// ASG IR // // Copyright (C) 2014-2022 Ryan Specialty Group, LLC. // // This file is part of TAME. // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . use super::{ Asg, AsgError, ExprOp, FragmentText, IdentKind, ObjectIndex, Source, }; use crate::{ asg::Expr, f::Functor, fmt::{DisplayWrapper, TtQuote}, parse::{self, util::SPair, ParseState, Token, Transition, Transitionable}, span::{Span, UNKNOWN_SPAN}, sym::SymbolId, }; use std::fmt::{Debug, Display}; ///! Intermediate representation for construction of the ///! [abstract semantic graph (ASG)](super) (AIR). ///! ///! AIR serves as an abstraction layer between higher-level parsers and the ///! aggregate ASG. ///! It allows parsers to operate as a raw stream of data without having to ///! worry about ownership of or references to the ASG, ///! and allows for multiple such parsers to be joined. ///! ///! AIR is _not_ intended to replace the API of the ASG---it ///! is intended as a termination point for the parsing pipeline, ///! and as such implements a subset of the ASG's API that is suitable ///! for aggregating raw data from source and object files. ///! Given that it does so little and is so close to the [`Asg`] API, ///! one might say that the abstraction is as light as air, ///! but that would surely result in face-palming and so we're not going ///! air such cringeworthy dad jokes here. pub type IdentSym = SymbolId; pub type DepSym = SymbolId; /// AIR token. /// /// These tokens mimic a public API for the ASG, /// and allow parsers to be completely decoupled from the ASG object that /// they will eventually aggregate data into. /// /// This IR is not intended to perform sophisticated manipulation of the /// ASG---it /// is intended to perform initial aggregation as part of a parsing /// phase, /// populating the ASG with the raw data that that will be /// subsequently analyzed and rewritten. #[derive(Debug, PartialEq)] pub enum Air { /// Placeholder token for objects that do not yet have a proper place on /// the ASG. Todo, /// Create a new [`Expr`] on the graph and place it atop of the /// expression stack. /// /// If there was previously an expression ρ atop of the stack before /// this operation, /// a reference to this new expression will be automatically added /// to ρ, /// treating it as a child expression. /// Otherwise, /// the expression will be dangling unless bound to an identifier, /// which will produce an error. /// /// All expressions have an associated [`ExprOp`] that determines how /// the expression will be evaluated. /// An expression is associated with a source location, /// but is anonymous unless assigned an identifier using /// [`Air::IdentExpr`]. /// /// Expressions are composed of references to other expressions. OpenExpr(ExprOp, Span), /// Complete the expression atop of the expression stack and pop it from /// the stack. CloseExpr(Span), /// Assign an identifier to the expression atop of the expression stack. /// /// An expression may be bound to multiple identifiers, /// but an identifier can only be bound to a single expression. /// Binding an identifier will declare it. IdentExpr(SPair), /// Declare a resolved identifier. IdentDecl(SPair, IdentKind, Source), /// Declare an external identifier that must be resolved before linking. IdentExternDecl(SPair, IdentKind, Source), /// Declare that an identifier depends on another for its definition. /// /// The first identifier will depend on the second /// (`0 -> 1`). /// The spans associated with each [`SPair`] will be used /// if the respective identifier has not yet been defined. IdentDep(SPair, SPair), /// Associate a code fragment with an identifier. /// /// A fragment does not have an associated span because it is /// conceptually associated with all the spans from which it is /// derived; /// the format of the object file will change in the future to /// retain this information. IdentFragment(SPair, FragmentText), /// Root an identifier at the request of some entity at the associated /// span of the [`SPair`]. /// /// Rooting is caused by _something_, /// and the span is intended to aid in tracking down why rooting /// occurred. IdentRoot(SPair), } impl Token for Air { fn ir_name() -> &'static str { "AIR" } fn span(&self) -> crate::span::Span { use Air::*; match self { Todo => UNKNOWN_SPAN, OpenExpr(_, span) | CloseExpr(span) => *span, IdentExpr(spair) | IdentDecl(spair, _, _) | IdentExternDecl(spair, _, _) | IdentDep(spair, _) | IdentFragment(spair, _) | IdentRoot(spair) => spair.span(), } } } impl parse::Object for Air {} impl Display for Air { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { use Air::*; match self { Todo => write!(f, "TODO"), OpenExpr(op, _) => write!(f, "open {op} expression"), CloseExpr(_) => write!(f, "close expression"), IdentExpr(id) => { write!(f, "identify expression as {}", TtQuote::wrap(id)) } IdentDecl(spair, _, _) => { write!(f, "declaration of identifier {}", TtQuote::wrap(spair)) } IdentExternDecl(spair, _, _) => { write!( f, "declaration of external identifier {}", TtQuote::wrap(spair) ) } IdentDep(isym, dsym) => write!( f, // TODO: Use list wrapper "declaration of identifier dependency `{isym} -> {dsym}`" ), IdentFragment(depsym, _text) => { write!(f, "identifier {}` fragment text", TtQuote::wrap(depsym)) } IdentRoot(sym) => { write!(f, "rooting of identifier {}", TtQuote::wrap(sym)) } } } } /// Stack of held expressions, /// with the root expression at the bottom of the stack. /// /// Expression [`ObjectIndex`]es are pushed onto this stack when /// parsing a subexpression, /// and are popped when the subexpression terminates. /// The active expression is _not_ stored on this stack to avoid unnecessary /// indirection. /// /// Despite the immutable interface, /// this does modify the inner [`Vec`] in-place; /// it does not reallocate unless its capacity has been reached. /// /// Unlike other parts of the system, /// this is heap-allocated, /// but should be very cache-friendly. /// This reason for heap allocation is that this is explicitly /// _unbounded_—systems like code generators ought to be able to output /// expressions in a tacit style without worrying about arbitrary limits. /// It is worth noting that the other parts of the system using /// stack-allocated data structures is less about performance and more /// about the simplicity afforded by keeping allocators out of the picture. /// We'll address performance issues if they appear during profiling. /// /// Another benefit of using [`Vec`] here is that Rust is able to properly /// optimize away `memcpy`s for it, /// rather than having to utilize the parser's mutable context. /// Further, /// the ASG is heap-allocated, /// so we're not avoiding the heap anyway. /// /// The interface is modeled after [Haskell's `Stack`][haskell-stack], /// with a slight variation for [`Self::pop`] so that we can avoid /// reallocation after a stack is used up, /// which is frequent. /// /// [haskell-stack]: https://hackage.haskell.org/package/Stack/docs/Data-Stack.html /// /// The stack states [`Dormant`] and [`Active`] selectively provide /// different APIs to enforce certain invariants, /// as an alternative to re-allocating an inner [`Vec`] each time a new /// root expression is encountered. #[derive(Debug, PartialEq, Eq)] pub struct ExprStack(Vec>, S); /// Expression stack is not in use and must be empty; /// no ongoing expression parsing. #[derive(Debug, PartialEq, Eq)] pub struct Dormant; /// Expression stack is in use as part of an expression parse. #[derive(Debug, PartialEq, Eq)] pub struct Active(StackEdge); #[derive(Debug, PartialEq, Eq)] pub enum StackEdge { /// Root expression is yet not reachable from any other object. /// /// Dangling expressions are expected to transition into /// [`Self::Reachable`] after being bound to an identifier. /// Closing a dangling expression will result in a /// [`AsgError::DanglingExpr`]. /// /// Binding a sub-expression does not bind the root of the stack, /// since sub-expressions cannot reference their parent; /// a stack is dangling until its root expression has been bound to /// an identifier. Dangling, /// Root expression is reachable from another object. /// /// The associated [`SPair`] serves as _evidence_ of this assertion. Reachable(SPair), } impl Display for StackEdge { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { match self { Self::Dangling => write!(f, "dangling"), Self::Reachable(ident) => write!(f, "reachable (by {ident})"), } } } impl ExprStack { /// Mark the stack as active, /// exposing its stack API for use. /// /// [`ExprStack::done`] will return the stack to a dormant state. fn activate(self) -> ExprStack { let Self(stack, _) = self; ExprStack(stack, Active(StackEdge::Dangling)) } } impl ExprStack { fn push(self, item: ObjectIndex) -> Self { let Self(mut stack, s) = self; stack.push(item); Self(stack, s) } /// Attempt to remove an item from the stack, /// returning a new stack and the item, /// if any. /// /// This returns a new [`Self`] even if it is empty so that it can be /// reused without having to reallocate. fn pop(self) -> (Self, Option>) { let Self(mut stack, s) = self; let oi = stack.pop(); (Self(stack, s), oi) } /// Whether the stack is dangling. fn is_dangling(&self) -> bool { matches!(self, Self(_, Active(StackEdge::Dangling))) } /// Mark stack as reachable if processing the root expression. /// /// `ident` is admitted as evidence of reachability, /// both for debugging and for making it more difficult to /// misuse this API. /// If the stack is already reachable, /// the previous identifier takes precedence. /// /// If not parsing the root expression /// (if the stack is non-empty), /// this returns `self` unchanged. fn reachable_by(self, ident: SPair) -> Self { match self { Self(stack, Active(StackEdge::Dangling)) if stack.is_empty() => { Self(stack, Active(StackEdge::Reachable(ident))) } _ => self, } } /// Mark the stack as dormant, /// hiding its stack API and ensuring that its state is properly reset /// for the next root expression. /// /// [`ExprStack::activate`] will re-activate the stack for use. fn done(self) -> ExprStack { let Self(stack, _) = self; // TODO: error if non-empty stack (unclosed expr) if !stack.is_empty() { todo!("ExprStack::done(): error on non-empty stack") } ExprStack(stack, Dormant) } } impl Default for ExprStack { fn default() -> Self { // TODO: 16 is a generous guess that is very unlikely to be exceeded // in practice at the time of writing, // even with template expansion, // but let's develop an informed heuristic. // Note that this is very unlikely to make a difference; // I just don't like using numbers without data to back them up. Self(Vec::with_capacity(16), Dormant) } } impl Display for ExprStack { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { let Self(stack, _) = self; write!(f, "dormant expression stack of size {}", stack.capacity()) } } impl Display for ExprStack { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { let Self(stack, Active(edge_st)) = self; write!( f, "active {edge_st} expression stack of length {} and size {}", stack.len(), stack.capacity() ) } } /// AIR parser state. #[derive(Debug, PartialEq, Eq)] pub enum AirAggregate { /// Parser is not currently performing any work. Empty(ExprStack), /// Building an expression. /// /// Expressions may be nested arbitrarily deeply. BuildingExpr(ExprStack, ObjectIndex), } impl Default for AirAggregate { fn default() -> Self { Self::Empty(ExprStack::default()) } } impl Display for AirAggregate { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { use AirAggregate::*; match self { Empty(es) => write!(f, "awaiting AIR input for ASG with {es}"), BuildingExpr(es, _) => { write!(f, "building expression with {es}") } } } } impl ParseState for AirAggregate { type Token = Air; type Object = (); type Error = AsgError; /// Destination [`Asg`] that this parser lowers into. /// /// This ASG will be yielded by [`parse::Parser::finalize`]. type Context = Asg; fn parse_token( self, tok: Self::Token, asg: &mut Self::Context, ) -> crate::parse::TransitionResult { use Air::*; use AirAggregate::*; match (self, tok) { (st, Todo) => Transition(st).incomplete(), (Empty(es), OpenExpr(op, span)) => { let oi = asg.create(Expr::new(op, span)); Transition(BuildingExpr(es.activate(), oi)).incomplete() } (BuildingExpr(es, poi), OpenExpr(op, span)) => { let oi = asg.create(Expr::new(op, span)); Transition(BuildingExpr(es.push(poi), oi)).incomplete() } (Empty(_), CloseExpr(_)) => todo!("no matching expr to end"), (BuildingExpr(es, oi), CloseExpr(end)) => { let start: Span = oi.into(); let _ = asg.mut_map_obj::(oi, |expr| { expr.map(|span| span.merge(end).unwrap_or(span)) }); match es.pop() { (es, Some(poi)) => { Transition(BuildingExpr(es, poi)).incomplete() } (es, None) => { let dangling = es.is_dangling(); let st = Empty(es.done()); if dangling { Transition(st).err(AsgError::DanglingExpr( start.merge(end).unwrap_or(start), )) } else { Transition(st).incomplete() } } } } (Empty(_), IdentExpr(_)) => todo!("cannot bind ident to nothing"), (BuildingExpr(es, oi), IdentExpr(id)) => { // TODO: error on existing ident let identi = asg.lookup_or_missing(id); asg.add_dep(identi, oi); Transition(BuildingExpr(es.reachable_by(id), oi)).incomplete() } (st @ Empty(_), IdentDecl(name, kind, src)) => { asg.declare(name, kind, src).map(|_| ()).transition(st) } (st @ Empty(_), IdentExternDecl(name, kind, src)) => asg .declare_extern(name, kind, src) .map(|_| ()) .transition(st), (st @ Empty(_), IdentDep(sym, dep)) => { asg.add_dep_lookup(sym, dep); Transition(st).incomplete() } (st @ Empty(_), IdentFragment(sym, text)) => { asg.set_fragment(sym, text).map(|_| ()).transition(st) } (st @ Empty(_), IdentRoot(sym)) => { let obj = asg.lookup_or_missing(sym); asg.add_root(obj); Transition(st).incomplete() } ( st, tok @ (IdentDecl(..) | IdentExternDecl(..) | IdentDep(..) | IdentFragment(..) | IdentRoot(..)), ) => todo!("{st:?}, {tok:?}"), } } fn is_accepting(&self, _: &Self::Context) -> bool { matches!(self, Self::Empty(_)) } } #[cfg(test)] mod test;