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|
mod never_type;
mod coercion;
mod regression;
mod simple;
mod patterns;
mod traits;
mod method_resolution;
mod macros;
mod display_source_code;
use std::sync::Arc;
use hir_def::{
body::{BodySourceMap, SyntheticSyntax},
child_by_source::ChildBySource,
db::DefDatabase,
item_scope::ItemScope,
keys,
nameres::CrateDefMap,
AssocItemId, DefWithBodyId, LocalModuleId, Lookup, ModuleDefId,
};
use hir_expand::{db::AstDatabase, InFile};
use ra_db::{fixture::WithFixture, FileRange, SourceDatabase, SourceDatabaseExt};
use ra_syntax::{
algo,
ast::{self, AstNode},
SyntaxNode,
};
use stdx::format_to;
use crate::{
db::HirDatabase, display::HirDisplay, infer::TypeMismatch, test_db::TestDB, InferenceResult, Ty,
};
// These tests compare the inference results for all expressions in a file
// against snapshots of the expected results using insta. Use cargo-insta to
// update the snapshots.
fn setup_tracing() -> tracing::subscriber::DefaultGuard {
use tracing_subscriber::{layer::SubscriberExt, EnvFilter, Registry};
use tracing_tree::HierarchicalLayer;
let filter = EnvFilter::from_env("CHALK_DEBUG");
let layer = HierarchicalLayer::default().with_indent_amount(2).with_writer(std::io::stderr);
let subscriber = Registry::default().with(filter).with(layer);
tracing::subscriber::set_default(subscriber)
}
fn check_types(ra_fixture: &str) {
check_types_impl(ra_fixture, false)
}
fn check_types_source_code(ra_fixture: &str) {
check_types_impl(ra_fixture, true)
}
fn check_types_impl(ra_fixture: &str, display_source: bool) {
let _tracing = setup_tracing();
let db = TestDB::with_files(ra_fixture);
let mut checked_one = false;
for (file_id, annotations) in db.extract_annotations() {
for (range, expected) in annotations {
let ty = type_at_range(&db, FileRange { file_id, range });
let actual = if display_source {
let module = db.module_for_file(file_id);
ty.display_source_code(&db, module).unwrap()
} else {
ty.display(&db).to_string()
};
assert_eq!(expected, actual);
checked_one = true;
}
}
assert!(checked_one, "no `//^` annotations found");
}
fn type_at_range(db: &TestDB, pos: FileRange) -> Ty {
let file = db.parse(pos.file_id).ok().unwrap();
let expr = algo::find_node_at_range::<ast::Expr>(file.syntax(), pos.range).unwrap();
let fn_def = expr.syntax().ancestors().find_map(ast::FnDef::cast).unwrap();
let module = db.module_for_file(pos.file_id);
let func = *module.child_by_source(db)[keys::FUNCTION]
.get(&InFile::new(pos.file_id.into(), fn_def))
.unwrap();
let (_body, source_map) = db.body_with_source_map(func.into());
if let Some(expr_id) = source_map.node_expr(InFile::new(pos.file_id.into(), &expr)) {
let infer = db.infer(func.into());
return infer[expr_id].clone();
}
panic!("Can't find expression")
}
fn infer(ra_fixture: &str) -> String {
infer_with_mismatches(ra_fixture, false)
}
fn infer_with_mismatches(content: &str, include_mismatches: bool) -> String {
let _tracing = setup_tracing();
let (db, file_id) = TestDB::with_single_file(content);
let mut buf = String::new();
let mut infer_def = |inference_result: Arc<InferenceResult>,
body_source_map: Arc<BodySourceMap>| {
let mut types: Vec<(InFile<SyntaxNode>, &Ty)> = Vec::new();
let mut mismatches: Vec<(InFile<SyntaxNode>, &TypeMismatch)> = Vec::new();
for (pat, ty) in inference_result.type_of_pat.iter() {
let syntax_ptr = match body_source_map.pat_syntax(pat) {
Ok(sp) => {
let root = db.parse_or_expand(sp.file_id).unwrap();
sp.map(|ptr| {
ptr.either(
|it| it.to_node(&root).syntax().clone(),
|it| it.to_node(&root).syntax().clone(),
)
})
}
Err(SyntheticSyntax) => continue,
};
types.push((syntax_ptr, ty));
}
for (expr, ty) in inference_result.type_of_expr.iter() {
let node = match body_source_map.expr_syntax(expr) {
Ok(sp) => {
let root = db.parse_or_expand(sp.file_id).unwrap();
sp.map(|ptr| ptr.to_node(&root).syntax().clone())
}
Err(SyntheticSyntax) => continue,
};
types.push((node.clone(), ty));
if let Some(mismatch) = inference_result.type_mismatch_for_expr(expr) {
mismatches.push((node, mismatch));
}
}
// sort ranges for consistency
types.sort_by_key(|(node, _)| {
let range = node.value.text_range();
(range.start(), range.end())
});
for (node, ty) in &types {
let (range, text) = if let Some(self_param) = ast::SelfParam::cast(node.value.clone()) {
(self_param.self_token().unwrap().text_range(), "self".to_string())
} else {
(node.value.text_range(), node.value.text().to_string().replace("\n", " "))
};
let macro_prefix = if node.file_id != file_id.into() { "!" } else { "" };
format_to!(
buf,
"{}{:?} '{}': {}\n",
macro_prefix,
range,
ellipsize(text, 15),
ty.display(&db)
);
}
if include_mismatches {
mismatches.sort_by_key(|(node, _)| {
let range = node.value.text_range();
(range.start(), range.end())
});
for (src_ptr, mismatch) in &mismatches {
let range = src_ptr.value.text_range();
let macro_prefix = if src_ptr.file_id != file_id.into() { "!" } else { "" };
format_to!(
buf,
"{}{:?}: expected {}, got {}\n",
macro_prefix,
range,
mismatch.expected.display(&db),
mismatch.actual.display(&db),
);
}
}
};
let module = db.module_for_file(file_id);
let crate_def_map = db.crate_def_map(module.krate);
let mut defs: Vec<DefWithBodyId> = Vec::new();
visit_module(&db, &crate_def_map, module.local_id, &mut |it| defs.push(it));
defs.sort_by_key(|def| match def {
DefWithBodyId::FunctionId(it) => {
let loc = it.lookup(&db);
let tree = db.item_tree(loc.id.file_id);
tree.source(&db, loc.id).syntax().text_range().start()
}
DefWithBodyId::ConstId(it) => {
let loc = it.lookup(&db);
let tree = db.item_tree(loc.id.file_id);
tree.source(&db, loc.id).syntax().text_range().start()
}
DefWithBodyId::StaticId(it) => {
let loc = it.lookup(&db);
let tree = db.item_tree(loc.id.file_id);
tree.source(&db, loc.id).syntax().text_range().start()
}
});
for def in defs {
let (_body, source_map) = db.body_with_source_map(def);
let infer = db.infer(def);
infer_def(infer, source_map);
}
buf.truncate(buf.trim_end().len());
buf
}
fn visit_module(
db: &TestDB,
crate_def_map: &CrateDefMap,
module_id: LocalModuleId,
cb: &mut dyn FnMut(DefWithBodyId),
) {
visit_scope(db, crate_def_map, &crate_def_map[module_id].scope, cb);
for impl_id in crate_def_map[module_id].scope.impls() {
let impl_data = db.impl_data(impl_id);
for &item in impl_data.items.iter() {
match item {
AssocItemId::FunctionId(it) => {
let def = it.into();
cb(def);
let body = db.body(def);
visit_scope(db, crate_def_map, &body.item_scope, cb);
}
AssocItemId::ConstId(it) => {
let def = it.into();
cb(def);
let body = db.body(def);
visit_scope(db, crate_def_map, &body.item_scope, cb);
}
AssocItemId::TypeAliasId(_) => (),
}
}
}
fn visit_scope(
db: &TestDB,
crate_def_map: &CrateDefMap,
scope: &ItemScope,
cb: &mut dyn FnMut(DefWithBodyId),
) {
for decl in scope.declarations() {
match decl {
ModuleDefId::FunctionId(it) => {
let def = it.into();
cb(def);
let body = db.body(def);
visit_scope(db, crate_def_map, &body.item_scope, cb);
}
ModuleDefId::ConstId(it) => {
let def = it.into();
cb(def);
let body = db.body(def);
visit_scope(db, crate_def_map, &body.item_scope, cb);
}
ModuleDefId::StaticId(it) => {
let def = it.into();
cb(def);
let body = db.body(def);
visit_scope(db, crate_def_map, &body.item_scope, cb);
}
ModuleDefId::TraitId(it) => {
let trait_data = db.trait_data(it);
for &(_, item) in trait_data.items.iter() {
match item {
AssocItemId::FunctionId(it) => cb(it.into()),
AssocItemId::ConstId(it) => cb(it.into()),
AssocItemId::TypeAliasId(_) => (),
}
}
}
ModuleDefId::ModuleId(it) => visit_module(db, crate_def_map, it.local_id, cb),
_ => (),
}
}
}
}
fn ellipsize(mut text: String, max_len: usize) -> String {
if text.len() <= max_len {
return text;
}
let ellipsis = "...";
let e_len = ellipsis.len();
let mut prefix_len = (max_len - e_len) / 2;
while !text.is_char_boundary(prefix_len) {
prefix_len += 1;
}
let mut suffix_len = max_len - e_len - prefix_len;
while !text.is_char_boundary(text.len() - suffix_len) {
suffix_len += 1;
}
text.replace_range(prefix_len..text.len() - suffix_len, ellipsis);
text
}
#[test]
fn typing_whitespace_inside_a_function_should_not_invalidate_types() {
let (mut db, pos) = TestDB::with_position(
"
//- /lib.rs
fn foo() -> i32 {
<|>1 + 1
}
",
);
{
let events = db.log_executed(|| {
let module = db.module_for_file(pos.file_id);
let crate_def_map = db.crate_def_map(module.krate);
visit_module(&db, &crate_def_map, module.local_id, &mut |def| {
db.infer(def);
});
});
assert!(format!("{:?}", events).contains("infer"))
}
let new_text = "
fn foo() -> i32 {
1
+
1
}
"
.to_string();
db.set_file_text(pos.file_id, Arc::new(new_text));
{
let events = db.log_executed(|| {
let module = db.module_for_file(pos.file_id);
let crate_def_map = db.crate_def_map(module.krate);
visit_module(&db, &crate_def_map, module.local_id, &mut |def| {
db.infer(def);
});
});
assert!(!format!("{:?}", events).contains("infer"), "{:#?}", events)
}
}
|