct { pos, value: self.ptr_expr() }, T::Directive if self.lexer.slice(token.range()) == "use" => { self.expect_advance(TokenKind::LParen); let str = self.expect_advance(TokenKind::DQuote); self.expect_advance(TokenKind::RParen); let path = self.lexer.slice(str.range()).trim_matches('"'); E::Mod { pos, path: self.arena.alloc_str(path), id: match (self.loader)(path, self.path) { Ok(id) => id, Err(e) => { self.report(str.start, format_args!("error loading dependency: {e:#}")) } }, } } T::Directive => E::Directive { pos: pos - 1, // need to undo the directive shift name: self.move_str(token), args: { self.expect_advance(T::LParen); self.collect_list(T::Comma, T::RParen, Self::expr) }, }, T::True => E::Bool { pos, value: true }, T::False => E::Bool { pos, value: false }, T::Idk => E::Idk { pos }, T::DQuote => E::String { pos, literal: self.move_str(token) }, T::Packed => { self.packed = true; let expr = self.unit_expr(); if self.packed { self.report( expr.pos(), "this can not be packed \ (unlike your mom that gets packed every day by me)", ); } expr } T::Struct => E::Struct { packed: core::mem::take(&mut self.packed), fields: { self.ns_bound = self.idents.len(); self.expect_advance(T::LBrace); self.collect_list(T::Comma, T::RBrace, |s| { let tok = s.token; if s.advance_if(T::Comment) { CommentOr::Comment { literal: s.move_str(tok), pos: tok.start } } else { let name = s.expect_advance(T::Ident); s.expect_advance(T::Colon); CommentOr::Or(StructField { pos: name.start, name: s.move_str(name), ty: s.expr(), }) } }) }, captured: { self.ns_bound = prev_boundary; self.captured[prev_captured..].sort_unstable(); let preserved = self.captured[prev_captured..].partition_dedup().0.len(); self.captured.truncate(prev_captured + preserved); self.arena.alloc_slice(&self.captured[prev_captured..]) }, pos: { if self.ns_bound == 0 { // we might save some memory self.captured.clear(); } pos }, trailing_comma: core::mem::take(&mut self.trailing_sep), }, T::Ident | T::CtIdent => { let (id, is_first) = self.resolve_ident(token); let name = self.move_str(token); E::Ident { pos, is_ct: token.kind == T::CtIdent, name, id, is_first } } T::If => E::If { pos, cond: self.ptr_expr(), then: self.ptr_expr(), else_: self.advance_if(T::Else).then(|| self.ptr_expr()), }, T::Loop => E::Loop { pos, body: self.ptr_expr() }, T::Break => E::Break { pos }, T::Continue => E::Continue { pos }, T::Return => E::Return { pos, val: (!matches!( self.token.kind, T::Semi | T::RBrace | T::RBrack | T::RParen | T::Comma )) .then(|| self.ptr_expr()), }, T::Fn => E::Closure { pos, args: { self.expect_advance(T::LParen); self.collect_list(T::Comma, T::RParen, |s| { let name = s.advance_ident(); let (id, _) = s.resolve_ident(name); s.declare(name.start, id, true); s.expect_advance(T::Colon); Arg { pos: name.start, name: s.move_str(name), is_ct: name.kind == T::CtIdent, id, ty: s.expr(), } }) }, ret: { self.expect_advance(T::Colon); self.ptr_expr() }, body: self.ptr_expr(), }, T::Ctor => self.ctor(pos, None), T::Tupl => self.tupl(pos, None), T::LBrack => E::Slice { item: self.ptr_unit_expr(), size: self.advance_if(T::Semi).then(|| self.ptr_expr()), pos: { self.expect_advance(T::RBrack); pos }, }, T::Band | T::Mul | T::Xor | T::Sub => E::UnOp { pos, op: token.kind, val: { let expr = self.ptr_unit_expr(); if token.kind == T::Band { self.flag_idents(*expr, idfl::REFERENCED); } expr }, }, T::LBrace => E::Block { pos, stmts: self.collect_list(T::Semi, T::RBrace, Self::expr) }, T::Number => { let slice = self.lexer.slice(token.range()); let (slice, radix) = match &slice.get(0..2) { Some("0x") => (slice.trim_start_matches("0x"), Radix::Hex), Some("0b") => (slice.trim_start_matches("0b"), Radix::Binary), Some("0o") => (slice.trim_start_matches("0o"), Radix::Octal), _ => (slice, Radix::Decimal), }; E::Number { pos, value: match u64::from_str_radix(slice, radix as u32) { Ok(value) => value, Err(e) => self.report(token.start, format_args!("invalid number: {e}")), } as i64, radix, } } T::LParen => { let expr = self.expr(); self.expect_advance(T::RParen); expr } T::Comment => Expr::Comment { pos, literal: self.move_str(token) }, tok => self.report(token.start, format_args!("unexpected token: {tok:?}")), }; loop { let token = self.token; if matches!(token.kind, T::LParen | T::Ctor | T::Dot | T::Tupl | T::LBrack) { self.next(); } expr = match token.kind { T::LParen => Expr::Call { func: self.arena.alloc(expr), args: self.collect_list(T::Comma, T::RParen, Self::expr), trailing_comma: core::mem::take(&mut self.trailing_sep), }, T::Ctor => self.ctor(token.start, Some(expr)), T::Tupl => self.tupl(token.start, Some(expr)), T::LBrack => E::Index { base: self.arena.alloc(expr), index: { let index = self.expr(); self.expect_advance(T::RBrack); self.arena.alloc(index) }, }, T::Dot => E::Field { target: self.arena.alloc(expr), pos: token.start, name: { let token = self.expect_advance(T::Ident); self.move_str(token) }, }, _ => break, } } if matches!(token.kind, T::Loop | T::LBrace | T::Fn) { self.pop_scope(frame); } expr } fn tupl(&mut self, pos: Pos, ty: Option>) -> Expr<'a> { Expr::Tupl { pos, ty: ty.map(|ty| self.arena.alloc(ty)), fields: self.collect_list(TokenKind::Comma, TokenKind::RParen, Self::expr), trailing_comma: core::mem::take(&mut self.trailing_sep), } } fn ctor(&mut self, pos: Pos, ty: Option>) -> Expr<'a> { Expr::Ctor { pos, ty: ty.map(|ty| self.arena.alloc(ty)), fields: self.collect_list(TokenKind::Comma, TokenKind::RBrace, |s| { let name_tok = s.advance_ident(); let name = s.move_str(name_tok); CtorField { pos: name_tok.start, name, value: if s.advance_if(TokenKind::Colon) { s.expr() } else { let (id, is_first) = s.resolve_ident(name_tok); Expr::Ident { pos: name_tok.start, is_ct: false, id, name, is_first } }, } }), trailing_comma: core::mem::take(&mut self.trailing_sep), } } fn advance_ident(&mut self) -> Token { if matches!(self.token.kind, TokenKind::Ident | TokenKind::CtIdent) { self.next() } else { self.report( self.token.start, format_args!("expected identifier, found {:?}", self.token.kind), ) } } fn pop_scope(&mut self, frame: usize) { let mut undeclared_count = frame; for i in frame..self.idents.len() { if !&self.idents[i].declared { self.idents.swap(i, undeclared_count); undeclared_count += 1; } } self.idents .drain(undeclared_count..) .map(|ident| Symbol { name: ident.ident, flags: ident.flags }) .collect_into(self.symbols); } fn ptr_unit_expr(&mut self) -> &'a Expr<'a> { self.arena.alloc(self.unit_expr()) } fn collect_list( &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.trailing_sep = s.advance_if(delim); val }) }) } fn collect(&mut self, mut f: impl FnMut(&mut Self) -> Option) -> &'a [T] { // TODO: avoid this allocation let vec = core::iter::from_fn(|| f(self)).collect::>(); self.arena.alloc_slice(&vec) } fn advance_if(&mut self, kind: TokenKind) -> bool { if self.token.kind == kind { self.next(); true } else { false } } fn expect_advance(&mut self, kind: TokenKind) -> Token { if self.token.kind != kind { self.report( self.token.start, format_args!("expected {:?}, found {:?}", kind, self.token.kind), ); } self.next() } #[track_caller] fn report(&self, pos: Pos, msg: impl fmt::Display) -> ! { let mut str = String::new(); report_to(self.lexer.source(), self.path, pos, msg, &mut str); log::error!("{str}"); unreachable!(); } fn flag_idents(&mut self, e: Expr<'a>, flags: IdentFlags) { match e { Expr::Ident { id, .. } => find_ident(&mut self.idents, id).flags |= flags, Expr::Field { target, .. } => self.flag_idents(*target, flags), _ => {} } } } fn find_ident(idents: &mut [ScopeIdent], id: Ident) -> &mut ScopeIdent { idents.binary_search_by_key(&id, |si| si.ident).map(|i| &mut idents[i]).unwrap() } pub fn find_symbol(symbols: &[Symbol], id: Ident) -> &Symbol { symbols.binary_search_by_key(&id, |s| s.name).map(|i| &symbols[i]).unwrap() } #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub struct Arg<'a> { pub pos: u32, pub name: &'a str, pub id: Ident, pub is_ct: bool, pub ty: Expr<'a>, } impl Poser for Arg<'_> { fn posi(&self) -> Pos { self.pos } } macro_rules! generate_expr { ($(#[$meta:meta])* $vis:vis enum $name:ident<$lt:lifetime> {$( $(#[$field_meta:meta])* $variant:ident { $($field:ident: $ty:ty,)* }, )*}) => { #[derive(Debug, Clone, Copy, PartialEq, Eq)] $vis enum $name<$lt> {$( $(#[$field_meta])* $variant { $($field: $ty,)* }, )*} impl<$lt> $name<$lt> { pub fn pos(&self) -> Pos { #[allow(unused_variables)] match self { $(Self::$variant { $($field),* } => generate_expr!(@first $(($field),)*).posi(),)* } } pub fn used_bytes(&self) -> usize { match self {$( Self::$variant { $($field,)* } => { #[allow(clippy::size_of_ref)] let fields = [$(($field as *const _ as usize - self as *const _ as usize, core::mem::size_of_val($field)),)*]; let (last, size) = fields.iter().copied().max().unwrap(); last + size }, )*} } } }; (@filed_names $variant:ident $ident1:ident) => { Self::$variant { $ident1: a } }; (@first ($($first:tt)*), $($rest:tt)*) => { $($first)* }; (@last ($($ign:tt)*), $($rest:tt)*) => { $($rest)* }; (@last ($($last:tt)*),) => { $($last)* }; } #[repr(u32)] #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub enum Radix { Hex = 16, Octal = 8, Binary = 2, Decimal = 10, } generate_expr! { /// `LIST(start, sep, end, elem) => start { elem sep } [elem] end` /// `OP := grep for `#define OP:` #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum Expr<'a> { /// `'ct' Expr` Ct { pos: Pos, value: &'a Self, }, /// `'"([^"]|\\")"'` String { pos: Pos, literal: &'a str, }, /// `'//[^\n]' | '/*' { '([^/*]|*/)*' | Comment } '*/' Comment { pos: Pos, literal: &'a str, }, /// `'break'` Break { pos: Pos, }, /// `'continue'` Continue { pos: Pos, }, /// `'fn' LIST('(', ',', ')', Ident ':' Expr) ':' Expr Expr` Closure { pos: Pos, args: &'a [Arg<'a>], ret: &'a Self, body: &'a Self, }, /// `Expr LIST('(', ',', ')', Expr)` Call { func: &'a Self, args: &'a [Self], trailing_comma: bool, }, /// `'return' [Expr]` Return { pos: Pos, val: Option<&'a Self>, }, /// note: ':unicode:' is any utf-8 character except ascii /// `'[a-zA-Z_:unicode:][a-zA-Z0-9_:unicode:]*'` Ident { pos: Pos, is_ct: bool, is_first: bool, id: Ident, name: &'a str, }, /// `LIST('{', [';'], '}', Expr)` Block { pos: Pos, stmts: &'a [Self], }, /// `'0b[01]+' | '0o[0-7]+' | '[0-9]+' | '0b[01]+'` Number { pos: Pos, value: i64, radix: Radix, }, /// node: precedence defined in `OP` applies /// `Expr OP Expr` BinOp { left: &'a Self, op: TokenKind, right: &'a Self, }, /// `'if' Expr Expr [else Expr]` If { pos: Pos, cond: &'a Self, then: &'a Self, else_: Option<&'a Self>, }, /// `'loop' Expr` Loop { pos: Pos, body: &'a Self, }, /// `('&' | '*' | '^') Expr` UnOp { pos: Pos, op: TokenKind, val: &'a Self, }, /// `'struct' LIST('{', ',', '}', Ident ':' Expr)` Struct { pos: Pos, fields: &'a [CommentOr<'a, StructField<'a>>], captured: &'a [Ident], trailing_comma: bool, packed: bool, }, /// `[Expr] LIST('.{', ',', '}', Ident [':' Expr])` Ctor { pos: Pos, ty: Option<&'a Self>, fields: &'a [CtorField<'a>], trailing_comma: bool, }, /// `[Expr] LIST('.(', ',', ')', Ident [':' Expr])` Tupl { pos: Pos, ty: Option<&'a Self>, fields: &'a [Self], trailing_comma: bool, }, /// `'[' Expr [';' Expr] ']'` Slice { pos: Pos, size: Option<&'a Self>, item: &'a Self, }, /// `Expr '[' Expr ']'` Index { base: &'a Self, index: &'a Self, }, /// `Expr '.' Ident` Field { target: &'a Self, pos: Pos, name: &'a str, }, /// `'true' | 'false'` Bool { pos: Pos, value: bool, }, /// `'idk'` Idk { pos: Pos, }, /// `'@' Ident List('(', ',', ')', Expr)` Directive { pos: u32, name: &'a str, args: &'a [Self], }, /// `'@use' '(' String ')'` Mod { pos: Pos, id: FileId, path: &'a str, }, } } impl<'a> Expr<'a> { pub fn declares(&self, iden: Result) -> Option { match *self { Self::Ident { id, name, .. } if iden == Ok(id) || iden == Err(name) => Some(id), Self::Ctor { fields, .. } => fields.iter().find_map(|f| f.value.declares(iden)), _ => None, } } pub fn has_ct(&self, symbols: &[Symbol]) -> bool { match *self { Self::Ident { id, .. } => find_symbol(symbols, id).flags & idfl::COMPTIME != 0, Self::Ctor { fields, .. } => fields.iter().any(|f| f.value.has_ct(symbols)), _ => false, } } pub fn find_pattern_path( &self, ident: Ident, target: &Expr, mut with_final: F, ) -> Result<(), F> { match *self { Self::Ident { id, .. } if id == ident => { with_final(target); Ok(()) } Self::Ctor { fields, .. } => { for &CtorField { name, value, pos } in fields { match value.find_pattern_path( ident, &Expr::Field { pos, target, name }, with_final, ) { Ok(()) => return Ok(()), Err(e) => with_final = e, } } Err(with_final) } _ => Err(with_final), } } } #[derive(Clone, Copy, PartialEq, Eq, Debug)] pub struct StructField<'a> { pub pos: Pos, pub name: &'a str, pub ty: Expr<'a>, } impl Poser for StructField<'_> { fn posi(&self) -> Pos { self.pos } } #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub struct CtorField<'a> { pub pos: Pos, pub name: &'a str, pub value: Expr<'a>, } impl Poser for CtorField<'_> { fn posi(&self) -> Pos { self.pos } } trait Poser { fn posi(&self) -> Pos; } impl Poser for Pos { fn posi(&self) -> Pos { *self } } impl<'a> Poser for Expr<'a> { fn posi(&self) -> Pos { self.pos() } } impl<'a, T: Poser> Poser for CommentOr<'a, T> { fn posi(&self) -> Pos { match self { CommentOr::Or(expr) => expr.posi(), CommentOr::Comment { pos, .. } => *pos, } } } #[derive(Clone, Copy, PartialEq, Eq, Debug)] pub enum CommentOr<'a, T> { Or(T), Comment { literal: &'a str, pos: Pos }, } impl<'a, T: Copy> CommentOr<'a, T> { pub fn or(&self) -> Option { match *self { CommentOr::Or(v) => Some(v), CommentOr::Comment { .. } => None, } } } pub struct Formatter<'a> { source: &'a str, depth: usize, disp_buff: String, } impl<'a> Formatter<'a> { pub fn new(source: &'a str) -> Self { Self { source, depth: 0, disp_buff: Default::default() } } fn fmt_list( &mut self, f: &mut String, trailing: bool, end: &str, sep: &str, list: &[T], fmt: impl Fn(&mut Self, &T, &mut String) -> fmt::Result, ) -> fmt::Result { self.fmt_list_low(f, trailing, end, sep, list, |s, v, f| { fmt(s, v, f)?; Ok(true) }) } fn fmt_list_low( &mut self, f: &mut String, trailing: bool, end: &str, sep: &str, list: &[T], fmt: impl Fn(&mut Self, &T, &mut String) -> Result, ) -> fmt::Result { if !trailing { let mut first = true; for expr in list { if !core::mem::take(&mut first) { write!(f, "{sep} ")?; } first = !fmt(self, expr, f)?; } return write!(f, "{end}"); } writeln!(f)?; self.depth += 1; let res = (|| { for (i, stmt) in list.iter().enumerate() { for _ in 0..self.depth { write!(f, "\t")?; } let add_sep = fmt(self, stmt, f)?; if add_sep { write!(f, "{sep}")?; } if let Some(expr) = list.get(i + 1) && let Some(rest) = self.source.get(expr.posi() as usize..) { if insert_needed_semicolon(rest) { write!(f, ";")?; } if preserve_newlines(&self.source[..expr.posi() as usize]) > 1 { writeln!(f)?; } } if add_sep { writeln!(f)?; } } Ok(()) })(); self.depth -= 1; for _ in 0..self.depth { write!(f, "\t")?; } write!(f, "{end}")?; res } fn fmt_paren( &mut self, expr: &Expr, f: &mut String, cond: impl FnOnce(&Expr) -> bool, ) -> fmt::Result { if cond(expr) { write!(f, "(")?; self.fmt(expr, f)?; write!(f, ")") } else { self.fmt(expr, f) } } pub fn fmt(&mut self, expr: &Expr, f: &mut String) -> fmt::Result { macro_rules! impl_parenter { ($($name:ident => $pat:pat,)*) => { $( let $name = |e: &Expr| matches!(e, $pat); )* }; } impl_parenter! { unary => Expr::BinOp { .. }, postfix => Expr::UnOp { .. } | Expr::BinOp { .. }, consecutive => Expr::UnOp { .. }, } match *expr { Expr::Ct { value, .. } => { write!(f, "$: ")?; self.fmt(value, f) } Expr::String { literal, .. } => write!(f, "{literal}"), Expr::Comment { literal, .. } => write!(f, "{}", literal.trim_end()), Expr::Mod { path, .. } => write!(f, "@use(\"{path}\")"), Expr::Field { target, name: field, .. } => { self.fmt_paren(target, f, postfix)?; write!(f, ".{field}") } Expr::Directive { name, args, .. } => { write!(f, "@{name}(")?; self.fmt_list(f, false, ")", ",", args, Self::fmt) } Expr::Struct { fields, trailing_comma, packed, .. } => { if packed { write!(f, "packed ")?; } write!(f, "struct {{")?; self.fmt_list_low(f, trailing_comma, "}", ",", fields, |s, field, f| { match field { CommentOr::Or(StructField { name, ty, .. }) => { write!(f, "{name}: ")?; s.fmt(ty, f)? } CommentOr::Comment { literal, .. } => write!(f, "{literal}")?, } Ok(field.or().is_some()) }) } Expr::Ctor { ty, fields, trailing_comma, .. } => { if let Some(ty) = ty { self.fmt_paren(ty, f, unary)?; } write!(f, ".{{")?; self.fmt_list( f, trailing_comma, "}", ",", fields, |s: &mut Self, CtorField { name, value, .. }: &_, f| { if matches!(value, Expr::Ident { name: n, .. } if name == n) { write!(f, "{name}") } else { write!(f, "{name}: ")?; s.fmt(value, f) } }, ) } Expr::Tupl { ty, fields, trailing_comma, .. } => { if let Some(ty) = ty { self.fmt_paren(ty, f, unary)?; } write!(f, ".(")?; self.fmt_list(f, trailing_comma, ")", ",", fields, Self::fmt) } Expr::Slice { item, size, .. } => { write!(f, "[")?; self.fmt(item, f)?; if let Some(size) = size { write!(f, "; ")?; self.fmt(size, f)?; } write!(f, "]") } Expr::Index { base, index } => { self.fmt(base, f)?; write!(f, "[")?; self.fmt(index, f)?; write!(f, "]") } Expr::UnOp { op, val, .. } => { write!(f, "{op}")?; self.fmt_paren(val, f, unary) } Expr::Break { .. } => write!(f, "break"), Expr::Continue { .. } => write!(f, "continue"), Expr::If { cond, then, else_, .. } => { write!(f, "if ")?; self.fmt(cond, f)?; write!(f, " ")?; self.fmt_paren(then, f, consecutive)?; if let Some(e) = else_ { write!(f, " else ")?; self.fmt(e, f)?; } Ok(()) } Expr::Loop { body, .. } => { write!(f, "loop ")?; self.fmt(body, f) } Expr::Closure { ret, body, args, .. } => { write!(f, "fn(")?; self.fmt_list(f, false, "", ",", args, |s, arg, f| { if arg.is_ct { write!(f, "$")?; } write!(f, "{}: ", arg.name)?; s.fmt(&arg.ty, f) })?; write!(f, "): ")?; self.fmt(ret, f)?; write!(f, " ")?; self.fmt_paren(body, f, consecutive)?; Ok(()) } Expr::Call { func, args, trailing_comma } => { self.fmt_paren(func, f, postfix)?; write!(f, "(")?; self.fmt_list(f, trailing_comma, ")", ",", args, Self::fmt) } Expr::Return { val: Some(val), .. } => { write!(f, "return ")?; self.fmt(val, f) } Expr::Return { val: None, .. } => write!(f, "return"), Expr::Ident { name, is_ct: true, .. } => write!(f, "${name}"), Expr::Ident { name, is_ct: false, .. } => write!(f, "{name}"), Expr::Block { stmts, .. } => { write!(f, "{{")?; self.fmt_list(f, true, "}", "", stmts, Self::fmt) } Expr::Number { value, radix, .. } => match radix { Radix::Decimal => write!(f, "{value}"), Radix::Hex => write!(f, "{value:#X}"), Radix::Octal => write!(f, "{value:#o}"), Radix::Binary => write!(f, "{value:#b}"), }, Expr::Bool { value, .. } => write!(f, "{value}"), Expr::Idk { .. } => write!(f, "idk"), Expr::BinOp { left, op: TokenKind::Assign, right: Expr::BinOp { left: lleft, op, right }, } if { let mut b = core::mem::take(&mut self.disp_buff); self.fmt(lleft, &mut b)?; let len = b.len(); self.fmt(left, &mut b)?; let (lleft, left) = b.split_at(len); let res = lleft == left; b.clear(); self.disp_buff = b; res } => { self.fmt(left, f)?; write!(f, " {op}= ")?; self.fmt(right, f) } Expr::BinOp { right, op, left } => { let pec_miss = |e: &Expr| { matches!( e, Expr::BinOp { op: lop, .. } if op.precedence() > lop.precedence() ) }; self.fmt_paren(left, f, pec_miss)?; if let Some(mut prev) = self.source.get(..right.pos() as usize) { prev = prev.trim_end(); let estimate_bound = prev.rfind(|c: char| c.is_ascii_whitespace()).map_or(prev.len(), |i| i + 1); let exact_bound = lexer::Lexer::new(&prev[estimate_bound..]).last().start; prev = &prev[..exact_bound as usize + estimate_bound]; if preserve_newlines(prev) > 0 { writeln!(f)?; for _ in 0..self.depth + 1 { write!(f, "\t")?; } write!(f, "{op} ")?; } else { write!(f, " {op} ")?; } } else { write!(f, " {op} ")?; } self.fmt_paren(right, f, pec_miss) } } } } pub fn preserve_newlines(source: &str) -> usize { source[source.trim_end().len()..].chars().filter(|&c| c == '\n').count() } pub fn insert_needed_semicolon(source: &str) -> bool { let kind = lexer::Lexer::new(source).next().kind; kind.precedence().is_some() || matches!(kind, TokenKind::Ctor | TokenKind::Tupl) } #[repr(C)] pub struct AstInner { ref_count: AtomicUsize, mem: ArenaChunk, exprs: *const [Expr<'static>], pub path: Box, pub file: Box, pub symbols: T, } impl AstInner<[Symbol]> { fn layout(syms: usize) -> core::alloc::Layout { core::alloc::Layout::new::>() .extend(core::alloc::Layout::array::(syms).unwrap()) .unwrap() .0 } fn new(content: String, path: &str, loader: Loader) -> NonNull { let arena = Arena::default(); let mut syms = Vec::new(); let mut parser = Parser::new(&arena, &mut syms, loader); let exprs = parser.file(&content, path) as *const [Expr<'static>]; syms.sort_unstable_by_key(|s| s.name); let layout = Self::layout(syms.len()); unsafe { let ptr = alloc::alloc::alloc(layout); let inner: *mut Self = core::ptr::from_raw_parts_mut(ptr as *mut _, syms.len()); core::ptr::write(inner as *mut AstInner<()>, AstInner { ref_count: AtomicUsize::new(1), mem: arena.chunk.into_inner(), exprs, path: path.into(), file: content.into(), symbols: (), }); core::ptr::addr_of_mut!((*inner).symbols) .as_mut_ptr() .copy_from_nonoverlapping(syms.as_ptr(), syms.len()); NonNull::new_unchecked(inner) } } pub fn report_to(&self, pos: Pos, msg: impl fmt::Display, out: &mut impl fmt::Write) { report_to(&self.file, &self.path, pos, msg, out); } } pub fn report_to( file: &str, path: &str, pos: Pos, msg: impl fmt::Display, out: &mut impl fmt::Write, ) { let (line, mut col) = lexer::line_col(file.as_bytes(), pos); #[cfg(feature = "std")] let disp = crate::fs::display_rel_path(path); #[cfg(not(feature = "std"))] let disp = path; _ = writeln!(out, "{}:{}:{}: {}", disp, line, col, msg); let line = &file[file[..pos as usize].rfind('\n').map_or(0, |i| i + 1) ..file[pos as usize..].find('\n').unwrap_or(file.len()) + pos as usize]; col += line.matches('\t').count() * 3; _ = writeln!(out, "{}", line.replace("\t", " ")); _ = writeln!(out, "{}^", " ".repeat(col - 1)); todo!() } #[derive(PartialEq, Eq, Hash)] pub struct Ast(NonNull>); impl Ast { pub fn new(path: &str, content: String, loader: Loader) -> Self { Self(AstInner::new(content, path, loader)) } pub fn exprs(&self) -> &[Expr] { unsafe { &*self.inner().exprs } } fn inner(&self) -> &AstInner<[Symbol]> { unsafe { self.0.as_ref() } } pub fn find_decl(&self, id: Result) -> Option<(&Expr, Ident)> { self.exprs().iter().find_map(|expr| match expr { Expr::BinOp { left, op: TokenKind::Decl, .. } => left.declares(id).map(|id| (expr, id)), _ => None, }) } pub fn ident_str(&self, ident: Ident) -> &str { &self.file[ident::range(ident)] } } impl Default for Ast { fn default() -> Self { Self(AstInner::new(String::new(), "", &no_loader)) } } #[derive(Clone, Copy)] #[repr(packed)] pub struct ExprRef(NonNull>); impl ExprRef { pub fn new(expr: &Expr) -> Self { Self(NonNull::from(expr).cast()) } pub fn get<'a>(&self, from: &'a Ast) -> Option<&'a Expr<'a>> { ArenaChunk::contains(from.mem.base, self.0.as_ptr() as _).then_some(())?; // SAFETY: the pointer is or was a valid reference in the past, if it points within one of // arenas regions, it muts be walid, since arena does not give invalid pointers to its // allocations Some(unsafe { { self.0 }.as_ref() }) } pub fn dangling() -> Self { Self(NonNull::dangling()) } } impl Default for ExprRef { fn default() -> Self { Self::dangling() } } unsafe impl Send for Ast {} unsafe impl Sync for Ast {} impl Clone for Ast { fn clone(&self) -> Self { unsafe { self.0.as_ref() }.ref_count.fetch_add(1, core::sync::atomic::Ordering::Relaxed); Self(self.0) } } impl Drop for Ast { fn drop(&mut self) { let inner = unsafe { self.0.as_ref() }; if inner.ref_count.fetch_sub(1, core::sync::atomic::Ordering::Relaxed) == 1 { let layout = AstInner::layout(inner.symbols.len()); unsafe { alloc::alloc::dealloc(self.0.as_ptr() as _, layout); } } } } impl Deref for Ast { type Target = AstInner<[Symbol]>; fn deref(&self) -> &Self::Target { self.inner() } } #[derive(Default)] pub struct Arena<'a> { chunk: UnsafeCell, ph: core::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 { core::str::from_utf8_unchecked(ptr) } } pub fn alloc(&self, expr: Expr<'a>) -> &'a Expr<'a> { let align = core::mem::align_of::>(); let size = expr.used_bytes(); let layout = unsafe { core::alloc::Layout::from_size_align_unchecked(size, align) }; let ptr = self.alloc_low(layout); unsafe { ptr.cast::().copy_from_nonoverlapping(NonNull::from(&expr).cast(), size / 8) }; unsafe { ptr.cast::>().as_ref() } } pub fn alloc_slice(&self, slice: &[T]) -> &'a [T] { if slice.is_empty() || core::mem::size_of::() == 0 { return &mut []; } let layout = core::alloc::Layout::array::(slice.len()).unwrap(); let ptr = self.alloc_low(layout); unsafe { ptr.as_ptr().cast::().copy_from_nonoverlapping(slice.as_ptr(), slice.len()) }; unsafe { core::slice::from_raw_parts(ptr.as_ptr() as _, slice.len()) } } fn alloc_low(&self, layout: core::alloc::Layout) -> NonNull { assert!(layout.align() <= ArenaChunk::ALIGN); assert!(layout.size() <= ArenaChunk::CHUNK_SIZE); let chunk = unsafe { &mut *self.chunk.get() }; if let Some(ptr) = chunk.alloc(layout) { return ptr; } unsafe { core::ptr::write(chunk, ArenaChunk::new(chunk.base)); } chunk.alloc(layout).unwrap() } } struct ArenaChunk { base: *mut u8, end: *mut u8, } impl Default for ArenaChunk { fn default() -> Self { Self { base: core::ptr::null_mut(), end: core::ptr::null_mut() } } } impl ArenaChunk { const ALIGN: usize = core::mem::align_of::(); const CHUNK_SIZE: usize = 1 << 16; const LAYOUT: core::alloc::Layout = unsafe { core::alloc::Layout::from_size_align_unchecked(Self::CHUNK_SIZE, Self::ALIGN) }; const NEXT_OFFSET: usize = Self::CHUNK_SIZE - core::mem::size_of::<*mut u8>(); fn new(next: *mut u8) -> Self { let base = unsafe { alloc::alloc::alloc(Self::LAYOUT) }; let end = unsafe { base.add(Self::NEXT_OFFSET) }; Self::set_next(base, next); Self { base, end } } fn set_next(curr: *mut u8, next: *mut u8) { unsafe { core::ptr::write(curr.add(Self::NEXT_OFFSET) as *mut _, next) }; } fn next(curr: *mut u8) -> *mut u8 { unsafe { core::ptr::read(curr.add(Self::NEXT_OFFSET) as *mut _) } } fn alloc(&mut self, layout: core::alloc::Layout) -> Option> { 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)) } } fn contains(base: *mut u8, arg: *mut u8) -> bool { !base.is_null() && ((unsafe { base.add(Self::CHUNK_SIZE) } > arg && base <= arg) || Self::contains(Self::next(base), arg)) } } impl Drop for ArenaChunk { fn drop(&mut self) { //log::inf!( // "dropping chunk of size: {}", // (Self::LAYOUT.size() - (self.end as usize - self.base as usize)) // * !self.end.is_null() as usize //); let mut current = self.base; while !current.is_null() { let next = Self::next(current); unsafe { alloc::alloc::dealloc(current, Self::LAYOUT) }; current = next; //log::dbg!("deallocating full chunk"); } } } #[cfg(test)] pub mod test { use {alloc::borrow::ToOwned, std::string::String}; pub fn format(ident: &str, input: &str) { let ast = super::Ast::new(ident, input.to_owned(), &|_, _| Ok(0)); let mut output = String::new(); crate::fs::format_to(&ast, input, &mut output).unwrap(); let input_path = format!("formatter_{ident}.expected"); let output_path = format!("formatter_{ident}.actual"); std::fs::write(&input_path, input).unwrap(); std::fs::write(&output_path, output).unwrap(); let success = std::process::Command::new("diff") .arg("-u") .arg("--color") .arg(&input_path) .arg(&output_path) .status() .unwrap() .success(); std::fs::remove_file(&input_path).unwrap(); std::fs::remove_file(&output_path).unwrap(); assert!(success, "test failed"); } macro_rules! test { ($($name:ident => $input:expr;)*) => {$( #[test] fn $name() { format(stringify!($name), $input); } )*}; } test! { comments => "// comment\n// comment\n\n// comment\n\n\ /* comment */\n/* comment */\n\n/* comment */"; some_ordinary_code => "loft := fn(): int return loft(1, 2, 3)"; some_arg_per_line_code => "loft := fn(): int return loft(\ \n\t1,\n\t2,\n\t3,\n)"; some_ordinary_struct => "loft := fn(): int return loft.{a: 1, b: 2}"; some_ordinary_fild_per_lin_struct => "loft := fn(): int return loft.{\ \n\ta: 1,\n\tb: 2,\n}"; code_block => "loft := fn(): int {\n\tloft()\n\treturn 1\n}"; } }