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	use std::{cell::RefCell, mem::take, rc::Rc};

	use easy_error::{bail, Error};
	use rustc_hash::FxHashSet;
	use swc_core::{
	atoms::Atom,
	common::{
	errors::HANDLER,
	pass::{Repeat, Repeated},
	DUMMY_SP,
	},
	ecma::{
	ast::*,
	visit::{fold_pass, noop_fold_type, Fold, FoldWith},
	},
	};

	static SSG_EXPORTS: &[&str; 3] = &["getStaticProps", "getStaticPaths", "getServerSideProps"];

	/// Note: This paths requires running `resolver` before running this.
	pub fn next_ssg(eliminated_packages: Rc<RefCell<FxHashSet<Atom>>>) -> impl Pass {
	fold_pass(Repeat::new(NextSsg {
	state: State {
	eliminated_packages,
	..Default::default()
	},
	in_lhs_of_var: false,
	}))
	}

	/// State of the transforms. Shared by the analyzer and the transform.
	#[derive(Debug, Default)]
	struct State {
	/// Identifiers referenced by non-data function codes.
	///
	/// Cleared before running each pass, because we drop ast nodes between the
	/// passes.
	refs_from_other: FxHashSet<Id>,

	/// Identifiers referenced by data functions or derivatives.
	///
	/// Preserved between runs, because we should remember derivatives of data
	/// functions as the data function itself is already removed.
	refs_from_data_fn: FxHashSet<Id>,

	cur_declaring: FxHashSet<Id>,

	is_prerenderer: bool,
	is_server_props: bool,
	done: bool,

	should_run_again: bool,

	/// Track the import packages which are eliminated in the
	/// `getServerSideProps`
	pub eliminated_packages: Rc<RefCell<FxHashSet<Atom>>>,
	}

	impl State {
	#[allow(clippy::wrong_self_convention)]
	fn is_data_identifier(&mut self, i: &Ident) -> Result<bool, Error> {
	if SSG_EXPORTS.contains(&&*i.sym) {
	if &*i.sym == "getServerSideProps" {
	if self.is_prerenderer {
	HANDLER.with(\|handler\| {
	handler
	.struct_span_err(
	i.span,
	"You can not use getStaticProps or getStaticPaths with \
	getServerSideProps. To use SSG, please remove getServerSideProps",
	)
	.emit()
	});
	bail!("both ssg and ssr functions present");
	}

	self.is_server_props = true;
	} else {
	if self.is_server_props {
	HANDLER.with(\|handler\| {
	handler
	.struct_span_err(
	i.span,
	"You can not use getStaticProps or getStaticPaths with \
	getServerSideProps. To use SSG, please remove getServerSideProps",
	)
	.emit()
	});
	bail!("both ssg and ssr functions present");
	}

	self.is_prerenderer = true;
	}

	Ok(true)
	} else {
	Ok(false)
	}
	}
	}

	struct Analyzer<'a> {
	state: &'a mut State,
	in_lhs_of_var: bool,
	in_data_fn: bool,
	}

	impl Analyzer<'_> {
	fn add_ref(&mut self, id: Id) {
	tracing::trace!("add_ref({}{:?}, data = {})", id.0, id.1, self.in_data_fn);
	if self.in_data_fn {
	self.state.refs_from_data_fn.insert(id);
	} else {
	if self.state.cur_declaring.contains(&id) {
	return;
	}

	self.state.refs_from_other.insert(id);
	}
	}
	}

	impl Fold for Analyzer<'_> {
	// This is important for reducing binary sizes.
	noop_fold_type!();

	fn fold_binding_ident(&mut self, i: BindingIdent) -> BindingIdent {
	if !self.in_lhs_of_var \|\| self.in_data_fn {
	self.add_ref(i.id.to_id());
	}

	i
	}

	fn fold_export_named_specifier(&mut self, s: ExportNamedSpecifier) -> ExportNamedSpecifier {
	if let ModuleExportName::Ident(id) = &s.orig {
	if !SSG_EXPORTS.contains(&&*id.sym) {
	self.add_ref(id.to_id());
	}
	}

	s
	}

	fn fold_export_decl(&mut self, s: ExportDecl) -> ExportDecl {
	if let Decl::Var(d) = &s.decl {
	if d.decls.is_empty() {
	return s;
	}

	if let Pat::Ident(id) = &d.decls[0].name {
	if !SSG_EXPORTS.contains(&&*id.id.sym) {
	self.add_ref(id.to_id());
	}
	}
	}

	s.fold_children_with(self)
	}

	fn fold_expr(&mut self, e: Expr) -> Expr {
	let e = e.fold_children_with(self);

	if let Expr::Ident(i) = &e {
	self.add_ref(i.to_id());
	}

	e
	}

	fn fold_jsx_element(&mut self, jsx: JSXElement) -> JSXElement {
	fn get_leftmost_id_member_expr(e: &JSXMemberExpr) -> Id {
	match &e.obj {
	JSXObject::Ident(i) => i.to_id(),
	JSXObject::JSXMemberExpr(e) => get_leftmost_id_member_expr(e),
	}
	}

	match &jsx.opening.name {
	JSXElementName::Ident(i) => {
	self.add_ref(i.to_id());
	}
	JSXElementName::JSXMemberExpr(e) => {
	self.add_ref(get_leftmost_id_member_expr(e));
	}
	_ => {}
	}

	jsx.fold_children_with(self)
	}

	fn fold_fn_decl(&mut self, f: FnDecl) -> FnDecl {
	let old_in_data = self.in_data_fn;

	self.state.cur_declaring.insert(f.ident.to_id());

	if let Ok(is_data_identifier) = self.state.is_data_identifier(&f.ident) {
	self.in_data_fn \|= is_data_identifier;
	} else {
	return f;
	}
	tracing::trace!(
	"ssg: Handling `{}{:?}`; in_data_fn = {:?}",
	f.ident.sym,
	f.ident.ctxt,
	self.in_data_fn
	);

	let f = f.fold_children_with(self);

	self.state.cur_declaring.remove(&f.ident.to_id());

	self.in_data_fn = old_in_data;

	f
	}

	fn fold_fn_expr(&mut self, f: FnExpr) -> FnExpr {
	let f = f.fold_children_with(self);

	if let Some(id) = &f.ident {
	self.add_ref(id.to_id());
	}

	f
	}

	/// Drops [ExportDecl] if all specifiers are removed.
	fn fold_module_item(&mut self, s: ModuleItem) -> ModuleItem {
	match s {
	ModuleItem::ModuleDecl(ModuleDecl::ExportNamed(e)) if !e.specifiers.is_empty() => {
	let e = e.fold_with(self);

	if e.specifiers.is_empty() {
	return ModuleItem::Stmt(Stmt::Empty(EmptyStmt { span: DUMMY_SP }));
	}

	return ModuleItem::ModuleDecl(ModuleDecl::ExportNamed(e));
	}
	_ => {}
	};

	// Visit children to ensure that all references is added to the scope.
	let s = s.fold_children_with(self);

	if let ModuleItem::ModuleDecl(ModuleDecl::ExportDecl(e)) = &s {
	match &e.decl {
	Decl::Fn(f) => {
	// Drop getStaticProps.
	if let Ok(is_data_identifier) = self.state.is_data_identifier(&f.ident) {
	if is_data_identifier {
	return ModuleItem::Stmt(Stmt::Empty(EmptyStmt { span: DUMMY_SP }));
	}
	} else {
	return s;
	}
	}

	Decl::Var(d) => {
	if d.decls.is_empty() {
	return ModuleItem::Stmt(Stmt::Empty(EmptyStmt { span: DUMMY_SP }));
	}
	}
	_ => {}
	}
	}

	s
	}

	fn fold_named_export(&mut self, mut n: NamedExport) -> NamedExport {
	if n.src.is_some() {
	n.specifiers = n.specifiers.fold_with(self);
	}

	n
	}

	fn fold_prop(&mut self, p: Prop) -> Prop {
	let p = p.fold_children_with(self);

	if let Prop::Shorthand(i) = &p {
	self.add_ref(i.to_id());
	}

	p
	}

	fn fold_var_declarator(&mut self, mut v: VarDeclarator) -> VarDeclarator {
	let old_in_data = self.in_data_fn;

	if let Pat::Ident(name) = &v.name {
	if let Ok(is_data_identifier) = self.state.is_data_identifier(&name.id) {
	if is_data_identifier {
	self.in_data_fn = true;
	}
	} else {
	return v;
	}
	}

	let old_in_lhs_of_var = self.in_lhs_of_var;

	self.in_lhs_of_var = true;
	v.name = v.name.fold_with(self);

	self.in_lhs_of_var = false;
	v.init = v.init.fold_with(self);

	self.in_lhs_of_var = old_in_lhs_of_var;

	self.in_data_fn = old_in_data;

	v
	}
	}

	/// Actual implementation of the transform.
	struct NextSsg {
	pub state: State,
	in_lhs_of_var: bool,
	}

	impl NextSsg {
	fn should_remove(&self, id: Id) -> bool {
	self.state.refs_from_data_fn.contains(&id) && !self.state.refs_from_other.contains(&id)
	}

	/// Mark identifiers in `n` as a candidate for removal.
	fn mark_as_candidate<N>(&mut self, n: N) -> N
	where
	N: for<'aa> FoldWith<Analyzer<'aa>>,
	{
	tracing::debug!("mark_as_candidate");

	// Analyzer never change `in_data_fn` to false, so all identifiers in `n` will
	// be marked as referenced from a data function.
	let mut v = Analyzer {
	state: &mut self.state,
	in_lhs_of_var: false,
	in_data_fn: true,
	};

	let n = n.fold_with(&mut v);
	self.state.should_run_again = true;
	n
	}
	}

	impl Repeated for NextSsg {
	fn changed(&self) -> bool {
	self.state.should_run_again
	}

	fn reset(&mut self) {
	self.state.refs_from_other.clear();
	self.state.cur_declaring.clear();
	self.state.should_run_again = false;
	}
	}

	/// `VisitMut` is faster than [Fold], but we use [Fold] because it's much easier
	/// to read.
	///
	/// Note: We don't implement `fold_script` because next.js doesn't use it.
	impl Fold for NextSsg {
	// This is important for reducing binary sizes.
	noop_fold_type!();

	fn fold_import_decl(&mut self, mut i: ImportDecl) -> ImportDecl {
	// Imports for side effects.
	if i.specifiers.is_empty() {
	return i;
	}

	let import_src = &i.src.value;

	i.specifiers.retain(\|s\| match s {
	ImportSpecifier::Named(ImportNamedSpecifier { local, .. })
	\| ImportSpecifier::Default(ImportDefaultSpecifier { local, .. })
	\| ImportSpecifier::Namespace(ImportStarAsSpecifier { local, .. }) => {
	if self.should_remove(local.to_id()) {
	if self.state.is_server_props
	// filter out non-packages import
	// third part packages must start with `a-z` or `@`
	&& import_src.starts_with(\|c: char\| c.is_ascii_lowercase() \|\| c == '@')
	{
	self.state
	.eliminated_packages
	.borrow_mut()
	.insert(import_src.clone());
	}
	tracing::trace!(
	"Dropping import `{}{:?}` because it should be removed",
	local.sym,
	local.ctxt
	);

	self.state.should_run_again = true;
	false
	} else {
	true
	}
	}
	});

	i
	}

	fn fold_module(&mut self, mut m: Module) -> Module {
	tracing::info!("ssg: Start");
	{
	// Fill the state.
	let mut v = Analyzer {
	state: &mut self.state,
	in_lhs_of_var: false,
	in_data_fn: false,
	};
	m = m.fold_with(&mut v);
	}

	// TODO: Use better detection logic
	// if !self.state.is_prerenderer && !self.state.is_server_props {
	// return m;
	// }

	m.fold_children_with(self)
	}

	fn fold_module_item(&mut self, i: ModuleItem) -> ModuleItem {
	if let ModuleItem::ModuleDecl(ModuleDecl::Import(i)) = i {
	let is_for_side_effect = i.specifiers.is_empty();
	let i = i.fold_with(self);

	if !is_for_side_effect && i.specifiers.is_empty() {
	return ModuleItem::Stmt(Stmt::Empty(EmptyStmt { span: DUMMY_SP }));
	}

	return ModuleItem::ModuleDecl(ModuleDecl::Import(i));
	}

	let i = i.fold_children_with(self);

	match &i {
	ModuleItem::ModuleDecl(ModuleDecl::ExportNamed(e)) if e.specifiers.is_empty() => {
	return ModuleItem::Stmt(Stmt::Empty(EmptyStmt { span: DUMMY_SP }))
	}
	_ => {}
	}

	i
	}

	fn fold_module_items(&mut self, mut items: Vec<ModuleItem>) -> Vec<ModuleItem> {
	items = items.fold_children_with(self);

	// Drop nodes.
	items.retain(\|s\| !matches!(s, ModuleItem::Stmt(Stmt::Empty(..))));

	if !self.state.done
	&& !self.state.should_run_again
	&& (self.state.is_prerenderer \|\| self.state.is_server_props)
	{
	self.state.done = true;

	if items.iter().any(\|s\| s.is_module_decl()) {
	let mut var = Some(VarDeclarator {
	span: DUMMY_SP,
	name: Pat::Ident(
	IdentName::new(
	if self.state.is_prerenderer {
	"__N_SSG".into()
	} else {
	"__N_SSP".into()
	},
	DUMMY_SP,
	)
	.into(),
	),
	init: Some(Box::new(Expr::Lit(Lit::Bool(Bool {
	span: DUMMY_SP,
	value: true,
	})))),
	definite: Default::default(),
	});

	let mut new = Vec::with_capacity(items.len() + 1);
	for item in take(&mut items) {
	if let ModuleItem::ModuleDecl(
	ModuleDecl::ExportNamed(..)
	\| ModuleDecl::ExportDecl(..)
	\| ModuleDecl::ExportDefaultDecl(..)
	\| ModuleDecl::ExportDefaultExpr(..),
	) = &item
	{
	if let Some(var) = var.take() {
	new.push(ModuleItem::ModuleDecl(ModuleDecl::ExportDecl(ExportDecl {
	span: DUMMY_SP,
	decl: Decl::Var(Box::new(VarDecl {
	span: DUMMY_SP,
	kind: VarDeclKind::Var,
	decls: vec![var],
	..Default::default()
	})),
	})))
	}
	}

	new.push(item);
	}

	return new;
	}
	}

	items
	}

	fn fold_named_export(&mut self, mut n: NamedExport) -> NamedExport {
	n.specifiers = n.specifiers.fold_with(self);

	n.specifiers.retain(\|s\| {
	let preserve = match s {
	ExportSpecifier::Namespace(ExportNamespaceSpecifier {
	name: ModuleExportName::Ident(exported),
	..
	})
	\| ExportSpecifier::Default(ExportDefaultSpecifier { exported, .. })
	\| ExportSpecifier::Named(ExportNamedSpecifier {
	exported: Some(ModuleExportName::Ident(exported)),
	..
	}) => self
	.state
	.is_data_identifier(exported)
	.map(\|is_data_identifier\| !is_data_identifier),
	ExportSpecifier::Named(ExportNamedSpecifier {
	orig: ModuleExportName::Ident(orig),
	..
	}) => self
	.state
	.is_data_identifier(orig)
	.map(\|is_data_identifier\| !is_data_identifier),

	_ => Ok(true),
	};

	match preserve {
	Ok(false) => {
	tracing::trace!("Dropping a export specifier because it's a data identifier");

	if let ExportSpecifier::Named(ExportNamedSpecifier {
	orig: ModuleExportName::Ident(orig),
	..
	}) = s
	{
	self.state.should_run_again = true;
	self.state.refs_from_data_fn.insert(orig.to_id());
	}

	false
	}
	Ok(true) => true,
	Err(_) => false,
	}
	});

	n
	}

	/// This methods returns [Pat::Invalid] if the pattern should be removed.
	fn fold_pat(&mut self, mut p: Pat) -> Pat {
	p = p.fold_children_with(self);

	if self.in_lhs_of_var {
	match &mut p {
	Pat::Ident(name) => {
	if self.should_remove(name.id.to_id()) {
	self.state.should_run_again = true;
	tracing::trace!(
	"Dropping var `{}{:?}` because it should be removed",
	name.id.sym,
	name.id.ctxt
	);

	return Pat::Invalid(Invalid { span: DUMMY_SP });
	}
	}
	Pat::Array(arr) => {
	if !arr.elems.is_empty() {
	arr.elems.retain(\|e\| !matches!(e, Some(Pat::Invalid(..))));

	if arr.elems.is_empty() {
	return Pat::Invalid(Invalid { span: DUMMY_SP });
	}
	}
	}
	Pat::Object(obj) => {
	if !obj.props.is_empty() {
	obj.props = take(&mut obj.props)
	.into_iter()
	.filter_map(\|prop\| match prop {
	ObjectPatProp::KeyValue(prop) => {
	if prop.value.is_invalid() {
	None
	} else {
	Some(ObjectPatProp::KeyValue(prop))
	}
	}
	ObjectPatProp::Assign(prop) => {
	if self.should_remove(prop.key.to_id()) {
	self.mark_as_candidate(prop.value);

	None
	} else {
	Some(ObjectPatProp::Assign(prop))
	}
	}
	ObjectPatProp::Rest(prop) => {
	if prop.arg.is_invalid() {
	None
	} else {
	Some(ObjectPatProp::Rest(prop))
	}
	}
	})
	.collect();

	if obj.props.is_empty() {
	return Pat::Invalid(Invalid { span: DUMMY_SP });
	}
	}
	}
	Pat::Rest(rest) => {
	if rest.arg.is_invalid() {
	return Pat::Invalid(Invalid { span: DUMMY_SP });
	}
	}
	_ => {}
	}
	}

	p
	}

	#[allow(clippy::single_match)]
	fn fold_stmt(&mut self, mut s: Stmt) -> Stmt {
	match s {
	Stmt::Decl(Decl::Fn(f)) => {
	if self.should_remove(f.ident.to_id()) {
	self.mark_as_candidate(f.function);
	return Stmt::Empty(EmptyStmt { span: DUMMY_SP });
	}

	s = Stmt::Decl(Decl::Fn(f));
	}
	_ => {}
	}

	let s = s.fold_children_with(self);
	match s {
	Stmt::Decl(Decl::Var(v)) if v.decls.is_empty() => {
	return Stmt::Empty(EmptyStmt { span: DUMMY_SP });
	}
	_ => {}
	}

	s
	}

	/// This method make `name` of [VarDeclarator] to [Pat::Invalid] if it
	/// should be removed.
	fn fold_var_declarator(&mut self, mut d: VarDeclarator) -> VarDeclarator {
	let old = self.in_lhs_of_var;
	self.in_lhs_of_var = true;
	let name = d.name.fold_with(self);

	self.in_lhs_of_var = false;
	if name.is_invalid() {
	d.init = self.mark_as_candidate(d.init);
	}
	let init = d.init.fold_with(self);
	self.in_lhs_of_var = old;

	VarDeclarator { name, init, ..d }
	}

	fn fold_var_declarators(&mut self, mut decls: Vec<VarDeclarator>) -> Vec<VarDeclarator> {
	decls = decls.fold_children_with(self);
	decls.retain(\|d\| !d.name.is_invalid());

	decls
	}
	}