use std::path::{Path, PathBuf}; use swc_common::{chain, sync::Lrc, Mark, SourceMap, SyntaxContext}; use swc_ecma_ast::*; use swc_ecma_codegen::Emitter; use swc_ecma_parser::{lexer::Lexer, EsConfig, Parser, StringInput, Syntax}; use swc_ecma_transforms_base::{ fixer::fixer, resolver::{resolver_with_mark, ts_resolver}, }; use swc_ecma_visit::{as_folder, Fold, FoldWith, VisitMut, VisitMutWith}; use testing::{fixture, run_test2, NormalizedOutput}; pub fn print(cm: Lrc, module: &Module) -> String { let mut buf = vec![]; { let mut emitter = Emitter { cfg: Default::default(), cm: cm.clone(), wr: Box::new(swc_ecma_codegen::text_writer::JsWriter::new( cm.clone(), "\n", &mut buf, None, )), comments: None, }; // println!("Emitting: {:?}", module); emitter.emit_module(&module).unwrap(); } let s = String::from_utf8_lossy(&buf); s.to_string() } fn run(syntax: Syntax, input: &Path, op: F) where F: FnOnce() -> P, P: Fold, { let dir = input.parent().unwrap(); let output = dir.join(format!( "output.{}", input.extension().unwrap().to_string_lossy(), )); run_test2(false, |cm, handler| { let fm = cm.load_file(input).unwrap(); let lexer = Lexer::new(syntax, EsVersion::latest(), StringInput::from(&*fm), None); let mut parser = Parser::new_from(lexer); let module = parser .parse_module() .map_err(|err| err.into_diagnostic(&handler).emit())?; let mut folder = op(); let module = module.fold_with(&mut folder); let actual = print(cm.clone(), &module); let actual = NormalizedOutput::from(actual); actual.compare_to_file(&output).unwrap(); Ok(()) }) .unwrap(); } #[fixture("tests/resolver/**/input.js")] fn test_resolver(input: PathBuf) { run( Syntax::Es(EsConfig { jsx: true, ..Default::default() }), &input, || { let top_level_mark = Mark::fresh(Mark::root()); chain!( resolver_with_mark(top_level_mark), as_folder(TsHygiene { top_level_mark }), fixer(None) ) }, ); } #[fixture("tests/ts-resolver/**/input.ts")] fn test_ts_resolver(input: PathBuf) { run(Syntax::Typescript(Default::default()), &input, || { let top_level_mark = Mark::fresh(Mark::root()); chain!( ts_resolver(top_level_mark), as_folder(TsHygiene { top_level_mark }), fixer(None) ) }); } struct TsHygiene { top_level_mark: Mark, } impl VisitMut for TsHygiene { fn visit_mut_ident(&mut self, i: &mut Ident) { if SyntaxContext::empty().apply_mark(self.top_level_mark) == i.span.ctxt { println!("ts_hygiene: {} is top-level", i.sym); return; } let ctxt = format!("{:?}", i.span.ctxt).replace("#", ""); i.sym = format!("{}__{}", i.sym, ctxt).into(); i.span = i.span.with_ctxt(SyntaxContext::empty()); } fn visit_mut_member_expr(&mut self, n: &mut MemberExpr) { n.obj.visit_mut_with(self); if let MemberProp::Computed(c) = &mut n.prop { c.visit_mut_with(self); } } fn visit_mut_super_prop_expr(&mut self, n: &mut SuperPropExpr) { if let SuperProp::Computed(c) = &mut n.prop { c.visit_mut_with(self); } } fn visit_mut_prop_name(&mut self, n: &mut PropName) { match n { PropName::Computed(n) => { n.visit_mut_with(self); } _ => {} } } fn visit_mut_ts_qualified_name(&mut self, q: &mut TsQualifiedName) { q.left.visit_mut_with(self); } }