SSR: Don't mix non-path-based rules with path-based

If any rules contain paths, then we reject any rules that don't contain paths. Allowing a mix leads to strange semantics, since the path-based rules only match things where the path refers to semantically the same thing, whereas the non-path-based rules could match anything. Specifically, if we have a rule like `foo ==>> bar` we only want to match the `foo` that is in the current scope, not any `foo`. However "foo" can be parsed as a pattern (BIND_PAT -> NAME -> IDENT). Allowing such a rule through would result in renaming everything called `foo` to `bar`. It'd also be slow, since without a path, we'd have to use the slow-scan search mechanism.
author: David Lattimore <[email protected]> 2020-07-29 07:01:00 +0100
committer: David Lattimore <[email protected]> 2020-07-29 07:01:00 +0100
commit: 3600c43f49f9901ffc94a139a8a3655944e91e4e (patch)
tree: fab3f6475ddb107c5f19834fc914704c930a1392 /crates/ra_ssr
parent: 5a8124273dd663f7f1ed43b53defc4a2c52dbc12 (diff)
2 files changed, 62 insertions, 1 deletions
diff --git a/crates/ra_ssr/src/parsing.rs b/crates/ra_ssr/src/parsing.rs
index 2d6f4e514..769720bef 100644
--- a/crates/ra_ssr/src/parsing.rs
+++ b/crates/ra_ssr/src/parsing.rs
@@ -10,6 +10,7 @@ use crate::{SsrError, SsrPattern, SsrRule};
 use ra_syntax::{ast, AstNode, SmolStr, SyntaxKind, SyntaxNode, T};
 use rustc_hash::{FxHashMap, FxHashSet};
 use std::str::FromStr;
+use test_utils::mark;
 #[derive(Debug)]
 pub(crate) struct ParsedRule {
@@ -102,14 +103,35 @@ impl RuleBuilder {
        }
    }
-    fn build(self) -> Result<Vec<ParsedRule>, SsrError> {
+    fn build(mut self) -> Result<Vec<ParsedRule>, SsrError> {
        if self.rules.is_empty() {
            bail!("Not a valid Rust expression, type, item, path or pattern");
        }
+        // If any rules contain paths, then we reject any rules that don't contain paths. Allowing a
+        // mix leads to strange semantics, since the path-based rules only match things where the
+        // path refers to semantically the same thing, whereas the non-path-based rules could match
+        // anything. Specifically, if we have a rule like `foo ==>> bar` we only want to match the
+        // `foo` that is in the current scope, not any `foo`. However "foo" can be parsed as a
+        // pattern (BIND_PAT -> NAME -> IDENT). Allowing such a rule through would result in
+        // renaming everything called `foo` to `bar`. It'd also be slow, since without a path, we'd
+        // have to use the slow-scan search mechanism.
+        if self.rules.iter().any(|rule| contains_path(&rule.pattern)) {
+            let old_len = self.rules.len();
+            self.rules.retain(|rule| contains_path(&rule.pattern));
+            if self.rules.len() < old_len {
+                mark::hit!(pattern_is_a_single_segment_path);
+            }
+        }
        Ok(self.rules)
    }
 }
+/// Returns whether there are any paths in `node`.
+fn contains_path(node: &SyntaxNode) -> bool {
+    node.kind() == SyntaxKind::PATH
+        || node.descendants().any(|node| node.kind() == SyntaxKind::PATH)
+}
 impl FromStr for SsrRule {
    type Err = SsrError;
diff --git a/crates/ra_ssr/src/tests.rs b/crates/ra_ssr/src/tests.rs
index 18ef2506a..851e573ae 100644
--- a/crates/ra_ssr/src/tests.rs
+++ b/crates/ra_ssr/src/tests.rs
@@ -887,6 +887,45 @@ fn ufcs_matches_method_call() {
 }
 #[test]
+fn pattern_is_a_single_segment_path() {
+    mark::check!(pattern_is_a_single_segment_path);
+    // The first function should not be altered because the `foo` in scope at the cursor position is
+    // a different `foo`. This case is special because "foo" can be parsed as a pattern (BIND_PAT ->
+    // NAME -> IDENT), which contains no path. If we're not careful we'll end up matching the `foo`
+    // in `let foo` from the first function. Whether we should match the `let foo` in the second
+    // function is less clear. At the moment, we don't. Doing so sounds like a rename operation,
+    // which isn't really what SSR is for, especially since the replacement `bar` must be able to be
+    // resolved, which means if we rename `foo` we'll get a name collision.
+    assert_ssr_transform(
+        "foo ==>> bar",
+        r#"
+        fn f1() -> i32 {
+            let foo = 1;
+            let bar = 2;
+            foo
+        }
+        fn f1() -> i32 {
+            let foo = 1;
+            let bar = 2;
+            foo<|>
+        }
+        "#,
+        expect![[r#"
+            fn f1() -> i32 {
+                let foo = 1;
+                let bar = 2;
+                foo
+            }
+            fn f1() -> i32 {
+                let foo = 1;
+                let bar = 2;
+                bar
+            }
+        "#]],
+    );
+}
+#[test]
 fn replace_local_variable_reference() {
    // The pattern references a local variable `foo` in the block containing the cursor. We should
    // only replace references to this variable `foo`, not other variables that just happen to have
author	David Lattimore <[email protected]>	2020-07-29 07:01:00 +0100
committer	David Lattimore <[email protected]>	2020-07-29 07:01:00 +0100
commit	3600c43f49f9901ffc94a139a8a3655944e91e4e (patch)
tree	fab3f6475ddb107c5f19834fc914704c930a1392 /crates/ra_ssr
parent	5a8124273dd663f7f1ed43b53defc4a2c52dbc12 (diff)

diff --git a/crates/ra_ssr/src/parsing.rs b/crates/ra_ssr/src/parsing.rs index 2d6f4e514..769720bef 100644 --- a/crates/ra_ssr/src/parsing.rs +++ b/crates/ra_ssr/src/parsing.rs
@@ -10,6 +10,7 @@ use crate::{SsrError, SsrPattern, SsrRule};
10	use ra_syntax::{ast, AstNode, SmolStr, SyntaxKind, SyntaxNode, T};	10	use ra_syntax::{ast, AstNode, SmolStr, SyntaxKind, SyntaxNode, T};
11	use rustc_hash::{FxHashMap, FxHashSet};	11	use rustc_hash::{FxHashMap, FxHashSet};
12	use std::str::FromStr;	12	use std::str::FromStr;
		13	use test_utils::mark;
13		14
14	#[derive(Debug)]	15	#[derive(Debug)]
15	pub(crate) struct ParsedRule {	16	pub(crate) struct ParsedRule {
@@ -102,14 +103,35 @@ impl RuleBuilder {
102	}	103	}
103	}	104	}
104		105
105	fn build(self) -> Result<Vec<ParsedRule>, SsrError> {	106	fn build(mut self) -> Result<Vec<ParsedRule>, SsrError> {
106	if self.rules.is_empty() {	107	if self.rules.is_empty() {
107	bail!("Not a valid Rust expression, type, item, path or pattern");	108	bail!("Not a valid Rust expression, type, item, path or pattern");
108	}	109	}
		110	// If any rules contain paths, then we reject any rules that don't contain paths. Allowing a
		111	// mix leads to strange semantics, since the path-based rules only match things where the
		112	// path refers to semantically the same thing, whereas the non-path-based rules could match
		113	// anything. Specifically, if we have a rule like `foo ==>> bar` we only want to match the
		114	// `foo` that is in the current scope, not any `foo`. However "foo" can be parsed as a
		115	// pattern (BIND_PAT -> NAME -> IDENT). Allowing such a rule through would result in
		116	// renaming everything called `foo` to `bar`. It'd also be slow, since without a path, we'd
		117	// have to use the slow-scan search mechanism.
		118	if self.rules.iter().any(\|rule\| contains_path(&rule.pattern)) {
		119	let old_len = self.rules.len();
		120	self.rules.retain(\|rule\| contains_path(&rule.pattern));
		121	if self.rules.len() < old_len {
		122	mark::hit!(pattern_is_a_single_segment_path);
		123	}
		124	}
109	Ok(self.rules)	125	Ok(self.rules)
110	}	126	}
111	}	127	}
112		128
		129	/// Returns whether there are any paths in `node`.
		130	fn contains_path(node: &SyntaxNode) -> bool {
		131	node.kind() == SyntaxKind::PATH
		132	\|\| node.descendants().any(\|node\| node.kind() == SyntaxKind::PATH)
		133	}
		134
113	impl FromStr for SsrRule {	135	impl FromStr for SsrRule {
114	type Err = SsrError;	136	type Err = SsrError;
115		137


diff --git a/crates/ra_ssr/src/tests.rs b/crates/ra_ssr/src/tests.rs index 18ef2506a..851e573ae 100644 --- a/crates/ra_ssr/src/tests.rs +++ b/crates/ra_ssr/src/tests.rs
@@ -887,6 +887,45 @@ fn ufcs_matches_method_call() {
887	}	887	}
888		888
889	#[test]	889	#[test]
		890	fn pattern_is_a_single_segment_path() {
		891	mark::check!(pattern_is_a_single_segment_path);
		892	// The first function should not be altered because the `foo` in scope at the cursor position is
		893	// a different `foo`. This case is special because "foo" can be parsed as a pattern (BIND_PAT ->
		894	// NAME -> IDENT), which contains no path. If we're not careful we'll end up matching the `foo`
		895	// in `let foo` from the first function. Whether we should match the `let foo` in the second
		896	// function is less clear. At the moment, we don't. Doing so sounds like a rename operation,
		897	// which isn't really what SSR is for, especially since the replacement `bar` must be able to be
		898	// resolved, which means if we rename `foo` we'll get a name collision.
		899	assert_ssr_transform(
		900	"foo ==>> bar",
		901	r#"
		902	fn f1() -> i32 {
		903	let foo = 1;
		904	let bar = 2;
		905	foo
		906	}
		907	fn f1() -> i32 {
		908	let foo = 1;
		909	let bar = 2;
		910	foo<\|>
		911	}
		912	"#,
		913	expect![[r#"
		914	fn f1() -> i32 {
		915	let foo = 1;
		916	let bar = 2;
		917	foo
		918	}
		919	fn f1() -> i32 {
		920	let foo = 1;
		921	let bar = 2;
		922	bar
		923	}
		924	"#]],
		925	);
		926	}
		927
		928	#[test]
890	fn replace_local_variable_reference() {	929	fn replace_local_variable_reference() {
891	// The pattern references a local variable `foo` in the block containing the cursor. We should	930	// The pattern references a local variable `foo` in the block containing the cursor. We should
892	// only replace references to this variable `foo`, not other variables that just happen to have	931	// only replace references to this variable `foo`, not other variables that just happen to have