//! Desugaring syntax sugars. //! //! Syntax sugarをdesugarする //! e.g. Literal parameters, Multi assignment //! 型チェックなどによる検証は行わない use erg_common::fresh::fresh_varname; use erg_common::traits::{Locational, Stream}; use erg_common::Str; use erg_common::{enum_unwrap, get_hash, log, set}; use crate::ast::{ Accessor, Args, Array, ArrayComprehension, ArrayTypeSpec, ArrayWithLength, BinOp, Block, Call, ClassAttr, ClassAttrs, ClassDef, ConstExpr, DataPack, Def, DefBody, DefId, Dict, Dummy, Expr, Identifier, KeyValue, KwArg, Lambda, LambdaSignature, Literal, Methods, MixedRecord, Module, NonDefaultParamSignature, NormalArray, NormalDict, NormalRecord, NormalSet, NormalTuple, ParamPattern, ParamRecordAttr, Params, PatchDef, PosArg, ReDef, Record, RecordAttrOrIdent, RecordAttrs, Set as astSet, SetWithLength, Signature, SubrSignature, Tuple, TupleTypeSpec, TypeAppArgs, TypeBoundSpecs, TypeSpec, TypeSpecWithOp, UnaryOp, VarName, VarPattern, VarRecordAttr, VarSignature, }; use crate::token::{Token, TokenKind, COLON, DOT}; #[derive(Debug, Clone, PartialEq, Eq)] enum BufIndex<'i> { Array(usize), Tuple(usize), Record(&'i Identifier), } #[derive(Debug)] pub struct Desugarer { // _desugared: Set, // var_id: usize, // must be global } impl Desugarer { pub fn new() -> Desugarer { Self { // _desugared: Set::default(), } } pub fn desugar(&mut self, module: Module) -> Module { log!(info "the desugaring process has started."); let module = self.desugar_multiple_pattern_def(module); let module = self.desugar_pattern_in_module(module); let module = Self::desugar_shortened_record(module); let module = Self::desugar_acc(module); log!(info "AST (desugared):\n{module}"); log!(info "the desugaring process has completed."); module } fn desugar_all_chunks(module: Module, desugar: impl Fn(Expr) -> Expr) -> Module { module.into_iter().map(desugar).collect() } fn desugar_args(mut desugar: impl FnMut(Expr) -> Expr, args: Args) -> Args { let (pos_args, var_args, kw_args, paren) = args.deconstruct(); let pos_args = pos_args .into_iter() .map(|arg| PosArg::new(desugar(arg.expr))) .collect(); let var_args = var_args.map(|arg| PosArg::new(desugar(arg.expr))); let kw_args = kw_args .into_iter() .map(|arg| { KwArg::new(arg.keyword, arg.t_spec, desugar(arg.expr)) // TODO: t_spec }) .collect(); Args::new(pos_args, var_args, kw_args, paren) } fn perform_desugar_acc(mut desugar: impl FnMut(Expr) -> Expr, acc: Accessor) -> Accessor { match acc { Accessor::Ident(ident) => Accessor::Ident(ident), Accessor::Attr(attr) => desugar(*attr.obj).attr(attr.ident), Accessor::TupleAttr(tup) => { let obj = desugar(*tup.obj); obj.tuple_attr(tup.index) } Accessor::Subscr(sub) => { let obj = desugar(*sub.obj); let index = desugar(*sub.index); obj.subscr(index, sub.r_sqbr) } Accessor::TypeApp(tapp) => { let obj = desugar(*tapp.obj); let args = Self::desugar_args(desugar, tapp.type_args.args); let type_args = TypeAppArgs::new(tapp.type_args.l_vbar, args, tapp.type_args.r_vbar); obj.type_app(type_args) } } } fn perform_desugar(mut desugar: impl FnMut(Expr) -> Expr, expr: Expr) -> Expr { match expr { Expr::Literal(_) => expr, Expr::Record(record) => match record { Record::Normal(rec) => { let mut new_attrs = vec![]; for attr in rec.attrs { new_attrs.push(enum_unwrap!(desugar(Expr::Def(attr)), Expr::Def)); } Expr::Record(Record::Normal(NormalRecord::new( rec.l_brace, rec.r_brace, RecordAttrs::new(new_attrs), ))) } Record::Mixed(mixed) => { let mut new_attrs = vec![]; for attr in mixed.attrs { match attr { RecordAttrOrIdent::Attr(attr) => { let attr = RecordAttrOrIdent::Attr(enum_unwrap!( desugar(Expr::Def(attr)), Expr::Def )); new_attrs.push(attr); } RecordAttrOrIdent::Ident(ident) => { new_attrs.push(RecordAttrOrIdent::Ident(ident)); } } } Expr::Record(Record::Mixed(MixedRecord::new( mixed.l_brace, mixed.r_brace, new_attrs, ))) } }, Expr::DataPack(pack) => { let class = desugar(*pack.class); let args = enum_unwrap!(desugar(Expr::Record(pack.args)), Expr::Record); Expr::DataPack(DataPack::new(class, pack.connector, args)) } Expr::Array(array) => match array { Array::Normal(arr) => { let (elems, _, _, _) = arr.elems.deconstruct(); let elems = elems .into_iter() .map(|elem| PosArg::new(desugar(elem.expr))) .collect(); let elems = Args::new(elems, None, vec![], None); let arr = NormalArray::new(arr.l_sqbr, arr.r_sqbr, elems); Expr::Array(Array::Normal(arr)) } Array::WithLength(arr) => { let elem = PosArg::new(desugar(arr.elem.expr)); let len = desugar(*arr.len); let arr = ArrayWithLength::new(arr.l_sqbr, arr.r_sqbr, elem, len); Expr::Array(Array::WithLength(arr)) } Array::Comprehension(arr) => { let elem = desugar(*arr.elem); let generators = arr .generators .into_iter() .map(|(ident, gen)| (ident, desugar(gen))) .collect(); let guards = arr.guards.into_iter().map(desugar).collect(); let arr = ArrayComprehension::new(arr.l_sqbr, arr.r_sqbr, elem, generators, guards); Expr::Array(Array::Comprehension(arr)) } }, Expr::Tuple(tuple) => match tuple { Tuple::Normal(tup) => { let (elems, _, _, paren) = tup.elems.deconstruct(); let elems = elems .into_iter() .map(|elem| PosArg::new(desugar(elem.expr))) .collect(); let new_tup = Args::new(elems, None, vec![], paren); let tup = NormalTuple::new(new_tup); Expr::Tuple(Tuple::Normal(tup)) } }, Expr::Set(set) => match set { astSet::Normal(set) => { let (elems, _, _, _) = set.elems.deconstruct(); let elems = elems .into_iter() .map(|elem| PosArg::new(desugar(elem.expr))) .collect(); let elems = Args::new(elems, None, vec![], None); let set = NormalSet::new(set.l_brace, set.r_brace, elems); Expr::Set(astSet::Normal(set)) } astSet::WithLength(set) => { let elem = PosArg::new(desugar(set.elem.expr)); let len = desugar(*set.len); let set = SetWithLength::new(set.l_brace, set.r_brace, elem, len); Expr::Set(astSet::WithLength(set)) } }, Expr::Dict(dict) => match dict { Dict::Normal(dic) => { let new_kvs = dic .kvs .into_iter() .map(|elem| { let key = desugar(elem.key); let value = desugar(elem.value); KeyValue::new(key, value) }) .collect(); let tup = NormalDict::new(dic.l_brace, dic.r_brace, new_kvs); Expr::Dict(Dict::Normal(tup)) } _ => todo!("dict comprehension"), }, Expr::BinOp(binop) => { let mut args = binop.args.into_iter(); let lhs = desugar(*args.next().unwrap()); let rhs = desugar(*args.next().unwrap()); Expr::BinOp(BinOp::new(binop.op, lhs, rhs)) } Expr::UnaryOp(unaryop) => { let mut args = unaryop.args.into_iter(); let expr = desugar(*args.next().unwrap()); Expr::UnaryOp(UnaryOp::new(unaryop.op, expr)) } Expr::Call(call) => { let obj = desugar(*call.obj); let args = Self::desugar_args(desugar, call.args); Expr::Call(Call::new(obj, call.attr_name, args)) } Expr::Def(def) => { let mut chunks = vec![]; for chunk in def.body.block.into_iter() { chunks.push(desugar(chunk)); } let body = DefBody::new(def.body.op, Block::new(chunks), def.body.id); Expr::Def(Def::new(def.sig, body)) } Expr::ClassDef(class_def) => { let def = enum_unwrap!(desugar(Expr::Def(class_def.def)), Expr::Def); let methods = class_def .methods_list .into_iter() .map(|method| enum_unwrap!(desugar(Expr::Methods(method)), Expr::Methods)) .collect(); Expr::ClassDef(ClassDef::new(def, methods)) } Expr::PatchDef(class_def) => { let def = enum_unwrap!(desugar(Expr::Def(class_def.def)), Expr::Def); let methods = class_def .methods_list .into_iter() .map(|method| enum_unwrap!(desugar(Expr::Methods(method)), Expr::Methods)) .collect(); Expr::PatchDef(PatchDef::new(def, methods)) } Expr::ReDef(redef) => { let expr = desugar(*redef.expr); let attr = Self::perform_desugar_acc(desugar, redef.attr); Expr::ReDef(ReDef::new(attr, expr)) } Expr::Lambda(lambda) => { let mut chunks = vec![]; for chunk in lambda.body.into_iter() { chunks.push(desugar(chunk)); } let body = Block::new(chunks); Expr::Lambda(Lambda::new(lambda.sig, lambda.op, body, lambda.id)) } Expr::TypeAscription(tasc) => { let expr = desugar(*tasc.expr); let t_spec_as_expr = desugar(*tasc.t_spec.t_spec_as_expr); let t_spec = TypeSpecWithOp::new(tasc.t_spec.op, tasc.t_spec.t_spec, t_spec_as_expr); expr.type_asc_expr(t_spec) } Expr::Methods(method_defs) => { let mut new_attrs = vec![]; for attr in method_defs.attrs.into_iter() { let mut chunks = vec![]; match attr { ClassAttr::Def(def) => { for chunk in def.body.block.into_iter() { chunks.push(desugar(chunk)); } let body = DefBody::new(def.body.op, Block::new(chunks), def.body.id); new_attrs.push(ClassAttr::Def(Def::new(def.sig, body))); } ClassAttr::Decl(decl) => { let expr = desugar(*decl.expr); let t_spec_as_expr = desugar(*decl.t_spec.t_spec_as_expr); let t_spec = TypeSpecWithOp::new( decl.t_spec.op, decl.t_spec.t_spec, t_spec_as_expr, ); new_attrs.push(ClassAttr::Decl(expr.type_asc(t_spec))); } ClassAttr::Doc(doc) => { new_attrs.push(ClassAttr::Doc(doc)); } } } let new_attrs = ClassAttrs::from(new_attrs); Expr::Methods(Methods::new(method_defs.class, method_defs.vis, new_attrs)) } Expr::Accessor(acc) => Expr::Accessor(Self::perform_desugar_acc(desugar, acc)), Expr::Dummy(exprs) => { let loc = exprs.loc; let mut chunks = vec![]; for chunk in exprs.into_iter() { chunks.push(desugar(chunk)); } Expr::Dummy(Dummy::new(loc, chunks)) } } } /// `fib 0 = 0; fib 1 = 1; fib n = fib(n-1) + fib(n-2)` /// -> `fib n = match n, (0 -> 0), (1 -> 1), n -> fib(n-1) + fib(n-2)` fn desugar_multiple_pattern_def(&self, module: Module) -> Module { let mut new = Module::with_capacity(module.len()); for chunk in module.into_iter() { match chunk { Expr::Def(def) if def.is_subr() => { if let Some(Expr::Def(previous)) = new.last() { if previous.is_subr() && previous.sig.name_as_str() == def.sig.name_as_str() { let previous = enum_unwrap!(new.pop().unwrap(), Expr::Def); let name = def.sig.ident().unwrap().clone(); let id = def.body.id; let op = def.body.op.clone(); let (call, return_t_spec) = if previous.body.block.len() == 1 && previous.body.block.first().unwrap().is_match_call() { self.add_arg_to_match_call(previous, def) } else { self.gen_match_call(previous, def) }; let param_name = enum_unwrap!(&call.args.pos_args().iter().next().unwrap().expr, Expr::Accessor:(Accessor::Ident:(_))).inspect(); // FIXME: multiple params let param = VarName::new(Token::new( TokenKind::Symbol, param_name, name.ln_begin().unwrap(), name.col_end().unwrap() + 1, // HACK: `(name) %x = ...`という形を想定 )); let param = NonDefaultParamSignature::new(ParamPattern::VarName(param), None); let params = Params::new(vec![param], None, vec![], None); let sig = Signature::Subr(SubrSignature::new( set! {}, name, TypeBoundSpecs::empty(), params, return_t_spec, )); let body = DefBody::new(op, Block::new(vec![Expr::Call(call)]), id); let def = Def::new(sig, body); new.push(Expr::Def(def)); } else { new.push(Expr::Def(def)); } } else { new.push(Expr::Def(def)); } } other => { new.push(other); } } } new } fn add_arg_to_match_call(&self, mut previous: Def, def: Def) -> (Call, Option) { let op = Token::from_str(TokenKind::FuncArrow, "->"); let mut call = enum_unwrap!(previous.body.block.remove(0), Expr::Call); let sig = enum_unwrap!(def.sig, Signature::Subr); let return_t_spec = sig.return_t_spec; let first_arg = sig.params.non_defaults.first().unwrap(); // 最後の定義の引数名を関数全体の引数名にする if let Some(name) = first_arg.inspect() { call.args.remove_pos(0); let arg = PosArg::new(Expr::local( name, first_arg.ln_begin().unwrap(), first_arg.col_begin().unwrap(), )); call.args.insert_pos(0, arg); } let sig = LambdaSignature::new(sig.params, return_t_spec.clone(), sig.bounds); let new_branch = Lambda::new(sig, op, def.body.block, def.body.id); call.args.push_pos(PosArg::new(Expr::Lambda(new_branch))); (call, return_t_spec) } // TODO: procedural match fn gen_match_call(&self, previous: Def, def: Def) -> (Call, Option) { let op = Token::from_str(TokenKind::FuncArrow, "->"); let sig = enum_unwrap!(previous.sig, Signature::Subr); let match_symbol = Expr::static_local("match"); let sig = LambdaSignature::new(sig.params, sig.return_t_spec, sig.bounds); let first_branch = Lambda::new(sig, op.clone(), previous.body.block, previous.body.id); let sig = enum_unwrap!(def.sig, Signature::Subr); let return_t_spec = sig.return_t_spec; let sig = LambdaSignature::new(sig.params, return_t_spec.clone(), sig.bounds); let second_branch = Lambda::new(sig, op, def.body.block, def.body.id); let args = Args::pos_only( vec![ PosArg::new(Expr::dummy_local("_")), // dummy argument, will be removed in line 56 PosArg::new(Expr::Lambda(first_branch)), PosArg::new(Expr::Lambda(second_branch)), ], None, ); let call = match_symbol.call(args); (call, return_t_spec) } /// `f 0 = 1` -> `f _: {0} = 1` fn _desugar_literal_pattern(&self, _mod: Module) -> Module { todo!() } fn gen_buf_name_and_sig(&mut self, line: u32, t_spec: Option) -> (String, Signature) { let buf_name = fresh_varname(); let buf_sig = Signature::Var(VarSignature::new( VarPattern::Ident(Identifier::private_with_line(Str::rc(&buf_name), line)), t_spec, )); (buf_name, buf_sig) } fn gen_buf_nd_param(&mut self, line: u32) -> (String, ParamPattern) { let buf_name = fresh_varname(); let pat = ParamPattern::VarName(VarName::from_str_and_line(Str::rc(&buf_name), line)); (buf_name, pat) } fn rec_desugar_lambda_pattern(&mut self, expr: Expr) -> Expr { match expr { Expr::Lambda(mut lambda) => { let non_defaults = lambda.sig.params.non_defaults.iter_mut(); for param in non_defaults { self.desugar_nd_param(param, &mut lambda.body); } lambda.body = self.desugar_pattern_in_block(lambda.body); Expr::Lambda(lambda) } expr => Self::perform_desugar(|ex| self.rec_desugar_lambda_pattern(ex), expr), } } fn desugar_pattern_in_module(&mut self, module: Module) -> Module { Module::new(self.desugar_pattern(module.into_iter())) } fn desugar_pattern_in_block(&mut self, block: Block) -> Block { Block::new(self.desugar_pattern(block.into_iter())) } // TODO: nested function pattern /// `[i, j] = [1, 2]` -> `i = 1; j = 2` /// `[i, j] = l` -> `i = l[0]; j = l[1]` /// `[i, [j, k]] = l` -> `i = l[0]; j = l[1][0]; k = l[1][1]` /// `(i, j) = t` -> `i = t.0; j = t.1` /// `{i; j} = s` -> `i = s.i; j = s.j` fn desugar_pattern(&mut self, chunks: I) -> Vec where I: IntoIterator + ExactSizeIterator, { let mut new = Vec::with_capacity(chunks.len()); for chunk in chunks.into_iter() { match chunk { Expr::Def(Def { sig: Signature::Var(v), body, }) => match &v.pat { VarPattern::Tuple(tup) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(v.ln_begin().unwrap(), v.t_spec); let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let buf_def = Def::new(buf_sig, DefBody::new(body.op, block, body.id)); new.push(Expr::Def(buf_def)); for (n, elem) in tup.elems.iter().enumerate() { self.desugar_nested_var_pattern( &mut new, elem, &buf_name, BufIndex::Tuple(n), ); } } VarPattern::Array(arr) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(v.ln_begin().unwrap(), v.t_spec); let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let buf_def = Def::new(buf_sig, DefBody::new(body.op, block, body.id)); new.push(Expr::Def(buf_def)); for (n, elem) in arr.elems.iter().enumerate() { self.desugar_nested_var_pattern( &mut new, elem, &buf_name, BufIndex::Array(n), ); } } VarPattern::Record(rec) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(v.ln_begin().unwrap(), v.t_spec); let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let buf_def = Def::new(buf_sig, DefBody::new(body.op, block, body.id)); new.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in rec.attrs.iter() { self.desugar_nested_var_pattern( &mut new, rhs, &buf_name, BufIndex::Record(lhs), ); } } VarPattern::DataPack(pack) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig( v.ln_begin().unwrap(), Some(pack.class.clone()), // TODO: これだとvの型指定の意味がなくなる ); let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let buf_def = Def::new(buf_sig, DefBody::new(body.op, block, body.id)); new.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in pack.args.attrs.iter() { self.desugar_nested_var_pattern( &mut new, rhs, &buf_name, BufIndex::Record(lhs), ); } } VarPattern::Ident(_) | VarPattern::Discard(_) => { let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let body = DefBody::new(body.op, block, body.id); let def = Def::new(Signature::Var(v), body); new.push(Expr::Def(def)); } }, Expr::Def(Def { sig: Signature::Subr(mut subr), mut body, }) => { let non_defaults = subr.params.non_defaults.iter_mut(); for param in non_defaults { self.desugar_nd_param(param, &mut body.block); } let block = body .block .into_iter() .map(|ex| self.rec_desugar_lambda_pattern(ex)) .collect(); let block = self.desugar_pattern_in_block(block); let body = DefBody::new(body.op, block, body.id); let def = Def::new(Signature::Subr(subr), body); new.push(Expr::Def(def)); } other => { new.push(self.rec_desugar_lambda_pattern(other)); } } } new } fn desugar_nested_var_pattern( &mut self, new_module: &mut Vec, sig: &VarSignature, buf_name: &str, buf_index: BufIndex, ) { let obj = Expr::local(buf_name, sig.ln_begin().unwrap(), sig.col_begin().unwrap()); let acc = match buf_index { BufIndex::Tuple(n) => obj.tuple_attr(Literal::nat(n, sig.ln_begin().unwrap())), BufIndex::Array(n) => { let r_brace = Token::new( TokenKind::RBrace, "]", sig.ln_begin().unwrap(), sig.col_begin().unwrap(), ); obj.subscr( Expr::Literal(Literal::nat(n, sig.ln_begin().unwrap())), r_brace, ) } BufIndex::Record(attr) => obj.attr(attr.clone()), }; let id = DefId(get_hash(&(&acc, buf_name))); let block = Block::new(vec![Expr::Accessor(acc)]); let op = Token::from_str(TokenKind::Equal, "="); let body = DefBody::new(op, block, id); match &sig.pat { VarPattern::Tuple(tup) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(sig.ln_begin().unwrap(), None); let buf_def = Def::new(buf_sig, body); new_module.push(Expr::Def(buf_def)); for (n, elem) in tup.elems.iter().enumerate() { self.desugar_nested_var_pattern( new_module, elem, &buf_name, BufIndex::Tuple(n), ); } } VarPattern::Array(arr) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(sig.ln_begin().unwrap(), None); let buf_def = Def::new(buf_sig, body); new_module.push(Expr::Def(buf_def)); for (n, elem) in arr.elems.iter().enumerate() { self.desugar_nested_var_pattern( new_module, elem, &buf_name, BufIndex::Array(n), ); } } VarPattern::Record(rec) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(sig.ln_begin().unwrap(), None); let buf_def = Def::new(buf_sig, body); new_module.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in rec.attrs.iter() { self.desugar_nested_var_pattern( new_module, rhs, &buf_name, BufIndex::Record(lhs), ); } } VarPattern::DataPack(pack) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(sig.ln_begin().unwrap(), Some(pack.class.clone())); let buf_def = Def::new(buf_sig, body); new_module.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in pack.args.attrs.iter() { self.desugar_nested_var_pattern( new_module, rhs, &buf_name, BufIndex::Record(lhs), ); } } VarPattern::Ident(_) | VarPattern::Discard(_) => { let def = Def::new(Signature::Var(sig.clone()), body); new_module.push(Expr::Def(def)); } } } /// `{x; y}` -> `{x = x; y = y}` fn desugar_shortened_record(module: Module) -> Module { Self::desugar_all_chunks(module, Self::rec_desugar_shortened_record) } fn rec_desugar_shortened_record(expr: Expr) -> Expr { match expr { Expr::Record(Record::Mixed(record)) => { let rec = Self::desugar_shortened_record_inner(record); Expr::Record(Record::Normal(rec)) } Expr::DataPack(pack) => { if let Record::Mixed(rec) = pack.args { let class = Self::rec_desugar_shortened_record(*pack.class); let rec = Self::desugar_shortened_record_inner(rec); let args = Record::Normal(rec); Expr::DataPack(DataPack::new(class, pack.connector, args)) } else { Expr::DataPack(pack) } } expr => Self::perform_desugar(Self::rec_desugar_shortened_record, expr), } } fn desugar_shortened_record_inner(record: MixedRecord) -> NormalRecord { let attrs = record .attrs .into_iter() .map(|attr_or_ident| match attr_or_ident { RecordAttrOrIdent::Attr(def) => def, RecordAttrOrIdent::Ident(ident) => { let var = VarSignature::new(VarPattern::Ident(ident.clone()), None); let sig = Signature::Var(var); let body = DefBody::new( Token::from_str(TokenKind::Equal, "="), Block::new(vec![Expr::local( ident.inspect(), ident.ln_begin().unwrap(), ident.col_begin().unwrap(), )]), DefId(get_hash(&(&sig, ident.inspect()))), ); Def::new(sig, body) } }) .collect(); let attrs = RecordAttrs::new(attrs); NormalRecord::new(record.l_brace, record.r_brace, attrs) } /// ```erg /// f [x, y] = /// ... /// ``` /// ↓ /// ```erg /// f %1 = /// x = %1[0] /// y = %1[1] /// ... /// ``` /// ```erg /// f [x, [y, z]] = /// ... /// ``` /// ↓ /// ```erg /// f %1 = /// x = %1[0] /// %2 = %1[1] /// y = %2[0] /// z = %2[1] /// ... /// ``` /// ```erg /// f 1, 2 = /// ... /// ``` /// ↓ /// ```erg /// f _: {1}, _: {2} = ... /// ``` fn desugar_nd_param(&mut self, param: &mut NonDefaultParamSignature, body: &mut Block) { let mut insertion_idx = 0; let line = param.ln_begin().unwrap(); match &mut param.pat { ParamPattern::VarName(_v) => {} ParamPattern::Lit(l) => { let lit = l.clone(); param.pat = ParamPattern::Discard(Token::new( TokenKind::UBar, "_", l.ln_begin().unwrap(), l.col_begin().unwrap(), )); let l_brace = Token { content: "{".into(), kind: TokenKind::LBrace, ..lit.token }; let r_brace = Token { content: "}".into(), kind: TokenKind::RBrace, ..lit.token }; let t_spec = TypeSpec::enum_t_spec(vec![lit.clone()]); let args = Args::pos_only(vec![PosArg::new(Expr::Literal(lit))], None); let set = astSet::Normal(NormalSet::new(l_brace, r_brace, args)); let t_spec_as_expr = Expr::Set(set); let t_spec = TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr); param.t_spec = Some(t_spec); } ParamPattern::Tuple(tup) => { let (buf_name, buf_param) = self.gen_buf_nd_param(line); let mut tys = vec![]; for (n, elem) in tup.elems.non_defaults.iter_mut().enumerate() { insertion_idx = self.desugar_nested_param_pattern( body, elem, &buf_name, BufIndex::Tuple(n), insertion_idx, ); let infer = Token::new(TokenKind::Try, "?", line, 0); tys.push( elem.t_spec .as_ref() .map(|ts| ts.t_spec.clone()) .unwrap_or(TypeSpec::Infer(infer)) .clone(), ); } if param.t_spec.is_none() { let t_spec = TypeSpec::Tuple(TupleTypeSpec::new(tup.elems.parens.clone(), tys)); let t_spec_as_expr = Expr::dummy(t_spec.loc()); param.t_spec = Some(TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr)); } param.pat = buf_param; } ParamPattern::Array(arr) => { let (buf_name, buf_param) = self.gen_buf_nd_param(line); for (n, elem) in arr.elems.non_defaults.iter_mut().enumerate() { insertion_idx = self.desugar_nested_param_pattern( body, elem, &buf_name, BufIndex::Array(n), insertion_idx, ); } if param.t_spec.is_none() { let len = arr.elems.non_defaults.len(); let len = Literal::new(Token::new(TokenKind::NatLit, len.to_string(), line, 0)); let infer = Token::new(TokenKind::Try, "?", line, 0); let t_spec = ArrayTypeSpec::new(TypeSpec::Infer(infer), ConstExpr::Lit(len)); let t_spec_as_expr = Expr::dummy(t_spec.loc()); param.t_spec = Some(TypeSpecWithOp::new( Token::dummy(TokenKind::Colon, ":"), TypeSpec::Array(t_spec), t_spec_as_expr, )); } param.pat = buf_param; } ParamPattern::Record(rec) => { let (buf_name, buf_param) = self.gen_buf_nd_param(line); for ParamRecordAttr { lhs, rhs } in rec.elems.iter_mut() { insertion_idx = self.desugar_nested_param_pattern( body, rhs, &buf_name, BufIndex::Record(lhs), insertion_idx, ); } if param.t_spec.is_none() { let mut tys = vec![]; for ParamRecordAttr { lhs, rhs } in rec.elems.iter() { let infer = Token::new(TokenKind::Try, "?", line, 0); tys.push(( lhs.clone(), rhs.t_spec .as_ref() .map(|ts| ts.t_spec.clone()) .unwrap_or(TypeSpec::Infer(infer)) .clone(), )); } let t_spec = TypeSpec::Record(tys); let t_spec_as_expr = Expr::dummy(t_spec.loc()); param.t_spec = Some(TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr)); } param.pat = buf_param; } /*ParamPattern::DataPack(pack) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig( v.ln_begin().unwrap(), Some(pack.class.clone()), // TODO: これだとvの型指定の意味がなくなる ); let buf_def = Def::new(buf_sig, body); new.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in pack.args.attrs.iter() { self.desugar_nested_var_pattern( &mut new, rhs, &buf_name, BufIndex::Record(lhs), ); } }*/ _ => {} } } fn desugar_nested_param_pattern( &mut self, new_body: &mut Block, sig: &mut NonDefaultParamSignature, buf_name: &str, buf_index: BufIndex, mut insertion_idx: usize, ) -> usize { let obj = Expr::local(buf_name, sig.ln_begin().unwrap(), sig.col_begin().unwrap()); let acc = match buf_index { BufIndex::Tuple(n) => obj.tuple_attr(Literal::nat(n, sig.ln_begin().unwrap())), BufIndex::Array(n) => { let r_brace = Token::new( TokenKind::RBrace, "]", sig.ln_begin().unwrap(), sig.col_begin().unwrap(), ); obj.subscr( Expr::Literal(Literal::nat(n, sig.ln_begin().unwrap())), r_brace, ) } BufIndex::Record(attr) => obj.attr(attr.clone()), }; let id = DefId(get_hash(&(&acc, buf_name))); let block = Block::new(vec![Expr::Accessor(acc)]); let op = Token::from_str(TokenKind::Equal, "="); let body = DefBody::new(op, block, id); let line = sig.ln_begin().unwrap(); match &mut sig.pat { ParamPattern::Tuple(tup) => { let (buf_name, buf_sig) = self.gen_buf_nd_param(line); let ident = Identifier::private(Str::from(&buf_name)); new_body.insert( insertion_idx, Expr::Def(Def::new( Signature::Var(VarSignature::new( VarPattern::Ident(ident), sig.t_spec.as_ref().map(|ts| ts.t_spec.clone()), )), body, )), ); insertion_idx += 1; let mut tys = vec![]; for (n, elem) in tup.elems.non_defaults.iter_mut().enumerate() { insertion_idx = self.desugar_nested_param_pattern( new_body, elem, &buf_name, BufIndex::Tuple(n), insertion_idx, ); let infer = Token::new(TokenKind::Try, "?", line, 0); tys.push( elem.t_spec .as_ref() .map(|ts| ts.t_spec.clone()) .unwrap_or(TypeSpec::Infer(infer)) .clone(), ); } if sig.t_spec.is_none() { let t_spec = TypeSpec::Tuple(TupleTypeSpec::new(tup.elems.parens.clone(), tys)); let t_spec_as_expr = Expr::dummy(t_spec.loc()); sig.t_spec = Some(TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr)); } sig.pat = buf_sig; insertion_idx } ParamPattern::Array(arr) => { let (buf_name, buf_sig) = self.gen_buf_nd_param(line); new_body.insert( insertion_idx, Expr::Def(Def::new( Signature::Var(VarSignature::new( VarPattern::Ident(Identifier::private(Str::from(&buf_name))), sig.t_spec.as_ref().map(|ts| ts.t_spec.clone()), )), body, )), ); insertion_idx += 1; for (n, elem) in arr.elems.non_defaults.iter_mut().enumerate() { insertion_idx = self.desugar_nested_param_pattern( new_body, elem, &buf_name, BufIndex::Array(n), insertion_idx, ); } if sig.t_spec.is_none() { let len = arr.elems.non_defaults.len(); let len = Literal::new(Token::new(TokenKind::NatLit, len.to_string(), line, 0)); let infer = Token::new(TokenKind::Try, "?", line, 0); let t_spec = ArrayTypeSpec::new(TypeSpec::Infer(infer), ConstExpr::Lit(len.clone())); let l_sqbr = Token { content: "[".into(), kind: TokenKind::LSqBr, ..len.token }; let r_sqbr = Token { content: "]".into(), kind: TokenKind::RSqBr, ..len.token }; let elem = Expr::local("Obj", l_sqbr.lineno, l_sqbr.col_begin); let array = Array::WithLength(ArrayWithLength::new( l_sqbr, r_sqbr, PosArg::new(elem), Expr::Literal(len), )); let t_spec_as_expr = Expr::Array(array); sig.t_spec = Some(TypeSpecWithOp::new( COLON, TypeSpec::Array(t_spec), t_spec_as_expr, )); } sig.pat = buf_sig; insertion_idx } ParamPattern::Record(rec) => { let (buf_name, buf_sig) = self.gen_buf_nd_param(line); new_body.insert( insertion_idx, Expr::Def(Def::new( Signature::Var(VarSignature::new( VarPattern::Ident(Identifier::private(Str::from(&buf_name))), sig.t_spec.as_ref().map(|ts| ts.t_spec.clone()), )), body, )), ); insertion_idx += 1; let mut tys = vec![]; for ParamRecordAttr { lhs, rhs } in rec.elems.iter_mut() { insertion_idx = self.desugar_nested_param_pattern( new_body, rhs, &buf_name, BufIndex::Record(lhs), insertion_idx, ); let infer = Token::new(TokenKind::Try, "?", line, 0); tys.push(( lhs.clone(), rhs.t_spec .as_ref() .map(|ts| ts.t_spec.clone()) .unwrap_or(TypeSpec::Infer(infer)) .clone(), )); } if sig.t_spec.is_none() { let t_spec = TypeSpec::Record(tys); let t_spec_as_expr = Expr::dummy(t_spec.loc()); sig.t_spec = Some(TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr)); } sig.pat = buf_sig; insertion_idx } /* VarPattern::DataPack(pack) => { let (buf_name, buf_sig) = self.gen_buf_name_and_sig(sig.ln_begin().unwrap(), Some(pack.class.clone())); let buf_def = Def::new(buf_sig, body); new_module.push(Expr::Def(buf_def)); for VarRecordAttr { lhs, rhs } in pack.args.attrs.iter() { self.desugar_nested_var_pattern( new_module, rhs, &buf_name, BufIndex::Record(lhs), ); } } */ ParamPattern::VarName(name) => { let ident = Identifier::new(None, name.clone()); let v = VarSignature::new( VarPattern::Ident(ident), sig.t_spec.as_ref().map(|ts| ts.t_spec.clone()), ); let def = Def::new(Signature::Var(v), body); new_body.insert(insertion_idx, Expr::Def(def)); insertion_idx += 1; insertion_idx } ParamPattern::Lit(l) => { let lit = l.clone(); sig.pat = ParamPattern::Discard(Token::new( TokenKind::UBar, "_", l.ln_begin().unwrap(), l.col_begin().unwrap(), )); let l_brace = Token { content: "{".into(), kind: TokenKind::LBrace, ..lit.token }; let r_brace = Token { content: "}".into(), kind: TokenKind::RBrace, ..lit.token }; let t_spec = TypeSpec::enum_t_spec(vec![lit.clone()]); let args = Args::pos_only(vec![PosArg::new(Expr::Literal(lit))], None); let set = astSet::Normal(NormalSet::new(l_brace, r_brace, args)); let t_spec_as_expr = Expr::Set(set); sig.t_spec = Some(TypeSpecWithOp::new(COLON, t_spec, t_spec_as_expr)); insertion_idx } _ => insertion_idx, } } fn _desugar_self(module: Module) -> Module { Self::desugar_all_chunks(module, Self::_desugar_self_inner) } fn _desugar_self_inner(_expr: Expr) -> Expr { todo!() } /// `F(I | I > 0)` -> `F(I: {I: Int | I > 0})` fn _desugar_refinement_pattern(_mod: Module) -> Module { todo!() } /// x[y] => x.__getitem__(y) /// x.0 => x.__Tuple_getitem__(0) fn desugar_acc(module: Module) -> Module { Self::desugar_all_chunks(module, Self::rec_desugar_acc) } fn rec_desugar_acc(expr: Expr) -> Expr { match expr { Expr::Accessor(acc) => Self::desugar_acc_inner(acc), expr => Self::perform_desugar(Self::rec_desugar_acc, expr), } } fn desugar_acc_inner(acc: Accessor) -> Expr { match acc { // x[y] => x.__getitem__(y) Accessor::Subscr(subscr) => { let args = Args::pos_only( vec![PosArg::new(Self::rec_desugar_acc(*subscr.index))], None, ); let line = subscr.obj.ln_begin().unwrap(); let call = Call::new( Self::rec_desugar_acc(*subscr.obj), Some(Identifier::public_with_line( DOT, Str::ever("__getitem__"), line, )), args, ); Expr::Call(call) } // x.0 => x.__Tuple_getitem__(0) Accessor::TupleAttr(tattr) => { let args = Args::pos_only(vec![PosArg::new(Expr::Literal(tattr.index))], None); let line = tattr.obj.ln_begin().unwrap(); let call = Call::new( Self::rec_desugar_acc(*tattr.obj), Some(Identifier::public_with_line( DOT, Str::ever("__Tuple_getitem__"), line, )), args, ); Expr::Call(call) } Accessor::TypeApp(mut tapp) => { tapp.obj = Box::new(Self::rec_desugar_acc(*tapp.obj)); // REVIEW: tapp.type_args Expr::Accessor(Accessor::TypeApp(tapp)) } Accessor::Attr(mut attr) => { attr.obj = Box::new(Self::rec_desugar_acc(*attr.obj)); Expr::Accessor(Accessor::Attr(attr)) } other => Expr::Accessor(other), } } } impl Default for Desugarer { fn default() -> Self { Self::new() } }