use crate::*; use crate::gen::schema::*; use crate::syntax::block::Item; use crate::syntax::block::escape_string; use crate::syntax::block::escape_bytes; use crate::syntax::block::constructors::*; use preserves::value::AtomClass; use preserves::value::CompoundClass; use preserves::value::NestedValue; use preserves::value::ValueClass; use super::context::{ModuleContext, FunctionContext}; use super::names; use super::types::*; pub fn gen_definition_reader(m: &mut ModuleContext, n: &str, d: &Definition) { m.define_function( n, |mut ctxt| { let mut body = vec![]; match d { Definition::Or { pattern_0, pattern_1, pattern_n } => { let mut ps = vec![&**pattern_0, &**pattern_1]; ps.extend(pattern_n); ctxt.define_atom(&mut body, "_mark", item("r.mark()?")); for NamedAlternative { variant_label: name, pattern: pat } in ps { let fname = seq![ctxt.m.target_prefix(), "read_", names::render_fieldname(n), "_", names::render_fieldname(name)]; let ctorname = item(name![names::render_constructor(n), names::render_constructor(name)]); ctxt.m.define_function( &(n.to_owned() + "::" + name), |mut ctxt| { let mut body = Vec::new(); let dest = pattern_reader(&mut ctxt, pat, false, &mut body); let dest = dest.as_ref().map(String::as_str); construct(&ctxt, ctorname, false, &pattern_type(pat), dest, &mut body); item(seq![ "fn ", fname.clone(), anglebrackets![ "'de", "R: _support::Reader<'de, _Ptr, _Any>"], "(r: &mut R) -> ", "std::result::Result<", names::render_constructor(n), ", _support::ParseError> ", block(body)]) }); body.push(item(seq![ "match ", fname, "(r) { ", "Err(e) if e.is_conformance_error() => r.restore(&_mark)?, ", "result => return result }"])); } body.push(item(seq![ctxt.err_code()])); } Definition::And { pattern_0, pattern_1, pattern_n } => { let mut ps = vec![&**pattern_0, &**pattern_1]; ps.extend(pattern_n); for e in &ps { named_pattern_reader(&mut ctxt, e, false, &mut body); } construct(&ctxt, item(names::render_constructor(n)), true, &record_type(&ps), None, &mut body); } Definition::Pattern(p) => { let dest = pattern_reader(&mut ctxt, p, false, &mut body); let dest = dest.as_ref().map(String::as_str); construct(&ctxt, item(names::render_constructor(n)), true, &pattern_type(p), dest, &mut body); } } item(seq![ "impl", anglebrackets!["'de", "R: _support::Reader<'de, _Ptr, _Any>"], " ", "_support::Deserialize", anglebrackets!["'de", "_Ptr", "_Any", "R"], " ", "for ", names::render_constructor(n), " ", block![ seq!["fn deserialize(r: &mut R) -> ", "std::result::Result ", block(body)]]]) }); } fn construct( ctxt: &FunctionContext, ctorname: Item, is_struct: bool, ty: &TSimple, dest: Option<&str>, body: &mut Vec, ) { match ty { TSimple::Field(TField::Unit) => body.push(item(seq!["Ok(", ctorname, ")"])), TSimple::Field(fieldty) => body.push(item(seq!["Ok(", ctorname, parens![store_wrap(is_struct, fieldty, dest.unwrap())], ")"])), TSimple::Record(_) => body.push(item(seq!["Ok(", ctorname, " ", braces( ctxt.captures.iter().map( |c| item(seq![c.field_name.clone(), ": ", store_wrap(is_struct, &c.ty, &c.source_expr)])).collect()), ")"])), } } fn store_wrap(is_struct: bool, ty: &TField, expr: &str) -> String { match ty { TField::Unit | TField::Array(_) | TField::Set(_) | TField::Map(_, _) => expr.to_owned(), TField::Ref(_) => if is_struct { expr.to_owned() } else { format!("std::boxed::Box::new({})", expr) }, TField::Base(_) => expr.to_owned(), } } fn group_by(mut items: Vec, mut key: Key) -> Vec<(K, Vec)> where K: Ord + Clone, Key: FnMut(&T) -> K, { let mut result = Vec::new(); let mut current_key: Option = None; let mut buf = Vec::new(); items.sort_by(|a, b| key(a).cmp(&key(b))); for (k, v) in items.into_iter().map(|t| (key(&t), t)) { match current_key.cmp(&Some(k.clone())) { std::cmp::Ordering::Equal => (), std::cmp::Ordering::Less | std::cmp::Ordering::Greater => { if let Some(k) = current_key { result.push((k, std::mem::take(&mut buf))); } current_key = Some(k); } } buf.push(v) } if let Some(k) = current_key { result.push((k.clone(), std::mem::take(&mut buf))); } result } type LiteralContinuation = Box) -> ()>; type LiteralCases = Vec<(_Any, LiteralContinuation)>; type LiteralSeqCases = Vec<(Vec<_Any>, LiteralContinuation)>; fn read_expected_literal_seqs( ctxt: &mut FunctionContext, body: &mut Vec, possibilities: LiteralSeqCases, ) { let grouped = group_by(possibilities, |(vs, _f)| if vs.is_empty() { None } else { Some(vs[0].clone()) }); let mut cases = Vec::new(); let mut nested: LiteralCases = Vec::new(); for (head, group) in grouped.into_iter() { match head { None => { let mut inner = Vec::new(); group.into_iter().next().unwrap().1(ctxt, &mut inner); cases.push(item(seq!["preserves::value::Token::End => ", block(inner)])); }, Some(h) => { let tails = group.into_iter().map(|(mut vs, f)| { vs.remove(0); (vs, f) }).collect(); nested.push((h, Box::new(|ctxt: &mut FunctionContext, b: &'_ mut Vec| { read_expected_literal_seqs(ctxt, b, tails) }))); } } } cases.extend(read_expected_literals_cases(ctxt, nested)); body.push(item(seq!["match r.next_token(false)? ", block(cases)])); } fn read_expected_literals_cases( ctxt: &mut FunctionContext, possibilities: LiteralCases, ) -> Vec { let grouped = group_by(possibilities, |(v, _f)| v.value_class()); let mut cases = grouped.into_iter().map(|(n, group)| { match n { ValueClass::Atomic(cls) => { let mut subcases = Vec::new(); for p in group { let mut inner = Vec::new(); p.1(ctxt, &mut inner); subcases.push(item(seq![ format!("preserves::value::Value::{:?}(w)", cls), match cls { AtomClass::Boolean => match p.0.value().to_boolean().unwrap() { true => " if *w".to_owned(), false => " if !*w".to_owned(), }, AtomClass::Float | AtomClass::Double => format!(" if w.0 == {:?}", p.0), AtomClass::SignedInteger => format!(" if *w == ({:?}).into()", p.0), AtomClass::String => format!(" if w == {}", escape_string(p.0.value().to_string().unwrap())), AtomClass::ByteString => format!(" if w == {}", escape_bytes(p.0.value().to_bytestring().unwrap())), AtomClass::Symbol => format!(" if w == {}", escape_string(p.0.value().to_symbol().unwrap())), }, " => ", block(inner)])); } subcases.push(item(seq!["_ => return ", ctxt.err_code(), "?,"])); item(seq!["preserves::value::Token::Atom(v) => match v.value() ", block(subcases)]) } ValueClass::Compound(CompoundClass::Record) => { let mut subcases = Vec::new(); read_expected_literal_seqs(ctxt, &mut subcases, group.into_iter().map(|(v, f)| { let r = v.value().to_record(None).unwrap(); (r.0.clone(), f) }).collect()); item(seq![ "preserves::value::Token::Compound(preserves::value::CompoundClass::Record) => ", block(subcases)]) } ValueClass::Compound(CompoundClass::Sequence) => { let mut subcases = Vec::new(); read_expected_literal_seqs(ctxt, &mut subcases, group.into_iter().map(|(v, f)| { let s = v.value().to_sequence().unwrap().clone(); (s, f) }).collect()); item(seq![ "preserves::value::Token::Compound(preserves::value::CompoundClass::Sequence) => ", block(subcases)]) } ValueClass::Compound(CompoundClass::Set) => { panic!("Sets in literal constants in Schema not yet supported"); } ValueClass::Compound(CompoundClass::Dictionary) => { panic!("Dictionaries in literal constants in Schema not yet supported"); } ValueClass::Embedded => { panic!("Embedded values in literal constants in Schema not yet supported"); } } }).collect::>(); cases.push(item(seq!["_ => return ", ctxt.err_code(), "?,"])); cases } fn read_expected_literals( ctxt: &mut FunctionContext, body: &mut Vec, possibilities: LiteralCases, ) { let cases = read_expected_literals_cases(ctxt, possibilities); body.push(item(seq!["match r.next_token(false)? ", block(cases)])); } fn simple_pattern_reader( ctxt: &mut FunctionContext, p: &SimplePattern, in_sequence: bool, body: &mut Vec, ) -> String { let dest = ctxt.gentempname(); match p { SimplePattern::Any => { ctxt.define_atom(body, &dest, item("r.demand_next(false)?")); dest }, SimplePattern::Atom { atom_kind: k } => { let reader = match &**k { AtomKind::Boolean => "r.next_boolean()?", AtomKind::Float => "r.next_float()?", AtomKind::Double => "r.next_double()?", AtomKind::SignedInteger => "r.next_signedinteger()?", AtomKind::String => "r.next_str()?.into_owned()", AtomKind::ByteString => "r.next_bytestring()?.into_owned()", AtomKind::Symbol => "r.next_symbol()?.into_owned()", }; ctxt.define_atom(body, &dest, item(reader.to_owned())); dest }, SimplePattern::Embedded { .. } => { body.push(item("r.open_embedded()?;")); ctxt.define_atom(body, &dest, item("r.demand_next(false)?.value().to_embedded()?.clone()")); body.push(item("r.close_embedded()?;")); dest }, SimplePattern::Lit { value } => { let f = Box::new(|_ctxt: &mut FunctionContext, _: &'_ mut Vec| ()); read_expected_literals(ctxt, body, vec![(value.clone(), f)]); ctxt.define_atom(body, &dest, item("()")); dest }, SimplePattern::Seqof { pattern } => { if !in_sequence { body.push(item("r.open_sequence()?;")); } let mut inner = Vec::new(); let item_dest = simple_pattern_reader(ctxt, pattern, false, &mut inner); inner.push(item(seq![dest.to_owned(), ".push(", store_wrap(true, &field_type(pattern), &item_dest), ");"])); ctxt.declare_compound(body, &dest, item("std::vec::Vec::new()")); body.push(item(seq!["while !(r.close_compound()?) ", block(inner)])); dest }, SimplePattern::Setof { pattern } => { body.push(item("r.open_set()?;")); let mut inner = Vec::new(); let item_dest = simple_pattern_reader(ctxt, pattern, false, &mut inner); inner.push(item(seq![dest.to_owned(), ".insert(", store_wrap(true, &field_type(pattern), &item_dest), ");"])); ctxt.declare_compound(body, &dest, item("preserves::value::Set::new()")); body.push(item(seq!["while !(r.close_compound()?) ", block(inner)])); dest }, SimplePattern::Dictof { key, value } => { body.push(item("r.open_dictionary()?;")); let mut inner = Vec::new(); let key_dest = simple_pattern_reader(ctxt, key, false, &mut inner); let value_dest = simple_pattern_reader(ctxt, value, false, &mut inner); inner.push(item(seq![ dest.to_owned(), ".insert(", store_wrap(true, &field_type(key), &key_dest), ", ", store_wrap(true, &field_type(value), &value_dest), ");"])); ctxt.declare_compound(body, &dest, item("preserves::value::Map::new()")); body.push(item(seq!["while !(r.close_compound()?) ", block(inner)])); dest }, SimplePattern::Ref(r) => { let tf = name![ctxt.m.render_ref(&**r), "deserialize"]; ctxt.define_atom(body, &dest, item(seq![tf, "(r)?"])); dest }, } } fn named_pattern_reader( ctxt: &mut FunctionContext, p: &NamedPattern, in_sequence: bool, body: &mut Vec, ) { match p { NamedPattern::Anonymous(p) => { pattern_reader(ctxt, p, in_sequence, body); }, NamedPattern::Named(b) => { let Binding { name, pattern} = &**b; let dest = simple_pattern_reader(ctxt, pattern, in_sequence, body); let capture_ty = field_type(pattern); ctxt.capture(names::render_fieldname(name), capture_ty, dest); } } } fn pattern_reader( ctxt: &mut FunctionContext, p: &Pattern, in_sequence: bool, body: &mut Vec, ) -> Option { match p { Pattern::SimplePattern(s) => Some(simple_pattern_reader(ctxt, s, in_sequence, body)), Pattern::CompoundPattern(c) => { match &**c { CompoundPattern::Rec { label, fields } => { body.push(item("r.open_record(None)?;")); named_pattern_reader(ctxt, &**label, false, body); named_pattern_reader(ctxt, &**fields, true, body); }, CompoundPattern::Tuple { patterns } => { if !in_sequence { body.push(item("r.open_sequence()?;")); } for p in patterns { named_pattern_reader(ctxt, p, false, body); } body.push(item("r.ensure_complete()?;")); }, CompoundPattern::TuplePrefix { fixed, variable } => { if !in_sequence { body.push(item("r.open_sequence()?;")); } for p in fixed { named_pattern_reader(ctxt, p, false, body); } named_pattern_reader(ctxt, &promote(variable), true, body); }, CompoundPattern::Dict { entries } => { body.push(item("r.open_dictionary()?;")); let mut inner = Vec::new(); body.extend(ctxt.with_indefinite_mode(|ctxt| { read_expected_literals(ctxt, &mut inner, entries.0.iter().map(move |(key_lit, value_pat)| { let value_pat = value_pat.clone(); let f: LiteralContinuation = Box::new( move |ctxt: &mut FunctionContext, innerinner: &mut Vec| { named_pattern_reader(ctxt, &promote(&value_pat), false, innerinner); innerinner.push(item("continue;")); }); (key_lit.clone(), f) }).collect()); })); body.push(item(seq!["while !(r.close_compound()?) ", block(inner)])); } } None }, } }