#![allow(unused_macros)] #![allow(dead_code)] use ast::*; use sourcemap::SourceMapBuilder; use std::{ fmt, fs::{create_dir_all, remove_dir_all, OpenOptions}, io::{self, Write}, path::Path, process::Command, sync::{Arc, RwLock}, }; use swc_common::{comments::Comments, errors::Handler, FileName, Fold, FoldWith, SourceMap}; use swc_ecma_codegen::Emitter; use swc_ecma_parser::{lexer::Lexer, Parser, Session, SourceFileInput, Syntax}; use swc_ecma_transforms::{ helpers::{InjectHelpers, HELPERS}, pass::Pass, }; use tempfile::tempdir_in; pub fn validating(name: &'static str, tr: impl Pass + 'static) -> Box { box ::swc_common::Fold::then( tr, swc_ecma_transforms::debug::validator::Validator { name }, ) } macro_rules! validating { ($folder:expr) => {{ common::validating(stringify!($folder), $folder) }}; } macro_rules! validate { ($e:expr) => {{ use swc_common::fold::FoldWith; if cfg!(debug_assertions) { $e.fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: concat!(file!(), ':', line!(), ':', column!()), }) } else { $e } }}; } struct MyHandlers; impl swc_ecma_codegen::Handlers for MyHandlers {} pub struct Tester<'a> { pub cm: Arc, pub handler: &'a Handler, pub comments: Comments, } impl<'a> Tester<'a> { pub fn run(op: F) where F: FnOnce(&mut Tester<'_>) -> Result<(), ()>, { let out = ::testing::run_test(false, |cm, handler| { swc_ecma_transforms::util::HANDLER.set(handler, || { HELPERS.set(&Default::default(), || { op(&mut Tester { cm, handler, comments: Comments::default(), }) }) }) }); match out { Ok(()) => {} Err(stderr) => panic!("Stderr:\n{}", stderr), } } pub fn with_parser( &mut self, file_name: &str, syntax: Syntax, src: &str, op: F, ) -> Result where F: FnOnce(&mut Parser<'_, Lexer<'_, SourceFileInput<'_>>>) -> Result, { let fm = self .cm .new_source_file(FileName::Real(file_name.into()), src.into()); let sess = Session { handler: &self.handler, }; let mut p = Parser::new( sess, syntax, SourceFileInput::from(&*fm), Some(&self.comments), ); op(&mut p) } pub fn parse_module(&mut self, file_name: &str, src: &str) -> Result { self.with_parser(file_name, Syntax::default(), src, |p| { p.parse_module().map_err(|mut e| { e.emit(); }) }) } pub fn apply_transform>( &mut self, mut tr: T, name: &str, syntax: Syntax, src: &str, ) -> Result { let fm = self .cm .new_source_file(FileName::Real(name.into()), src.into()); let module = { let sess = Session { handler: &self.handler, }; let mut p = Parser::new(sess, syntax, SourceFileInput::from(&*fm), None); p.parse_module().map_err(|mut e| { e.emit(); })? }; let module = validate!(module) .fold_with(&mut tr) .fold_with(&mut ::testing::DropSpan) .fold_with(&mut Normalizer); Ok(module) } pub fn print(&mut self, module: &Module) -> String { let handlers = box MyHandlers; let mut wr = Buf(Arc::new(RwLock::new(vec![]))); { let mut src_map_builder = SourceMapBuilder::new(None); let mut emitter = Emitter { cfg: Default::default(), cm: self.cm.clone(), wr: box swc_ecma_codegen::text_writer::JsWriter::new( self.cm.clone(), "\n", &mut wr, Some(&mut src_map_builder), ), comments: None, handlers, }; // println!("Emitting: {:?}", module); emitter.emit_module(&module).unwrap(); } let r = wr.0.read().unwrap(); let s = String::from_utf8_lossy(&*r); s.to_string() } } fn make_tr(_: &'static str, op: F, tester: &mut Tester<'_>) -> impl Pass where F: FnOnce(&mut Tester<'_>) -> P, P: Pass, { op(tester) } #[cfg(test)] macro_rules! test_transform { ($syntax:expr, $tr:expr, $input:expr, $expected:expr) => { test_transform!($syntax, $tr, $input, $expected, false) }; ($syntax:expr, $tr:expr, $input:expr, $expected:expr, $ok_if_code_eq:expr) => {{ common::test_transform($syntax, $tr, $input, $expected, $ok_if_code_eq); }}; } pub fn test_transform(syntax: Syntax, tr: F, input: &str, expected: &str, ok_if_code_eq: bool) where F: FnOnce(&mut Tester<'_>) -> P, { Tester::run(|tester| { let expected = tester.apply_transform(::testing::DropSpan, "output.js", syntax, expected)?; println!("----- Actual -----"); let tr = make_tr("actual", tr, tester); let actual = tester.apply_transform(tr, "input.js", syntax, input)?; match ::std::env::var("PRINT_HYGIENE") { Ok(ref s) if s == "1" => { let hygiene_src = tester.print(&actual.clone().fold_with(&mut HygieneVisualizer)); println!("----- Hygiene -----\n{}", hygiene_src); } _ => {} } let actual = actual .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-1" }) .fold_with(&mut swc_ecma_transforms::hygiene()) .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-2" }) .fold_with(&mut swc_ecma_transforms::fixer()) .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-3" }); if actual == expected { return Ok(()); } let (actual_src, expected_src) = (tester.print(&actual), tester.print(&expected)); if actual_src == expected_src { if ok_if_code_eq { return Ok(()); } // Diff it println!(">>>>> Code <<<<<\n{}", actual_src); assert_eq!(actual, expected, "different ast was detected"); return Err(()); } println!(">>>>> Orig <<<<<\n{}", input); println!(">>>>> Code <<<<<\n{}", actual_src); if actual_src != expected_src { panic!( r#"assertion failed: `(left == right)` {}"#, ::testing::diff(&actual_src, &expected_src), ); } Err(()) }); } #[derive(PartialEq, Eq)] pub struct DebugUsingDisplay<'a>(pub &'a str); impl<'a> fmt::Debug for DebugUsingDisplay<'a> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fmt::Display::fmt(self.0, f) } } /// Test transformation. #[cfg(test)] macro_rules! test { (ignore, $syntax:expr, $tr:expr, $test_name:ident, $input:expr, $expected:expr) => { #[test] #[ignore] fn $test_name() { test_transform!($syntax, $tr, $input, $expected) } }; ($syntax:expr, $tr:expr, $test_name:ident, $input:expr, $expected:expr) => { #[test] fn $test_name() { test_transform!($syntax, $tr, $input, $expected) } }; ($syntax:expr, $tr:expr, $test_name:ident, $input:expr, $expected:expr, ok_if_code_eq) => { #[test] fn $test_name() { test_transform!($syntax, $tr, $input, $expected, true) } }; } macro_rules! exec_tr { ($syntax:expr, $tr:expr, $test_name:ident, $input:expr) => {{ common::exec_tr(stringify!($test_name), $syntax, $tr, $input); }}; } pub fn exec_tr(test_name: &'static str, syntax: Syntax, tr: F, input: &str) where F: FnOnce(&mut Tester<'_>) -> P, { Tester::run(|tester| { let tr = make_tr(test_name, tr, tester); let module = tester.apply_transform( tr, "input.js", syntax, &format!( "it('should work', function () {{ {} }})", input ), )?; match ::std::env::var("PRINT_HYGIENE") { Ok(ref s) if s == "1" => { let hygiene_src = tester.print(&module.clone().fold_with(&mut HygieneVisualizer)); println!("----- Hygiene -----\n{}", hygiene_src); } _ => {} } let module = module .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-1" }) .fold_with(&mut swc_ecma_transforms::hygiene()) .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-2" }) .fold_with(&mut swc_ecma_transforms::fixer()) .fold_with(&mut swc_ecma_transforms::debug::validator::Validator { name: "actual-3" }); let src_without_helpers = tester.print(&module); let module = module.fold_with(&mut InjectHelpers {}); let src = tester.print(&module); let root = Path::new(env!("CARGO_MANIFEST_DIR")) .join("target") .join("testing") .join(test_name); // Remove outputs from previous tests let _ = remove_dir_all(&root); create_dir_all(&root).expect("failed to create parent directory for temp directory"); let tmp_dir = tempdir_in(&root).expect("failed to create a temp directory"); create_dir_all(&tmp_dir).unwrap(); let path = tmp_dir.path().join(format!("{}.test.js", test_name)); let mut tmp = OpenOptions::new() .create(true) .write(true) .open(&path) .expect("failed to create a temp file"); write!(tmp, "{}", src).expect("failed to write to temp file"); tmp.flush().unwrap(); println!( "\t>>>>> Orig <<<<<\n{}\n\t>>>>> Code <<<<<\n{}", input, src_without_helpers ); let status = Command::new("jest") .args(&["--testMatch", &format!("{}", path.display())]) .current_dir(root) .status() .expect("failed to run jest"); if status.success() { return Ok(()); } ::std::mem::forget(tmp_dir); panic!("Execution failed") }) } /// Test transformation. #[cfg(test)] macro_rules! test_exec { (ignore, $syntax:expr, $tr:expr, $test_name:ident, $input:expr) => { #[test] #[ignore] fn $test_name() { exec_tr!($syntax, $tr, $test_name, $input) } }; ($syntax:expr, $tr:expr, $test_name:ident, $input:expr) => { #[test] fn $test_name() { if ::std::env::var("EXEC").unwrap_or(String::from("")) == "0" { return; } exec_tr!($syntax, $tr, $test_name, $input) } }; } #[derive(Debug, Clone)] struct Buf(Arc>>); impl Write for Buf { fn write(&mut self, data: &[u8]) -> io::Result { self.0.write().unwrap().write(data) } fn flush(&mut self) -> io::Result<()> { self.0.write().unwrap().flush() } } struct Normalizer; impl Fold for Normalizer { fn fold(&mut self, n: PatOrExpr) -> PatOrExpr { match n { PatOrExpr::Pat(box Pat::Expr(e)) => PatOrExpr::Expr(e), _ => n, } } } struct HygieneVisualizer; impl Fold for HygieneVisualizer { fn fold(&mut self, ident: Ident) -> Ident { Ident { sym: format!("{}{:?}", ident.sym, ident.span.ctxt()).into(), ..ident } } }