use std::mem;
use erg_common::consts::PYTHON_MODE;
use erg_common::traits::{Locational, Runnable, Stream};
use erg_common::{enum_unwrap, fn_name, log, set, Str};
use erg_parser::ast::{self, AscriptionKind, Identifier, VarName, AST};
use crate::lower::ASTLowerer;
use crate::ty::constructors::{mono, v_enum};
use crate::ty::free::HasLevel;
use crate::ty::value::{GenTypeObj, TypeObj, ValueObj};
use crate::ty::{HasType, Type, Visibility};
use crate::compile::AccessKind;
use crate::error::{LowerError, LowerErrors, LowerResult};
use crate::hir;
use crate::hir::HIR;
use crate::varinfo::{Mutability, VarInfo, VarKind};
impl ASTLowerer {
fn declare_var(
&mut self,
sig: ast::VarSignature,
mut body: ast::DefBody,
) -> LowerResult<hir::Def> {
log!(info "entered {}({sig})", fn_name!());
if body.block.len() > 1 {
return Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
body.block.loc(),
self.module.context.caused_by(),
)));
}
let opt_spec_t = if let Some(t_spec) = &sig.t_spec {
let t = self.module.context.instantiate_typespec(&t_spec.t_spec)?;
t.lift();
Some(self.module.context.generalize_t(t))
} else {
None
};
let chunk = self.declare_chunk(body.block.remove(0), true)?;
let py_name = match &chunk {
hir::Expr::TypeAsc(tasc) => enum_unwrap!(tasc.expr.as_ref(), hir::Expr::Accessor)
.local_name()
.map(Str::rc),
hir::Expr::Accessor(acc) => acc.var_info().py_name.clone(),
_ => sig.inspect().cloned(),
};
let found_body_t = chunk.ref_t();
let ast::VarPattern::Ident(ident) = &sig.pat else { unreachable!() };
let id = body.id;
if let Some(spec_t) = opt_spec_t {
self.module
.context
.sub_unify(found_body_t, &spec_t, &sig, None)?;
}
if let Some(py_name) = &py_name {
self.declare_instance(ident, found_body_t, py_name.clone())?;
} else {
self.module
.context
.assign_var_sig(&sig, found_body_t, id, None)?;
}
let mut ident = hir::Identifier::bare(ident.clone());
let t = match found_body_t {
Type::ClassType => {
let t = mono(format!("{}{}", self.module.context.path(), ident.raw));
v_enum(set! { ValueObj::builtin_class(t) })
}
Type::TraitType => {
let t = mono(format!("{}{}", self.module.context.path(), ident.raw));
v_enum(set! { ValueObj::builtin_trait(t) })
}
_ => found_body_t.clone(),
};
if let hir::Expr::TypeAsc(hir::TypeAscription { expr, .. }) = &chunk {
if let hir::Expr::Accessor(acc) = expr.as_ref() {
if let Some(name) = acc.local_name() {
let name = VarName::from_str(Str::rc(name));
if let Some(vi) = self.module.context.get_mut_current_scope_var(&name) {
vi.t = t.clone();
}
}
}
}
ident.vi.t = t;
ident.vi.py_name = py_name;
ident.vi.def_loc = self.module.context.absolutize(ident.raw.name.loc());
let t_spec = if let Some(ts) = sig.t_spec {
let spec_t = self.module.context.instantiate_typespec(&ts.t_spec)?;
let expr = self.fake_lower_expr(*ts.t_spec_as_expr.clone())?;
Some(hir::TypeSpecWithOp::new(ts, expr, spec_t))
} else {
None
};
let sig = hir::VarSignature::new(ident, t_spec);
let body = hir::DefBody::new(body.op, hir::Block::new(vec![chunk]), body.id);
Ok(hir::Def::new(hir::Signature::Var(sig), body))
}
fn declare_def(&mut self, def: ast::Def) -> LowerResult<hir::Def> {
log!(info "entered {}({})", fn_name!(), def.sig);
let name = if let Some(name) = def.sig.name_as_str() {
name.clone()
} else {
Str::ever("<lambda>")
};
if self
.module
.context
.registered_info(&name, def.sig.is_const())
.is_some()
&& def.sig.vis().is_private()
{
return Err(LowerErrors::from(LowerError::reassign_error(
self.cfg().input.clone(),
line!() as usize,
def.sig.loc(),
self.module.context.caused_by(),
&name,
)));
}
#[allow(clippy::let_and_return)]
let res = match def.sig {
ast::Signature::Subr(sig) => {
return Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
sig.loc(),
self.module.context.caused_by(),
)));
}
ast::Signature::Var(sig) => self.declare_var(sig, def.body),
};
res
}
fn fake_lower_acc(&self, acc: ast::Accessor) -> LowerResult<hir::Accessor> {
match acc {
ast::Accessor::Ident(ident) => {
let vi = self
.module
.context
.rec_get_var_info(&ident, AccessKind::Name, self.input(), &self.module.context)
.unwrap_or(VarInfo::default());
let ident = hir::Identifier::new(ident, None, vi);
let acc = hir::Accessor::Ident(ident);
Ok(acc)
}
ast::Accessor::Attr(attr) => {
let obj = self.fake_lower_expr(*attr.obj)?;
let ident = hir::Identifier::bare(attr.ident);
Ok(obj.attr(ident))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
fn fake_lower_args(&self, args: ast::Args) -> LowerResult<hir::Args> {
let (pos_args_, var_args_, kw_args_, paren) = args.deconstruct();
let mut pos_args = vec![];
for arg in pos_args_.into_iter() {
let arg = self.fake_lower_expr(arg.expr)?;
pos_args.push(hir::PosArg::new(arg));
}
let var_args = match var_args_ {
Some(var_args) => {
let var_args = self.fake_lower_expr(var_args.expr)?;
Some(hir::PosArg::new(var_args))
}
None => None,
};
let mut kw_args = vec![];
for kw_arg in kw_args_.into_iter() {
let expr = self.fake_lower_expr(kw_arg.expr)?;
kw_args.push(hir::KwArg::new(kw_arg.keyword, expr));
}
let args = hir::Args::new(pos_args, var_args, kw_args, paren);
Ok(args)
}
fn fake_lower_call(&self, call: ast::Call) -> LowerResult<hir::Call> {
let obj = self.fake_lower_expr(*call.obj)?;
let attr_name = call.attr_name.map(hir::Identifier::bare);
let args = self.fake_lower_args(call.args)?;
Ok(hir::Call::new(obj, attr_name, args))
}
fn fake_lower_binop(&self, binop: ast::BinOp) -> LowerResult<hir::BinOp> {
let mut args = binop.args.into_iter();
let lhs = self.fake_lower_expr(*args.next().unwrap())?;
let rhs = self.fake_lower_expr(*args.next().unwrap())?;
Ok(hir::BinOp::new(binop.op, lhs, rhs, VarInfo::default()))
}
fn fake_lower_unaryop(&self, unaryop: ast::UnaryOp) -> LowerResult<hir::UnaryOp> {
let mut args = unaryop.args.into_iter();
let expr = self.fake_lower_expr(*args.next().unwrap())?;
Ok(hir::UnaryOp::new(unaryop.op, expr, VarInfo::default()))
}
fn fake_lower_array(&self, arr: ast::Array) -> LowerResult<hir::Array> {
match arr {
ast::Array::WithLength(arr) => {
let len = self.fake_lower_expr(*arr.len)?;
let elem = self.fake_lower_expr(arr.elem.expr)?;
Ok(hir::Array::WithLength(hir::ArrayWithLength::new(
arr.l_sqbr,
arr.r_sqbr,
Type::Failure,
len,
elem,
)))
}
ast::Array::Normal(arr) => {
let mut elems = Vec::new();
let (elems_, ..) = arr.elems.deconstruct();
for elem in elems_.into_iter() {
let elem = self.fake_lower_expr(elem.expr)?;
elems.push(hir::PosArg::new(elem));
}
let elems = hir::Args::new(elems, None, vec![], None);
Ok(hir::Array::Normal(hir::NormalArray::new(
arr.l_sqbr,
arr.r_sqbr,
Type::Failure,
elems,
)))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
fn fake_lower_tuple(&self, tup: ast::Tuple) -> LowerResult<hir::Tuple> {
match tup {
ast::Tuple::Normal(tup) => {
let mut elems = Vec::new();
let (elems_, _, _, paren) = tup.elems.deconstruct();
for elem in elems_.into_iter() {
let elem = self.fake_lower_expr(elem.expr)?;
elems.push(hir::PosArg::new(elem));
}
let elems = hir::Args::pos_only(elems, paren);
Ok(hir::Tuple::Normal(hir::NormalTuple::new(elems)))
}
}
}
fn fake_lower_signature(&self, sig: ast::Signature) -> LowerResult<hir::Signature> {
match sig {
ast::Signature::Var(var) => {
let ident = var.ident().unwrap().clone();
let ident = hir::Identifier::bare(ident);
let t_spec = if let Some(ts) = var.t_spec {
let expr = self.fake_lower_expr(*ts.t_spec_as_expr.clone())?;
Some(hir::TypeSpecWithOp::new(ts, expr, Type::Failure))
} else {
None
};
let sig = hir::VarSignature::new(ident, t_spec);
Ok(hir::Signature::Var(sig))
}
ast::Signature::Subr(subr) => {
let ident = hir::Identifier::bare(subr.ident);
let params = self.fake_lower_params(subr.params)?;
let sig = hir::SubrSignature::new(ident, subr.bounds, params, subr.return_t_spec);
Ok(hir::Signature::Subr(sig))
}
}
}
fn fake_lower_def(&self, def: ast::Def) -> LowerResult<hir::Def> {
let sig = self.fake_lower_signature(def.sig)?;
let block = self.fake_lower_block(def.body.block)?;
let body = hir::DefBody::new(def.body.op, block, def.body.id);
Ok(hir::Def::new(sig, body))
}
fn fake_lower_record(&self, rec: ast::Record) -> LowerResult<hir::Record> {
let rec = match rec {
ast::Record::Normal(rec) => rec,
ast::Record::Mixed(_mixed) => unreachable!(),
};
let mut elems = Vec::new();
for elem in rec.attrs.into_iter() {
let elem = self.fake_lower_def(elem)?;
elems.push(elem);
}
let attrs = hir::RecordAttrs::new(elems);
Ok(hir::Record::new(rec.l_brace, rec.r_brace, attrs))
}
fn fake_lower_set(&self, set: ast::Set) -> LowerResult<hir::Set> {
match set {
ast::Set::Normal(set) => {
let mut elems = Vec::new();
let (elems_, ..) = set.elems.deconstruct();
for elem in elems_.into_iter() {
let elem = self.fake_lower_expr(elem.expr)?;
elems.push(hir::PosArg::new(elem));
}
let elems = hir::Args::pos_only(elems, None);
Ok(hir::Set::Normal(hir::NormalSet::new(
set.l_brace,
set.r_brace,
Type::Failure,
elems,
)))
}
ast::Set::WithLength(set) => {
let len = self.fake_lower_expr(*set.len)?;
let elem = self.fake_lower_expr(set.elem.expr)?;
Ok(hir::Set::WithLength(hir::SetWithLength::new(
set.l_brace,
set.r_brace,
Type::Failure,
len,
elem,
)))
}
}
}
fn fake_lower_dict(&self, dict: ast::Dict) -> LowerResult<hir::Dict> {
match dict {
ast::Dict::Normal(dict) => {
let mut kvs = Vec::new();
for elem in dict.kvs.into_iter() {
let key = self.fake_lower_expr(elem.key)?;
let val = self.fake_lower_expr(elem.value)?;
kvs.push(hir::KeyValue::new(key, val));
}
let tys = erg_common::dict::Dict::new();
Ok(hir::Dict::Normal(hir::NormalDict::new(
dict.l_brace,
dict.r_brace,
tys,
kvs,
)))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
fn fake_lower_params(&self, params: ast::Params) -> LowerResult<hir::Params> {
let (non_defaults_, var_params_, defaults_, parens) = params.deconstruct();
let mut non_defaults = vec![];
for non_default_ in non_defaults_.into_iter() {
let non_default =
hir::NonDefaultParamSignature::new(non_default_, VarInfo::default(), None);
non_defaults.push(non_default);
}
let var_args = var_params_.map(|var_args| {
Box::new(hir::NonDefaultParamSignature::new(
*var_args,
VarInfo::default(),
None,
))
});
let mut defaults = vec![];
for default_ in defaults_.into_iter() {
let default_val = self.fake_lower_expr(default_.default_val)?;
let sig = hir::NonDefaultParamSignature::new(default_.sig, VarInfo::default(), None);
let default = hir::DefaultParamSignature::new(sig, default_val);
defaults.push(default);
}
Ok(hir::Params::new(non_defaults, var_args, defaults, parens))
}
fn fake_lower_block(&self, block: ast::Block) -> LowerResult<hir::Block> {
let mut chunks = vec![];
for chunk in block.into_iter() {
let chunk = self.fake_lower_expr(chunk)?;
chunks.push(chunk);
}
Ok(hir::Block::new(chunks))
}
fn fake_lower_lambda(&self, lambda: ast::Lambda) -> LowerResult<hir::Lambda> {
let params = self.fake_lower_params(lambda.sig.params)?;
let body = self.fake_lower_block(lambda.body)?;
Ok(hir::Lambda::new(
lambda.id.0,
params,
lambda.op,
body,
Type::Failure,
))
}
fn fake_lower_dummy(&self, dummy: ast::Dummy) -> LowerResult<hir::Dummy> {
let mut dummy_ = vec![];
for elem in dummy.into_iter() {
let elem = self.fake_lower_expr(elem)?;
dummy_.push(elem);
}
Ok(hir::Dummy::new(dummy_))
}
fn fake_lower_type_asc(&self, tasc: ast::TypeAscription) -> LowerResult<hir::TypeAscription> {
let expr = self.fake_lower_expr(*tasc.expr)?;
let t_spec_as_expr = self.fake_lower_expr(*tasc.t_spec.t_spec_as_expr.clone())?;
let spec_t = self
.module
.context
.instantiate_typespec(&tasc.t_spec.t_spec)?;
let spec = hir::TypeSpecWithOp::new(tasc.t_spec, t_spec_as_expr, spec_t);
Ok(hir::TypeAscription::new(expr, spec))
}
pub(crate) fn fake_lower_expr(&self, expr: ast::Expr) -> LowerResult<hir::Expr> {
match expr {
ast::Expr::Literal(lit) => Ok(hir::Expr::Lit(self.lower_literal(lit)?)),
ast::Expr::BinOp(binop) => Ok(hir::Expr::BinOp(self.fake_lower_binop(binop)?)),
ast::Expr::UnaryOp(unop) => Ok(hir::Expr::UnaryOp(self.fake_lower_unaryop(unop)?)),
ast::Expr::Array(arr) => Ok(hir::Expr::Array(self.fake_lower_array(arr)?)),
ast::Expr::Tuple(tup) => Ok(hir::Expr::Tuple(self.fake_lower_tuple(tup)?)),
ast::Expr::Record(rec) => Ok(hir::Expr::Record(self.fake_lower_record(rec)?)),
ast::Expr::Set(set) => Ok(hir::Expr::Set(self.fake_lower_set(set)?)),
ast::Expr::Dict(dict) => Ok(hir::Expr::Dict(self.fake_lower_dict(dict)?)),
ast::Expr::Accessor(acc) => Ok(hir::Expr::Accessor(self.fake_lower_acc(acc)?)),
ast::Expr::Call(call) => Ok(hir::Expr::Call(self.fake_lower_call(call)?)),
ast::Expr::Lambda(lambda) => Ok(hir::Expr::Lambda(self.fake_lower_lambda(lambda)?)),
ast::Expr::Dummy(dummy) => Ok(hir::Expr::Dummy(self.fake_lower_dummy(dummy)?)),
ast::Expr::TypeAscription(tasc) => {
Ok(hir::Expr::TypeAsc(self.fake_lower_type_asc(tasc)?))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
fn declare_ident(&mut self, tasc: ast::TypeAscription) -> LowerResult<hir::TypeAscription> {
log!(info "entered {}({})", fn_name!(), tasc);
let kind = tasc.kind();
match *tasc.expr {
ast::Expr::Accessor(ast::Accessor::Ident(ident)) => {
let py_name = Str::rc(ident.inspect().trim_end_matches('!'));
let t = self
.module
.context
.instantiate_typespec(&tasc.t_spec.t_spec)?;
t.lift();
let t = self.module.context.generalize_t(t);
match kind {
AscriptionKind::TypeOf | AscriptionKind::AsCast => {
self.declare_instance(&ident, &t, py_name.clone())?;
}
AscriptionKind::SubtypeOf => {
self.declare_subtype(&ident, &t)?;
}
_ => {
log!(err "supertype ascription is not supported yet");
}
}
let muty = Mutability::from(&ident.inspect()[..]);
let vis = self.module.context.instantiate_vis_modifier(&ident.vis)?;
let vi = VarInfo::new(
t,
muty,
Visibility::new(vis, self.module.context.name.clone()),
VarKind::Declared,
None,
None,
Some(py_name),
self.module.context.absolutize(ident.name.loc()),
);
let ident = hir::Identifier::new(ident, None, vi);
let t_spec_expr = self.fake_lower_expr(*tasc.t_spec.t_spec_as_expr.clone())?;
let t_spec = hir::TypeSpecWithOp::new(tasc.t_spec, t_spec_expr, Type::Failure);
Ok(hir::Expr::Accessor(hir::Accessor::Ident(ident)).type_asc(t_spec))
}
ast::Expr::Accessor(ast::Accessor::Attr(attr)) => {
let py_name = Str::rc(attr.ident.inspect().trim_end_matches('!'));
let t = self
.module
.context
.instantiate_typespec(&tasc.t_spec.t_spec)?;
let ctx = self
.module
.context
.get_mut_singular_ctx(attr.obj.as_ref(), &self.module.context.name.clone())?;
ctx.assign_var_sig(
&ast::VarSignature::new(ast::VarPattern::Ident(attr.ident.clone()), None),
&t,
ast::DefId(0),
Some(py_name.clone()),
)?;
let obj = self.fake_lower_expr(*attr.obj)?;
let muty = Mutability::from(&attr.ident.inspect()[..]);
let vis = self
.module
.context
.instantiate_vis_modifier(&attr.ident.vis)?;
let vi = VarInfo::new(
t,
muty,
Visibility::new(vis, self.module.context.name.clone()),
VarKind::Declared,
None,
None,
Some(py_name),
self.module.context.absolutize(attr.ident.name.loc()),
);
let ident = hir::Identifier::new(attr.ident, None, vi);
let attr = obj.attr_expr(ident);
let t_spec_expr = self.fake_lower_expr(*tasc.t_spec.t_spec_as_expr.clone())?;
let t_spec = hir::TypeSpecWithOp::new(tasc.t_spec, t_spec_expr, Type::Failure);
Ok(attr.type_asc(t_spec))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
fn declare_instance(
&mut self,
ident: &ast::Identifier,
t: &Type,
py_name: Str,
) -> LowerResult<()> {
if ident.is_raw() {
return Ok(());
}
let new_ident = if PYTHON_MODE {
let mut symbol = ident.name.clone().into_token();
symbol.content = py_name.clone();
Identifier::new(ident.vis.clone(), VarName::new(symbol))
} else {
ident.clone()
};
let (t, ty_obj) = match t {
Type::ClassType => {
let t = mono(format!("{}{ident}", self.module.context.path()));
let ty_obj = GenTypeObj::class(t.clone(), None, None);
let t = v_enum(set! { ValueObj::builtin_class(t) });
(t, Some(ty_obj))
}
Type::TraitType => {
let t = mono(format!("{}{ident}", self.module.context.path()));
let ty_obj =
GenTypeObj::trait_(t.clone(), TypeObj::builtin_type(Type::Uninited), None);
let t = v_enum(set! { ValueObj::builtin_trait(t) });
(t, Some(ty_obj))
}
_ => (t.clone(), None),
};
self.module.context.assign_var_sig(
&ast::VarSignature::new(ast::VarPattern::Ident(ident.clone()), None),
&t,
ast::DefId(0),
Some(py_name),
)?;
if let Some(gen) = ty_obj {
self.module.context.register_gen_type(&new_ident, gen)?;
}
Ok(())
}
fn declare_subtype(&mut self, ident: &ast::Identifier, trait_: &Type) -> LowerResult<()> {
if ident.is_raw() {
return Ok(());
}
let name = if PYTHON_MODE {
self.module
.context
.erg_to_py_names
.get(ident.inspect())
.map_or(Str::ever("?"), |s| s.clone())
} else {
ident.inspect().clone()
};
if let Some((_, ctx)) = self.module.context.rec_get_mut_type(&name) {
let mut tmp = mem::take(ctx);
tmp.register_marker_trait(&self.module.context, trait_.clone())
.map_err(|err| {
let ctx = self.module.context.rec_get_mut_type(&name).unwrap().1;
mem::swap(ctx, &mut tmp);
err
})?;
let ctx = self.module.context.rec_get_mut_type(&name).unwrap().1;
mem::swap(ctx, &mut tmp);
Ok(())
} else {
Err(LowerErrors::from(LowerError::no_var_error(
self.cfg().input.clone(),
line!() as usize,
ident.loc(),
self.module.context.caused_by(),
ident.inspect(),
self.module.context.get_similar_name(ident.inspect()),
)))
}
}
fn declare_chunk(&mut self, expr: ast::Expr, allow_acc: bool) -> LowerResult<hir::Expr> {
log!(info "entered {}", fn_name!());
match expr {
ast::Expr::Literal(lit) if lit.is_doc_comment() => {
Ok(hir::Expr::Lit(self.lower_literal(lit)?))
}
ast::Expr::Accessor(acc) if allow_acc => Ok(hir::Expr::Accessor(self.lower_acc(acc)?)),
ast::Expr::Def(def) => Ok(hir::Expr::Def(self.declare_def(def)?)),
ast::Expr::TypeAscription(tasc) => Ok(hir::Expr::TypeAsc(self.declare_ident(tasc)?)),
ast::Expr::Call(call)
if call
.additional_operation()
.map(|op| op.is_import())
.unwrap_or(false) =>
{
Ok(hir::Expr::Call(self.lower_call(call)?))
}
other => Err(LowerErrors::from(LowerError::declare_error(
self.cfg().input.clone(),
line!() as usize,
other.loc(),
self.module.context.caused_by(),
))),
}
}
pub(crate) fn declare_module(&mut self, ast: AST) -> HIR {
let mut module = hir::Module::with_capacity(ast.module.len());
let _ = self.module.context.preregister(ast.module.block());
for chunk in ast.module.into_iter() {
match self.declare_chunk(chunk, false) {
Ok(chunk) => {
module.push(chunk);
}
Err(errs) => {
self.errs.extend(errs);
}
}
}
HIR::new(ast.name, module)
}
}