swc/ecmascript/parser/tests/jsx.rs

147 lines
3.7 KiB
Rust

use pretty_assertions::assert_eq;
use serde_json;
use std::{
fs::read_to_string,
path::{Path, PathBuf},
};
use swc_common::{errors::Handler, sync::Lrc, SourceMap};
use swc_ecma_ast::*;
use swc_ecma_parser::{lexer::Lexer, PResult, Parser, StringInput};
use swc_ecma_visit::{Fold, FoldWith};
use testing::{run_test, StdErr};
fn parse_module<'a>(cm: Lrc<SourceMap>, handler: &Handler, file_name: &Path) -> Result<Module, ()> {
with_parser(cm, handler, file_name, |p| p.parse_module())
}
fn with_parser<F, Ret>(
cm: Lrc<SourceMap>,
handler: &Handler,
file_name: &Path,
f: F,
) -> Result<Ret, ()>
where
F: FnOnce(&mut Parser<Lexer<StringInput<'_>>>) -> PResult<Ret>,
{
let fm = cm
.load_file(file_name)
.unwrap_or_else(|e| panic!("failed to load {}: {}", file_name.display(), e));
let mut p = Parser::new(
::swc_ecma_parser::Syntax::Es(::swc_ecma_parser::EsConfig {
jsx: true,
..Default::default()
}),
(&*fm).into(),
None,
);
let res = f(&mut p).map_err(|e| e.into_diagnostic(handler).emit());
for e in p.take_errors() {
e.into_diagnostic(&handler).emit();
}
res
}
#[testing::fixture("tests/jsx/basic/**/*.js")]
fn references(entry: PathBuf) {
run_test(false, |cm, handler| {
let input = read_to_string(&entry).unwrap();
eprintln!(
"\n\n========== Running reference test \nSource:\n{}\n",
input
);
// Parse source
let module = parse_module(cm.clone(), handler, &entry)?.fold_with(&mut Normalizer);
let json =
serde_json::to_string_pretty(&module).expect("failed to serialize module as json");
if StdErr::from(json.clone())
.compare_to_file(format!("{}.json", entry.display()))
.is_err()
{
panic!()
}
let deser = serde_json::from_str::<Module>(&json)
.unwrap_or_else(|err| {
panic!(
"failed to deserialize json back to module: {}\n{}",
err, json
)
})
.fold_with(&mut Normalizer);
assert_eq!(module, deser, "JSON:\n{}", json);
Ok(())
})
.unwrap();
}
#[testing::fixture("tests/jsx/errors/**/*.js")]
fn error(entry: PathBuf) {
let input = read_to_string(&entry).unwrap();
eprintln!(
"\n\n========== Running error reporting test \nSource:\n{}\n",
input
);
let err = run_test(false, |cm, handler| {
if false {
// Type annotation
return Ok(());
}
// Parse source
let _ = parse_module(cm, handler, &entry);
if !handler.has_errors() {
panic!("should emit error, but parsed without error")
}
Err(())
})
.expect_err("should fail, but parsed as");
if err
.compare_to_file(format!("{}.stderr", entry.display()))
.is_err()
{
panic!()
}
}
struct Normalizer;
impl Fold for Normalizer {
fn fold_pat(&mut self, mut node: Pat) -> Pat {
node = node.fold_children_with(self);
if let Pat::Expr(expr) = node {
match *expr {
Expr::Ident(i) => return Pat::Ident(i.into()),
_ => {
node = Pat::Expr(expr);
}
}
}
node
}
fn fold_pat_or_expr(&mut self, node: PatOrExpr) -> PatOrExpr {
let node = node.fold_children_with(self);
match node {
PatOrExpr::Pat(pat) => match *pat {
Pat::Expr(expr) => PatOrExpr::Expr(expr),
_ => PatOrExpr::Pat(pat),
},
_ => node,
}
}
}