// ASG IR template parsing // // Copyright (C) 2014-2023 Ryan Specialty, 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 . //! AIR template parser. //! //! See the [parent module](super) for more information. use super::{ super::{graph::object::Tpl, Asg, AsgError, ObjectIndex}, expr::AirExprAggregateStoreDangling, ir::AirTemplatable, AirAggregateCtx, AirExprAggregate, }; use crate::{ asg::graph::object::{Meta, ObjectIndexRelTo}, diagnose::Annotate, diagnostic_todo, fmt::{DisplayWrapper, TtQuote}, parse::prelude::*, span::Span, }; /// Template parser and token aggregator. /// /// A template consists of /// /// - Metadata about the template, /// including its parameters; and /// - A collection of [`AirTemplatable`] tokens representing the body of /// the template that will be expanded into the application site when /// the template is applied. /// /// This contains an embedded [`AirExprAggregate`] parser for handling /// expressions just the same as [`super::AirAggregate`] does with /// packages. #[derive(Debug, PartialEq)] pub enum AirTplAggregate { /// Ready for a template, /// defined as part of the given package. /// /// This state also includes the template header; /// unlike NIR, /// AIR has no restrictions on when template header tokens are /// provided, /// which simplifies AIR generation. Ready, /// Toplevel template context. /// /// Conceptually, /// tokens that are received in this state are interpreted as directly /// applying to the template itself, /// or creating an object directly owned by the template. Toplevel(TplState, AirExprAggregateStoreDangling), /// Defining a template metavariable. TplMeta( TplState, AirExprAggregateStoreDangling, ObjectIndex, ), /// Aggregating tokens into a template. TplExpr(TplState, AirExprAggregateStoreDangling), } impl Display for AirTplAggregate { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { match self { Self::Ready => write!(f, "ready for template definition"), Self::Toplevel(tpl, expr) | Self::TplExpr(tpl, expr) => { write!(f, "building {tpl} with {expr}") } Self::TplMeta(tpl, _, _) => { write!(f, "building {tpl} metavariable") } } } } /// The current reachability status of the template. #[derive(Debug, PartialEq, Eq, Clone, Copy)] pub enum TplState { /// Template is dangling and cannot be referenced by anything else. Dangling(ObjectIndex), /// Template is anonymous and is not reachable by an identifier, /// but is reachable in the current context. AnonymousReachable(ObjectIndex), /// Template is reachable via an identifier. /// /// This uses an [`SPair`] as evidence for that assertion rather than an /// [`ObjectIndex`] so that it provides useful output via [`Display`] /// in parser traces. Identified(ObjectIndex, SPair), } impl TplState { fn oi(&self) -> ObjectIndex { match self { TplState::Dangling(oi) | TplState::AnonymousReachable(oi) | TplState::Identified(oi, _) => *oi, } } fn identify(self, id: SPair) -> Self { Self::Identified(self.oi(), id) } fn anonymous_reachable(self) -> Self { Self::AnonymousReachable(self.oi()) } /// Attempt to complete a template definition. /// /// If `self` is [`Self::Dangling`], /// then an [`AsgError::DanglingTpl`] will be returned. /// /// This updates the span of the template to encompass the entire /// definition, /// even if an error occurs. fn close(self, asg: &mut Asg, close_span: Span) -> Result<(), AsgError> { let oi = self.oi().close(asg, close_span); match self { Self::Dangling(_) => { Err(AsgError::DanglingTpl(oi.resolve(asg).span())) } Self::AnonymousReachable(..) | Self::Identified(..) => Ok(()), } } } impl Display for TplState { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { match self { TplState::Dangling(_) => write!(f, "anonymous dangling template"), TplState::AnonymousReachable(_) => { write!(f, "anonymous reachable template") } TplState::Identified(_, id) => { write!(f, "identified template {}", TtQuote::wrap(id)) } } } } impl ParseState for AirTplAggregate { type Token = AirTemplatable; type Object = (); type Error = AsgError; type Context = AirAggregateCtx; fn parse_token( self, tok: Self::Token, ctx: &mut Self::Context, ) -> TransitionResult { use super::ir::{AirBind::*, AirTpl::*}; use AirTemplatable::*; use AirTplAggregate::*; match (self, tok) { (Ready, AirTpl(TplStart(span))) => { let oi_tpl = ctx.asg_mut().create(Tpl::new(span)); Transition(Toplevel( TplState::Dangling(oi_tpl), AirExprAggregate::new_in(oi_tpl), )) .incomplete() } (Toplevel(..), AirTpl(TplStart(span))) => diagnostic_todo!( vec![span.note("for this template")], "nested tpl open" ), (Toplevel(tpl, expr), AirBind(BindIdent(id))) => { let oi_root = ctx.stack_mut().rooting_oi().expect("TODO"); let asg = ctx.asg_mut(); asg.lookup_global_or_missing(id) .bind_definition(asg, id, tpl.oi()) .map(|oi_ident| oi_root.defines(asg, oi_ident)) .map(|_| ()) .transition(Toplevel(tpl.identify(id), expr)) } (Toplevel(tpl, expr), AirBind(RefIdent(id))) => { tpl.oi().apply_named_tpl(ctx.asg_mut(), id); Transition(Toplevel(tpl, expr)).incomplete() } (Toplevel(tpl, expr), AirTpl(TplMetaStart(span))) => { let oi_meta = ctx.asg_mut().create(Meta::new_required(span)); Transition(TplMeta(tpl, expr, oi_meta)).incomplete() } (TplMeta(tpl, expr, oi_meta), AirTpl(TplMetaEnd(cspan))) => { oi_meta.close(ctx.asg_mut(), cspan); Transition(Toplevel(tpl, expr)).incomplete() } (TplMeta(tpl, expr, oi_meta), AirTpl(TplLexeme(lexeme))) => { Transition(TplMeta( tpl, expr, oi_meta.assign_lexeme(ctx.asg_mut(), lexeme), )) .incomplete() } (TplMeta(tpl, expr, oi_meta), AirBind(BindIdent(name))) => { oi_meta.identify_as_tpl_param(ctx.asg_mut(), tpl.oi(), name); Transition(TplMeta(tpl, expr, oi_meta)).incomplete() } (TplMeta(..), tok @ AirBind(RefIdent(..))) => { diagnostic_todo!( vec![tok.note("this token")], "AirBind in metavar context (param-value)" ) } (TplMeta(..), tok @ AirExpr(..)) => { diagnostic_todo!( vec![tok.note("this token")], "AirExpr in metavar context (e.g. @values@)" ) } ( TplMeta(..), tok @ AirTpl( TplStart(..) | TplMetaStart(..) | TplEnd(..) | TplEndRef(..), ), ) => { diagnostic_todo!(vec![tok.note("this token")], "AirTpl variant") } (Toplevel(..), tok @ AirTpl(TplMetaEnd(..))) => { diagnostic_todo!( vec![tok.note("this token")], "unbalanced meta" ) } (Toplevel(..), tok @ AirTpl(TplLexeme(..))) => { diagnostic_todo!( vec![tok.note("this token")], "err: TplLexeme outside of metavar" ) } (Toplevel(tpl, _expr_done), AirTpl(TplEnd(span))) => { tpl.close(ctx.asg_mut(), span).transition(Ready) } (TplExpr(tpl, expr), AirTpl(TplEnd(span))) => { // TODO: duplicated with AirAggregate if expr.is_accepting(ctx) { tpl.close(ctx.asg_mut(), span).transition(Ready) } else { Transition(TplExpr(tpl, expr)) .err(AsgError::InvalidTplEndContext(span)) } } (Toplevel(tpl, expr_done), AirTpl(TplEndRef(span))) => { let oi_target = ctx.stack_mut().expansion_oi().expect("TODO"); tpl.oi().expand_into(ctx.asg_mut(), oi_target); Transition(Toplevel(tpl.anonymous_reachable(), expr_done)) .incomplete() .with_lookahead(AirTpl(TplEnd(span))) } (TplExpr(tpl, expr_done), AirTpl(TplEndRef(span))) => { let oi_target = ctx.stack_mut().expansion_oi().expect("TODO"); tpl.oi().expand_into(ctx.asg_mut(), oi_target); // TODO: We have to make sure the expression ended first! Transition(TplExpr(tpl.anonymous_reachable(), expr_done)) .incomplete() .with_lookahead(AirTpl(TplEnd(span))) } (Toplevel(tpl, expr), AirExpr(etok)) => { Self::delegate_expr(ctx, tpl, expr, etok) } (TplExpr(tpl, expr), AirExpr(etok)) => { Self::delegate_expr(ctx, tpl, expr, etok) } (TplExpr(tpl, expr), AirBind(etok)) => { Self::delegate_expr(ctx, tpl, expr, etok) } (TplExpr(..), AirTpl(TplStart(span))) => { diagnostic_todo!( vec![span.note("for this token")], "nested template (template-generated template)" ) } ( Ready | TplExpr(..), tok @ AirTpl(TplMetaStart(..) | TplLexeme(..) | TplMetaEnd(..)), ) => { diagnostic_todo!( vec![tok.note("for this token")], "metasyntactic token in non-tpl-toplevel context: {tok:?}" ) } (st @ Ready, AirTpl(TplEnd(span) | TplEndRef(span))) => { Transition(st).err(AsgError::UnbalancedTpl(span)) } (st @ Ready, tok @ (AirExpr(..) | AirBind(..))) => { Transition(st).dead(tok) } } } fn is_accepting(&self, _: &Self::Context) -> bool { matches!(self, Self::Ready) } } impl AirTplAggregate { pub(super) fn new() -> Self { Self::Ready } /// Delegate to the expression parser [`AirExprAggregate`]. fn delegate_expr( asg: &mut ::Context, tpl: TplState, expr: AirExprAggregateStoreDangling, etok: impl Into< as ParseState>::Token>, ) -> TransitionResult { let tok = etok.into(); expr.parse_token(tok, asg).branch_dead::( |expr, ()| Transition(Self::Toplevel(tpl, expr)).incomplete(), |expr, result, ()| { result .map(ParseStatus::reflexivity) .transition(Self::TplExpr(tpl, expr)) }, (), ) } } #[cfg(test)] mod test;