Added more unit tests

author: Matt Hooper <[email protected]> 2020-03-24 18:33:00 +0000
committer: Matt Hooper <[email protected]> 2020-03-24 22:22:41 +0000
commit: b70ce559b8d3102c3fed3ecef8edef3038a5ceed (patch)
tree: cfbea1c486b2de6e25aebb394adb412052713f87 /crates
parent: c1f9a1a1c5f32f9fb311e6e91033e1811c5acc47 (diff)
1 files changed, 159 insertions, 76 deletions
diff --git a/crates/ra_ide/src/inlay_hints.rs b/crates/ra_ide/src/inlay_hints.rs
index 2353ad71f..293944206 100644
--- a/crates/ra_ide/src/inlay_hints.rs
+++ b/crates/ra_ide/src/inlay_hints.rs
@@ -70,6 +70,45 @@ pub(crate) fn inlay_hints(
    res
 }
+fn get_chaining_hints(
+    acc: &mut Vec<InlayHint>,
+    sema: &Semantics<RootDatabase>,
+    options: &InlayHintsOptions,
+    expr: ast::Expr,
+) -> Option<()> {
+    if !options.chaining_hints {
+        return None;
+    }
+    let ty = sema.type_of_expr(&expr)?;
+    let label = ty.display_truncated(sema.db, options.max_length).to_string();
+    if ty.is_unknown() {
+        return None;
+    }
+    let mut tokens = expr.syntax()
+        .siblings_with_tokens(Direction::Next)
+        .filter_map(NodeOrToken::into_token)
+        .filter(|t| match t.kind() {
+            SyntaxKind::WHITESPACE if !t.text().contains('\n') => false,
+            SyntaxKind::COMMENT => false,
+            _ => true,
+        });
+    // Chaining can be defined as an expression whose next sibling tokens are newline and dot
+    // Ignoring extra whitespace and comments
+    let next = tokens.next()?.kind();
+    let next_next = tokens.next()?.kind();
+    if next == SyntaxKind::WHITESPACE && next_next == SyntaxKind::DOT { 
+        acc.push(InlayHint {
+            range: expr.syntax().text_range(),
+            kind: InlayKind::ChainingHint,
+            label: label.into(),
+        });
+    }
+    Some(())
+}
 fn get_param_name_hints(
    acc: &mut Vec<InlayHint>,
    sema: &Semantics<RootDatabase>,
@@ -233,45 +272,6 @@ fn get_fn_signature(sema: &Semantics<RootDatabase>, expr: &ast::Expr) -> Option<
    }
 }
-fn get_chaining_hints(
-    acc: &mut Vec<InlayHint>,
-    sema: &Semantics<RootDatabase>,
-    options: &InlayHintsOptions,
-    expr: ast::Expr,
-) -> Option<()> {
-    if !options.chaining_hints {
-        return None;
-    }
-    let ty = sema.type_of_expr(&expr)?;
-    let label = ty.display_truncated(sema.db, options.max_length).to_string();
-    if ty.is_unknown() {
-        return None;
-    }
-    let mut tokens = expr.syntax()
-        .siblings_with_tokens(Direction::Next)
-        .filter_map(NodeOrToken::into_token)
-        .filter(|t| match t.kind() {
-            SyntaxKind::WHITESPACE if !t.text().contains('\n') => false,
-            SyntaxKind::COMMENT => false,
-            _ => true,
-        });
-    // Chaining can be defined as an expression whose next sibling tokens are newline and dot
-    // Ignoring extra whitespace and comments
-    let next = tokens.next()?.kind();
-    let next_next = tokens.next()?.kind();
-    if next == SyntaxKind::WHITESPACE && next_next == SyntaxKind::DOT { 
-        acc.push(InlayHint {
-            range: expr.syntax().text_range(),
-            kind: InlayKind::ChainingHint,
-            label: label.into(),
-        });
-    }
-    Some(())
-}
 #[cfg(test)]
 mod tests {
    use crate::inlay_hints::InlayHintsOptions;
@@ -280,43 +280,6 @@ mod tests {
    use crate::mock_analysis::single_file;
    #[test]
-    fn generic_chaining_hints() {
-        let (analysis, file_id) = single_file(
-            r#"
-            struct A<T>(T); 
-            struct B<T>(T);
-            struct C<T>(T);
-            struct X<T,R>(T, R);
-            
-            impl<T> A<T> {
-                fn new(t: T) -> Self { A(t) }
-                fn into_b(self) -> B<T> { B(self.0) }
-            }
-            impl<T> B<T> {
-                fn into_c(self) -> C<T> { C(self.0) }
-            }
-            fn test() {
-                let c = A::new(X(42, true))
-                    .into_b() // All the from A -> B -> C
-                    .into_c();
-            }"#,
-        );
-        assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
-        [
-            InlayHint {
-                range: [416; 465),
-                kind: ChainingHint,
-                label: "B<X<i32, bool>>",
-            },
-            InlayHint {
-                range: [416; 435),
-                kind: ChainingHint,
-                label: "A<X<i32, bool>>",
-            },
-        ]"###);
-    }
-    #[test]
    fn param_hints_only() {
        let (analysis, file_id) = single_file(
            r#"
@@ -1139,4 +1102,124 @@ fn main() {
        "###
        );
    }
+    #[test]
+    fn chaining_hints_ignore_comments() {
+        let (analysis, file_id) = single_file(
+            r#"
+            struct A(B);
+            impl A { fn into_b(self) -> B { self.0 } }
+            struct B(C)
+            impl B { fn into_c(self) -> C { self.0 } }
+            struct C;
+            fn main() {
+                let c = A(B(C))
+                    .into_b() // This is a comment
+                    .into_c();
+            }"#,
+        );
+        assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
+        [
+            InlayHint {
+                range: [231; 268),
+                kind: ChainingHint,
+                label: "B",
+            },
+            InlayHint {
+                range: [231; 238),
+                kind: ChainingHint,
+                label: "A",
+            },
+        ]"###);
+    }
+    #[test]
+    fn chaining_hints_without_newlines() {
+        let (analysis, file_id) = single_file(
+            r#"
+            struct A(B);
+            impl A { fn into_b(self) -> B { self.0 } }
+            struct B(C)
+            impl B { fn into_c(self) -> C { self.0 } }
+            struct C;
+            fn main() {
+                let c = A(B(C)).into_b().into_c();
+            }"#,
+        );
+        assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"[]"###);
+    }
+    #[test]
+    fn struct_access_chaining_hints() {
+        let (analysis, file_id) = single_file(
+            r#"
+            struct A { pub b: B }
+            struct B { pub c: C }
+            struct C(pub bool);
+            fn main() {
+                let x = A { b: B { c: C(true) } }
+                    .b
+                    .c
+                    .0;
+            }"#,
+        );
+        assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
+        [
+            InlayHint {
+                range: [150; 221),
+                kind: ChainingHint,
+                label: "C",
+            },
+            InlayHint {
+                range: [150; 198),
+                kind: ChainingHint,
+                label: "B",
+            },
+            InlayHint {
+                range: [150; 175),
+                kind: ChainingHint,
+                label: "A",
+            },
+        ]"###);
+    }
+    #[test]
+    fn generic_chaining_hints() {
+        let (analysis, file_id) = single_file(
+            r#"
+            struct A<T>(T); 
+            struct B<T>(T);
+            struct C<T>(T);
+            struct X<T,R>(T, R);
+            
+            impl<T> A<T> {
+                fn new(t: T) -> Self { A(t) }
+                fn into_b(self) -> B<T> { B(self.0) }
+            }
+            impl<T> B<T> {
+                fn into_c(self) -> C<T> { C(self.0) }
+            }
+            fn main() {
+                let c = A::new(X(42, true))
+                    .into_b()
+                    .into_c();
+            }"#,
+        );
+        assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
+        [
+            InlayHint {
+                range: [416; 465),
+                kind: ChainingHint,
+                label: "B<X<i32, bool>>",
+            },
+            InlayHint {
+                range: [416; 435),
+                kind: ChainingHint,
+                label: "A<X<i32, bool>>",
+            },
+        ]"###);
+    }
 }
author	Matt Hooper <[email protected]>	2020-03-24 18:33:00 +0000
committer	Matt Hooper <[email protected]>	2020-03-24 22:22:41 +0000
commit	b70ce559b8d3102c3fed3ecef8edef3038a5ceed (patch)
tree	cfbea1c486b2de6e25aebb394adb412052713f87 /crates
parent	c1f9a1a1c5f32f9fb311e6e91033e1811c5acc47 (diff)

diff --git a/crates/ra_ide/src/inlay_hints.rs b/crates/ra_ide/src/inlay_hints.rs index 2353ad71f..293944206 100644 --- a/crates/ra_ide/src/inlay_hints.rs +++ b/crates/ra_ide/src/inlay_hints.rs
@@ -70,6 +70,45 @@ pub(crate) fn inlay_hints(
70	res	70	res
71	}	71	}
72		72
		73	fn get_chaining_hints(
		74	acc: &mut Vec<InlayHint>,
		75	sema: &Semantics<RootDatabase>,
		76	options: &InlayHintsOptions,
		77	expr: ast::Expr,
		78	) -> Option<()> {
		79	if !options.chaining_hints {
		80	return None;
		81	}
		82
		83	let ty = sema.type_of_expr(&expr)?;
		84	let label = ty.display_truncated(sema.db, options.max_length).to_string();
		85	if ty.is_unknown() {
		86	return None;
		87	}
		88
		89	let mut tokens = expr.syntax()
		90	.siblings_with_tokens(Direction::Next)
		91	.filter_map(NodeOrToken::into_token)
		92	.filter(\|t\| match t.kind() {
		93	SyntaxKind::WHITESPACE if !t.text().contains('\n') => false,
		94	SyntaxKind::COMMENT => false,
		95	_ => true,
		96	});
		97
		98	// Chaining can be defined as an expression whose next sibling tokens are newline and dot
		99	// Ignoring extra whitespace and comments
		100	let next = tokens.next()?.kind();
		101	let next_next = tokens.next()?.kind();
		102	if next == SyntaxKind::WHITESPACE && next_next == SyntaxKind::DOT {
		103	acc.push(InlayHint {
		104	range: expr.syntax().text_range(),
		105	kind: InlayKind::ChainingHint,
		106	label: label.into(),
		107	});
		108	}
		109	Some(())
		110	}
		111
73	fn get_param_name_hints(	112	fn get_param_name_hints(
74	acc: &mut Vec<InlayHint>,	113	acc: &mut Vec<InlayHint>,
75	sema: &Semantics<RootDatabase>,	114	sema: &Semantics<RootDatabase>,
@@ -233,45 +272,6 @@ fn get_fn_signature(sema: &Semantics<RootDatabase>, expr: &ast::Expr) -> Option<
233	}	272	}
234	}	273	}
235		274
236	fn get_chaining_hints(
237	acc: &mut Vec<InlayHint>,
238	sema: &Semantics<RootDatabase>,
239	options: &InlayHintsOptions,
240	expr: ast::Expr,
241	) -> Option<()> {
242	if !options.chaining_hints {
243	return None;
244	}
245
246	let ty = sema.type_of_expr(&expr)?;
247	let label = ty.display_truncated(sema.db, options.max_length).to_string();
248	if ty.is_unknown() {
249	return None;
250	}
251
252	let mut tokens = expr.syntax()
253	.siblings_with_tokens(Direction::Next)
254	.filter_map(NodeOrToken::into_token)
255	.filter(\|t\| match t.kind() {
256	SyntaxKind::WHITESPACE if !t.text().contains('\n') => false,
257	SyntaxKind::COMMENT => false,
258	_ => true,
259	});
260
261	// Chaining can be defined as an expression whose next sibling tokens are newline and dot
262	// Ignoring extra whitespace and comments
263	let next = tokens.next()?.kind();
264	let next_next = tokens.next()?.kind();
265	if next == SyntaxKind::WHITESPACE && next_next == SyntaxKind::DOT {
266	acc.push(InlayHint {
267	range: expr.syntax().text_range(),
268	kind: InlayKind::ChainingHint,
269	label: label.into(),
270	});
271	}
272	Some(())
273	}
274
275	#[cfg(test)]	275	#[cfg(test)]
276	mod tests {	276	mod tests {
277	use crate::inlay_hints::InlayHintsOptions;	277	use crate::inlay_hints::InlayHintsOptions;
@@ -280,43 +280,6 @@ mod tests {
280	use crate::mock_analysis::single_file;	280	use crate::mock_analysis::single_file;
281		281
282	#[test]	282	#[test]
283	fn generic_chaining_hints() {
284	let (analysis, file_id) = single_file(
285	r#"
286	struct A<T>(T);
287	struct B<T>(T);
288	struct C<T>(T);
289	struct X<T,R>(T, R);
290
291	impl<T> A<T> {
292	fn new(t: T) -> Self { A(t) }
293	fn into_b(self) -> B<T> { B(self.0) }
294	}
295	impl<T> B<T> {
296	fn into_c(self) -> C<T> { C(self.0) }
297	}
298	fn test() {
299	let c = A::new(X(42, true))
300	.into_b() // All the from A -> B -> C
301	.into_c();
302	}"#,
303	);
304	assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
305	[
306	InlayHint {
307	range: [416; 465),
308	kind: ChainingHint,
309	label: "B<X<i32, bool>>",
310	},
311	InlayHint {
312	range: [416; 435),
313	kind: ChainingHint,
314	label: "A<X<i32, bool>>",
315	},
316	]"###);
317	}
318
319	#[test]
320	fn param_hints_only() {	283	fn param_hints_only() {
321	let (analysis, file_id) = single_file(	284	let (analysis, file_id) = single_file(
322	r#"	285	r#"
@@ -1139,4 +1102,124 @@ fn main() {
1139	"###	1102	"###
1140	);	1103	);
1141	}	1104	}
		1105
		1106	#[test]
		1107	fn chaining_hints_ignore_comments() {
		1108	let (analysis, file_id) = single_file(
		1109	r#"
		1110	struct A(B);
		1111	impl A { fn into_b(self) -> B { self.0 } }
		1112	struct B(C)
		1113	impl B { fn into_c(self) -> C { self.0 } }
		1114	struct C;
		1115
		1116	fn main() {
		1117	let c = A(B(C))
		1118	.into_b() // This is a comment
		1119	.into_c();
		1120	}"#,
		1121	);
		1122	assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
		1123	[
		1124	InlayHint {
		1125	range: [231; 268),
		1126	kind: ChainingHint,
		1127	label: "B",
		1128	},
		1129	InlayHint {
		1130	range: [231; 238),
		1131	kind: ChainingHint,
		1132	label: "A",
		1133	},
		1134	]"###);
		1135	}
		1136
		1137	#[test]
		1138	fn chaining_hints_without_newlines() {
		1139	let (analysis, file_id) = single_file(
		1140	r#"
		1141	struct A(B);
		1142	impl A { fn into_b(self) -> B { self.0 } }
		1143	struct B(C)
		1144	impl B { fn into_c(self) -> C { self.0 } }
		1145	struct C;
		1146
		1147	fn main() {
		1148	let c = A(B(C)).into_b().into_c();
		1149	}"#,
		1150	);
		1151	assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"[]"###);
		1152	}
		1153
		1154	#[test]
		1155	fn struct_access_chaining_hints() {
		1156	let (analysis, file_id) = single_file(
		1157	r#"
		1158	struct A { pub b: B }
		1159	struct B { pub c: C }
		1160	struct C(pub bool);
		1161
		1162	fn main() {
		1163	let x = A { b: B { c: C(true) } }
		1164	.b
		1165	.c
		1166	.0;
		1167	}"#,
		1168	);
		1169	assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
		1170	[
		1171	InlayHint {
		1172	range: [150; 221),
		1173	kind: ChainingHint,
		1174	label: "C",
		1175	},
		1176	InlayHint {
		1177	range: [150; 198),
		1178	kind: ChainingHint,
		1179	label: "B",
		1180	},
		1181	InlayHint {
		1182	range: [150; 175),
		1183	kind: ChainingHint,
		1184	label: "A",
		1185	},
		1186	]"###);
		1187	}
		1188
		1189	#[test]
		1190	fn generic_chaining_hints() {
		1191	let (analysis, file_id) = single_file(
		1192	r#"
		1193	struct A<T>(T);
		1194	struct B<T>(T);
		1195	struct C<T>(T);
		1196	struct X<T,R>(T, R);
		1197
		1198	impl<T> A<T> {
		1199	fn new(t: T) -> Self { A(t) }
		1200	fn into_b(self) -> B<T> { B(self.0) }
		1201	}
		1202	impl<T> B<T> {
		1203	fn into_c(self) -> C<T> { C(self.0) }
		1204	}
		1205	fn main() {
		1206	let c = A::new(X(42, true))
		1207	.into_b()
		1208	.into_c();
		1209	}"#,
		1210	);
		1211	assert_debug_snapshot!(analysis.inlay_hints(file_id, &InlayHintsOptions{ parameter_hints: false, type_hints: false, chaining_hints: true, max_length: None}).unwrap(), @r###"
		1212	[
		1213	InlayHint {
		1214	range: [416; 465),
		1215	kind: ChainingHint,
		1216	label: "B<X<i32, bool>>",
		1217	},
		1218	InlayHint {
		1219	range: [416; 435),
		1220	kind: ChainingHint,
		1221	label: "A<X<i32, bool>>",
		1222	},
		1223	]"###);
		1224	}
1142	}	1225	}