aboutsummaryrefslogtreecommitdiff
path: root/crates
diff options
context:
space:
mode:
authorLaurenČ›iu Nicola <[email protected]>2020-07-21 11:08:55 +0100
committerLaurenČ›iu Nicola <[email protected]>2020-07-21 11:11:46 +0100
commitf7e4b99d154fa85e4f37aa9e53d4ffb8f4a0073e (patch)
treefb2ed3661d92e1719b118a774c349e246b7bcb4b /crates
parent9518e2f9d69dbb4a9ddd4a8bab87cf16a41fca03 (diff)
Replace remaining insta uses
Diffstat (limited to 'crates')
-rw-r--r--crates/ra_hir_ty/src/tests/macros.rs620
-rw-r--r--crates/ra_hir_ty/src/tests/method_resolution.rs1150
-rw-r--r--crates/ra_hir_ty/src/tests/patterns.rs1102
-rw-r--r--crates/ra_hir_ty/src/tests/regression.rs1172
-rw-r--r--crates/ra_hir_ty/src/tests/simple.rs3413
-rw-r--r--crates/ra_hir_ty/src/tests/traits.rs3274
6 files changed, 5366 insertions, 5365 deletions
diff --git a/crates/ra_hir_ty/src/tests/macros.rs b/crates/ra_hir_ty/src/tests/macros.rs
index 45c4e309e..24c53eb02 100644
--- a/crates/ra_hir_ty/src/tests/macros.rs
+++ b/crates/ra_hir_ty/src/tests/macros.rs
@@ -1,9 +1,9 @@
1use std::fs; 1use std::fs;
2 2
3use insta::assert_snapshot; 3use expect::expect;
4use test_utils::project_dir; 4use test_utils::project_dir;
5 5
6use super::{check_types, infer}; 6use super::{check_infer, check_types};
7 7
8#[test] 8#[test]
9fn cfg_impl_def() { 9fn cfg_impl_def() {
@@ -46,204 +46,204 @@ impl S {
46 46
47#[test] 47#[test]
48fn infer_macros_expanded() { 48fn infer_macros_expanded() {
49 assert_snapshot!( 49 check_infer(
50 infer(r#" 50 r#"
51struct Foo(Vec<i32>); 51 struct Foo(Vec<i32>);
52 52
53macro_rules! foo { 53 macro_rules! foo {
54 ($($item:expr),*) => { 54 ($($item:expr),*) => {
55 { 55 {
56 Foo(vec![$($item,)*]) 56 Foo(vec![$($item,)*])
57 } 57 }
58 }; 58 };
59} 59 }
60 60
61fn main() { 61 fn main() {
62 let x = foo!(1,2); 62 let x = foo!(1,2);
63} 63 }
64"#), 64 "#,
65 @r###" 65 expect![[r#"
66 !0..17 '{Foo(v...,2,])}': Foo 66 !0..17 '{Foo(v...,2,])}': Foo
67 !1..4 'Foo': Foo({unknown}) -> Foo 67 !1..4 'Foo': Foo({unknown}) -> Foo
68 !1..16 'Foo(vec![1,2,])': Foo 68 !1..16 'Foo(vec![1,2,])': Foo
69 !5..15 'vec![1,2,]': {unknown} 69 !5..15 'vec![1,2,]': {unknown}
70 155..181 '{ ...,2); }': () 70 155..181 '{ ...,2); }': ()
71 165..166 'x': Foo 71 165..166 'x': Foo
72 "### 72 "#]],
73 ); 73 );
74} 74}
75 75
76#[test] 76#[test]
77fn infer_legacy_textual_scoped_macros_expanded() { 77fn infer_legacy_textual_scoped_macros_expanded() {
78 assert_snapshot!( 78 check_infer(
79 infer(r#" 79 r#"
80struct Foo(Vec<i32>); 80 struct Foo(Vec<i32>);
81 81
82#[macro_use] 82 #[macro_use]
83mod m { 83 mod m {
84 macro_rules! foo { 84 macro_rules! foo {
85 ($($item:expr),*) => { 85 ($($item:expr),*) => {
86 { 86 {
87 Foo(vec![$($item,)*]) 87 Foo(vec![$($item,)*])
88 }
89 };
88 } 90 }
89 }; 91 }
90 }
91}
92 92
93fn main() { 93 fn main() {
94 let x = foo!(1,2); 94 let x = foo!(1,2);
95 let y = crate::foo!(1,2); 95 let y = crate::foo!(1,2);
96} 96 }
97"#), 97 "#,
98 @r###" 98 expect![[r#"
99 !0..17 '{Foo(v...,2,])}': Foo 99 !0..17 '{Foo(v...,2,])}': Foo
100 !1..4 'Foo': Foo({unknown}) -> Foo 100 !1..4 'Foo': Foo({unknown}) -> Foo
101 !1..16 'Foo(vec![1,2,])': Foo 101 !1..16 'Foo(vec![1,2,])': Foo
102 !5..15 'vec![1,2,]': {unknown} 102 !5..15 'vec![1,2,]': {unknown}
103 194..250 '{ ...,2); }': () 103 194..250 '{ ...,2); }': ()
104 204..205 'x': Foo 104 204..205 'x': Foo
105 227..228 'y': {unknown} 105 227..228 'y': {unknown}
106 231..247 'crate:...!(1,2)': {unknown} 106 231..247 'crate:...!(1,2)': {unknown}
107 "### 107 "#]],
108 ); 108 );
109} 109}
110 110
111#[test] 111#[test]
112fn infer_path_qualified_macros_expanded() { 112fn infer_path_qualified_macros_expanded() {
113 assert_snapshot!( 113 check_infer(
114 infer(r#" 114 r#"
115#[macro_export] 115 #[macro_export]
116macro_rules! foo { 116 macro_rules! foo {
117 () => { 42i32 } 117 () => { 42i32 }
118} 118 }
119 119
120mod m { 120 mod m {
121 pub use super::foo as bar; 121 pub use super::foo as bar;
122} 122 }
123 123
124fn main() { 124 fn main() {
125 let x = crate::foo!(); 125 let x = crate::foo!();
126 let y = m::bar!(); 126 let y = m::bar!();
127} 127 }
128"#), 128 "#,
129 @r###" 129 expect![[r#"
130 !0..5 '42i32': i32 130 !0..5 '42i32': i32
131 !0..5 '42i32': i32 131 !0..5 '42i32': i32
132 110..163 '{ ...!(); }': () 132 110..163 '{ ...!(); }': ()
133 120..121 'x': i32 133 120..121 'x': i32
134 147..148 'y': i32 134 147..148 'y': i32
135 "### 135 "#]],
136 ); 136 );
137} 137}
138 138
139#[test] 139#[test]
140fn expr_macro_expanded_in_various_places() { 140fn expr_macro_expanded_in_various_places() {
141 assert_snapshot!( 141 check_infer(
142 infer(r#" 142 r#"
143macro_rules! spam { 143 macro_rules! spam {
144 () => (1isize); 144 () => (1isize);
145} 145 }
146 146
147fn spam() { 147 fn spam() {
148 spam!(); 148 spam!();
149 (spam!()); 149 (spam!());
150 spam!().spam(spam!()); 150 spam!().spam(spam!());
151 for _ in spam!() {} 151 for _ in spam!() {}
152 || spam!(); 152 || spam!();
153 while spam!() {} 153 while spam!() {}
154 break spam!(); 154 break spam!();
155 return spam!(); 155 return spam!();
156 match spam!() { 156 match spam!() {
157 _ if spam!() => spam!(), 157 _ if spam!() => spam!(),
158 } 158 }
159 spam!()(spam!()); 159 spam!()(spam!());
160 Spam { spam: spam!() }; 160 Spam { spam: spam!() };
161 spam!()[spam!()]; 161 spam!()[spam!()];
162 await spam!(); 162 await spam!();
163 spam!() as usize; 163 spam!() as usize;
164 &spam!(); 164 &spam!();
165 -spam!(); 165 -spam!();
166 spam!()..spam!(); 166 spam!()..spam!();
167 spam!() + spam!(); 167 spam!() + spam!();
168} 168 }
169"#), 169 "#,
170 @r###" 170 expect![[r#"
171 !0..6 '1isize': isize 171 !0..6 '1isize': isize
172 !0..6 '1isize': isize 172 !0..6 '1isize': isize
173 !0..6 '1isize': isize 173 !0..6 '1isize': isize
174 !0..6 '1isize': isize 174 !0..6 '1isize': isize
175 !0..6 '1isize': isize 175 !0..6 '1isize': isize
176 !0..6 '1isize': isize 176 !0..6 '1isize': isize
177 !0..6 '1isize': isize 177 !0..6 '1isize': isize
178 !0..6 '1isize': isize 178 !0..6 '1isize': isize
179 !0..6 '1isize': isize 179 !0..6 '1isize': isize
180 !0..6 '1isize': isize 180 !0..6 '1isize': isize
181 !0..6 '1isize': isize 181 !0..6 '1isize': isize
182 !0..6 '1isize': isize 182 !0..6 '1isize': isize
183 !0..6 '1isize': isize 183 !0..6 '1isize': isize
184 !0..6 '1isize': isize 184 !0..6 '1isize': isize
185 !0..6 '1isize': isize 185 !0..6 '1isize': isize
186 !0..6 '1isize': isize 186 !0..6 '1isize': isize
187 !0..6 '1isize': isize 187 !0..6 '1isize': isize
188 !0..6 '1isize': isize 188 !0..6 '1isize': isize
189 !0..6 '1isize': isize 189 !0..6 '1isize': isize
190 !0..6 '1isize': isize 190 !0..6 '1isize': isize
191 !0..6 '1isize': isize 191 !0..6 '1isize': isize
192 !0..6 '1isize': isize 192 !0..6 '1isize': isize
193 !0..6 '1isize': isize 193 !0..6 '1isize': isize
194 !0..6 '1isize': isize 194 !0..6 '1isize': isize
195 !0..6 '1isize': isize 195 !0..6 '1isize': isize
196 53..456 '{ ...!(); }': () 196 53..456 '{ ...!(); }': ()
197 87..108 'spam!(...am!())': {unknown} 197 87..108 'spam!(...am!())': {unknown}
198 114..133 'for _ ...!() {}': () 198 114..133 'for _ ...!() {}': ()
199 118..119 '_': {unknown} 199 118..119 '_': {unknown}
200 131..133 '{}': () 200 131..133 '{}': ()
201 138..148 '|| spam!()': || -> isize 201 138..148 '|| spam!()': || -> isize
202 154..170 'while ...!() {}': () 202 154..170 'while ...!() {}': ()
203 168..170 '{}': () 203 168..170 '{}': ()
204 175..188 'break spam!()': ! 204 175..188 'break spam!()': !
205 194..208 'return spam!()': ! 205 194..208 'return spam!()': !
206 214..268 'match ... }': isize 206 214..268 'match ... }': isize
207 238..239 '_': isize 207 238..239 '_': isize
208 273..289 'spam!(...am!())': {unknown} 208 273..289 'spam!(...am!())': {unknown}
209 295..317 'Spam {...m!() }': {unknown} 209 295..317 'Spam {...m!() }': {unknown}
210 323..339 'spam!(...am!()]': {unknown} 210 323..339 'spam!(...am!()]': {unknown}
211 364..380 'spam!(... usize': usize 211 364..380 'spam!(... usize': usize
212 386..394 '&spam!()': &isize 212 386..394 '&spam!()': &isize
213 400..408 '-spam!()': isize 213 400..408 '-spam!()': isize
214 414..430 'spam!(...pam!()': {unknown} 214 414..430 'spam!(...pam!()': {unknown}
215 436..453 'spam!(...pam!()': isize 215 436..453 'spam!(...pam!()': isize
216 "### 216 "#]],
217 ); 217 );
218} 218}
219 219
220#[test] 220#[test]
221fn infer_type_value_macro_having_same_name() { 221fn infer_type_value_macro_having_same_name() {
222 assert_snapshot!( 222 check_infer(
223 infer(r#" 223 r#"
224#[macro_export] 224 #[macro_export]
225macro_rules! foo { 225 macro_rules! foo {
226 () => { 226 () => {
227 mod foo { 227 mod foo {
228 pub use super::foo; 228 pub use super::foo;
229 }
230 };
231 ($x:tt) => {
232 $x
233 };
229 } 234 }
230 };
231 ($x:tt) => {
232 $x
233 };
234}
235 235
236foo!(); 236 foo!();
237 237
238fn foo() { 238 fn foo() {
239 let foo = foo::foo!(42i32); 239 let foo = foo::foo!(42i32);
240} 240 }
241"#), 241 "#,
242 @r###" 242 expect![[r#"
243 !0..5 '42i32': i32 243 !0..5 '42i32': i32
244 170..205 '{ ...32); }': () 244 170..205 '{ ...32); }': ()
245 180..183 'foo': i32 245 180..183 'foo': i32
246 "### 246 "#]],
247 ); 247 );
248} 248}
249 249
@@ -372,50 +372,50 @@ expand!();
372 372
373#[test] 373#[test]
374fn infer_type_value_non_legacy_macro_use_as() { 374fn infer_type_value_non_legacy_macro_use_as() {
375 assert_snapshot!( 375 check_infer(
376 infer(r#" 376 r#"
377mod m { 377 mod m {
378 macro_rules! _foo { 378 macro_rules! _foo {
379 ($x:ident) => { type $x = u64; } 379 ($x:ident) => { type $x = u64; }
380 } 380 }
381 pub(crate) use _foo as foo; 381 pub(crate) use _foo as foo;
382} 382 }
383 383
384m::foo!(foo); 384 m::foo!(foo);
385use foo as bar; 385 use foo as bar;
386fn f() -> bar { 0 } 386 fn f() -> bar { 0 }
387fn main() { 387 fn main() {
388 let _a = f(); 388 let _a = f();
389} 389 }
390"#), 390 "#,
391 @r###" 391 expect![[r#"
392 158..163 '{ 0 }': u64 392 158..163 '{ 0 }': u64
393 160..161 '0': u64 393 160..161 '0': u64
394 174..196 '{ ...f(); }': () 394 174..196 '{ ...f(); }': ()
395 184..186 '_a': u64 395 184..186 '_a': u64
396 190..191 'f': fn f() -> u64 396 190..191 'f': fn f() -> u64
397 190..193 'f()': u64 397 190..193 'f()': u64
398 "### 398 "#]],
399 ); 399 );
400} 400}
401 401
402#[test] 402#[test]
403fn infer_local_macro() { 403fn infer_local_macro() {
404 assert_snapshot!( 404 check_infer(
405 infer(r#" 405 r#"
406fn main() { 406 fn main() {
407 macro_rules! foo { 407 macro_rules! foo {
408 () => { 1usize } 408 () => { 1usize }
409 } 409 }
410 let _a = foo!(); 410 let _a = foo!();
411} 411 }
412"#), 412 "#,
413 @r###" 413 expect![[r#"
414 !0..6 '1usize': usize 414 !0..6 '1usize': usize
415 10..89 '{ ...!(); }': () 415 10..89 '{ ...!(); }': ()
416 16..65 'macro_... }': {unknown} 416 16..65 'macro_... }': {unknown}
417 74..76 '_a': usize 417 74..76 '_a': usize
418 "### 418 "#]],
419 ); 419 );
420} 420}
421 421
@@ -446,77 +446,77 @@ macro_rules! bar {
446 446
447#[test] 447#[test]
448fn infer_builtin_macros_line() { 448fn infer_builtin_macros_line() {
449 assert_snapshot!( 449 check_infer(
450 infer(r#" 450 r#"
451#[rustc_builtin_macro] 451 #[rustc_builtin_macro]
452macro_rules! line {() => {}} 452 macro_rules! line {() => {}}
453 453
454fn main() { 454 fn main() {
455 let x = line!(); 455 let x = line!();
456} 456 }
457"#), 457 "#,
458 @r###" 458 expect![[r#"
459 !0..1 '0': i32 459 !0..1 '0': i32
460 63..87 '{ ...!(); }': () 460 63..87 '{ ...!(); }': ()
461 73..74 'x': i32 461 73..74 'x': i32
462 "### 462 "#]],
463 ); 463 );
464} 464}
465 465
466#[test] 466#[test]
467fn infer_builtin_macros_file() { 467fn infer_builtin_macros_file() {
468 assert_snapshot!( 468 check_infer(
469 infer(r#" 469 r#"
470#[rustc_builtin_macro] 470 #[rustc_builtin_macro]
471macro_rules! file {() => {}} 471 macro_rules! file {() => {}}
472 472
473fn main() { 473 fn main() {
474 let x = file!(); 474 let x = file!();
475} 475 }
476"#), 476 "#,
477 @r###" 477 expect![[r#"
478 !0..2 '""': &str 478 !0..2 '""': &str
479 63..87 '{ ...!(); }': () 479 63..87 '{ ...!(); }': ()
480 73..74 'x': &str 480 73..74 'x': &str
481 "### 481 "#]],
482 ); 482 );
483} 483}
484 484
485#[test] 485#[test]
486fn infer_builtin_macros_column() { 486fn infer_builtin_macros_column() {
487 assert_snapshot!( 487 check_infer(
488 infer(r#" 488 r#"
489#[rustc_builtin_macro] 489 #[rustc_builtin_macro]
490macro_rules! column {() => {}} 490 macro_rules! column {() => {}}
491 491
492fn main() { 492 fn main() {
493 let x = column!(); 493 let x = column!();
494} 494 }
495"#), 495 "#,
496 @r###" 496 expect![[r#"
497 !0..1 '0': i32 497 !0..1 '0': i32
498 65..91 '{ ...!(); }': () 498 65..91 '{ ...!(); }': ()
499 75..76 'x': i32 499 75..76 'x': i32
500 "### 500 "#]],
501 ); 501 );
502} 502}
503 503
504#[test] 504#[test]
505fn infer_builtin_macros_concat() { 505fn infer_builtin_macros_concat() {
506 assert_snapshot!( 506 check_infer(
507 infer(r#" 507 r#"
508#[rustc_builtin_macro] 508 #[rustc_builtin_macro]
509macro_rules! concat {() => {}} 509 macro_rules! concat {() => {}}
510 510
511fn main() { 511 fn main() {
512 let x = concat!("hello", concat!("world", "!")); 512 let x = concat!("hello", concat!("world", "!"));
513} 513 }
514"#), 514 "#,
515 @r###" 515 expect![[r#"
516 !0..13 '"helloworld!"': &str 516 !0..13 '"helloworld!"': &str
517 65..121 '{ ...")); }': () 517 65..121 '{ ...")); }': ()
518 75..76 'x': &str 518 75..76 'x': &str
519 "### 519 "#]],
520 ); 520 );
521} 521}
522 522
@@ -622,7 +622,7 @@ macro_rules! include {() => {}}
622include!("main.rs"); 622include!("main.rs");
623 623
624fn main() { 624fn main() {
625 0 625 0
626} //^ i32 626} //^ i32
627"#, 627"#,
628 ); 628 );
@@ -630,42 +630,42 @@ fn main() {
630 630
631#[test] 631#[test]
632fn infer_builtin_macros_concat_with_lazy() { 632fn infer_builtin_macros_concat_with_lazy() {
633 assert_snapshot!( 633 check_infer(
634 infer(r#" 634 r#"
635macro_rules! hello {() => {"hello"}} 635 macro_rules! hello {() => {"hello"}}
636 636
637#[rustc_builtin_macro] 637 #[rustc_builtin_macro]
638macro_rules! concat {() => {}} 638 macro_rules! concat {() => {}}
639 639
640fn main() { 640 fn main() {
641 let x = concat!(hello!(), concat!("world", "!")); 641 let x = concat!(hello!(), concat!("world", "!"));
642} 642 }
643"#), 643 "#,
644 @r###" 644 expect![[r#"
645 !0..13 '"helloworld!"': &str 645 !0..13 '"helloworld!"': &str
646 103..160 '{ ...")); }': () 646 103..160 '{ ...")); }': ()
647 113..114 'x': &str 647 113..114 'x': &str
648 "### 648 "#]],
649 ); 649 );
650} 650}
651 651
652#[test] 652#[test]
653fn infer_builtin_macros_env() { 653fn infer_builtin_macros_env() {
654 assert_snapshot!( 654 check_infer(
655 infer(r#" 655 r#"
656//- /main.rs env:foo=bar 656 //- /main.rs env:foo=bar
657#[rustc_builtin_macro] 657 #[rustc_builtin_macro]
658macro_rules! env {() => {}} 658 macro_rules! env {() => {}}
659 659
660fn main() { 660 fn main() {
661 let x = env!("foo"); 661 let x = env!("foo");
662} 662 }
663"#), 663 "#,
664 @r###" 664 expect![[r#"
665 !0..22 '"__RA_...TED__"': &str 665 !0..22 '"__RA_...TED__"': &str
666 62..90 '{ ...o"); }': () 666 62..90 '{ ...o"); }': ()
667 72..73 'x': &str 667 72..73 'x': &str
668 "### 668 "#]],
669 ); 669 );
670} 670}
671 671
@@ -763,25 +763,25 @@ fn test() {
763 763
764#[test] 764#[test]
765fn macro_in_arm() { 765fn macro_in_arm() {
766 assert_snapshot!( 766 check_infer(
767 infer(r#" 767 r#"
768macro_rules! unit { 768 macro_rules! unit {
769 () => { () }; 769 () => { () };
770} 770 }
771 771
772fn main() { 772 fn main() {
773 let x = match () { 773 let x = match () {
774 unit!() => 92u32, 774 unit!() => 92u32,
775 }; 775 };
776} 776 }
777"#), 777 "#,
778 @r###" 778 expect![[r#"
779 51..110 '{ ... }; }': () 779 51..110 '{ ... }; }': ()
780 61..62 'x': u32 780 61..62 'x': u32
781 65..107 'match ... }': u32 781 65..107 'match ... }': u32
782 71..73 '()': () 782 71..73 '()': ()
783 84..91 'unit!()': () 783 84..91 'unit!()': ()
784 95..100 '92u32': u32 784 95..100 '92u32': u32
785 "### 785 "#]],
786 ); 786 );
787} 787}
diff --git a/crates/ra_hir_ty/src/tests/method_resolution.rs b/crates/ra_hir_ty/src/tests/method_resolution.rs
index 9c8f22314..fa68355aa 100644
--- a/crates/ra_hir_ty/src/tests/method_resolution.rs
+++ b/crates/ra_hir_ty/src/tests/method_resolution.rs
@@ -1,245 +1,245 @@
1use insta::assert_snapshot; 1use expect::expect;
2 2
3use super::{check_types, infer}; 3use super::{check_infer, check_types};
4 4
5#[test] 5#[test]
6fn infer_slice_method() { 6fn infer_slice_method() {
7 assert_snapshot!( 7 check_infer(
8 infer(r#" 8 r#"
9#[lang = "slice"] 9 #[lang = "slice"]
10impl<T> [T] { 10 impl<T> [T] {
11 fn foo(&self) -> T { 11 fn foo(&self) -> T {
12 loop {} 12 loop {}
13 } 13 }
14} 14 }
15 15
16#[lang = "slice_alloc"] 16 #[lang = "slice_alloc"]
17impl<T> [T] {} 17 impl<T> [T] {}
18 18
19fn test(x: &[u8]) { 19 fn test(x: &[u8]) {
20 <[_]>::foo(x); 20 <[_]>::foo(x);
21} 21 }
22"#), 22 "#,
23 @r###" 23 expect![[r#"
24 44..48 'self': &[T] 24 44..48 'self': &[T]
25 55..78 '{ ... }': T 25 55..78 '{ ... }': T
26 65..72 'loop {}': ! 26 65..72 'loop {}': !
27 70..72 '{}': () 27 70..72 '{}': ()
28 130..131 'x': &[u8] 28 130..131 'x': &[u8]
29 140..162 '{ ...(x); }': () 29 140..162 '{ ...(x); }': ()
30 146..156 '<[_]>::foo': fn foo<u8>(&[u8]) -> u8 30 146..156 '<[_]>::foo': fn foo<u8>(&[u8]) -> u8
31 146..159 '<[_]>::foo(x)': u8 31 146..159 '<[_]>::foo(x)': u8
32 157..158 'x': &[u8] 32 157..158 'x': &[u8]
33 "### 33 "#]],
34 ); 34 );
35} 35}
36 36
37#[test] 37#[test]
38fn infer_associated_method_struct() { 38fn infer_associated_method_struct() {
39 assert_snapshot!( 39 check_infer(
40 infer(r#" 40 r#"
41struct A { x: u32 } 41 struct A { x: u32 }
42 42
43impl A { 43 impl A {
44 fn new() -> A { 44 fn new() -> A {
45 A { x: 0 } 45 A { x: 0 }
46 } 46 }
47} 47 }
48fn test() { 48 fn test() {
49 let a = A::new(); 49 let a = A::new();
50 a.x; 50 a.x;
51} 51 }
52"#), 52 "#,
53 @r###" 53 expect![[r#"
54 48..74 '{ ... }': A 54 48..74 '{ ... }': A
55 58..68 'A { x: 0 }': A 55 58..68 'A { x: 0 }': A
56 65..66 '0': u32 56 65..66 '0': u32
57 87..121 '{ ...a.x; }': () 57 87..121 '{ ...a.x; }': ()
58 97..98 'a': A 58 97..98 'a': A
59 101..107 'A::new': fn new() -> A 59 101..107 'A::new': fn new() -> A
60 101..109 'A::new()': A 60 101..109 'A::new()': A
61 115..116 'a': A 61 115..116 'a': A
62 115..118 'a.x': u32 62 115..118 'a.x': u32
63 "### 63 "#]],
64 ); 64 );
65} 65}
66 66
67#[test] 67#[test]
68fn infer_associated_method_enum() { 68fn infer_associated_method_enum() {
69 assert_snapshot!( 69 check_infer(
70 infer(r#" 70 r#"
71enum A { B, C } 71 enum A { B, C }
72 72
73impl A { 73 impl A {
74 pub fn b() -> A { 74 pub fn b() -> A {
75 A::B 75 A::B
76 } 76 }
77 pub fn c() -> A { 77 pub fn c() -> A {
78 A::C 78 A::C
79 } 79 }
80} 80 }
81fn test() { 81 fn test() {
82 let a = A::b(); 82 let a = A::b();
83 a; 83 a;
84 let c = A::c(); 84 let c = A::c();
85 c; 85 c;
86} 86 }
87"#), 87 "#,
88 @r###" 88 expect![[r#"
89 46..66 '{ ... }': A 89 46..66 '{ ... }': A
90 56..60 'A::B': A 90 56..60 'A::B': A
91 87..107 '{ ... }': A 91 87..107 '{ ... }': A
92 97..101 'A::C': A 92 97..101 'A::C': A
93 120..177 '{ ... c; }': () 93 120..177 '{ ... c; }': ()
94 130..131 'a': A 94 130..131 'a': A
95 134..138 'A::b': fn b() -> A 95 134..138 'A::b': fn b() -> A
96 134..140 'A::b()': A 96 134..140 'A::b()': A
97 146..147 'a': A 97 146..147 'a': A
98 157..158 'c': A 98 157..158 'c': A
99 161..165 'A::c': fn c() -> A 99 161..165 'A::c': fn c() -> A
100 161..167 'A::c()': A 100 161..167 'A::c()': A
101 173..174 'c': A 101 173..174 'c': A
102 "### 102 "#]],
103 ); 103 );
104} 104}
105 105
106#[test] 106#[test]
107fn infer_associated_method_with_modules() { 107fn infer_associated_method_with_modules() {
108 assert_snapshot!( 108 check_infer(
109 infer(r#" 109 r#"
110mod a { 110 mod a {
111 struct A; 111 struct A;
112 impl A { pub fn thing() -> A { A {} }} 112 impl A { pub fn thing() -> A { A {} }}
113} 113 }
114 114
115mod b { 115 mod b {
116 struct B; 116 struct B;
117 impl B { pub fn thing() -> u32 { 99 }} 117 impl B { pub fn thing() -> u32 { 99 }}
118 118
119 mod c { 119 mod c {
120 struct C; 120 struct C;
121 impl C { pub fn thing() -> C { C {} }} 121 impl C { pub fn thing() -> C { C {} }}
122 } 122 }
123} 123 }
124use b::c; 124 use b::c;
125 125
126fn test() { 126 fn test() {
127 let x = a::A::thing(); 127 let x = a::A::thing();
128 let y = b::B::thing(); 128 let y = b::B::thing();
129 let z = c::C::thing(); 129 let z = c::C::thing();
130} 130 }
131"#), 131 "#,
132 @r###" 132 expect![[r#"
133 55..63 '{ A {} }': A 133 55..63 '{ A {} }': A
134 57..61 'A {}': A 134 57..61 'A {}': A
135 125..131 '{ 99 }': u32 135 125..131 '{ 99 }': u32
136 127..129 '99': u32 136 127..129 '99': u32
137 201..209 '{ C {} }': C 137 201..209 '{ C {} }': C
138 203..207 'C {}': C 138 203..207 'C {}': C
139 240..324 '{ ...g(); }': () 139 240..324 '{ ...g(); }': ()
140 250..251 'x': A 140 250..251 'x': A
141 254..265 'a::A::thing': fn thing() -> A 141 254..265 'a::A::thing': fn thing() -> A
142 254..267 'a::A::thing()': A 142 254..267 'a::A::thing()': A
143 277..278 'y': u32 143 277..278 'y': u32
144 281..292 'b::B::thing': fn thing() -> u32 144 281..292 'b::B::thing': fn thing() -> u32
145 281..294 'b::B::thing()': u32 145 281..294 'b::B::thing()': u32
146 304..305 'z': C 146 304..305 'z': C
147 308..319 'c::C::thing': fn thing() -> C 147 308..319 'c::C::thing': fn thing() -> C
148 308..321 'c::C::thing()': C 148 308..321 'c::C::thing()': C
149 "### 149 "#]],
150 ); 150 );
151} 151}
152 152
153#[test] 153#[test]
154fn infer_associated_method_generics() { 154fn infer_associated_method_generics() {
155 assert_snapshot!( 155 check_infer(
156 infer(r#" 156 r#"
157struct Gen<T> { 157 struct Gen<T> {
158 val: T 158 val: T
159} 159 }
160 160
161impl<T> Gen<T> { 161 impl<T> Gen<T> {
162 pub fn make(val: T) -> Gen<T> { 162 pub fn make(val: T) -> Gen<T> {
163 Gen { val } 163 Gen { val }
164 } 164 }
165} 165 }
166 166
167fn test() { 167 fn test() {
168 let a = Gen::make(0u32); 168 let a = Gen::make(0u32);
169} 169 }
170"#), 170 "#,
171 @r###" 171 expect![[r#"
172 63..66 'val': T 172 63..66 'val': T
173 81..108 '{ ... }': Gen<T> 173 81..108 '{ ... }': Gen<T>
174 91..102 'Gen { val }': Gen<T> 174 91..102 'Gen { val }': Gen<T>
175 97..100 'val': T 175 97..100 'val': T
176 122..154 '{ ...32); }': () 176 122..154 '{ ...32); }': ()
177 132..133 'a': Gen<u32> 177 132..133 'a': Gen<u32>
178 136..145 'Gen::make': fn make<u32>(u32) -> Gen<u32> 178 136..145 'Gen::make': fn make<u32>(u32) -> Gen<u32>
179 136..151 'Gen::make(0u32)': Gen<u32> 179 136..151 'Gen::make(0u32)': Gen<u32>
180 146..150 '0u32': u32 180 146..150 '0u32': u32
181 "### 181 "#]],
182 ); 182 );
183} 183}
184 184
185#[test] 185#[test]
186fn infer_associated_method_generics_without_args() { 186fn infer_associated_method_generics_without_args() {
187 assert_snapshot!( 187 check_infer(
188 infer(r#" 188 r#"
189struct Gen<T> { 189 struct Gen<T> {
190 val: T 190 val: T
191} 191 }
192 192
193impl<T> Gen<T> { 193 impl<T> Gen<T> {
194 pub fn make() -> Gen<T> { 194 pub fn make() -> Gen<T> {
195 loop { } 195 loop { }
196 } 196 }
197} 197 }
198 198
199fn test() { 199 fn test() {
200 let a = Gen::<u32>::make(); 200 let a = Gen::<u32>::make();
201} 201 }
202"#), 202 "#,
203 @r###" 203 expect![[r#"
204 75..99 '{ ... }': Gen<T> 204 75..99 '{ ... }': Gen<T>
205 85..93 'loop { }': ! 205 85..93 'loop { }': !
206 90..93 '{ }': () 206 90..93 '{ }': ()
207 113..148 '{ ...e(); }': () 207 113..148 '{ ...e(); }': ()
208 123..124 'a': Gen<u32> 208 123..124 'a': Gen<u32>
209 127..143 'Gen::<...::make': fn make<u32>() -> Gen<u32> 209 127..143 'Gen::<...::make': fn make<u32>() -> Gen<u32>
210 127..145 'Gen::<...make()': Gen<u32> 210 127..145 'Gen::<...make()': Gen<u32>
211 "### 211 "#]],
212 ); 212 );
213} 213}
214 214
215#[test] 215#[test]
216fn infer_associated_method_generics_2_type_params_without_args() { 216fn infer_associated_method_generics_2_type_params_without_args() {
217 assert_snapshot!( 217 check_infer(
218 infer(r#" 218 r#"
219struct Gen<T, U> { 219 struct Gen<T, U> {
220 val: T, 220 val: T,
221 val2: U, 221 val2: U,
222} 222 }
223 223
224impl<T> Gen<u32, T> { 224 impl<T> Gen<u32, T> {
225 pub fn make() -> Gen<u32,T> { 225 pub fn make() -> Gen<u32,T> {
226 loop { } 226 loop { }
227 } 227 }
228} 228 }
229 229
230fn test() { 230 fn test() {
231 let a = Gen::<u32, u64>::make(); 231 let a = Gen::<u32, u64>::make();
232} 232 }
233"#), 233 "#,
234 @r###" 234 expect![[r#"
235 101..125 '{ ... }': Gen<u32, T> 235 101..125 '{ ... }': Gen<u32, T>
236 111..119 'loop { }': ! 236 111..119 'loop { }': !
237 116..119 '{ }': () 237 116..119 '{ }': ()
238 139..179 '{ ...e(); }': () 238 139..179 '{ ...e(); }': ()
239 149..150 'a': Gen<u32, u64> 239 149..150 'a': Gen<u32, u64>
240 153..174 'Gen::<...::make': fn make<u64>() -> Gen<u32, u64> 240 153..174 'Gen::<...::make': fn make<u64>() -> Gen<u32, u64>
241 153..176 'Gen::<...make()': Gen<u32, u64> 241 153..176 'Gen::<...make()': Gen<u32, u64>
242 "### 242 "#]],
243 ); 243 );
244} 244}
245 245
@@ -267,416 +267,416 @@ mod foo {
267#[test] 267#[test]
268fn infer_trait_method_simple() { 268fn infer_trait_method_simple() {
269 // the trait implementation is intentionally incomplete -- it shouldn't matter 269 // the trait implementation is intentionally incomplete -- it shouldn't matter
270 assert_snapshot!( 270 check_infer(
271 infer(r#" 271 r#"
272trait Trait1 { 272 trait Trait1 {
273 fn method(&self) -> u32; 273 fn method(&self) -> u32;
274} 274 }
275struct S1; 275 struct S1;
276impl Trait1 for S1 {} 276 impl Trait1 for S1 {}
277trait Trait2 { 277 trait Trait2 {
278 fn method(&self) -> i128; 278 fn method(&self) -> i128;
279} 279 }
280struct S2; 280 struct S2;
281impl Trait2 for S2 {} 281 impl Trait2 for S2 {}
282fn test() { 282 fn test() {
283 S1.method(); // -> u32 283 S1.method(); // -> u32
284 S2.method(); // -> i128 284 S2.method(); // -> i128
285} 285 }
286"#), 286 "#,
287 @r###" 287 expect![[r#"
288 30..34 'self': &Self 288 30..34 'self': &Self
289 109..113 'self': &Self 289 109..113 'self': &Self
290 169..227 '{ ...i128 }': () 290 169..227 '{ ...i128 }': ()
291 175..177 'S1': S1 291 175..177 'S1': S1
292 175..186 'S1.method()': u32 292 175..186 'S1.method()': u32
293 202..204 'S2': S2 293 202..204 'S2': S2
294 202..213 'S2.method()': i128 294 202..213 'S2.method()': i128
295 "### 295 "#]],
296 ); 296 );
297} 297}
298 298
299#[test] 299#[test]
300fn infer_trait_method_scoped() { 300fn infer_trait_method_scoped() {
301 // the trait implementation is intentionally incomplete -- it shouldn't matter 301 // the trait implementation is intentionally incomplete -- it shouldn't matter
302 assert_snapshot!( 302 check_infer(
303 infer(r#" 303 r#"
304struct S; 304 struct S;
305mod foo { 305 mod foo {
306 pub trait Trait1 { 306 pub trait Trait1 {
307 fn method(&self) -> u32; 307 fn method(&self) -> u32;
308 } 308 }
309 impl Trait1 for super::S {} 309 impl Trait1 for super::S {}
310} 310 }
311mod bar { 311 mod bar {
312 pub trait Trait2 { 312 pub trait Trait2 {
313 fn method(&self) -> i128; 313 fn method(&self) -> i128;
314 } 314 }
315 impl Trait2 for super::S {} 315 impl Trait2 for super::S {}
316} 316 }
317 317
318mod foo_test { 318 mod foo_test {
319 use super::S; 319 use super::S;
320 use super::foo::Trait1; 320 use super::foo::Trait1;
321 fn test() { 321 fn test() {
322 S.method(); // -> u32 322 S.method(); // -> u32
323 } 323 }
324} 324 }
325 325
326mod bar_test { 326 mod bar_test {
327 use super::S; 327 use super::S;
328 use super::bar::Trait2; 328 use super::bar::Trait2;
329 fn test() { 329 fn test() {
330 S.method(); // -> i128 330 S.method(); // -> i128
331 } 331 }
332} 332 }
333"#), 333 "#,
334 @r###" 334 expect![[r#"
335 62..66 'self': &Self 335 62..66 'self': &Self
336 168..172 'self': &Self 336 168..172 'self': &Self
337 299..336 '{ ... }': () 337 299..336 '{ ... }': ()
338 309..310 'S': S 338 309..310 'S': S
339 309..319 'S.method()': u32 339 309..319 'S.method()': u32
340 415..453 '{ ... }': () 340 415..453 '{ ... }': ()
341 425..426 'S': S 341 425..426 'S': S
342 425..435 'S.method()': i128 342 425..435 'S.method()': i128
343 "### 343 "#]],
344 ); 344 );
345} 345}
346 346
347#[test] 347#[test]
348fn infer_trait_method_generic_1() { 348fn infer_trait_method_generic_1() {
349 // the trait implementation is intentionally incomplete -- it shouldn't matter 349 // the trait implementation is intentionally incomplete -- it shouldn't matter
350 assert_snapshot!( 350 check_infer(
351 infer(r#" 351 r#"
352trait Trait<T> { 352 trait Trait<T> {
353 fn method(&self) -> T; 353 fn method(&self) -> T;
354} 354 }
355struct S; 355 struct S;
356impl Trait<u32> for S {} 356 impl Trait<u32> for S {}
357fn test() { 357 fn test() {
358 S.method(); 358 S.method();
359} 359 }
360"#), 360 "#,
361 @r###" 361 expect![[r#"
362 32..36 'self': &Self 362 32..36 'self': &Self
363 91..110 '{ ...d(); }': () 363 91..110 '{ ...d(); }': ()
364 97..98 'S': S 364 97..98 'S': S
365 97..107 'S.method()': u32 365 97..107 'S.method()': u32
366 "### 366 "#]],
367 ); 367 );
368} 368}
369 369
370#[test] 370#[test]
371fn infer_trait_method_generic_more_params() { 371fn infer_trait_method_generic_more_params() {
372 // the trait implementation is intentionally incomplete -- it shouldn't matter 372 // the trait implementation is intentionally incomplete -- it shouldn't matter
373 assert_snapshot!( 373 check_infer(
374 infer(r#" 374 r#"
375trait Trait<T1, T2, T3> { 375 trait Trait<T1, T2, T3> {
376 fn method1(&self) -> (T1, T2, T3); 376 fn method1(&self) -> (T1, T2, T3);
377 fn method2(&self) -> (T3, T2, T1); 377 fn method2(&self) -> (T3, T2, T1);
378} 378 }
379struct S1; 379 struct S1;
380impl Trait<u8, u16, u32> for S1 {} 380 impl Trait<u8, u16, u32> for S1 {}
381struct S2; 381 struct S2;
382impl<T> Trait<i8, i16, T> for S2 {} 382 impl<T> Trait<i8, i16, T> for S2 {}
383fn test() { 383 fn test() {
384 S1.method1(); // u8, u16, u32 384 S1.method1(); // u8, u16, u32
385 S1.method2(); // u32, u16, u8 385 S1.method2(); // u32, u16, u8
386 S2.method1(); // i8, i16, {unknown} 386 S2.method1(); // i8, i16, {unknown}
387 S2.method2(); // {unknown}, i16, i8 387 S2.method2(); // {unknown}, i16, i8
388} 388 }
389"#), 389 "#,
390 @r###" 390 expect![[r#"
391 42..46 'self': &Self 391 42..46 'self': &Self
392 81..85 'self': &Self 392 81..85 'self': &Self
393 209..360 '{ ..., i8 }': () 393 209..360 '{ ..., i8 }': ()
394 215..217 'S1': S1 394 215..217 'S1': S1
395 215..227 'S1.method1()': (u8, u16, u32) 395 215..227 'S1.method1()': (u8, u16, u32)
396 249..251 'S1': S1 396 249..251 'S1': S1
397 249..261 'S1.method2()': (u32, u16, u8) 397 249..261 'S1.method2()': (u32, u16, u8)
398 283..285 'S2': S2 398 283..285 'S2': S2
399 283..295 'S2.method1()': (i8, i16, {unknown}) 399 283..295 'S2.method1()': (i8, i16, {unknown})
400 323..325 'S2': S2 400 323..325 'S2': S2
401 323..335 'S2.method2()': ({unknown}, i16, i8) 401 323..335 'S2.method2()': ({unknown}, i16, i8)
402 "### 402 "#]],
403 ); 403 );
404} 404}
405 405
406#[test] 406#[test]
407fn infer_trait_method_generic_2() { 407fn infer_trait_method_generic_2() {
408 // the trait implementation is intentionally incomplete -- it shouldn't matter 408 // the trait implementation is intentionally incomplete -- it shouldn't matter
409 assert_snapshot!( 409 check_infer(
410 infer(r#" 410 r#"
411trait Trait<T> { 411 trait Trait<T> {
412 fn method(&self) -> T; 412 fn method(&self) -> T;
413} 413 }
414struct S<T>(T); 414 struct S<T>(T);
415impl<U> Trait<U> for S<U> {} 415 impl<U> Trait<U> for S<U> {}
416fn test() { 416 fn test() {
417 S(1u32).method(); 417 S(1u32).method();
418} 418 }
419"#), 419 "#,
420 @r###" 420 expect![[r#"
421 32..36 'self': &Self 421 32..36 'self': &Self
422 101..126 '{ ...d(); }': () 422 101..126 '{ ...d(); }': ()
423 107..108 'S': S<u32>(u32) -> S<u32> 423 107..108 'S': S<u32>(u32) -> S<u32>
424 107..114 'S(1u32)': S<u32> 424 107..114 'S(1u32)': S<u32>
425 107..123 'S(1u32...thod()': u32 425 107..123 'S(1u32...thod()': u32
426 109..113 '1u32': u32 426 109..113 '1u32': u32
427 "### 427 "#]],
428 ); 428 );
429} 429}
430 430
431#[test] 431#[test]
432fn infer_trait_assoc_method() { 432fn infer_trait_assoc_method() {
433 assert_snapshot!( 433 check_infer(
434 infer(r#" 434 r#"
435trait Default { 435 trait Default {
436 fn default() -> Self; 436 fn default() -> Self;
437} 437 }
438struct S; 438 struct S;
439impl Default for S {} 439 impl Default for S {}
440fn test() { 440 fn test() {
441 let s1: S = Default::default(); 441 let s1: S = Default::default();
442 let s2 = S::default(); 442 let s2 = S::default();
443 let s3 = <S as Default>::default(); 443 let s3 = <S as Default>::default();
444} 444 }
445"#), 445 "#,
446 @r###" 446 expect![[r#"
447 86..192 '{ ...t(); }': () 447 86..192 '{ ...t(); }': ()
448 96..98 's1': S 448 96..98 's1': S
449 104..120 'Defaul...efault': fn default<S>() -> S 449 104..120 'Defaul...efault': fn default<S>() -> S
450 104..122 'Defaul...ault()': S 450 104..122 'Defaul...ault()': S
451 132..134 's2': S 451 132..134 's2': S
452 137..147 'S::default': fn default<S>() -> S 452 137..147 'S::default': fn default<S>() -> S
453 137..149 'S::default()': S 453 137..149 'S::default()': S
454 159..161 's3': S 454 159..161 's3': S
455 164..187 '<S as ...efault': fn default<S>() -> S 455 164..187 '<S as ...efault': fn default<S>() -> S
456 164..189 '<S as ...ault()': S 456 164..189 '<S as ...ault()': S
457 "### 457 "#]],
458 ); 458 );
459} 459}
460 460
461#[test] 461#[test]
462fn infer_trait_assoc_method_generics_1() { 462fn infer_trait_assoc_method_generics_1() {
463 assert_snapshot!( 463 check_infer(
464 infer(r#" 464 r#"
465trait Trait<T> { 465 trait Trait<T> {
466 fn make() -> T; 466 fn make() -> T;
467} 467 }
468struct S; 468 struct S;
469impl Trait<u32> for S {} 469 impl Trait<u32> for S {}
470struct G<T>; 470 struct G<T>;
471impl<T> Trait<T> for G<T> {} 471 impl<T> Trait<T> for G<T> {}
472fn test() { 472 fn test() {
473 let a = S::make(); 473 let a = S::make();
474 let b = G::<u64>::make(); 474 let b = G::<u64>::make();
475 let c: f64 = G::make(); 475 let c: f64 = G::make();
476} 476 }
477"#), 477 "#,
478 @r###" 478 expect![[r#"
479 126..210 '{ ...e(); }': () 479 126..210 '{ ...e(); }': ()
480 136..137 'a': u32 480 136..137 'a': u32
481 140..147 'S::make': fn make<S, u32>() -> u32 481 140..147 'S::make': fn make<S, u32>() -> u32
482 140..149 'S::make()': u32 482 140..149 'S::make()': u32
483 159..160 'b': u64 483 159..160 'b': u64
484 163..177 'G::<u64>::make': fn make<G<u64>, u64>() -> u64 484 163..177 'G::<u64>::make': fn make<G<u64>, u64>() -> u64
485 163..179 'G::<u6...make()': u64 485 163..179 'G::<u6...make()': u64
486 189..190 'c': f64 486 189..190 'c': f64
487 198..205 'G::make': fn make<G<f64>, f64>() -> f64 487 198..205 'G::make': fn make<G<f64>, f64>() -> f64
488 198..207 'G::make()': f64 488 198..207 'G::make()': f64
489 "### 489 "#]],
490 ); 490 );
491} 491}
492 492
493#[test] 493#[test]
494fn infer_trait_assoc_method_generics_2() { 494fn infer_trait_assoc_method_generics_2() {
495 assert_snapshot!( 495 check_infer(
496 infer(r#" 496 r#"
497trait Trait<T> { 497 trait Trait<T> {
498 fn make<U>() -> (T, U); 498 fn make<U>() -> (T, U);
499} 499 }
500struct S; 500 struct S;
501impl Trait<u32> for S {} 501 impl Trait<u32> for S {}
502struct G<T>; 502 struct G<T>;
503impl<T> Trait<T> for G<T> {} 503 impl<T> Trait<T> for G<T> {}
504fn test() { 504 fn test() {
505 let a = S::make::<i64>(); 505 let a = S::make::<i64>();
506 let b: (_, i64) = S::make(); 506 let b: (_, i64) = S::make();
507 let c = G::<u32>::make::<i64>(); 507 let c = G::<u32>::make::<i64>();
508 let d: (u32, _) = G::make::<i64>(); 508 let d: (u32, _) = G::make::<i64>();
509 let e: (u32, i64) = G::make(); 509 let e: (u32, i64) = G::make();
510} 510 }
511"#), 511 "#,
512 @r###" 512 expect![[r#"
513 134..312 '{ ...e(); }': () 513 134..312 '{ ...e(); }': ()
514 144..145 'a': (u32, i64) 514 144..145 'a': (u32, i64)
515 148..162 'S::make::<i64>': fn make<S, u32, i64>() -> (u32, i64) 515 148..162 'S::make::<i64>': fn make<S, u32, i64>() -> (u32, i64)
516 148..164 'S::mak...i64>()': (u32, i64) 516 148..164 'S::mak...i64>()': (u32, i64)
517 174..175 'b': (u32, i64) 517 174..175 'b': (u32, i64)
518 188..195 'S::make': fn make<S, u32, i64>() -> (u32, i64) 518 188..195 'S::make': fn make<S, u32, i64>() -> (u32, i64)
519 188..197 'S::make()': (u32, i64) 519 188..197 'S::make()': (u32, i64)
520 207..208 'c': (u32, i64) 520 207..208 'c': (u32, i64)
521 211..232 'G::<u3...:<i64>': fn make<G<u32>, u32, i64>() -> (u32, i64) 521 211..232 'G::<u3...:<i64>': fn make<G<u32>, u32, i64>() -> (u32, i64)
522 211..234 'G::<u3...i64>()': (u32, i64) 522 211..234 'G::<u3...i64>()': (u32, i64)
523 244..245 'd': (u32, i64) 523 244..245 'd': (u32, i64)
524 258..272 'G::make::<i64>': fn make<G<u32>, u32, i64>() -> (u32, i64) 524 258..272 'G::make::<i64>': fn make<G<u32>, u32, i64>() -> (u32, i64)
525 258..274 'G::mak...i64>()': (u32, i64) 525 258..274 'G::mak...i64>()': (u32, i64)
526 284..285 'e': (u32, i64) 526 284..285 'e': (u32, i64)
527 300..307 'G::make': fn make<G<u32>, u32, i64>() -> (u32, i64) 527 300..307 'G::make': fn make<G<u32>, u32, i64>() -> (u32, i64)
528 300..309 'G::make()': (u32, i64) 528 300..309 'G::make()': (u32, i64)
529 "### 529 "#]],
530 ); 530 );
531} 531}
532 532
533#[test] 533#[test]
534fn infer_trait_assoc_method_generics_3() { 534fn infer_trait_assoc_method_generics_3() {
535 assert_snapshot!( 535 check_infer(
536 infer(r#" 536 r#"
537trait Trait<T> { 537 trait Trait<T> {
538 fn make() -> (Self, T); 538 fn make() -> (Self, T);
539} 539 }
540struct S<T>; 540 struct S<T>;
541impl Trait<i64> for S<i32> {} 541 impl Trait<i64> for S<i32> {}
542fn test() { 542 fn test() {
543 let a = S::make(); 543 let a = S::make();
544} 544 }
545"#), 545 "#,
546 @r###" 546 expect![[r#"
547 100..126 '{ ...e(); }': () 547 100..126 '{ ...e(); }': ()
548 110..111 'a': (S<i32>, i64) 548 110..111 'a': (S<i32>, i64)
549 114..121 'S::make': fn make<S<i32>, i64>() -> (S<i32>, i64) 549 114..121 'S::make': fn make<S<i32>, i64>() -> (S<i32>, i64)
550 114..123 'S::make()': (S<i32>, i64) 550 114..123 'S::make()': (S<i32>, i64)
551 "### 551 "#]],
552 ); 552 );
553} 553}
554 554
555#[test] 555#[test]
556fn infer_trait_assoc_method_generics_4() { 556fn infer_trait_assoc_method_generics_4() {
557 assert_snapshot!( 557 check_infer(
558 infer(r#" 558 r#"
559trait Trait<T> { 559 trait Trait<T> {
560 fn make() -> (Self, T); 560 fn make() -> (Self, T);
561} 561 }
562struct S<T>; 562 struct S<T>;
563impl Trait<i64> for S<u64> {} 563 impl Trait<i64> for S<u64> {}
564impl Trait<i32> for S<u32> {} 564 impl Trait<i32> for S<u32> {}
565fn test() { 565 fn test() {
566 let a: (S<u64>, _) = S::make(); 566 let a: (S<u64>, _) = S::make();
567 let b: (_, i32) = S::make(); 567 let b: (_, i32) = S::make();
568} 568 }
569"#), 569 "#,
570 @r###" 570 expect![[r#"
571 130..202 '{ ...e(); }': () 571 130..202 '{ ...e(); }': ()
572 140..141 'a': (S<u64>, i64) 572 140..141 'a': (S<u64>, i64)
573 157..164 'S::make': fn make<S<u64>, i64>() -> (S<u64>, i64) 573 157..164 'S::make': fn make<S<u64>, i64>() -> (S<u64>, i64)
574 157..166 'S::make()': (S<u64>, i64) 574 157..166 'S::make()': (S<u64>, i64)
575 176..177 'b': (S<u32>, i32) 575 176..177 'b': (S<u32>, i32)
576 190..197 'S::make': fn make<S<u32>, i32>() -> (S<u32>, i32) 576 190..197 'S::make': fn make<S<u32>, i32>() -> (S<u32>, i32)
577 190..199 'S::make()': (S<u32>, i32) 577 190..199 'S::make()': (S<u32>, i32)
578 "### 578 "#]],
579 ); 579 );
580} 580}
581 581
582#[test] 582#[test]
583fn infer_trait_assoc_method_generics_5() { 583fn infer_trait_assoc_method_generics_5() {
584 assert_snapshot!( 584 check_infer(
585 infer(r#" 585 r#"
586trait Trait<T> { 586 trait Trait<T> {
587 fn make<U>() -> (Self, T, U); 587 fn make<U>() -> (Self, T, U);
588} 588 }
589struct S<T>; 589 struct S<T>;
590impl Trait<i64> for S<u64> {} 590 impl Trait<i64> for S<u64> {}
591fn test() { 591 fn test() {
592 let a = <S as Trait<i64>>::make::<u8>(); 592 let a = <S as Trait<i64>>::make::<u8>();
593 let b: (S<u64>, _, _) = Trait::<i64>::make::<u8>(); 593 let b: (S<u64>, _, _) = Trait::<i64>::make::<u8>();
594} 594 }
595"#), 595 "#,
596 @r###" 596 expect![[r#"
597 106..210 '{ ...>(); }': () 597 106..210 '{ ...>(); }': ()
598 116..117 'a': (S<u64>, i64, u8) 598 116..117 'a': (S<u64>, i64, u8)
599 120..149 '<S as ...::<u8>': fn make<S<u64>, i64, u8>() -> (S<u64>, i64, u8) 599 120..149 '<S as ...::<u8>': fn make<S<u64>, i64, u8>() -> (S<u64>, i64, u8)
600 120..151 '<S as ...<u8>()': (S<u64>, i64, u8) 600 120..151 '<S as ...<u8>()': (S<u64>, i64, u8)
601 161..162 'b': (S<u64>, i64, u8) 601 161..162 'b': (S<u64>, i64, u8)
602 181..205 'Trait:...::<u8>': fn make<S<u64>, i64, u8>() -> (S<u64>, i64, u8) 602 181..205 'Trait:...::<u8>': fn make<S<u64>, i64, u8>() -> (S<u64>, i64, u8)
603 181..207 'Trait:...<u8>()': (S<u64>, i64, u8) 603 181..207 'Trait:...<u8>()': (S<u64>, i64, u8)
604 "### 604 "#]],
605 ); 605 );
606} 606}
607 607
608#[test] 608#[test]
609fn infer_call_trait_method_on_generic_param_1() { 609fn infer_call_trait_method_on_generic_param_1() {
610 assert_snapshot!( 610 check_infer(
611 infer(r#" 611 r#"
612trait Trait { 612 trait Trait {
613 fn method(&self) -> u32; 613 fn method(&self) -> u32;
614} 614 }
615fn test<T: Trait>(t: T) { 615 fn test<T: Trait>(t: T) {
616 t.method(); 616 t.method();
617} 617 }
618"#), 618 "#,
619 @r###" 619 expect![[r#"
620 29..33 'self': &Self 620 29..33 'self': &Self
621 63..64 't': T 621 63..64 't': T
622 69..88 '{ ...d(); }': () 622 69..88 '{ ...d(); }': ()
623 75..76 't': T 623 75..76 't': T
624 75..85 't.method()': u32 624 75..85 't.method()': u32
625 "### 625 "#]],
626 ); 626 );
627} 627}
628 628
629#[test] 629#[test]
630fn infer_call_trait_method_on_generic_param_2() { 630fn infer_call_trait_method_on_generic_param_2() {
631 assert_snapshot!( 631 check_infer(
632 infer(r#" 632 r#"
633trait Trait<T> { 633 trait Trait<T> {
634 fn method(&self) -> T; 634 fn method(&self) -> T;
635} 635 }
636fn test<U, T: Trait<U>>(t: T) { 636 fn test<U, T: Trait<U>>(t: T) {
637 t.method(); 637 t.method();
638} 638 }
639"#), 639 "#,
640 @r###" 640 expect![[r#"
641 32..36 'self': &Self 641 32..36 'self': &Self
642 70..71 't': T 642 70..71 't': T
643 76..95 '{ ...d(); }': () 643 76..95 '{ ...d(); }': ()
644 82..83 't': T 644 82..83 't': T
645 82..92 't.method()': U 645 82..92 't.method()': U
646 "### 646 "#]],
647 ); 647 );
648} 648}
649 649
650#[test] 650#[test]
651fn infer_with_multiple_trait_impls() { 651fn infer_with_multiple_trait_impls() {
652 assert_snapshot!( 652 check_infer(
653 infer(r#" 653 r#"
654trait Into<T> { 654 trait Into<T> {
655 fn into(self) -> T; 655 fn into(self) -> T;
656} 656 }
657struct S; 657 struct S;
658impl Into<u32> for S {} 658 impl Into<u32> for S {}
659impl Into<u64> for S {} 659 impl Into<u64> for S {}
660fn test() { 660 fn test() {
661 let x: u32 = S.into(); 661 let x: u32 = S.into();
662 let y: u64 = S.into(); 662 let y: u64 = S.into();
663 let z = Into::<u64>::into(S); 663 let z = Into::<u64>::into(S);
664} 664 }
665"#), 665 "#,
666 @r###" 666 expect![[r#"
667 28..32 'self': Self 667 28..32 'self': Self
668 110..201 '{ ...(S); }': () 668 110..201 '{ ...(S); }': ()
669 120..121 'x': u32 669 120..121 'x': u32
670 129..130 'S': S 670 129..130 'S': S
671 129..137 'S.into()': u32 671 129..137 'S.into()': u32
672 147..148 'y': u64 672 147..148 'y': u64
673 156..157 'S': S 673 156..157 'S': S
674 156..164 'S.into()': u64 674 156..164 'S.into()': u64
675 174..175 'z': u64 675 174..175 'z': u64
676 178..195 'Into::...::into': fn into<S, u64>(S) -> u64 676 178..195 'Into::...::into': fn into<S, u64>(S) -> u64
677 178..198 'Into::...nto(S)': u64 677 178..198 'Into::...nto(S)': u64
678 196..197 'S': S 678 196..197 'S': S
679 "### 679 "#]],
680 ); 680 );
681} 681}
682 682
@@ -1023,31 +1023,31 @@ fn test() { (S {}).method(); }
1023 1023
1024#[test] 1024#[test]
1025fn dyn_trait_super_trait_not_in_scope() { 1025fn dyn_trait_super_trait_not_in_scope() {
1026 assert_snapshot!( 1026 check_infer(
1027 infer(r#" 1027 r#"
1028mod m { 1028 mod m {
1029 pub trait SuperTrait { 1029 pub trait SuperTrait {
1030 fn foo(&self) -> u32 { 0 } 1030 fn foo(&self) -> u32 { 0 }
1031 } 1031 }
1032} 1032 }
1033trait Trait: m::SuperTrait {} 1033 trait Trait: m::SuperTrait {}
1034 1034
1035struct S; 1035 struct S;
1036impl m::SuperTrait for S {} 1036 impl m::SuperTrait for S {}
1037impl Trait for S {} 1037 impl Trait for S {}
1038 1038
1039fn test(d: &dyn Trait) { 1039 fn test(d: &dyn Trait) {
1040 d.foo(); 1040 d.foo();
1041} 1041 }
1042"#), 1042 "#,
1043 @r###" 1043 expect![[r#"
1044 51..55 'self': &Self 1044 51..55 'self': &Self
1045 64..69 '{ 0 }': u32 1045 64..69 '{ 0 }': u32
1046 66..67 '0': u32 1046 66..67 '0': u32
1047 176..177 'd': &dyn Trait 1047 176..177 'd': &dyn Trait
1048 191..207 '{ ...o(); }': () 1048 191..207 '{ ...o(); }': ()
1049 197..198 'd': &dyn Trait 1049 197..198 'd': &dyn Trait
1050 197..204 'd.foo()': u32 1050 197..204 'd.foo()': u32
1051 "### 1051 "#]],
1052 ); 1052 );
1053} 1053}
diff --git a/crates/ra_hir_ty/src/tests/patterns.rs b/crates/ra_hir_ty/src/tests/patterns.rs
index f937426bd..39fabf7eb 100644
--- a/crates/ra_hir_ty/src/tests/patterns.rs
+++ b/crates/ra_hir_ty/src/tests/patterns.rs
@@ -1,561 +1,561 @@
1use insta::assert_snapshot; 1use expect::expect;
2use test_utils::mark; 2use test_utils::mark;
3 3
4use super::{infer, infer_with_mismatches}; 4use super::{check_infer, check_infer_with_mismatches};
5 5
6#[test] 6#[test]
7fn infer_pattern() { 7fn infer_pattern() {
8 assert_snapshot!( 8 check_infer(
9 infer(r#" 9 r#"
10fn test(x: &i32) { 10 fn test(x: &i32) {
11 let y = x; 11 let y = x;
12 let &z = x; 12 let &z = x;
13 let a = z; 13 let a = z;
14 let (c, d) = (1, "hello"); 14 let (c, d) = (1, "hello");
15 15
16 for (e, f) in some_iter { 16 for (e, f) in some_iter {
17 let g = e; 17 let g = e;
18 } 18 }
19 19
20 if let [val] = opt { 20 if let [val] = opt {
21 let h = val; 21 let h = val;
22 } 22 }
23 23
24 let lambda = |a: u64, b, c: i32| { a + b; c }; 24 let lambda = |a: u64, b, c: i32| { a + b; c };
25 25
26 let ref ref_to_x = x; 26 let ref ref_to_x = x;
27 let mut mut_x = x; 27 let mut mut_x = x;
28 let ref mut mut_ref_to_x = x; 28 let ref mut mut_ref_to_x = x;
29 let k = mut_ref_to_x; 29 let k = mut_ref_to_x;
30} 30 }
31"#), 31 "#,
32 @r###" 32 expect![[r#"
33 8..9 'x': &i32 33 8..9 'x': &i32
34 17..368 '{ ...o_x; }': () 34 17..368 '{ ...o_x; }': ()
35 27..28 'y': &i32 35 27..28 'y': &i32
36 31..32 'x': &i32 36 31..32 'x': &i32
37 42..44 '&z': &i32 37 42..44 '&z': &i32
38 43..44 'z': i32 38 43..44 'z': i32
39 47..48 'x': &i32 39 47..48 'x': &i32
40 58..59 'a': i32 40 58..59 'a': i32
41 62..63 'z': i32 41 62..63 'z': i32
42 73..79 '(c, d)': (i32, &str) 42 73..79 '(c, d)': (i32, &str)
43 74..75 'c': i32 43 74..75 'c': i32
44 77..78 'd': &str 44 77..78 'd': &str
45 82..94 '(1, "hello")': (i32, &str) 45 82..94 '(1, "hello")': (i32, &str)
46 83..84 '1': i32 46 83..84 '1': i32
47 86..93 '"hello"': &str 47 86..93 '"hello"': &str
48 101..151 'for (e... }': () 48 101..151 'for (e... }': ()
49 105..111 '(e, f)': ({unknown}, {unknown}) 49 105..111 '(e, f)': ({unknown}, {unknown})
50 106..107 'e': {unknown} 50 106..107 'e': {unknown}
51 109..110 'f': {unknown} 51 109..110 'f': {unknown}
52 115..124 'some_iter': {unknown} 52 115..124 'some_iter': {unknown}
53 125..151 '{ ... }': () 53 125..151 '{ ... }': ()
54 139..140 'g': {unknown} 54 139..140 'g': {unknown}
55 143..144 'e': {unknown} 55 143..144 'e': {unknown}
56 157..204 'if let... }': () 56 157..204 'if let... }': ()
57 164..169 '[val]': [{unknown}] 57 164..169 '[val]': [{unknown}]
58 165..168 'val': {unknown} 58 165..168 'val': {unknown}
59 172..175 'opt': [{unknown}] 59 172..175 'opt': [{unknown}]
60 176..204 '{ ... }': () 60 176..204 '{ ... }': ()
61 190..191 'h': {unknown} 61 190..191 'h': {unknown}
62 194..197 'val': {unknown} 62 194..197 'val': {unknown}
63 214..220 'lambda': |u64, u64, i32| -> i32 63 214..220 'lambda': |u64, u64, i32| -> i32
64 223..255 '|a: u6...b; c }': |u64, u64, i32| -> i32 64 223..255 '|a: u6...b; c }': |u64, u64, i32| -> i32
65 224..225 'a': u64 65 224..225 'a': u64
66 232..233 'b': u64 66 232..233 'b': u64
67 235..236 'c': i32 67 235..236 'c': i32
68 243..255 '{ a + b; c }': i32 68 243..255 '{ a + b; c }': i32
69 245..246 'a': u64 69 245..246 'a': u64
70 245..250 'a + b': u64 70 245..250 'a + b': u64
71 249..250 'b': u64 71 249..250 'b': u64
72 252..253 'c': i32 72 252..253 'c': i32
73 266..278 'ref ref_to_x': &&i32 73 266..278 'ref ref_to_x': &&i32
74 281..282 'x': &i32 74 281..282 'x': &i32
75 292..301 'mut mut_x': &i32 75 292..301 'mut mut_x': &i32
76 304..305 'x': &i32 76 304..305 'x': &i32
77 315..335 'ref mu...f_to_x': &mut &i32 77 315..335 'ref mu...f_to_x': &mut &i32
78 338..339 'x': &i32 78 338..339 'x': &i32
79 349..350 'k': &mut &i32 79 349..350 'k': &mut &i32
80 353..365 'mut_ref_to_x': &mut &i32 80 353..365 'mut_ref_to_x': &mut &i32
81 "### 81 "#]],
82 ); 82 );
83} 83}
84 84
85#[test] 85#[test]
86fn infer_literal_pattern() { 86fn infer_literal_pattern() {
87 assert_snapshot!( 87 check_infer_with_mismatches(
88 infer_with_mismatches(r#" 88 r#"
89fn any<T>() -> T { loop {} } 89 fn any<T>() -> T { loop {} }
90fn test(x: &i32) { 90 fn test(x: &i32) {
91 if let "foo" = any() {} 91 if let "foo" = any() {}
92 if let 1 = any() {} 92 if let 1 = any() {}
93 if let 1u32 = any() {} 93 if let 1u32 = any() {}
94 if let 1f32 = any() {} 94 if let 1f32 = any() {}
95 if let 1.0 = any() {} 95 if let 1.0 = any() {}
96 if let true = any() {} 96 if let true = any() {}
97} 97 }
98"#, true), 98 "#,
99 @r###" 99 expect![[r#"
100 17..28 '{ loop {} }': T 100 17..28 '{ loop {} }': T
101 19..26 'loop {}': ! 101 19..26 'loop {}': !
102 24..26 '{}': () 102 24..26 '{}': ()
103 37..38 'x': &i32 103 37..38 'x': &i32
104 46..208 '{ ...) {} }': () 104 46..208 '{ ...) {} }': ()
105 52..75 'if let...y() {}': () 105 52..75 'if let...y() {}': ()
106 59..64 '"foo"': &str 106 59..64 '"foo"': &str
107 59..64 '"foo"': &str 107 59..64 '"foo"': &str
108 67..70 'any': fn any<&str>() -> &str 108 67..70 'any': fn any<&str>() -> &str
109 67..72 'any()': &str 109 67..72 'any()': &str
110 73..75 '{}': () 110 73..75 '{}': ()
111 80..99 'if let...y() {}': () 111 80..99 'if let...y() {}': ()
112 87..88 '1': i32 112 87..88 '1': i32
113 87..88 '1': i32 113 87..88 '1': i32
114 91..94 'any': fn any<i32>() -> i32 114 91..94 'any': fn any<i32>() -> i32
115 91..96 'any()': i32 115 91..96 'any()': i32
116 97..99 '{}': () 116 97..99 '{}': ()
117 104..126 'if let...y() {}': () 117 104..126 'if let...y() {}': ()
118 111..115 '1u32': u32 118 111..115 '1u32': u32
119 111..115 '1u32': u32 119 111..115 '1u32': u32
120 118..121 'any': fn any<u32>() -> u32 120 118..121 'any': fn any<u32>() -> u32
121 118..123 'any()': u32 121 118..123 'any()': u32
122 124..126 '{}': () 122 124..126 '{}': ()
123 131..153 'if let...y() {}': () 123 131..153 'if let...y() {}': ()
124 138..142 '1f32': f32 124 138..142 '1f32': f32
125 138..142 '1f32': f32 125 138..142 '1f32': f32
126 145..148 'any': fn any<f32>() -> f32 126 145..148 'any': fn any<f32>() -> f32
127 145..150 'any()': f32 127 145..150 'any()': f32
128 151..153 '{}': () 128 151..153 '{}': ()
129 158..179 'if let...y() {}': () 129 158..179 'if let...y() {}': ()
130 165..168 '1.0': f64 130 165..168 '1.0': f64
131 165..168 '1.0': f64 131 165..168 '1.0': f64
132 171..174 'any': fn any<f64>() -> f64 132 171..174 'any': fn any<f64>() -> f64
133 171..176 'any()': f64 133 171..176 'any()': f64
134 177..179 '{}': () 134 177..179 '{}': ()
135 184..206 'if let...y() {}': () 135 184..206 'if let...y() {}': ()
136 191..195 'true': bool 136 191..195 'true': bool
137 191..195 'true': bool 137 191..195 'true': bool
138 198..201 'any': fn any<bool>() -> bool 138 198..201 'any': fn any<bool>() -> bool
139 198..203 'any()': bool 139 198..203 'any()': bool
140 204..206 '{}': () 140 204..206 '{}': ()
141 "### 141 "#]],
142 ); 142 );
143} 143}
144 144
145#[test] 145#[test]
146fn infer_range_pattern() { 146fn infer_range_pattern() {
147 assert_snapshot!( 147 check_infer_with_mismatches(
148 infer_with_mismatches(r#" 148 r#"
149fn test(x: &i32) { 149 fn test(x: &i32) {
150 if let 1..76 = 2u32 {} 150 if let 1..76 = 2u32 {}
151 if let 1..=76 = 2u32 {} 151 if let 1..=76 = 2u32 {}
152} 152 }
153"#, true), 153 "#,
154 @r###" 154 expect![[r#"
155 8..9 'x': &i32 155 8..9 'x': &i32
156 17..75 '{ ...2 {} }': () 156 17..75 '{ ...2 {} }': ()
157 23..45 'if let...u32 {}': () 157 23..45 'if let...u32 {}': ()
158 30..35 '1..76': u32 158 30..35 '1..76': u32
159 38..42 '2u32': u32 159 38..42 '2u32': u32
160 43..45 '{}': () 160 43..45 '{}': ()
161 50..73 'if let...u32 {}': () 161 50..73 'if let...u32 {}': ()
162 57..63 '1..=76': u32 162 57..63 '1..=76': u32
163 66..70 '2u32': u32 163 66..70 '2u32': u32
164 71..73 '{}': () 164 71..73 '{}': ()
165 "### 165 "#]],
166 ); 166 );
167} 167}
168 168
169#[test] 169#[test]
170fn infer_pattern_match_ergonomics() { 170fn infer_pattern_match_ergonomics() {
171 assert_snapshot!( 171 check_infer(
172 infer(r#" 172 r#"
173struct A<T>(T); 173 struct A<T>(T);
174 174
175fn test() { 175 fn test() {
176 let A(n) = &A(1); 176 let A(n) = &A(1);
177 let A(n) = &mut A(1); 177 let A(n) = &mut A(1);
178} 178 }
179"#), 179 "#,
180 @r###" 180 expect![[r#"
181 27..78 '{ ...(1); }': () 181 27..78 '{ ...(1); }': ()
182 37..41 'A(n)': A<i32> 182 37..41 'A(n)': A<i32>
183 39..40 'n': &i32 183 39..40 'n': &i32
184 44..49 '&A(1)': &A<i32> 184 44..49 '&A(1)': &A<i32>
185 45..46 'A': A<i32>(i32) -> A<i32> 185 45..46 'A': A<i32>(i32) -> A<i32>
186 45..49 'A(1)': A<i32> 186 45..49 'A(1)': A<i32>
187 47..48 '1': i32 187 47..48 '1': i32
188 59..63 'A(n)': A<i32> 188 59..63 'A(n)': A<i32>
189 61..62 'n': &mut i32 189 61..62 'n': &mut i32
190 66..75 '&mut A(1)': &mut A<i32> 190 66..75 '&mut A(1)': &mut A<i32>
191 71..72 'A': A<i32>(i32) -> A<i32> 191 71..72 'A': A<i32>(i32) -> A<i32>
192 71..75 'A(1)': A<i32> 192 71..75 'A(1)': A<i32>
193 73..74 '1': i32 193 73..74 '1': i32
194 "### 194 "#]],
195 ); 195 );
196} 196}
197 197
198#[test] 198#[test]
199fn infer_pattern_match_ergonomics_ref() { 199fn infer_pattern_match_ergonomics_ref() {
200 mark::check!(match_ergonomics_ref); 200 mark::check!(match_ergonomics_ref);
201 assert_snapshot!( 201 check_infer(
202 infer(r#" 202 r#"
203fn test() { 203 fn test() {
204 let v = &(1, &2); 204 let v = &(1, &2);
205 let (_, &w) = v; 205 let (_, &w) = v;
206} 206 }
207"#), 207 "#,
208 @r###" 208 expect![[r#"
209 10..56 '{ ...= v; }': () 209 10..56 '{ ...= v; }': ()
210 20..21 'v': &(i32, &i32) 210 20..21 'v': &(i32, &i32)
211 24..32 '&(1, &2)': &(i32, &i32) 211 24..32 '&(1, &2)': &(i32, &i32)
212 25..32 '(1, &2)': (i32, &i32) 212 25..32 '(1, &2)': (i32, &i32)
213 26..27 '1': i32 213 26..27 '1': i32
214 29..31 '&2': &i32 214 29..31 '&2': &i32
215 30..31 '2': i32 215 30..31 '2': i32
216 42..49 '(_, &w)': (i32, &i32) 216 42..49 '(_, &w)': (i32, &i32)
217 43..44 '_': i32 217 43..44 '_': i32
218 46..48 '&w': &i32 218 46..48 '&w': &i32
219 47..48 'w': i32 219 47..48 'w': i32
220 52..53 'v': &(i32, &i32) 220 52..53 'v': &(i32, &i32)
221 "### 221 "#]],
222 ); 222 );
223} 223}
224 224
225#[test] 225#[test]
226fn infer_pattern_match_slice() { 226fn infer_pattern_match_slice() {
227 assert_snapshot!( 227 check_infer(
228 infer(r#" 228 r#"
229fn test() { 229 fn test() {
230 let slice: &[f64] = &[0.0]; 230 let slice: &[f64] = &[0.0];
231 match slice { 231 match slice {
232 &[] => {}, 232 &[] => {},
233 &[a] => { 233 &[a] => {
234 a; 234 a;
235 }, 235 },
236 &[b, c] => { 236 &[b, c] => {
237 b; 237 b;
238 c; 238 c;
239 }
240 _ => {}
241 }
239 } 242 }
240 _ => {} 243 "#,
241 } 244 expect![[r#"
242} 245 10..209 '{ ... } }': ()
243"#), 246 20..25 'slice': &[f64]
244 @r###" 247 36..42 '&[0.0]': &[f64; _]
245 10..209 '{ ... } }': () 248 37..42 '[0.0]': [f64; _]
246 20..25 'slice': &[f64] 249 38..41 '0.0': f64
247 36..42 '&[0.0]': &[f64; _] 250 48..207 'match ... }': ()
248 37..42 '[0.0]': [f64; _] 251 54..59 'slice': &[f64]
249 38..41 '0.0': f64 252 70..73 '&[]': &[f64]
250 48..207 'match ... }': () 253 71..73 '[]': [f64]
251 54..59 'slice': &[f64] 254 77..79 '{}': ()
252 70..73 '&[]': &[f64] 255 89..93 '&[a]': &[f64]
253 71..73 '[]': [f64] 256 90..93 '[a]': [f64]
254 77..79 '{}': () 257 91..92 'a': f64
255 89..93 '&[a]': &[f64] 258 97..123 '{ ... }': ()
256 90..93 '[a]': [f64] 259 111..112 'a': f64
257 91..92 'a': f64 260 133..140 '&[b, c]': &[f64]
258 97..123 '{ ... }': () 261 134..140 '[b, c]': [f64]
259 111..112 'a': f64 262 135..136 'b': f64
260 133..140 '&[b, c]': &[f64] 263 138..139 'c': f64
261 134..140 '[b, c]': [f64] 264 144..185 '{ ... }': ()
262 135..136 'b': f64 265 158..159 'b': f64
263 138..139 'c': f64 266 173..174 'c': f64
264 144..185 '{ ... }': () 267 194..195 '_': &[f64]
265 158..159 'b': f64 268 199..201 '{}': ()
266 173..174 'c': f64 269 "#]],
267 194..195 '_': &[f64]
268 199..201 '{}': ()
269 "###
270 ); 270 );
271} 271}
272 272
273#[test] 273#[test]
274fn infer_pattern_match_string_literal() { 274fn infer_pattern_match_string_literal() {
275 assert_snapshot!( 275 check_infer_with_mismatches(
276 infer_with_mismatches(r#" 276 r#"
277fn test() { 277 fn test() {
278 let s: &str = "hello"; 278 let s: &str = "hello";
279 match s { 279 match s {
280 "hello" => {} 280 "hello" => {}
281 _ => {} 281 _ => {}
282 } 282 }
283} 283 }
284"#, true), 284 "#,
285 @r###" 285 expect![[r#"
286 10..98 '{ ... } }': () 286 10..98 '{ ... } }': ()
287 20..21 's': &str 287 20..21 's': &str
288 30..37 '"hello"': &str 288 30..37 '"hello"': &str
289 43..96 'match ... }': () 289 43..96 'match ... }': ()
290 49..50 's': &str 290 49..50 's': &str
291 61..68 '"hello"': &str 291 61..68 '"hello"': &str
292 61..68 '"hello"': &str 292 61..68 '"hello"': &str
293 72..74 '{}': () 293 72..74 '{}': ()
294 83..84 '_': &str 294 83..84 '_': &str
295 88..90 '{}': () 295 88..90 '{}': ()
296 "### 296 "#]],
297 ); 297 );
298} 298}
299 299
300#[test] 300#[test]
301fn infer_pattern_match_or() { 301fn infer_pattern_match_or() {
302 assert_snapshot!( 302 check_infer_with_mismatches(
303 infer_with_mismatches(r#" 303 r#"
304fn test() { 304 fn test() {
305 let s: &str = "hello"; 305 let s: &str = "hello";
306 match s { 306 match s {
307 "hello" | "world" => {} 307 "hello" | "world" => {}
308 _ => {} 308 _ => {}
309 } 309 }
310} 310 }
311"#, true), 311 "#,
312 @r###" 312 expect![[r#"
313 10..108 '{ ... } }': () 313 10..108 '{ ... } }': ()
314 20..21 's': &str 314 20..21 's': &str
315 30..37 '"hello"': &str 315 30..37 '"hello"': &str
316 43..106 'match ... }': () 316 43..106 'match ... }': ()
317 49..50 's': &str 317 49..50 's': &str
318 61..68 '"hello"': &str 318 61..68 '"hello"': &str
319 61..68 '"hello"': &str 319 61..68 '"hello"': &str
320 61..78 '"hello...world"': &str 320 61..78 '"hello...world"': &str
321 71..78 '"world"': &str 321 71..78 '"world"': &str
322 71..78 '"world"': &str 322 71..78 '"world"': &str
323 82..84 '{}': () 323 82..84 '{}': ()
324 93..94 '_': &str 324 93..94 '_': &str
325 98..100 '{}': () 325 98..100 '{}': ()
326 "### 326 "#]],
327 ); 327 );
328} 328}
329 329
330#[test] 330#[test]
331fn infer_pattern_match_arr() { 331fn infer_pattern_match_arr() {
332 assert_snapshot!( 332 check_infer(
333 infer(r#" 333 r#"
334fn test() { 334 fn test() {
335 let arr: [f64; 2] = [0.0, 1.0]; 335 let arr: [f64; 2] = [0.0, 1.0];
336 match arr { 336 match arr {
337 [1.0, a] => { 337 [1.0, a] => {
338 a; 338 a;
339 }, 339 },
340 [b, c] => { 340 [b, c] => {
341 b; 341 b;
342 c; 342 c;
343 }
344 }
343 } 345 }
344 } 346 "#,
345} 347 expect![[r#"
346"#), 348 10..179 '{ ... } }': ()
347 @r###" 349 20..23 'arr': [f64; _]
348 10..179 '{ ... } }': () 350 36..46 '[0.0, 1.0]': [f64; _]
349 20..23 'arr': [f64; _] 351 37..40 '0.0': f64
350 36..46 '[0.0, 1.0]': [f64; _] 352 42..45 '1.0': f64
351 37..40 '0.0': f64 353 52..177 'match ... }': ()
352 42..45 '1.0': f64 354 58..61 'arr': [f64; _]
353 52..177 'match ... }': () 355 72..80 '[1.0, a]': [f64; _]
354 58..61 'arr': [f64; _] 356 73..76 '1.0': f64
355 72..80 '[1.0, a]': [f64; _] 357 73..76 '1.0': f64
356 73..76 '1.0': f64 358 78..79 'a': f64
357 73..76 '1.0': f64 359 84..110 '{ ... }': ()
358 78..79 'a': f64 360 98..99 'a': f64
359 84..110 '{ ... }': () 361 120..126 '[b, c]': [f64; _]
360 98..99 'a': f64 362 121..122 'b': f64
361 120..126 '[b, c]': [f64; _] 363 124..125 'c': f64
362 121..122 'b': f64 364 130..171 '{ ... }': ()
363 124..125 'c': f64 365 144..145 'b': f64
364 130..171 '{ ... }': () 366 159..160 'c': f64
365 144..145 'b': f64 367 "#]],
366 159..160 'c': f64
367 "###
368 ); 368 );
369} 369}
370 370
371#[test] 371#[test]
372fn infer_adt_pattern() { 372fn infer_adt_pattern() {
373 assert_snapshot!( 373 check_infer(
374 infer(r#" 374 r#"
375enum E { 375 enum E {
376 A { x: usize }, 376 A { x: usize },
377 B 377 B
378} 378 }
379 379
380struct S(u32, E); 380 struct S(u32, E);
381 381
382fn test() { 382 fn test() {
383 let e = E::A { x: 3 }; 383 let e = E::A { x: 3 };
384 384
385 let S(y, z) = foo; 385 let S(y, z) = foo;
386 let E::A { x: new_var } = e; 386 let E::A { x: new_var } = e;
387 387
388 match e { 388 match e {
389 E::A { x } => x, 389 E::A { x } => x,
390 E::B if foo => 1, 390 E::B if foo => 1,
391 E::B => 10, 391 E::B => 10,
392 }; 392 };
393 393
394 let ref d @ E::A { .. } = e; 394 let ref d @ E::A { .. } = e;
395 d; 395 d;
396} 396 }
397"#), 397 "#,
398 @r###" 398 expect![[r#"
399 67..288 '{ ... d; }': () 399 67..288 '{ ... d; }': ()
400 77..78 'e': E 400 77..78 'e': E
401 81..94 'E::A { x: 3 }': E 401 81..94 'E::A { x: 3 }': E
402 91..92 '3': usize 402 91..92 '3': usize
403 105..112 'S(y, z)': S 403 105..112 'S(y, z)': S
404 107..108 'y': u32 404 107..108 'y': u32
405 110..111 'z': E 405 110..111 'z': E
406 115..118 'foo': S 406 115..118 'foo': S
407 128..147 'E::A {..._var }': E 407 128..147 'E::A {..._var }': E
408 138..145 'new_var': usize 408 138..145 'new_var': usize
409 150..151 'e': E 409 150..151 'e': E
410 158..244 'match ... }': usize 410 158..244 'match ... }': usize
411 164..165 'e': E 411 164..165 'e': E
412 176..186 'E::A { x }': E 412 176..186 'E::A { x }': E
413 183..184 'x': usize 413 183..184 'x': usize
414 190..191 'x': usize 414 190..191 'x': usize
415 201..205 'E::B': E 415 201..205 'E::B': E
416 209..212 'foo': bool 416 209..212 'foo': bool
417 216..217 '1': usize 417 216..217 '1': usize
418 227..231 'E::B': E 418 227..231 'E::B': E
419 235..237 '10': usize 419 235..237 '10': usize
420 255..274 'ref d ...{ .. }': &E 420 255..274 'ref d ...{ .. }': &E
421 263..274 'E::A { .. }': E 421 263..274 'E::A { .. }': E
422 277..278 'e': E 422 277..278 'e': E
423 284..285 'd': &E 423 284..285 'd': &E
424 "### 424 "#]],
425 ); 425 );
426} 426}
427 427
428#[test] 428#[test]
429fn enum_variant_through_self_in_pattern() { 429fn enum_variant_through_self_in_pattern() {
430 assert_snapshot!( 430 check_infer(
431 infer(r#" 431 r#"
432enum E { 432 enum E {
433 A { x: usize }, 433 A { x: usize },
434 B(usize), 434 B(usize),
435 C 435 C
436} 436 }
437 437
438impl E { 438 impl E {
439 fn test() { 439 fn test() {
440 match (loop {}) { 440 match (loop {}) {
441 Self::A { x } => { x; }, 441 Self::A { x } => { x; },
442 Self::B(x) => { x; }, 442 Self::B(x) => { x; },
443 Self::C => {}, 443 Self::C => {},
444 }; 444 };
445 } 445 }
446} 446 }
447"#), 447 "#,
448 @r###" 448 expect![[r#"
449 75..217 '{ ... }': () 449 75..217 '{ ... }': ()
450 85..210 'match ... }': () 450 85..210 'match ... }': ()
451 92..99 'loop {}': ! 451 92..99 'loop {}': !
452 97..99 '{}': () 452 97..99 '{}': ()
453 115..128 'Self::A { x }': E 453 115..128 'Self::A { x }': E
454 125..126 'x': usize 454 125..126 'x': usize
455 132..138 '{ x; }': () 455 132..138 '{ x; }': ()
456 134..135 'x': usize 456 134..135 'x': usize
457 152..162 'Self::B(x)': E 457 152..162 'Self::B(x)': E
458 160..161 'x': usize 458 160..161 'x': usize
459 166..172 '{ x; }': () 459 166..172 '{ x; }': ()
460 168..169 'x': usize 460 168..169 'x': usize
461 186..193 'Self::C': E 461 186..193 'Self::C': E
462 197..199 '{}': () 462 197..199 '{}': ()
463 "### 463 "#]],
464 ); 464 );
465} 465}
466 466
467#[test] 467#[test]
468fn infer_generics_in_patterns() { 468fn infer_generics_in_patterns() {
469 assert_snapshot!( 469 check_infer(
470 infer(r#" 470 r#"
471struct A<T> { 471 struct A<T> {
472 x: T, 472 x: T,
473} 473 }
474 474
475enum Option<T> { 475 enum Option<T> {
476 Some(T), 476 Some(T),
477 None, 477 None,
478} 478 }
479 479
480fn test(a1: A<u32>, o: Option<u64>) { 480 fn test(a1: A<u32>, o: Option<u64>) {
481 let A { x: x2 } = a1; 481 let A { x: x2 } = a1;
482 let A::<i64> { x: x3 } = A { x: 1 }; 482 let A::<i64> { x: x3 } = A { x: 1 };
483 match o { 483 match o {
484 Option::Some(t) => t, 484 Option::Some(t) => t,
485 _ => 1, 485 _ => 1,
486 }; 486 };
487} 487 }
488"#), 488 "#,
489 @r###" 489 expect![[r#"
490 78..80 'a1': A<u32> 490 78..80 'a1': A<u32>
491 90..91 'o': Option<u64> 491 90..91 'o': Option<u64>
492 106..243 '{ ... }; }': () 492 106..243 '{ ... }; }': ()
493 116..127 'A { x: x2 }': A<u32> 493 116..127 'A { x: x2 }': A<u32>
494 123..125 'x2': u32 494 123..125 'x2': u32
495 130..132 'a1': A<u32> 495 130..132 'a1': A<u32>
496 142..160 'A::<i6...: x3 }': A<i64> 496 142..160 'A::<i6...: x3 }': A<i64>
497 156..158 'x3': i64 497 156..158 'x3': i64
498 163..173 'A { x: 1 }': A<i64> 498 163..173 'A { x: 1 }': A<i64>
499 170..171 '1': i64 499 170..171 '1': i64
500 179..240 'match ... }': u64 500 179..240 'match ... }': u64
501 185..186 'o': Option<u64> 501 185..186 'o': Option<u64>
502 197..212 'Option::Some(t)': Option<u64> 502 197..212 'Option::Some(t)': Option<u64>
503 210..211 't': u64 503 210..211 't': u64
504 216..217 't': u64 504 216..217 't': u64
505 227..228 '_': Option<u64> 505 227..228 '_': Option<u64>
506 232..233 '1': u64 506 232..233 '1': u64
507 "### 507 "#]],
508 ); 508 );
509} 509}
510 510
511#[test] 511#[test]
512fn infer_const_pattern() { 512fn infer_const_pattern() {
513 assert_snapshot!( 513 check_infer_with_mismatches(
514 infer_with_mismatches(r#" 514 r#"
515enum Option<T> { None } 515 enum Option<T> { None }
516use Option::None; 516 use Option::None;
517struct Foo; 517 struct Foo;
518const Bar: usize = 1; 518 const Bar: usize = 1;
519 519
520fn test() { 520 fn test() {
521 let a: Option<u32> = None; 521 let a: Option<u32> = None;
522 let b: Option<i64> = match a { 522 let b: Option<i64> = match a {
523 None => None, 523 None => None,
524 }; 524 };
525 let _: () = match () { Foo => Foo }; // Expected mismatch 525 let _: () = match () { Foo => Foo }; // Expected mismatch
526 let _: () = match () { Bar => Bar }; // Expected mismatch 526 let _: () = match () { Bar => Bar }; // Expected mismatch
527} 527 }
528"#, true), 528 "#,
529 @r###" 529 expect![[r#"
530 73..74 '1': usize 530 73..74 '1': usize
531 87..309 '{ ...atch }': () 531 87..309 '{ ...atch }': ()
532 97..98 'a': Option<u32> 532 97..98 'a': Option<u32>
533 114..118 'None': Option<u32> 533 114..118 'None': Option<u32>
534 128..129 'b': Option<i64> 534 128..129 'b': Option<i64>
535 145..182 'match ... }': Option<i64> 535 145..182 'match ... }': Option<i64>
536 151..152 'a': Option<u32> 536 151..152 'a': Option<u32>
537 163..167 'None': Option<u32> 537 163..167 'None': Option<u32>
538 171..175 'None': Option<i64> 538 171..175 'None': Option<i64>
539 192..193 '_': () 539 192..193 '_': ()
540 200..223 'match ... Foo }': Foo 540 200..223 'match ... Foo }': Foo
541 206..208 '()': () 541 206..208 '()': ()
542 211..214 'Foo': Foo 542 211..214 'Foo': Foo
543 218..221 'Foo': Foo 543 218..221 'Foo': Foo
544 254..255 '_': () 544 254..255 '_': ()
545 262..285 'match ... Bar }': usize 545 262..285 'match ... Bar }': usize
546 268..270 '()': () 546 268..270 '()': ()
547 273..276 'Bar': usize 547 273..276 'Bar': usize
548 280..283 'Bar': usize 548 280..283 'Bar': usize
549 200..223: expected (), got Foo 549 200..223: expected (), got Foo
550 262..285: expected (), got usize 550 262..285: expected (), got usize
551 "### 551 "#]],
552 ); 552 );
553} 553}
554 554
555#[test] 555#[test]
556fn infer_guard() { 556fn infer_guard() {
557 assert_snapshot!( 557 check_infer(
558 infer(r#" 558 r#"
559struct S; 559struct S;
560impl S { fn foo(&self) -> bool { false } } 560impl S { fn foo(&self) -> bool { false } }
561 561
@@ -564,91 +564,93 @@ fn main() {
564 s if s.foo() => (), 564 s if s.foo() => (),
565 } 565 }
566} 566}
567 "#), @r###" 567 "#,
568 27..31 'self': &S 568 expect![[r#"
569 41..50 '{ false }': bool 569 27..31 'self': &S
570 43..48 'false': bool 570 41..50 '{ false }': bool
571 64..115 '{ ... } }': () 571 43..48 'false': bool
572 70..113 'match ... }': () 572 64..115 '{ ... } }': ()
573 76..77 'S': S 573 70..113 'match ... }': ()
574 88..89 's': S 574 76..77 'S': S
575 93..94 's': S 575 88..89 's': S
576 93..100 's.foo()': bool 576 93..94 's': S
577 104..106 '()': () 577 93..100 's.foo()': bool
578 "###) 578 104..106 '()': ()
579 "#]],
580 )
579} 581}
580 582
581#[test] 583#[test]
582fn match_ergonomics_in_closure_params() { 584fn match_ergonomics_in_closure_params() {
583 assert_snapshot!( 585 check_infer(
584 infer(r#" 586 r#"
585#[lang = "fn_once"] 587 #[lang = "fn_once"]
586trait FnOnce<Args> { 588 trait FnOnce<Args> {
587 type Output; 589 type Output;
588} 590 }
589 591
590fn foo<T, U, F: FnOnce(T) -> U>(t: T, f: F) -> U { loop {} } 592 fn foo<T, U, F: FnOnce(T) -> U>(t: T, f: F) -> U { loop {} }
591 593
592fn test() { 594 fn test() {
593 foo(&(1, "a"), |&(x, y)| x); // normal, no match ergonomics 595 foo(&(1, "a"), |&(x, y)| x); // normal, no match ergonomics
594 foo(&(1, "a"), |(x, y)| x); 596 foo(&(1, "a"), |(x, y)| x);
595} 597 }
596"#), 598 "#,
597 @r###" 599 expect![[r#"
598 93..94 't': T 600 93..94 't': T
599 99..100 'f': F 601 99..100 'f': F
600 110..121 '{ loop {} }': U 602 110..121 '{ loop {} }': U
601 112..119 'loop {}': ! 603 112..119 'loop {}': !
602 117..119 '{}': () 604 117..119 '{}': ()
603 133..232 '{ ... x); }': () 605 133..232 '{ ... x); }': ()
604 139..142 'foo': fn foo<&(i32, &str), i32, |&(i32, &str)| -> i32>(&(i32, &str), |&(i32, &str)| -> i32) -> i32 606 139..142 'foo': fn foo<&(i32, &str), i32, |&(i32, &str)| -> i32>(&(i32, &str), |&(i32, &str)| -> i32) -> i32
605 139..166 'foo(&(...y)| x)': i32 607 139..166 'foo(&(...y)| x)': i32
606 143..152 '&(1, "a")': &(i32, &str) 608 143..152 '&(1, "a")': &(i32, &str)
607 144..152 '(1, "a")': (i32, &str) 609 144..152 '(1, "a")': (i32, &str)
608 145..146 '1': i32 610 145..146 '1': i32
609 148..151 '"a"': &str 611 148..151 '"a"': &str
610 154..165 '|&(x, y)| x': |&(i32, &str)| -> i32 612 154..165 '|&(x, y)| x': |&(i32, &str)| -> i32
611 155..162 '&(x, y)': &(i32, &str) 613 155..162 '&(x, y)': &(i32, &str)
612 156..162 '(x, y)': (i32, &str) 614 156..162 '(x, y)': (i32, &str)
613 157..158 'x': i32 615 157..158 'x': i32
614 160..161 'y': &str 616 160..161 'y': &str
615 164..165 'x': i32 617 164..165 'x': i32
616 203..206 'foo': fn foo<&(i32, &str), &i32, |&(i32, &str)| -> &i32>(&(i32, &str), |&(i32, &str)| -> &i32) -> &i32 618 203..206 'foo': fn foo<&(i32, &str), &i32, |&(i32, &str)| -> &i32>(&(i32, &str), |&(i32, &str)| -> &i32) -> &i32
617 203..229 'foo(&(...y)| x)': &i32 619 203..229 'foo(&(...y)| x)': &i32
618 207..216 '&(1, "a")': &(i32, &str) 620 207..216 '&(1, "a")': &(i32, &str)
619 208..216 '(1, "a")': (i32, &str) 621 208..216 '(1, "a")': (i32, &str)
620 209..210 '1': i32 622 209..210 '1': i32
621 212..215 '"a"': &str 623 212..215 '"a"': &str
622 218..228 '|(x, y)| x': |&(i32, &str)| -> &i32 624 218..228 '|(x, y)| x': |&(i32, &str)| -> &i32
623 219..225 '(x, y)': (i32, &str) 625 219..225 '(x, y)': (i32, &str)
624 220..221 'x': &i32 626 220..221 'x': &i32
625 223..224 'y': &&str 627 223..224 'y': &&str
626 227..228 'x': &i32 628 227..228 'x': &i32
627 "### 629 "#]],
628 ); 630 );
629} 631}
630 632
631#[test] 633#[test]
632fn slice_tail_pattern() { 634fn slice_tail_pattern() {
633 assert_snapshot!( 635 check_infer(
634 infer(r#" 636 r#"
635fn foo(params: &[i32]) { 637 fn foo(params: &[i32]) {
636 match params { 638 match params {
637 [head, tail @ ..] => { 639 [head, tail @ ..] => {
640 }
641 }
638 } 642 }
639 } 643 "#,
640} 644 expect![[r#"
641"#), 645 7..13 'params': &[i32]
642 @r###" 646 23..92 '{ ... } }': ()
643 7..13 'params': &[i32] 647 29..90 'match ... }': ()
644 23..92 '{ ... } }': () 648 35..41 'params': &[i32]
645 29..90 'match ... }': () 649 52..69 '[head,... @ ..]': [i32]
646 35..41 'params': &[i32] 650 53..57 'head': &i32
647 52..69 '[head,... @ ..]': [i32] 651 59..68 'tail @ ..': &[i32]
648 53..57 'head': &i32 652 66..68 '..': [i32]
649 59..68 'tail @ ..': &[i32] 653 73..84 '{ }': ()
650 66..68 '..': [i32] 654 "#]],
651 73..84 '{ }': ()
652 "###
653 ); 655 );
654} 656}
diff --git a/crates/ra_hir_ty/src/tests/regression.rs b/crates/ra_hir_ty/src/tests/regression.rs
index 4367621fc..b9ab0f357 100644
--- a/crates/ra_hir_ty/src/tests/regression.rs
+++ b/crates/ra_hir_ty/src/tests/regression.rs
@@ -1,87 +1,87 @@
1use insta::assert_snapshot; 1use expect::expect;
2use test_utils::mark; 2use test_utils::mark;
3 3
4use super::{check_types, infer}; 4use super::{check_infer, check_types};
5 5
6#[test] 6#[test]
7fn bug_484() { 7fn bug_484() {
8 assert_snapshot!( 8 check_infer(
9 infer(r#" 9 r#"
10fn test() { 10 fn test() {
11 let x = if true {}; 11 let x = if true {};
12} 12 }
13"#), 13 "#,
14 @r###" 14 expect![[r#"
15 10..36 '{ l... {}; }': () 15 10..37 '{ ... {}; }': ()
16 19..20 'x': () 16 20..21 'x': ()
17 23..33 'if true {}': () 17 24..34 'if true {}': ()
18 26..30 'true': bool 18 27..31 'true': bool
19 31..33 '{}': () 19 32..34 '{}': ()
20 "### 20 "#]],
21 ); 21 );
22} 22}
23 23
24#[test] 24#[test]
25fn no_panic_on_field_of_enum() { 25fn no_panic_on_field_of_enum() {
26 assert_snapshot!( 26 check_infer(
27 infer(r#" 27 r#"
28enum X {} 28 enum X {}
29 29
30fn test(x: X) { 30 fn test(x: X) {
31 x.some_field; 31 x.some_field;
32} 32 }
33"#), 33 "#,
34 @r###" 34 expect![[r#"
35 19..20 'x': X 35 19..20 'x': X
36 25..46 '{ ...eld; }': () 36 25..46 '{ ...eld; }': ()
37 31..32 'x': X 37 31..32 'x': X
38 31..43 'x.some_field': {unknown} 38 31..43 'x.some_field': {unknown}
39 "### 39 "#]],
40 ); 40 );
41} 41}
42 42
43#[test] 43#[test]
44fn bug_585() { 44fn bug_585() {
45 assert_snapshot!( 45 check_infer(
46 infer(r#" 46 r#"
47fn test() { 47 fn test() {
48 X {}; 48 X {};
49 match x { 49 match x {
50 A::B {} => (), 50 A::B {} => (),
51 A::Y() => (), 51 A::Y() => (),
52 } 52 }
53} 53 }
54"#), 54 "#,
55 @r###" 55 expect![[r#"
56 10..88 '{ ... } }': () 56 10..88 '{ ... } }': ()
57 16..20 'X {}': {unknown} 57 16..20 'X {}': {unknown}
58 26..86 'match ... }': () 58 26..86 'match ... }': ()
59 32..33 'x': {unknown} 59 32..33 'x': {unknown}
60 44..51 'A::B {}': {unknown} 60 44..51 'A::B {}': {unknown}
61 55..57 '()': () 61 55..57 '()': ()
62 67..73 'A::Y()': {unknown} 62 67..73 'A::Y()': {unknown}
63 77..79 '()': () 63 77..79 '()': ()
64 "### 64 "#]],
65 ); 65 );
66} 66}
67 67
68#[test] 68#[test]
69fn bug_651() { 69fn bug_651() {
70 assert_snapshot!( 70 check_infer(
71 infer(r#" 71 r#"
72fn quux() { 72 fn quux() {
73 let y = 92; 73 let y = 92;
74 1 + y; 74 1 + y;
75} 75 }
76"#), 76 "#,
77 @r###" 77 expect![[r#"
78 10..40 '{ ...+ y; }': () 78 10..40 '{ ...+ y; }': ()
79 20..21 'y': i32 79 20..21 'y': i32
80 24..26 '92': i32 80 24..26 '92': i32
81 32..33 '1': i32 81 32..33 '1': i32
82 32..37 '1 + y': i32 82 32..37 '1 + y': i32
83 36..37 'y': i32 83 36..37 'y': i32
84 "### 84 "#]],
85 ); 85 );
86} 86}
87 87
@@ -89,78 +89,78 @@ fn quux() {
89fn recursive_vars() { 89fn recursive_vars() {
90 mark::check!(type_var_cycles_resolve_completely); 90 mark::check!(type_var_cycles_resolve_completely);
91 mark::check!(type_var_cycles_resolve_as_possible); 91 mark::check!(type_var_cycles_resolve_as_possible);
92 assert_snapshot!( 92 check_infer(
93 infer(r#" 93 r#"
94fn test() { 94 fn test() {
95 let y = unknown; 95 let y = unknown;
96 [y, &y]; 96 [y, &y];
97} 97 }
98"#), 98 "#,
99 @r###" 99 expect![[r#"
100 10..47 '{ ...&y]; }': () 100 10..47 '{ ...&y]; }': ()
101 20..21 'y': &{unknown} 101 20..21 'y': &{unknown}
102 24..31 'unknown': &{unknown} 102 24..31 'unknown': &{unknown}
103 37..44 '[y, &y]': [&&{unknown}; _] 103 37..44 '[y, &y]': [&&{unknown}; _]
104 38..39 'y': &{unknown} 104 38..39 'y': &{unknown}
105 41..43 '&y': &&{unknown} 105 41..43 '&y': &&{unknown}
106 42..43 'y': &{unknown} 106 42..43 'y': &{unknown}
107 "### 107 "#]],
108 ); 108 );
109} 109}
110 110
111#[test] 111#[test]
112fn recursive_vars_2() { 112fn recursive_vars_2() {
113 assert_snapshot!( 113 check_infer(
114 infer(r#" 114 r#"
115fn test() { 115 fn test() {
116 let x = unknown; 116 let x = unknown;
117 let y = unknown; 117 let y = unknown;
118 [(x, y), (&y, &x)]; 118 [(x, y), (&y, &x)];
119} 119 }
120"#), 120 "#,
121 @r###" 121 expect![[r#"
122 10..79 '{ ...x)]; }': () 122 10..79 '{ ...x)]; }': ()
123 20..21 'x': &&{unknown} 123 20..21 'x': &&{unknown}
124 24..31 'unknown': &&{unknown} 124 24..31 'unknown': &&{unknown}
125 41..42 'y': &&{unknown} 125 41..42 'y': &&{unknown}
126 45..52 'unknown': &&{unknown} 126 45..52 'unknown': &&{unknown}
127 58..76 '[(x, y..., &x)]': [(&&&{unknown}, &&&{unknown}); _] 127 58..76 '[(x, y..., &x)]': [(&&&{unknown}, &&&{unknown}); _]
128 59..65 '(x, y)': (&&&{unknown}, &&&{unknown}) 128 59..65 '(x, y)': (&&&{unknown}, &&&{unknown})
129 60..61 'x': &&{unknown} 129 60..61 'x': &&{unknown}
130 63..64 'y': &&{unknown} 130 63..64 'y': &&{unknown}
131 67..75 '(&y, &x)': (&&&{unknown}, &&&{unknown}) 131 67..75 '(&y, &x)': (&&&{unknown}, &&&{unknown})
132 68..70 '&y': &&&{unknown} 132 68..70 '&y': &&&{unknown}
133 69..70 'y': &&{unknown} 133 69..70 'y': &&{unknown}
134 72..74 '&x': &&&{unknown} 134 72..74 '&x': &&&{unknown}
135 73..74 'x': &&{unknown} 135 73..74 'x': &&{unknown}
136 "### 136 "#]],
137 ); 137 );
138} 138}
139 139
140#[test] 140#[test]
141fn infer_std_crash_1() { 141fn infer_std_crash_1() {
142 // caused stack overflow, taken from std 142 // caused stack overflow, taken from std
143 assert_snapshot!( 143 check_infer(
144 infer(r#" 144 r#"
145enum Maybe<T> { 145 enum Maybe<T> {
146 Real(T), 146 Real(T),
147 Fake, 147 Fake,
148} 148 }
149 149
150fn write() { 150 fn write() {
151 match something_unknown { 151 match something_unknown {
152 Maybe::Real(ref mut something) => (), 152 Maybe::Real(ref mut something) => (),
153 } 153 }
154} 154 }
155"#), 155 "#,
156 @r###" 156 expect![[r#"
157 53..138 '{ ... } }': () 157 53..138 '{ ... } }': ()
158 59..136 'match ... }': () 158 59..136 'match ... }': ()
159 65..82 'someth...nknown': Maybe<{unknown}> 159 65..82 'someth...nknown': Maybe<{unknown}>
160 93..123 'Maybe:...thing)': Maybe<{unknown}> 160 93..123 'Maybe:...thing)': Maybe<{unknown}>
161 105..122 'ref mu...ething': &mut {unknown} 161 105..122 'ref mu...ething': &mut {unknown}
162 127..129 '()': () 162 127..129 '()': ()
163 "### 163 "#]],
164 ); 164 );
165} 165}
166 166
@@ -168,234 +168,235 @@ fn write() {
168fn infer_std_crash_2() { 168fn infer_std_crash_2() {
169 mark::check!(type_var_resolves_to_int_var); 169 mark::check!(type_var_resolves_to_int_var);
170 // caused "equating two type variables, ...", taken from std 170 // caused "equating two type variables, ...", taken from std
171 assert_snapshot!( 171 check_infer(
172 infer(r#" 172 r#"
173fn test_line_buffer() { 173 fn test_line_buffer() {
174 &[0, b'\n', 1, b'\n']; 174 &[0, b'\n', 1, b'\n'];
175} 175 }
176"#), 176 "#,
177 @r###" 177 expect![[r#"
178 22..52 '{ ...n']; }': () 178 22..52 '{ ...n']; }': ()
179 28..49 '&[0, b...b'\n']': &[u8; _] 179 28..49 '&[0, b...b'\n']': &[u8; _]
180 29..49 '[0, b'...b'\n']': [u8; _] 180 29..49 '[0, b'...b'\n']': [u8; _]
181 30..31 '0': u8 181 30..31 '0': u8
182 33..38 'b'\n'': u8 182 33..38 'b'\n'': u8
183 40..41 '1': u8 183 40..41 '1': u8
184 43..48 'b'\n'': u8 184 43..48 'b'\n'': u8
185 "### 185 "#]],
186 ); 186 );
187} 187}
188 188
189#[test] 189#[test]
190fn infer_std_crash_3() { 190fn infer_std_crash_3() {
191 // taken from rustc 191 // taken from rustc
192 assert_snapshot!( 192 check_infer(
193 infer(r#" 193 r#"
194pub fn compute() { 194 pub fn compute() {
195 match nope!() { 195 match nope!() {
196 SizeSkeleton::Pointer { non_zero: true, tail } => {} 196 SizeSkeleton::Pointer { non_zero: true, tail } => {}
197 } 197 }
198} 198 }
199"#), 199 "#,
200 @r###" 200 expect![[r#"
201 17..107 '{ ... } }': () 201 17..107 '{ ... } }': ()
202 23..105 'match ... }': () 202 23..105 'match ... }': ()
203 29..36 'nope!()': {unknown} 203 29..36 'nope!()': {unknown}
204 47..93 'SizeSk...tail }': {unknown} 204 47..93 'SizeSk...tail }': {unknown}
205 81..85 'true': bool 205 81..85 'true': bool
206 81..85 'true': bool 206 81..85 'true': bool
207 87..91 'tail': {unknown} 207 87..91 'tail': {unknown}
208 97..99 '{}': () 208 97..99 '{}': ()
209 "### 209 "#]],
210 ); 210 );
211} 211}
212 212
213#[test] 213#[test]
214fn infer_std_crash_4() { 214fn infer_std_crash_4() {
215 // taken from rustc 215 // taken from rustc
216 assert_snapshot!( 216 check_infer(
217 infer(r#" 217 r#"
218pub fn primitive_type() { 218 pub fn primitive_type() {
219 match *self { 219 match *self {
220 BorrowedRef { type_: Primitive(p), ..} => {}, 220 BorrowedRef { type_: Primitive(p), ..} => {},
221 } 221 }
222} 222 }
223"#), 223 "#,
224 @r###" 224 expect![[r#"
225 24..105 '{ ... } }': () 225 24..105 '{ ... } }': ()
226 30..103 'match ... }': () 226 30..103 'match ... }': ()
227 36..41 '*self': {unknown} 227 36..41 '*self': {unknown}
228 37..41 'self': {unknown} 228 37..41 'self': {unknown}
229 52..90 'Borrow...), ..}': {unknown} 229 52..90 'Borrow...), ..}': {unknown}
230 73..85 'Primitive(p)': {unknown} 230 73..85 'Primitive(p)': {unknown}
231 83..84 'p': {unknown} 231 83..84 'p': {unknown}
232 94..96 '{}': () 232 94..96 '{}': ()
233 "### 233 "#]],
234 ); 234 );
235} 235}
236 236
237#[test] 237#[test]
238fn infer_std_crash_5() { 238fn infer_std_crash_5() {
239 // taken from rustc 239 // taken from rustc
240 assert_snapshot!( 240 check_infer(
241 infer(r#" 241 r#"
242fn extra_compiler_flags() { 242 fn extra_compiler_flags() {
243 for content in doesnt_matter { 243 for content in doesnt_matter {
244 let name = if doesnt_matter { 244 let name = if doesnt_matter {
245 first 245 first
246 } else { 246 } else {
247 &content 247 &content
248 }; 248 };
249 249
250 let content = if ICE_REPORT_COMPILER_FLAGS_STRIP_VALUE.contains(&name) { 250 let content = if ICE_REPORT_COMPILER_FLAGS_STRIP_VALUE.contains(&name) {
251 name 251 name
252 } else { 252 } else {
253 content 253 content
254 }; 254 };
255 } 255 }
256} 256 }
257"#), 257 "#,
258 @r###" 258 expect![[r#"
259 26..322 '{ ... } }': () 259 26..322 '{ ... } }': ()
260 32..320 'for co... }': () 260 32..320 'for co... }': ()
261 36..43 'content': &{unknown} 261 36..43 'content': &{unknown}
262 47..60 'doesnt_matter': {unknown} 262 47..60 'doesnt_matter': {unknown}
263 61..320 '{ ... }': () 263 61..320 '{ ... }': ()
264 75..79 'name': &&{unknown} 264 75..79 'name': &&{unknown}
265 82..166 'if doe... }': &&{unknown} 265 82..166 'if doe... }': &&{unknown}
266 85..98 'doesnt_matter': bool 266 85..98 'doesnt_matter': bool
267 99..128 '{ ... }': &&{unknown} 267 99..128 '{ ... }': &&{unknown}
268 113..118 'first': &&{unknown} 268 113..118 'first': &&{unknown}
269 134..166 '{ ... }': &&{unknown} 269 134..166 '{ ... }': &&{unknown}
270 148..156 '&content': &&{unknown} 270 148..156 '&content': &&{unknown}
271 149..156 'content': &{unknown} 271 149..156 'content': &{unknown}
272 181..188 'content': &{unknown} 272 181..188 'content': &{unknown}
273 191..313 'if ICE... }': &{unknown} 273 191..313 'if ICE... }': &{unknown}
274 194..231 'ICE_RE..._VALUE': {unknown} 274 194..231 'ICE_RE..._VALUE': {unknown}
275 194..247 'ICE_RE...&name)': bool 275 194..247 'ICE_RE...&name)': bool
276 241..246 '&name': &&&{unknown} 276 241..246 '&name': &&&{unknown}
277 242..246 'name': &&{unknown} 277 242..246 'name': &&{unknown}
278 248..276 '{ ... }': &&{unknown} 278 248..276 '{ ... }': &&{unknown}
279 262..266 'name': &&{unknown} 279 262..266 'name': &&{unknown}
280 282..313 '{ ... }': &{unknown} 280 282..313 '{ ... }': &{unknown}
281 296..303 'content': &{unknown} 281 296..303 'content': &{unknown}
282 "### 282 "#]],
283 ); 283 );
284} 284}
285 285
286#[test] 286#[test]
287fn infer_nested_generics_crash() { 287fn infer_nested_generics_crash() {
288 // another crash found typechecking rustc 288 // another crash found typechecking rustc
289 assert_snapshot!( 289 check_infer(
290 infer(r#" 290 r#"
291struct Canonical<V> { 291 struct Canonical<V> {
292 value: V, 292 value: V,
293} 293 }
294struct QueryResponse<V> { 294 struct QueryResponse<V> {
295 value: V, 295 value: V,
296} 296 }
297fn test<R>(query_response: Canonical<QueryResponse<R>>) { 297 fn test<R>(query_response: Canonical<QueryResponse<R>>) {
298 &query_response.value; 298 &query_response.value;
299} 299 }
300"#), 300 "#,
301 @r###" 301 expect![[r#"
302 91..105 'query_response': Canonical<QueryResponse<R>> 302 91..105 'query_response': Canonical<QueryResponse<R>>
303 136..166 '{ ...lue; }': () 303 136..166 '{ ...lue; }': ()
304 142..163 '&query....value': &QueryResponse<R> 304 142..163 '&query....value': &QueryResponse<R>
305 143..157 'query_response': Canonical<QueryResponse<R>> 305 143..157 'query_response': Canonical<QueryResponse<R>>
306 143..163 'query_....value': QueryResponse<R> 306 143..163 'query_....value': QueryResponse<R>
307 "### 307 "#]],
308 ); 308 );
309} 309}
310 310
311#[test] 311#[test]
312fn infer_paren_macro_call() { 312fn infer_paren_macro_call() {
313 assert_snapshot!( 313 check_infer(
314 infer(r#" 314 r#"
315macro_rules! bar { () => {0u32} } 315 macro_rules! bar { () => {0u32} }
316fn test() { 316 fn test() {
317 let a = (bar!()); 317 let a = (bar!());
318} 318 }
319"#), 319 "#,
320 @r###" 320 expect![[r#"
321 !0..4 '0u32': u32 321 !0..4 '0u32': u32
322 44..69 '{ ...()); }': () 322 44..69 '{ ...()); }': ()
323 54..55 'a': u32 323 54..55 'a': u32
324 "### 324 "#]],
325 ); 325 );
326} 326}
327 327
328#[test] 328#[test]
329fn bug_1030() { 329fn bug_1030() {
330 assert_snapshot!(infer(r#" 330 check_infer(
331struct HashSet<T, H>; 331 r#"
332struct FxHasher; 332 struct HashSet<T, H>;
333type FxHashSet<T> = HashSet<T, FxHasher>; 333 struct FxHasher;
334 type FxHashSet<T> = HashSet<T, FxHasher>;
334 335
335impl<T, H> HashSet<T, H> { 336 impl<T, H> HashSet<T, H> {
336 fn default() -> HashSet<T, H> {} 337 fn default() -> HashSet<T, H> {}
337} 338 }
338 339
339pub fn main_loop() { 340 pub fn main_loop() {
340 FxHashSet::default(); 341 FxHashSet::default();
341} 342 }
342"#), 343 "#,
343 @r###" 344 expect![[r#"
344 143..145 '{}': () 345 143..145 '{}': ()
345 168..197 '{ ...t(); }': () 346 168..197 '{ ...t(); }': ()
346 174..192 'FxHash...efault': fn default<{unknown}, FxHasher>() -> HashSet<{unknown}, FxHasher> 347 174..192 'FxHash...efault': fn default<{unknown}, FxHasher>() -> HashSet<{unknown}, FxHasher>
347 174..194 'FxHash...ault()': HashSet<{unknown}, FxHasher> 348 174..194 'FxHash...ault()': HashSet<{unknown}, FxHasher>
348 "### 349 "#]],
349 ); 350 );
350} 351}
351 352
352#[test] 353#[test]
353fn issue_2669() { 354fn issue_2669() {
354 assert_snapshot!( 355 check_infer(
355 infer( 356 r#"
356 r#"trait A {} 357 trait A {}
357 trait Write {} 358 trait Write {}
358 struct Response<T> {} 359 struct Response<T> {}
359 360
360 trait D { 361 trait D {
361 fn foo(); 362 fn foo();
362 } 363 }
363 364
364 impl<T:A> D for Response<T> { 365 impl<T:A> D for Response<T> {
365 fn foo() { 366 fn foo() {
366 end(); 367 end();
367 fn end<W: Write>() { 368 fn end<W: Write>() {
368 let _x: T = loop {}; 369 let _x: T = loop {};
370 }
369 } 371 }
370 } 372 }
371 }"# 373 "#,
372 ), 374 expect![[r#"
373 @r###" 375 119..214 '{ ... }': ()
374 147..262 '{ ... }': () 376 129..132 'end': fn end<{unknown}>()
375 161..164 'end': fn end<{unknown}>() 377 129..134 'end()': ()
376 161..166 'end()': () 378 163..208 '{ ... }': ()
377 199..252 '{ ... }': () 379 181..183 '_x': !
378 221..223 '_x': ! 380 190..197 'loop {}': !
379 230..237 'loop {}': ! 381 195..197 '{}': ()
380 235..237 '{}': () 382 "#]],
381 "###
382 ) 383 )
383} 384}
384 385
385#[test] 386#[test]
386fn issue_2705() { 387fn issue_2705() {
387 assert_snapshot!( 388 check_infer(
388 infer(r#" 389 r#"
389trait Trait {} 390 trait Trait {}
390fn test() { 391 fn test() {
391 <Trait<u32>>::foo() 392 <Trait<u32>>::foo()
392} 393 }
393"#), 394 "#,
394 @r###" 395 expect![[r#"
395 25..52 '{ ...oo() }': () 396 25..52 '{ ...oo() }': ()
396 31..48 '<Trait...>::foo': {unknown} 397 31..48 '<Trait...>::foo': {unknown}
397 31..50 '<Trait...:foo()': () 398 31..50 '<Trait...:foo()': ()
398 "### 399 "#]],
399 ); 400 );
400} 401}
401 402
@@ -479,25 +480,25 @@ fn main() {
479 480
480#[test] 481#[test]
481fn issue_3999_slice() { 482fn issue_3999_slice() {
482 assert_snapshot!( 483 check_infer(
483 infer(r#" 484 r#"
484fn foo(params: &[usize]) { 485 fn foo(params: &[usize]) {
485 match params { 486 match params {
486 [ps @ .., _] => {} 487 [ps @ .., _] => {}
487 } 488 }
488} 489 }
489"#), 490 "#,
490 @r###" 491 expect![[r#"
491 7..13 'params': &[usize] 492 7..13 'params': &[usize]
492 25..80 '{ ... } }': () 493 25..80 '{ ... } }': ()
493 31..78 'match ... }': () 494 31..78 'match ... }': ()
494 37..43 'params': &[usize] 495 37..43 'params': &[usize]
495 54..66 '[ps @ .., _]': [usize] 496 54..66 '[ps @ .., _]': [usize]
496 55..62 'ps @ ..': &[usize] 497 55..62 'ps @ ..': &[usize]
497 60..62 '..': [usize] 498 60..62 '..': [usize]
498 64..65 '_': usize 499 64..65 '_': usize
499 70..72 '{}': () 500 70..72 '{}': ()
500 "### 501 "#]],
501 ); 502 );
502} 503}
503 504
@@ -505,334 +506,337 @@ fn foo(params: &[usize]) {
505fn issue_3999_struct() { 506fn issue_3999_struct() {
506 // rust-analyzer should not panic on seeing this malformed 507 // rust-analyzer should not panic on seeing this malformed
507 // record pattern. 508 // record pattern.
508 assert_snapshot!( 509 check_infer(
509 infer(r#" 510 r#"
510struct Bar { 511 struct Bar {
511 a: bool, 512 a: bool,
512} 513 }
513fn foo(b: Bar) { 514 fn foo(b: Bar) {
514 match b { 515 match b {
515 Bar { a: .. } => {}, 516 Bar { a: .. } => {},
516 } 517 }
517} 518 }
518"#), 519 "#,
519 @r###" 520 expect![[r#"
520 35..36 'b': Bar 521 35..36 'b': Bar
521 43..95 '{ ... } }': () 522 43..95 '{ ... } }': ()
522 49..93 'match ... }': () 523 49..93 'match ... }': ()
523 55..56 'b': Bar 524 55..56 'b': Bar
524 67..80 'Bar { a: .. }': Bar 525 67..80 'Bar { a: .. }': Bar
525 76..78 '..': bool 526 76..78 '..': bool
526 84..86 '{}': () 527 84..86 '{}': ()
527 "### 528 "#]],
528 ); 529 );
529} 530}
530 531
531#[test] 532#[test]
532fn issue_4235_name_conflicts() { 533fn issue_4235_name_conflicts() {
533 assert_snapshot!( 534 check_infer(
534 infer(r#" 535 r#"
535struct FOO {} 536 struct FOO {}
536static FOO:FOO = FOO {}; 537 static FOO:FOO = FOO {};
537 538
538impl FOO { 539 impl FOO {
539 fn foo(&self) {} 540 fn foo(&self) {}
540} 541 }
541 542
542fn main() { 543 fn main() {
543 let a = &FOO; 544 let a = &FOO;
544 a.foo(); 545 a.foo();
545} 546 }
546"#), @r###" 547 "#,
547 31..37 'FOO {}': FOO 548 expect![[r#"
548 63..67 'self': &FOO 549 31..37 'FOO {}': FOO
549 69..71 '{}': () 550 63..67 'self': &FOO
550 85..119 '{ ...o(); }': () 551 69..71 '{}': ()
551 95..96 'a': &FOO 552 85..119 '{ ...o(); }': ()
552 99..103 '&FOO': &FOO 553 95..96 'a': &FOO
553 100..103 'FOO': FOO 554 99..103 '&FOO': &FOO
554 109..110 'a': &FOO 555 100..103 'FOO': FOO
555 109..116 'a.foo()': () 556 109..110 'a': &FOO
556 "### 557 109..116 'a.foo()': ()
558 "#]],
557 ); 559 );
558} 560}
559 561
560#[test] 562#[test]
561fn issue_4465_dollar_crate_at_type() { 563fn issue_4465_dollar_crate_at_type() {
562 assert_snapshot!( 564 check_infer(
563 infer(r#" 565 r#"
564pub struct Foo {} 566 pub struct Foo {}
565pub fn anything<T>() -> T { 567 pub fn anything<T>() -> T {
566 loop {} 568 loop {}
567} 569 }
568macro_rules! foo { 570 macro_rules! foo {
569 () => {{ 571 () => {{
570 let r: $crate::Foo = anything(); 572 let r: $crate::Foo = anything();
571 r 573 r
572 }}; 574 }};
573} 575 }
574fn main() { 576 fn main() {
575 let _a = foo!(); 577 let _a = foo!();
576} 578 }
577"#), @r###" 579 "#,
578 44..59 '{ loop {} }': T 580 expect![[r#"
579 50..57 'loop {}': ! 581 44..59 '{ loop {} }': T
580 55..57 '{}': () 582 50..57 'loop {}': !
581 !0..31 '{letr:...g();r}': Foo 583 55..57 '{}': ()
582 !4..5 'r': Foo 584 !0..31 '{letr:...g();r}': Foo
583 !18..26 'anything': fn anything<Foo>() -> Foo 585 !4..5 'r': Foo
584 !18..28 'anything()': Foo 586 !18..26 'anything': fn anything<Foo>() -> Foo
585 !29..30 'r': Foo 587 !18..28 'anything()': Foo
586 163..187 '{ ...!(); }': () 588 !29..30 'r': Foo
587 173..175 '_a': Foo 589 163..187 '{ ...!(); }': ()
588 "###); 590 173..175 '_a': Foo
591 "#]],
592 );
589} 593}
590 594
591#[test] 595#[test]
592fn issue_4053_diesel_where_clauses() { 596fn issue_4053_diesel_where_clauses() {
593 assert_snapshot!( 597 check_infer(
594 infer(r#" 598 r#"
595trait BoxedDsl<DB> { 599 trait BoxedDsl<DB> {
596 type Output; 600 type Output;
597 fn internal_into_boxed(self) -> Self::Output; 601 fn internal_into_boxed(self) -> Self::Output;
598} 602 }
599 603
600struct SelectStatement<From, Select, Distinct, Where, Order, LimitOffset, GroupBy, Locking> { 604 struct SelectStatement<From, Select, Distinct, Where, Order, LimitOffset, GroupBy, Locking> {
601 order: Order, 605 order: Order,
602} 606 }
603 607
604trait QueryFragment<DB: Backend> {} 608 trait QueryFragment<DB: Backend> {}
605 609
606trait Into<T> { fn into(self) -> T; } 610 trait Into<T> { fn into(self) -> T; }
607 611
608impl<F, S, D, W, O, LOf, DB> BoxedDsl<DB> 612 impl<F, S, D, W, O, LOf, DB> BoxedDsl<DB>
609 for SelectStatement<F, S, D, W, O, LOf, G> 613 for SelectStatement<F, S, D, W, O, LOf, G>
610where 614 where
611 O: Into<dyn QueryFragment<DB>>, 615 O: Into<dyn QueryFragment<DB>>,
612{ 616 {
613 type Output = XXX; 617 type Output = XXX;
614 618
615 fn internal_into_boxed(self) -> Self::Output { 619 fn internal_into_boxed(self) -> Self::Output {
616 self.order.into(); 620 self.order.into();
617 } 621 }
618} 622 }
619"#), 623 "#,
620 @r###" 624 expect![[r#"
621 65..69 'self': Self 625 65..69 'self': Self
622 267..271 'self': Self 626 267..271 'self': Self
623 466..470 'self': SelectStatement<F, S, D, W, O, LOf, {unknown}, {unknown}> 627 466..470 'self': SelectStatement<F, S, D, W, O, LOf, {unknown}, {unknown}>
624 488..522 '{ ... }': () 628 488..522 '{ ... }': ()
625 498..502 'self': SelectStatement<F, S, D, W, O, LOf, {unknown}, {unknown}> 629 498..502 'self': SelectStatement<F, S, D, W, O, LOf, {unknown}, {unknown}>
626 498..508 'self.order': O 630 498..508 'self.order': O
627 498..515 'self.o...into()': dyn QueryFragment<DB> 631 498..515 'self.o...into()': dyn QueryFragment<DB>
628 "### 632 "#]],
629 ); 633 );
630} 634}
631 635
632#[test] 636#[test]
633fn issue_4953() { 637fn issue_4953() {
634 assert_snapshot!( 638 check_infer(
635 infer(r#" 639 r#"
636pub struct Foo(pub i64); 640 pub struct Foo(pub i64);
637impl Foo { 641 impl Foo {
638 fn test() -> Self { Self(0i64) } 642 fn test() -> Self { Self(0i64) }
639} 643 }
640"#), 644 "#,
641 @r###" 645 expect![[r#"
642 58..72 '{ Self(0i64) }': Foo 646 58..72 '{ Self(0i64) }': Foo
643 60..64 'Self': Foo(i64) -> Foo 647 60..64 'Self': Foo(i64) -> Foo
644 60..70 'Self(0i64)': Foo 648 60..70 'Self(0i64)': Foo
645 65..69 '0i64': i64 649 65..69 '0i64': i64
646 "### 650 "#]],
647 ); 651 );
648 assert_snapshot!( 652 check_infer(
649 infer(r#" 653 r#"
650pub struct Foo<T>(pub T); 654 pub struct Foo<T>(pub T);
651impl Foo<i64> { 655 impl Foo<i64> {
652 fn test() -> Self { Self(0i64) } 656 fn test() -> Self { Self(0i64) }
653} 657 }
654"#), 658 "#,
655 @r###" 659 expect![[r#"
656 64..78 '{ Self(0i64) }': Foo<i64> 660 64..78 '{ Self(0i64) }': Foo<i64>
657 66..70 'Self': Foo<i64>(i64) -> Foo<i64> 661 66..70 'Self': Foo<i64>(i64) -> Foo<i64>
658 66..76 'Self(0i64)': Foo<i64> 662 66..76 'Self(0i64)': Foo<i64>
659 71..75 '0i64': i64 663 71..75 '0i64': i64
660 "### 664 "#]],
661 ); 665 );
662} 666}
663 667
664#[test] 668#[test]
665fn issue_4931() { 669fn issue_4931() {
666 assert_snapshot!( 670 check_infer(
667 infer(r#" 671 r#"
668trait Div<T> { 672 trait Div<T> {
669 type Output; 673 type Output;
670} 674 }
671 675
672trait CheckedDiv: Div<()> {} 676 trait CheckedDiv: Div<()> {}
673 677
674trait PrimInt: CheckedDiv<Output = ()> { 678 trait PrimInt: CheckedDiv<Output = ()> {
675 fn pow(self); 679 fn pow(self);
676} 680 }
677 681
678fn check<T: PrimInt>(i: T) { 682 fn check<T: PrimInt>(i: T) {
679 i.pow(); 683 i.pow();
680} 684 }
681"#), 685 "#,
682 @r###" 686 expect![[r#"
683 117..121 'self': Self 687 117..121 'self': Self
684 148..149 'i': T 688 148..149 'i': T
685 154..170 '{ ...w(); }': () 689 154..170 '{ ...w(); }': ()
686 160..161 'i': T 690 160..161 'i': T
687 160..167 'i.pow()': () 691 160..167 'i.pow()': ()
688 "### 692 "#]],
689 ); 693 );
690} 694}
691 695
692#[test] 696#[test]
693fn issue_4885() { 697fn issue_4885() {
694 assert_snapshot!( 698 check_infer(
695 infer(r#" 699 r#"
696#[lang = "coerce_unsized"] 700 #[lang = "coerce_unsized"]
697pub trait CoerceUnsized<T> {} 701 pub trait CoerceUnsized<T> {}
698 702
699trait Future { 703 trait Future {
700 type Output; 704 type Output;
701} 705 }
702trait Foo<R> { 706 trait Foo<R> {
703 type Bar; 707 type Bar;
704} 708 }
705fn foo<R, K>(key: &K) -> impl Future<Output = K::Bar> 709 fn foo<R, K>(key: &K) -> impl Future<Output = K::Bar>
706where 710 where
707 K: Foo<R>, 711 K: Foo<R>,
708{ 712 {
709 bar(key) 713 bar(key)
710} 714 }
711fn bar<R, K>(key: &K) -> impl Future<Output = K::Bar> 715 fn bar<R, K>(key: &K) -> impl Future<Output = K::Bar>
712where 716 where
713 K: Foo<R>, 717 K: Foo<R>,
714{ 718 {
715} 719 }
716"#), 720 "#,
717 @r###" 721 expect![[r#"
718 136..139 'key': &K 722 136..139 'key': &K
719 198..214 '{ ...key) }': impl Future<Output = <K as Foo<R>>::Bar> 723 198..214 '{ ...key) }': impl Future<Output = <K as Foo<R>>::Bar>
720 204..207 'bar': fn bar<R, K>(&K) -> impl Future<Output = <K as Foo<R>>::Bar> 724 204..207 'bar': fn bar<R, K>(&K) -> impl Future<Output = <K as Foo<R>>::Bar>
721 204..212 'bar(key)': impl Future<Output = <K as Foo<R>>::Bar> 725 204..212 'bar(key)': impl Future<Output = <K as Foo<R>>::Bar>
722 208..211 'key': &K 726 208..211 'key': &K
723 228..231 'key': &K 727 228..231 'key': &K
724 290..293 '{ }': () 728 290..293 '{ }': ()
725 "### 729 "#]],
726 ); 730 );
727} 731}
728 732
729#[test] 733#[test]
730fn issue_4800() { 734fn issue_4800() {
731 assert_snapshot!( 735 check_infer(
732 infer(r#" 736 r#"
733trait Debug {} 737 trait Debug {}
734 738
735struct Foo<T>; 739 struct Foo<T>;
736 740
737type E1<T> = (T, T, T); 741 type E1<T> = (T, T, T);
738type E2<T> = E1<E1<E1<(T, T, T)>>>; 742 type E2<T> = E1<E1<E1<(T, T, T)>>>;
739 743
740impl Debug for Foo<E2<()>> {} 744 impl Debug for Foo<E2<()>> {}
741 745
742struct Request; 746 struct Request;
743 747
744pub trait Future { 748 pub trait Future {
745 type Output; 749 type Output;
746} 750 }
747 751
748pub struct PeerSet<D>; 752 pub struct PeerSet<D>;
749 753
750impl<D> Service<Request> for PeerSet<D> 754 impl<D> Service<Request> for PeerSet<D>
751where 755 where
752 D: Discover, 756 D: Discover,
753 D::Key: Debug, 757 D::Key: Debug,
754{ 758 {
755 type Error = (); 759 type Error = ();
756 type Future = dyn Future<Output = Self::Error>; 760 type Future = dyn Future<Output = Self::Error>;
757 761
758 fn call(&mut self) -> Self::Future { 762 fn call(&mut self) -> Self::Future {
759 loop {} 763 loop {}
760 } 764 }
761} 765 }
762 766
763pub trait Discover { 767 pub trait Discover {
764 type Key; 768 type Key;
765} 769 }
766 770
767pub trait Service<Request> { 771 pub trait Service<Request> {
768 type Error; 772 type Error;
769 type Future: Future<Output = Self::Error>; 773 type Future: Future<Output = Self::Error>;
770 fn call(&mut self) -> Self::Future; 774 fn call(&mut self) -> Self::Future;
771} 775 }
772"#), 776 "#,
773 @r###" 777 expect![[r#"
774 379..383 'self': &mut PeerSet<D> 778 379..383 'self': &mut PeerSet<D>
775 401..424 '{ ... }': dyn Future<Output = ()> 779 401..424 '{ ... }': dyn Future<Output = ()>
776 411..418 'loop {}': ! 780 411..418 'loop {}': !
777 416..418 '{}': () 781 416..418 '{}': ()
778 575..579 'self': &mut Self 782 575..579 'self': &mut Self
779 "### 783 "#]],
780 ); 784 );
781} 785}
782 786
783#[test] 787#[test]
784fn issue_4966() { 788fn issue_4966() {
785 assert_snapshot!( 789 check_infer(
786 infer(r#" 790 r#"
787pub trait IntoIterator { 791 pub trait IntoIterator {
788 type Item; 792 type Item;
789} 793 }
790 794
791struct Repeat<A> { element: A } 795 struct Repeat<A> { element: A }
792 796
793struct Map<F> { f: F } 797 struct Map<F> { f: F }
794 798
795struct Vec<T> {} 799 struct Vec<T> {}
796 800
797#[lang = "deref"] 801 #[lang = "deref"]
798pub trait Deref { 802 pub trait Deref {
799 type Target; 803 type Target;
800} 804 }
801 805
802impl<T> Deref for Vec<T> { 806 impl<T> Deref for Vec<T> {
803 type Target = [T]; 807 type Target = [T];
804} 808 }
805 809
806fn from_iter<A, T: IntoIterator<Item = A>>(iter: T) -> Vec<A> {} 810 fn from_iter<A, T: IntoIterator<Item = A>>(iter: T) -> Vec<A> {}
807 811
808fn main() { 812 fn main() {
809 let inner = Map { f: |_: &f64| 0.0 }; 813 let inner = Map { f: |_: &f64| 0.0 };
810 814
811 let repeat = Repeat { element: inner }; 815 let repeat = Repeat { element: inner };
812 816
813 let vec = from_iter(repeat); 817 let vec = from_iter(repeat);
814 818
815 vec.foo_bar(); 819 vec.foo_bar();
816} 820 }
817"#), 821 "#,
818 @r###" 822 expect![[r#"
819 270..274 'iter': T 823 270..274 'iter': T
820 289..291 '{}': () 824 289..291 '{}': ()
821 303..447 '{ ...r(); }': () 825 303..447 '{ ...r(); }': ()
822 313..318 'inner': Map<|&f64| -> f64> 826 313..318 'inner': Map<|&f64| -> f64>
823 321..345 'Map { ... 0.0 }': Map<|&f64| -> f64> 827 321..345 'Map { ... 0.0 }': Map<|&f64| -> f64>
824 330..343 '|_: &f64| 0.0': |&f64| -> f64 828 330..343 '|_: &f64| 0.0': |&f64| -> f64
825 331..332 '_': &f64 829 331..332 '_': &f64
826 340..343 '0.0': f64 830 340..343 '0.0': f64
827 356..362 'repeat': Repeat<Map<|&f64| -> f64>> 831 356..362 'repeat': Repeat<Map<|&f64| -> f64>>
828 365..390 'Repeat...nner }': Repeat<Map<|&f64| -> f64>> 832 365..390 'Repeat...nner }': Repeat<Map<|&f64| -> f64>>
829 383..388 'inner': Map<|&f64| -> f64> 833 383..388 'inner': Map<|&f64| -> f64>
830 401..404 'vec': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>> 834 401..404 'vec': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>>
831 407..416 'from_iter': fn from_iter<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>, Repeat<Map<|&f64| -> f64>>>(Repeat<Map<|&f64| -> f64>>) -> Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>> 835 407..416 'from_iter': fn from_iter<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>, Repeat<Map<|&f64| -> f64>>>(Repeat<Map<|&f64| -> f64>>) -> Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>>
832 407..424 'from_i...epeat)': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>> 836 407..424 'from_i...epeat)': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>>
833 417..423 'repeat': Repeat<Map<|&f64| -> f64>> 837 417..423 'repeat': Repeat<Map<|&f64| -> f64>>
834 431..434 'vec': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>> 838 431..434 'vec': Vec<IntoIterator::Item<Repeat<Map<|&f64| -> f64>>>>
835 431..444 'vec.foo_bar()': {unknown} 839 431..444 'vec.foo_bar()': {unknown}
836 "### 840 "#]],
837 ); 841 );
838} 842}
diff --git a/crates/ra_hir_ty/src/tests/simple.rs b/crates/ra_hir_ty/src/tests/simple.rs
index 6d3e264af..3fd7d5cd4 100644
--- a/crates/ra_hir_ty/src/tests/simple.rs
+++ b/crates/ra_hir_ty/src/tests/simple.rs
@@ -1,6 +1,6 @@
1use insta::assert_snapshot; 1use expect::expect;
2 2
3use super::{check_types, infer}; 3use super::{check_infer, check_types};
4 4
5#[test] 5#[test]
6fn infer_box() { 6fn infer_box() {
@@ -45,43 +45,44 @@ fn test() {
45 45
46#[test] 46#[test]
47fn self_in_struct_lit() { 47fn self_in_struct_lit() {
48 assert_snapshot!(infer( 48 check_infer(
49 r#" 49 r#"
50//- /main.rs 50 //- /main.rs
51struct S<T> { x: T } 51 struct S<T> { x: T }
52 52
53impl S<u32> { 53 impl S<u32> {
54 fn foo() { 54 fn foo() {
55 Self { x: 1 }; 55 Self { x: 1 };
56 } 56 }
57} 57 }
58"#, 58 "#,
59 ), @r###" 59 expect![[r#"
60 49..79 '{ ... }': () 60 49..79 '{ ... }': ()
61 59..72 'Self { x: 1 }': S<u32> 61 59..72 'Self { x: 1 }': S<u32>
62 69..70 '1': u32 62 69..70 '1': u32
63 "###); 63 "#]],
64 );
64} 65}
65 66
66#[test] 67#[test]
67fn type_alias_in_struct_lit() { 68fn type_alias_in_struct_lit() {
68 assert_snapshot!(infer( 69 check_infer(
69 r#" 70 r#"
70//- /main.rs 71 //- /main.rs
71struct S<T> { x: T } 72 struct S<T> { x: T }
72 73
73type SS = S<u32>; 74 type SS = S<u32>;
74 75
75fn foo() { 76 fn foo() {
76 SS { x: 1 }; 77 SS { x: 1 };
77} 78 }
78 79 "#,
79"#, 80 expect![[r#"
80 ), @r###" 81 50..70 '{ ...1 }; }': ()
81 50..70 '{ ...1 }; }': () 82 56..67 'SS { x: 1 }': S<u32>
82 56..67 'SS { x: 1 }': S<u32> 83 64..65 '1': u32
83 64..65 '1': u32 84 "#]],
84 "###); 85 );
85} 86}
86 87
87#[test] 88#[test]
@@ -148,1549 +149,1549 @@ fn test() {
148 149
149#[test] 150#[test]
150fn infer_basics() { 151fn infer_basics() {
151 assert_snapshot!( 152 check_infer(
152 infer(r#" 153 r#"
153fn test(a: u32, b: isize, c: !, d: &str) { 154 fn test(a: u32, b: isize, c: !, d: &str) {
154 a; 155 a;
155 b; 156 b;
156 c; 157 c;
157 d; 158 d;
158 1usize; 159 1usize;
159 1isize; 160 1isize;
160 "test"; 161 "test";
161 1.0f32; 162 1.0f32;
162}"#), 163 }"#,
163 @r###" 164 expect![[r#"
164 8..9 'a': u32 165 8..9 'a': u32
165 16..17 'b': isize 166 16..17 'b': isize
166 26..27 'c': ! 167 26..27 'c': !
167 32..33 'd': &str 168 32..33 'd': &str
168 41..120 '{ ...f32; }': () 169 41..120 '{ ...f32; }': ()
169 47..48 'a': u32 170 47..48 'a': u32
170 54..55 'b': isize 171 54..55 'b': isize
171 61..62 'c': ! 172 61..62 'c': !
172 68..69 'd': &str 173 68..69 'd': &str
173 75..81 '1usize': usize 174 75..81 '1usize': usize
174 87..93 '1isize': isize 175 87..93 '1isize': isize
175 99..105 '"test"': &str 176 99..105 '"test"': &str
176 111..117 '1.0f32': f32 177 111..117 '1.0f32': f32
177 "### 178 "#]],
178 ); 179 );
179} 180}
180 181
181#[test] 182#[test]
182fn infer_let() { 183fn infer_let() {
183 assert_snapshot!( 184 check_infer(
184 infer(r#" 185 r#"
185fn test() { 186 fn test() {
186 let a = 1isize; 187 let a = 1isize;
187 let b: usize = 1; 188 let b: usize = 1;
188 let c = b; 189 let c = b;
189 let d: u32; 190 let d: u32;
190 let e; 191 let e;
191 let f: i32 = e; 192 let f: i32 = e;
192} 193 }
193"#), 194 "#,
194 @r###" 195 expect![[r#"
195 10..117 '{ ...= e; }': () 196 10..117 '{ ...= e; }': ()
196 20..21 'a': isize 197 20..21 'a': isize
197 24..30 '1isize': isize 198 24..30 '1isize': isize
198 40..41 'b': usize 199 40..41 'b': usize
199 51..52 '1': usize 200 51..52 '1': usize
200 62..63 'c': usize 201 62..63 'c': usize
201 66..67 'b': usize 202 66..67 'b': usize
202 77..78 'd': u32 203 77..78 'd': u32
203 93..94 'e': i32 204 93..94 'e': i32
204 104..105 'f': i32 205 104..105 'f': i32
205 113..114 'e': i32 206 113..114 'e': i32
206 "### 207 "#]],
207 ); 208 );
208} 209}
209 210
210#[test] 211#[test]
211fn infer_paths() { 212fn infer_paths() {
212 assert_snapshot!( 213 check_infer(
213 infer(r#" 214 r#"
214fn a() -> u32 { 1 } 215 fn a() -> u32 { 1 }
215 216
216mod b { 217 mod b {
217 fn c() -> u32 { 1 } 218 fn c() -> u32 { 1 }
218} 219 }
219 220
220fn test() { 221 fn test() {
221 a(); 222 a();
222 b::c(); 223 b::c();
223} 224 }
224"#), 225 "#,
225 @r###" 226 expect![[r#"
226 14..19 '{ 1 }': u32 227 14..19 '{ 1 }': u32
227 16..17 '1': u32 228 16..17 '1': u32
228 47..52 '{ 1 }': u32 229 47..52 '{ 1 }': u32
229 49..50 '1': u32 230 49..50 '1': u32
230 66..90 '{ ...c(); }': () 231 66..90 '{ ...c(); }': ()
231 72..73 'a': fn a() -> u32 232 72..73 'a': fn a() -> u32
232 72..75 'a()': u32 233 72..75 'a()': u32
233 81..85 'b::c': fn c() -> u32 234 81..85 'b::c': fn c() -> u32
234 81..87 'b::c()': u32 235 81..87 'b::c()': u32
235 "### 236 "#]],
236 ); 237 );
237} 238}
238 239
239#[test] 240#[test]
240fn infer_path_type() { 241fn infer_path_type() {
241 assert_snapshot!( 242 check_infer(
242 infer(r#" 243 r#"
243struct S; 244 struct S;
244 245
245impl S { 246 impl S {
246 fn foo() -> i32 { 1 } 247 fn foo() -> i32 { 1 }
247} 248 }
248 249
249fn test() { 250 fn test() {
250 S::foo(); 251 S::foo();
251 <S>::foo(); 252 <S>::foo();
252} 253 }
253"#), 254 "#,
254 @r###" 255 expect![[r#"
255 40..45 '{ 1 }': i32 256 40..45 '{ 1 }': i32
256 42..43 '1': i32 257 42..43 '1': i32
257 59..92 '{ ...o(); }': () 258 59..92 '{ ...o(); }': ()
258 65..71 'S::foo': fn foo() -> i32 259 65..71 'S::foo': fn foo() -> i32
259 65..73 'S::foo()': i32 260 65..73 'S::foo()': i32
260 79..87 '<S>::foo': fn foo() -> i32 261 79..87 '<S>::foo': fn foo() -> i32
261 79..89 '<S>::foo()': i32 262 79..89 '<S>::foo()': i32
262 "### 263 "#]],
263 ); 264 );
264} 265}
265 266
266#[test] 267#[test]
267fn infer_struct() { 268fn infer_struct() {
268 assert_snapshot!( 269 check_infer(
269 infer(r#" 270 r#"
270struct A { 271 struct A {
271 b: B, 272 b: B,
272 c: C, 273 c: C,
273} 274 }
274struct B; 275 struct B;
275struct C(usize); 276 struct C(usize);
276 277
277fn test() { 278 fn test() {
278 let c = C(1); 279 let c = C(1);
279 B; 280 B;
280 let a: A = A { b: B, c: C(1) }; 281 let a: A = A { b: B, c: C(1) };
281 a.b; 282 a.b;
282 a.c; 283 a.c;
283} 284 }
284"#), 285 "#,
285 @r###" 286 expect![[r#"
286 71..153 '{ ...a.c; }': () 287 71..153 '{ ...a.c; }': ()
287 81..82 'c': C 288 81..82 'c': C
288 85..86 'C': C(usize) -> C 289 85..86 'C': C(usize) -> C
289 85..89 'C(1)': C 290 85..89 'C(1)': C
290 87..88 '1': usize 291 87..88 '1': usize
291 95..96 'B': B 292 95..96 'B': B
292 106..107 'a': A 293 106..107 'a': A
293 113..132 'A { b:...C(1) }': A 294 113..132 'A { b:...C(1) }': A
294 120..121 'B': B 295 120..121 'B': B
295 126..127 'C': C(usize) -> C 296 126..127 'C': C(usize) -> C
296 126..130 'C(1)': C 297 126..130 'C(1)': C
297 128..129 '1': usize 298 128..129 '1': usize
298 138..139 'a': A 299 138..139 'a': A
299 138..141 'a.b': B 300 138..141 'a.b': B
300 147..148 'a': A 301 147..148 'a': A
301 147..150 'a.c': C 302 147..150 'a.c': C
302 "### 303 "#]],
303 ); 304 );
304} 305}
305 306
306#[test] 307#[test]
307fn infer_enum() { 308fn infer_enum() {
308 assert_snapshot!( 309 check_infer(
309 infer(r#" 310 r#"
310enum E { 311 enum E {
311 V1 { field: u32 }, 312 V1 { field: u32 },
312 V2 313 V2
313} 314 }
314fn test() { 315 fn test() {
315 E::V1 { field: 1 }; 316 E::V1 { field: 1 };
316 E::V2; 317 E::V2;
317}"#), 318 }"#,
318 @r###" 319 expect![[r#"
319 47..81 '{ E:...:V2; }': () 320 51..89 '{ ...:V2; }': ()
320 51..69 'E::V1 ...d: 1 }': E 321 57..75 'E::V1 ...d: 1 }': E
321 66..67 '1': u32 322 72..73 '1': u32
322 73..78 'E::V2': E 323 81..86 'E::V2': E
323 "### 324 "#]],
324 ); 325 );
325} 326}
326 327
327#[test] 328#[test]
328fn infer_union() { 329fn infer_union() {
329 assert_snapshot!( 330 check_infer(
330 infer(r#" 331 r#"
331union MyUnion { 332 union MyUnion {
332 foo: u32, 333 foo: u32,
333 bar: f32, 334 bar: f32,
334} 335 }
335 336
336unsafe fn baz(u: MyUnion) { 337 unsafe fn baz(u: MyUnion) {
337 let inner = u.foo; 338 let inner = u.foo;
338} 339 }
339"#), 340 "#,
340 @r###" 341 expect![[r#"
341 61..62 'u': MyUnion 342 61..62 'u': MyUnion
342 73..99 '{ ...foo; }': () 343 73..99 '{ ...foo; }': ()
343 83..88 'inner': u32 344 83..88 'inner': u32
344 91..92 'u': MyUnion 345 91..92 'u': MyUnion
345 91..96 'u.foo': u32 346 91..96 'u.foo': u32
346 "### 347 "#]],
347 ); 348 );
348} 349}
349 350
350#[test] 351#[test]
351fn infer_refs() { 352fn infer_refs() {
352 assert_snapshot!( 353 check_infer(
353 infer(r#" 354 r#"
354fn test(a: &u32, b: &mut u32, c: *const u32, d: *mut u32) { 355 fn test(a: &u32, b: &mut u32, c: *const u32, d: *mut u32) {
355 a; 356 a;
356 *a; 357 *a;
357 &a; 358 &a;
358 &mut a; 359 &mut a;
359 b; 360 b;
360 *b; 361 *b;
361 &b; 362 &b;
362 c; 363 c;
363 *c; 364 *c;
364 d; 365 d;
365 *d; 366 *d;
366} 367 }
367"#), 368 "#,
368 @r###" 369 expect![[r#"
369 8..9 'a': &u32 370 8..9 'a': &u32
370 17..18 'b': &mut u32 371 17..18 'b': &mut u32
371 30..31 'c': *const u32 372 30..31 'c': *const u32
372 45..46 'd': *mut u32 373 45..46 'd': *mut u32
373 58..149 '{ ... *d; }': () 374 58..149 '{ ... *d; }': ()
374 64..65 'a': &u32 375 64..65 'a': &u32
375 71..73 '*a': u32 376 71..73 '*a': u32
376 72..73 'a': &u32 377 72..73 'a': &u32
377 79..81 '&a': &&u32 378 79..81 '&a': &&u32
378 80..81 'a': &u32 379 80..81 'a': &u32
379 87..93 '&mut a': &mut &u32 380 87..93 '&mut a': &mut &u32
380 92..93 'a': &u32 381 92..93 'a': &u32
381 99..100 'b': &mut u32 382 99..100 'b': &mut u32
382 106..108 '*b': u32 383 106..108 '*b': u32
383 107..108 'b': &mut u32 384 107..108 'b': &mut u32
384 114..116 '&b': &&mut u32 385 114..116 '&b': &&mut u32
385 115..116 'b': &mut u32 386 115..116 'b': &mut u32
386 122..123 'c': *const u32 387 122..123 'c': *const u32
387 129..131 '*c': u32 388 129..131 '*c': u32
388 130..131 'c': *const u32 389 130..131 'c': *const u32
389 137..138 'd': *mut u32 390 137..138 'd': *mut u32
390 144..146 '*d': u32 391 144..146 '*d': u32
391 145..146 'd': *mut u32 392 145..146 'd': *mut u32
392 "### 393 "#]],
393 ); 394 );
394} 395}
395 396
396#[test] 397#[test]
397fn infer_raw_ref() { 398fn infer_raw_ref() {
398 assert_snapshot!( 399 check_infer(
399 infer(r#" 400 r#"
400fn test(a: i32) { 401 fn test(a: i32) {
401 &raw mut a; 402 &raw mut a;
402 &raw const a; 403 &raw const a;
403} 404 }
404"#), 405 "#,
405 @r###" 406 expect![[r#"
406 8..9 'a': i32 407 8..9 'a': i32
407 16..53 '{ ...t a; }': () 408 16..53 '{ ...t a; }': ()
408 22..32 '&raw mut a': *mut i32 409 22..32 '&raw mut a': *mut i32
409 31..32 'a': i32 410 31..32 'a': i32
410 38..50 '&raw const a': *const i32 411 38..50 '&raw const a': *const i32
411 49..50 'a': i32 412 49..50 'a': i32
412 "### 413 "#]],
413 ); 414 );
414} 415}
415 416
416#[test] 417#[test]
417fn infer_literals() { 418fn infer_literals() {
418 assert_snapshot!( 419 check_infer(
419 infer(r##" 420 r##"
420fn test() { 421 fn test() {
421 5i32; 422 5i32;
422 5f32; 423 5f32;
423 5f64; 424 5f64;
424 "hello"; 425 "hello";
425 b"bytes"; 426 b"bytes";
426 'c'; 427 'c';
427 b'b'; 428 b'b';
428 3.14; 429 3.14;
429 5000; 430 5000;
430 false; 431 false;
431 true; 432 true;
432 r#" 433 r#"
433 //! doc 434 //! doc
434 // non-doc 435 // non-doc
435 mod foo {} 436 mod foo {}
436 "#; 437 "#;
437 br#"yolo"#; 438 br#"yolo"#;
438} 439 }
439"##), 440 "##,
440 @r###" 441 expect![[r##"
441 10..220 '{ ...o"#; }': () 442 10..216 '{ ...o"#; }': ()
442 16..20 '5i32': i32 443 16..20 '5i32': i32
443 26..30 '5f32': f32 444 26..30 '5f32': f32
444 36..40 '5f64': f64 445 36..40 '5f64': f64
445 46..53 '"hello"': &str 446 46..53 '"hello"': &str
446 59..67 'b"bytes"': &[u8; _] 447 59..67 'b"bytes"': &[u8; _]
447 73..76 ''c'': char 448 73..76 ''c'': char
448 82..86 'b'b'': u8 449 82..86 'b'b'': u8
449 92..96 '3.14': f64 450 92..96 '3.14': f64
450 102..106 '5000': i32 451 102..106 '5000': i32
451 112..117 'false': bool 452 112..117 'false': bool
452 123..127 'true': bool 453 123..127 'true': bool
453 133..201 'r#" ... "#': &str 454 133..197 'r#" ... "#': &str
454 207..217 'br#"yolo"#': &[u8; _] 455 203..213 'br#"yolo"#': &[u8; _]
455 "### 456 "##]],
456 ); 457 );
457} 458}
458 459
459#[test] 460#[test]
460fn infer_unary_op() { 461fn infer_unary_op() {
461 assert_snapshot!( 462 check_infer(
462 infer(r#" 463 r#"
463enum SomeType {} 464 enum SomeType {}
464 465
465fn test(x: SomeType) { 466 fn test(x: SomeType) {
466 let b = false; 467 let b = false;
467 let c = !b; 468 let c = !b;
468 let a = 100; 469 let a = 100;
469 let d: i128 = -a; 470 let d: i128 = -a;
470 let e = -100; 471 let e = -100;
471 let f = !!!true; 472 let f = !!!true;
472 let g = !42; 473 let g = !42;
473 let h = !10u32; 474 let h = !10u32;
474 let j = !a; 475 let j = !a;
475 -3.14; 476 -3.14;
476 !3; 477 !3;
477 -x; 478 -x;
478 !x; 479 !x;
479 -"hello"; 480 -"hello";
480 !"hello"; 481 !"hello";
481} 482 }
482"#), 483 "#,
483 @r###" 484 expect![[r#"
484 26..27 'x': SomeType 485 26..27 'x': SomeType
485 39..271 '{ ...lo"; }': () 486 39..271 '{ ...lo"; }': ()
486 49..50 'b': bool 487 49..50 'b': bool
487 53..58 'false': bool 488 53..58 'false': bool
488 68..69 'c': bool 489 68..69 'c': bool
489 72..74 '!b': bool 490 72..74 '!b': bool
490 73..74 'b': bool 491 73..74 'b': bool
491 84..85 'a': i128 492 84..85 'a': i128
492 88..91 '100': i128 493 88..91 '100': i128
493 101..102 'd': i128 494 101..102 'd': i128
494 111..113 '-a': i128 495 111..113 '-a': i128
495 112..113 'a': i128 496 112..113 'a': i128
496 123..124 'e': i32 497 123..124 'e': i32
497 127..131 '-100': i32 498 127..131 '-100': i32
498 128..131 '100': i32 499 128..131 '100': i32
499 141..142 'f': bool 500 141..142 'f': bool
500 145..152 '!!!true': bool 501 145..152 '!!!true': bool
501 146..152 '!!true': bool 502 146..152 '!!true': bool
502 147..152 '!true': bool 503 147..152 '!true': bool
503 148..152 'true': bool 504 148..152 'true': bool
504 162..163 'g': i32 505 162..163 'g': i32
505 166..169 '!42': i32 506 166..169 '!42': i32
506 167..169 '42': i32 507 167..169 '42': i32
507 179..180 'h': u32 508 179..180 'h': u32
508 183..189 '!10u32': u32 509 183..189 '!10u32': u32
509 184..189 '10u32': u32 510 184..189 '10u32': u32
510 199..200 'j': i128 511 199..200 'j': i128
511 203..205 '!a': i128 512 203..205 '!a': i128
512 204..205 'a': i128 513 204..205 'a': i128
513 211..216 '-3.14': f64 514 211..216 '-3.14': f64
514 212..216 '3.14': f64 515 212..216 '3.14': f64
515 222..224 '!3': i32 516 222..224 '!3': i32
516 223..224 '3': i32 517 223..224 '3': i32
517 230..232 '-x': {unknown} 518 230..232 '-x': {unknown}
518 231..232 'x': SomeType 519 231..232 'x': SomeType
519 238..240 '!x': {unknown} 520 238..240 '!x': {unknown}
520 239..240 'x': SomeType 521 239..240 'x': SomeType
521 246..254 '-"hello"': {unknown} 522 246..254 '-"hello"': {unknown}
522 247..254 '"hello"': &str 523 247..254 '"hello"': &str
523 260..268 '!"hello"': {unknown} 524 260..268 '!"hello"': {unknown}
524 261..268 '"hello"': &str 525 261..268 '"hello"': &str
525 "### 526 "#]],
526 ); 527 );
527} 528}
528 529
529#[test] 530#[test]
530fn infer_backwards() { 531fn infer_backwards() {
531 assert_snapshot!( 532 check_infer(
532 infer(r#" 533 r#"
533fn takes_u32(x: u32) {} 534 fn takes_u32(x: u32) {}
534 535
535struct S { i32_field: i32 } 536 struct S { i32_field: i32 }
536 537
537fn test() -> &mut &f64 { 538 fn test() -> &mut &f64 {
538 let a = unknown_function(); 539 let a = unknown_function();
539 takes_u32(a); 540 takes_u32(a);
540 let b = unknown_function(); 541 let b = unknown_function();
541 S { i32_field: b }; 542 S { i32_field: b };
542 let c = unknown_function(); 543 let c = unknown_function();
543 &mut &c 544 &mut &c
544} 545 }
545"#), 546 "#,
546 @r###" 547 expect![[r#"
547 13..14 'x': u32 548 13..14 'x': u32
548 21..23 '{}': () 549 21..23 '{}': ()
549 77..230 '{ ...t &c }': &mut &f64 550 77..230 '{ ...t &c }': &mut &f64
550 87..88 'a': u32 551 87..88 'a': u32
551 91..107 'unknow...nction': {unknown} 552 91..107 'unknow...nction': {unknown}
552 91..109 'unknow...tion()': u32 553 91..109 'unknow...tion()': u32
553 115..124 'takes_u32': fn takes_u32(u32) 554 115..124 'takes_u32': fn takes_u32(u32)
554 115..127 'takes_u32(a)': () 555 115..127 'takes_u32(a)': ()
555 125..126 'a': u32 556 125..126 'a': u32
556 137..138 'b': i32 557 137..138 'b': i32
557 141..157 'unknow...nction': {unknown} 558 141..157 'unknow...nction': {unknown}
558 141..159 'unknow...tion()': i32 559 141..159 'unknow...tion()': i32
559 165..183 'S { i3...d: b }': S 560 165..183 'S { i3...d: b }': S
560 180..181 'b': i32 561 180..181 'b': i32
561 193..194 'c': f64 562 193..194 'c': f64
562 197..213 'unknow...nction': {unknown} 563 197..213 'unknow...nction': {unknown}
563 197..215 'unknow...tion()': f64 564 197..215 'unknow...tion()': f64
564 221..228 '&mut &c': &mut &f64 565 221..228 '&mut &c': &mut &f64
565 226..228 '&c': &f64 566 226..228 '&c': &f64
566 227..228 'c': f64 567 227..228 'c': f64
567 "### 568 "#]],
568 ); 569 );
569} 570}
570 571
571#[test] 572#[test]
572fn infer_self() { 573fn infer_self() {
573 assert_snapshot!( 574 check_infer(
574 infer(r#" 575 r#"
575struct S; 576 struct S;
576 577
577impl S { 578 impl S {
578 fn test(&self) { 579 fn test(&self) {
579 self; 580 self;
580 } 581 }
581 fn test2(self: &Self) { 582 fn test2(self: &Self) {
582 self; 583 self;
583 } 584 }
584 fn test3() -> Self { 585 fn test3() -> Self {
585 S {} 586 S {}
586 } 587 }
587 fn test4() -> Self { 588 fn test4() -> Self {
588 Self {} 589 Self {}
589 } 590 }
590} 591 }
591"#), 592 "#,
592 @r###" 593 expect![[r#"
593 33..37 'self': &S 594 33..37 'self': &S
594 39..60 '{ ... }': () 595 39..60 '{ ... }': ()
595 49..53 'self': &S 596 49..53 'self': &S
596 74..78 'self': &S 597 74..78 'self': &S
597 87..108 '{ ... }': () 598 87..108 '{ ... }': ()
598 97..101 'self': &S 599 97..101 'self': &S
599 132..152 '{ ... }': S 600 132..152 '{ ... }': S
600 142..146 'S {}': S 601 142..146 'S {}': S
601 176..199 '{ ... }': S 602 176..199 '{ ... }': S
602 186..193 'Self {}': S 603 186..193 'Self {}': S
603 "### 604 "#]],
604 ); 605 );
605} 606}
606 607
607#[test] 608#[test]
608fn infer_self_as_path() { 609fn infer_self_as_path() {
609 assert_snapshot!( 610 check_infer(
610 infer(r#" 611 r#"
611struct S1; 612 struct S1;
612struct S2(isize); 613 struct S2(isize);
613enum E { 614 enum E {
614 V1, 615 V1,
615 V2(u32), 616 V2(u32),
616} 617 }
617 618
618impl S1 { 619 impl S1 {
619 fn test() { 620 fn test() {
620 Self; 621 Self;
621 } 622 }
622} 623 }
623impl S2 { 624 impl S2 {
624 fn test() { 625 fn test() {
625 Self(1); 626 Self(1);
626 } 627 }
627} 628 }
628impl E { 629 impl E {
629 fn test() { 630 fn test() {
630 Self::V1; 631 Self::V1;
631 Self::V2(1); 632 Self::V2(1);
632 } 633 }
633} 634 }
634"#), 635 "#,
635 @r###" 636 expect![[r#"
636 86..107 '{ ... }': () 637 86..107 '{ ... }': ()
637 96..100 'Self': S1 638 96..100 'Self': S1
638 134..158 '{ ... }': () 639 134..158 '{ ... }': ()
639 144..148 'Self': S2(isize) -> S2 640 144..148 'Self': S2(isize) -> S2
640 144..151 'Self(1)': S2 641 144..151 'Self(1)': S2
641 149..150 '1': isize 642 149..150 '1': isize
642 184..230 '{ ... }': () 643 184..230 '{ ... }': ()
643 194..202 'Self::V1': E 644 194..202 'Self::V1': E
644 212..220 'Self::V2': V2(u32) -> E 645 212..220 'Self::V2': V2(u32) -> E
645 212..223 'Self::V2(1)': E 646 212..223 'Self::V2(1)': E
646 221..222 '1': u32 647 221..222 '1': u32
647 "### 648 "#]],
648 ); 649 );
649} 650}
650 651
651#[test] 652#[test]
652fn infer_binary_op() { 653fn infer_binary_op() {
653 assert_snapshot!( 654 check_infer(
654 infer(r#" 655 r#"
655fn f(x: bool) -> i32 { 656 fn f(x: bool) -> i32 {
656 0i32 657 0i32
657} 658 }
658 659
659fn test() -> bool { 660 fn test() -> bool {
660 let x = a && b; 661 let x = a && b;
661 let y = true || false; 662 let y = true || false;
662 let z = x == y; 663 let z = x == y;
663 let t = x != y; 664 let t = x != y;
664 let minus_forty: isize = -40isize; 665 let minus_forty: isize = -40isize;
665 let h = minus_forty <= CONST_2; 666 let h = minus_forty <= CONST_2;
666 let c = f(z || y) + 5; 667 let c = f(z || y) + 5;
667 let d = b; 668 let d = b;
668 let g = minus_forty ^= i; 669 let g = minus_forty ^= i;
669 let ten: usize = 10; 670 let ten: usize = 10;
670 let ten_is_eleven = ten == some_num; 671 let ten_is_eleven = ten == some_num;
671 672
672 ten < 3 673 ten < 3
673} 674 }
674"#), 675 "#,
675 @r###" 676 expect![[r#"
676 5..6 'x': bool 677 5..6 'x': bool
677 21..33 '{ 0i32 }': i32 678 21..33 '{ 0i32 }': i32
678 27..31 '0i32': i32 679 27..31 '0i32': i32
679 53..369 '{ ... < 3 }': bool 680 53..369 '{ ... < 3 }': bool
680 63..64 'x': bool 681 63..64 'x': bool
681 67..68 'a': bool 682 67..68 'a': bool
682 67..73 'a && b': bool 683 67..73 'a && b': bool
683 72..73 'b': bool 684 72..73 'b': bool
684 83..84 'y': bool 685 83..84 'y': bool
685 87..91 'true': bool 686 87..91 'true': bool
686 87..100 'true || false': bool 687 87..100 'true || false': bool
687 95..100 'false': bool 688 95..100 'false': bool
688 110..111 'z': bool 689 110..111 'z': bool
689 114..115 'x': bool 690 114..115 'x': bool
690 114..120 'x == y': bool 691 114..120 'x == y': bool
691 119..120 'y': bool 692 119..120 'y': bool
692 130..131 't': bool 693 130..131 't': bool
693 134..135 'x': bool 694 134..135 'x': bool
694 134..140 'x != y': bool 695 134..140 'x != y': bool
695 139..140 'y': bool 696 139..140 'y': bool
696 150..161 'minus_forty': isize 697 150..161 'minus_forty': isize
697 171..179 '-40isize': isize 698 171..179 '-40isize': isize
698 172..179 '40isize': isize 699 172..179 '40isize': isize
699 189..190 'h': bool 700 189..190 'h': bool
700 193..204 'minus_forty': isize 701 193..204 'minus_forty': isize
701 193..215 'minus_...ONST_2': bool 702 193..215 'minus_...ONST_2': bool
702 208..215 'CONST_2': isize 703 208..215 'CONST_2': isize
703 225..226 'c': i32 704 225..226 'c': i32
704 229..230 'f': fn f(bool) -> i32 705 229..230 'f': fn f(bool) -> i32
705 229..238 'f(z || y)': i32 706 229..238 'f(z || y)': i32
706 229..242 'f(z || y) + 5': i32 707 229..242 'f(z || y) + 5': i32
707 231..232 'z': bool 708 231..232 'z': bool
708 231..237 'z || y': bool 709 231..237 'z || y': bool
709 236..237 'y': bool 710 236..237 'y': bool
710 241..242 '5': i32 711 241..242 '5': i32
711 252..253 'd': {unknown} 712 252..253 'd': {unknown}
712 256..257 'b': {unknown} 713 256..257 'b': {unknown}
713 267..268 'g': () 714 267..268 'g': ()
714 271..282 'minus_forty': isize 715 271..282 'minus_forty': isize
715 271..287 'minus_...y ^= i': () 716 271..287 'minus_...y ^= i': ()
716 286..287 'i': isize 717 286..287 'i': isize
717 297..300 'ten': usize 718 297..300 'ten': usize
718 310..312 '10': usize 719 310..312 '10': usize
719 322..335 'ten_is_eleven': bool 720 322..335 'ten_is_eleven': bool
720 338..341 'ten': usize 721 338..341 'ten': usize
721 338..353 'ten == some_num': bool 722 338..353 'ten == some_num': bool
722 345..353 'some_num': usize 723 345..353 'some_num': usize
723 360..363 'ten': usize 724 360..363 'ten': usize
724 360..367 'ten < 3': bool 725 360..367 'ten < 3': bool
725 366..367 '3': usize 726 366..367 '3': usize
726 "### 727 "#]],
727 ); 728 );
728} 729}
729 730
730#[test] 731#[test]
731fn infer_shift_op() { 732fn infer_shift_op() {
732 assert_snapshot!( 733 check_infer(
733 infer(r#" 734 r#"
734fn test() { 735 fn test() {
735 1u32 << 5u8; 736 1u32 << 5u8;
736 1u32 >> 5u8; 737 1u32 >> 5u8;
737} 738 }
738"#), 739 "#,
739 @r###" 740 expect![[r#"
740 10..47 '{ ...5u8; }': () 741 10..47 '{ ...5u8; }': ()
741 16..20 '1u32': u32 742 16..20 '1u32': u32
742 16..27 '1u32 << 5u8': u32 743 16..27 '1u32 << 5u8': u32
743 24..27 '5u8': u8 744 24..27 '5u8': u8
744 33..37 '1u32': u32 745 33..37 '1u32': u32
745 33..44 '1u32 >> 5u8': u32 746 33..44 '1u32 >> 5u8': u32
746 41..44 '5u8': u8 747 41..44 '5u8': u8
747 "### 748 "#]],
748 ); 749 );
749} 750}
750 751
751#[test] 752#[test]
752fn infer_field_autoderef() { 753fn infer_field_autoderef() {
753 assert_snapshot!( 754 check_infer(
754 infer(r#" 755 r#"
755struct A { 756 struct A {
756 b: B, 757 b: B,
757} 758 }
758struct B; 759 struct B;
759 760
760fn test1(a: A) { 761 fn test1(a: A) {
761 let a1 = a; 762 let a1 = a;
762 a1.b; 763 a1.b;
763 let a2 = &a; 764 let a2 = &a;
764 a2.b; 765 a2.b;
765 let a3 = &mut a; 766 let a3 = &mut a;
766 a3.b; 767 a3.b;
767 let a4 = &&&&&&&a; 768 let a4 = &&&&&&&a;
768 a4.b; 769 a4.b;
769 let a5 = &mut &&mut &&mut a; 770 let a5 = &mut &&mut &&mut a;
770 a5.b; 771 a5.b;
771} 772 }
772 773
773fn test2(a1: *const A, a2: *mut A) { 774 fn test2(a1: *const A, a2: *mut A) {
774 a1.b; 775 a1.b;
775 a2.b; 776 a2.b;
776} 777 }
777"#), 778 "#,
778 @r###" 779 expect![[r#"
779 43..44 'a': A 780 43..44 'a': A
780 49..212 '{ ...5.b; }': () 781 49..212 '{ ...5.b; }': ()
781 59..61 'a1': A 782 59..61 'a1': A
782 64..65 'a': A 783 64..65 'a': A
783 71..73 'a1': A 784 71..73 'a1': A
784 71..75 'a1.b': B 785 71..75 'a1.b': B
785 85..87 'a2': &A 786 85..87 'a2': &A
786 90..92 '&a': &A 787 90..92 '&a': &A
787 91..92 'a': A 788 91..92 'a': A
788 98..100 'a2': &A 789 98..100 'a2': &A
789 98..102 'a2.b': B 790 98..102 'a2.b': B
790 112..114 'a3': &mut A 791 112..114 'a3': &mut A
791 117..123 '&mut a': &mut A 792 117..123 '&mut a': &mut A
792 122..123 'a': A 793 122..123 'a': A
793 129..131 'a3': &mut A 794 129..131 'a3': &mut A
794 129..133 'a3.b': B 795 129..133 'a3.b': B
795 143..145 'a4': &&&&&&&A 796 143..145 'a4': &&&&&&&A
796 148..156 '&&&&&&&a': &&&&&&&A 797 148..156 '&&&&&&&a': &&&&&&&A
797 149..156 '&&&&&&a': &&&&&&A 798 149..156 '&&&&&&a': &&&&&&A
798 150..156 '&&&&&a': &&&&&A 799 150..156 '&&&&&a': &&&&&A
799 151..156 '&&&&a': &&&&A 800 151..156 '&&&&a': &&&&A
800 152..156 '&&&a': &&&A 801 152..156 '&&&a': &&&A
801 153..156 '&&a': &&A 802 153..156 '&&a': &&A
802 154..156 '&a': &A 803 154..156 '&a': &A
803 155..156 'a': A 804 155..156 'a': A
804 162..164 'a4': &&&&&&&A 805 162..164 'a4': &&&&&&&A
805 162..166 'a4.b': B 806 162..166 'a4.b': B
806 176..178 'a5': &mut &&mut &&mut A 807 176..178 'a5': &mut &&mut &&mut A
807 181..199 '&mut &...&mut a': &mut &&mut &&mut A 808 181..199 '&mut &...&mut a': &mut &&mut &&mut A
808 186..199 '&&mut &&mut a': &&mut &&mut A 809 186..199 '&&mut &&mut a': &&mut &&mut A
809 187..199 '&mut &&mut a': &mut &&mut A 810 187..199 '&mut &&mut a': &mut &&mut A
810 192..199 '&&mut a': &&mut A 811 192..199 '&&mut a': &&mut A
811 193..199 '&mut a': &mut A 812 193..199 '&mut a': &mut A
812 198..199 'a': A 813 198..199 'a': A
813 205..207 'a5': &mut &&mut &&mut A 814 205..207 'a5': &mut &&mut &&mut A
814 205..209 'a5.b': B 815 205..209 'a5.b': B
815 223..225 'a1': *const A 816 223..225 'a1': *const A
816 237..239 'a2': *mut A 817 237..239 'a2': *mut A
817 249..272 '{ ...2.b; }': () 818 249..272 '{ ...2.b; }': ()
818 255..257 'a1': *const A 819 255..257 'a1': *const A
819 255..259 'a1.b': B 820 255..259 'a1.b': B
820 265..267 'a2': *mut A 821 265..267 'a2': *mut A
821 265..269 'a2.b': B 822 265..269 'a2.b': B
822 "### 823 "#]],
823 ); 824 );
824} 825}
825 826
826#[test] 827#[test]
827fn infer_argument_autoderef() { 828fn infer_argument_autoderef() {
828 assert_snapshot!( 829 check_infer(
829 infer(r#" 830 r#"
830#[lang = "deref"] 831 #[lang = "deref"]
831pub trait Deref { 832 pub trait Deref {
832 type Target; 833 type Target;
833 fn deref(&self) -> &Self::Target; 834 fn deref(&self) -> &Self::Target;
834} 835 }
835 836
836struct A<T>(T); 837 struct A<T>(T);
837 838
838impl<T> A<T> { 839 impl<T> A<T> {
839 fn foo(&self) -> &T { 840 fn foo(&self) -> &T {
840 &self.0 841 &self.0
841 } 842 }
842} 843 }
843 844
844struct B<T>(T); 845 struct B<T>(T);
845 846
846impl<T> Deref for B<T> { 847 impl<T> Deref for B<T> {
847 type Target = T; 848 type Target = T;
848 fn deref(&self) -> &Self::Target { 849 fn deref(&self) -> &Self::Target {
849 &self.0 850 &self.0
850 } 851 }
851} 852 }
852 853
853fn test() { 854 fn test() {
854 let t = A::foo(&&B(B(A(42)))); 855 let t = A::foo(&&B(B(A(42))));
855} 856 }
856"#), 857 "#,
857 @r###" 858 expect![[r#"
858 67..71 'self': &Self 859 67..71 'self': &Self
859 138..142 'self': &A<T> 860 138..142 'self': &A<T>
860 150..173 '{ ... }': &T 861 150..173 '{ ... }': &T
861 160..167 '&self.0': &T 862 160..167 '&self.0': &T
862 161..165 'self': &A<T> 863 161..165 'self': &A<T>
863 161..167 'self.0': T 864 161..167 'self.0': T
864 254..258 'self': &B<T> 865 254..258 'self': &B<T>
865 277..300 '{ ... }': &T 866 277..300 '{ ... }': &T
866 287..294 '&self.0': &T 867 287..294 '&self.0': &T
867 288..292 'self': &B<T> 868 288..292 'self': &B<T>
868 288..294 'self.0': T 869 288..294 'self.0': T
869 314..352 '{ ...))); }': () 870 314..352 '{ ...))); }': ()
870 324..325 't': &i32 871 324..325 't': &i32
871 328..334 'A::foo': fn foo<i32>(&A<i32>) -> &i32 872 328..334 'A::foo': fn foo<i32>(&A<i32>) -> &i32
872 328..349 'A::foo...42))))': &i32 873 328..349 'A::foo...42))))': &i32
873 335..348 '&&B(B(A(42)))': &&B<B<A<i32>>> 874 335..348 '&&B(B(A(42)))': &&B<B<A<i32>>>
874 336..348 '&B(B(A(42)))': &B<B<A<i32>>> 875 336..348 '&B(B(A(42)))': &B<B<A<i32>>>
875 337..338 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>> 876 337..338 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>>
876 337..348 'B(B(A(42)))': B<B<A<i32>>> 877 337..348 'B(B(A(42)))': B<B<A<i32>>>
877 339..340 'B': B<A<i32>>(A<i32>) -> B<A<i32>> 878 339..340 'B': B<A<i32>>(A<i32>) -> B<A<i32>>
878 339..347 'B(A(42))': B<A<i32>> 879 339..347 'B(A(42))': B<A<i32>>
879 341..342 'A': A<i32>(i32) -> A<i32> 880 341..342 'A': A<i32>(i32) -> A<i32>
880 341..346 'A(42)': A<i32> 881 341..346 'A(42)': A<i32>
881 343..345 '42': i32 882 343..345 '42': i32
882 "### 883 "#]],
883 ); 884 );
884} 885}
885 886
886#[test] 887#[test]
887fn infer_method_argument_autoderef() { 888fn infer_method_argument_autoderef() {
888 assert_snapshot!( 889 check_infer(
889 infer(r#" 890 r#"
890#[lang = "deref"] 891 #[lang = "deref"]
891pub trait Deref { 892 pub trait Deref {
892 type Target; 893 type Target;
893 fn deref(&self) -> &Self::Target; 894 fn deref(&self) -> &Self::Target;
894} 895 }
895 896
896struct A<T>(*mut T); 897 struct A<T>(*mut T);
897 898
898impl<T> A<T> { 899 impl<T> A<T> {
899 fn foo(&self, x: &A<T>) -> &T { 900 fn foo(&self, x: &A<T>) -> &T {
900 &*x.0 901 &*x.0
901 } 902 }
902} 903 }
903 904
904struct B<T>(T); 905 struct B<T>(T);
905 906
906impl<T> Deref for B<T> { 907 impl<T> Deref for B<T> {
907 type Target = T; 908 type Target = T;
908 fn deref(&self) -> &Self::Target { 909 fn deref(&self) -> &Self::Target {
909 &self.0 910 &self.0
910 } 911 }
911} 912 }
912 913
913fn test(a: A<i32>) { 914 fn test(a: A<i32>) {
914 let t = A(0 as *mut _).foo(&&B(B(a))); 915 let t = A(0 as *mut _).foo(&&B(B(a)));
915} 916 }
916"#), 917 "#,
917 @r###" 918 expect![[r#"
918 67..71 'self': &Self 919 67..71 'self': &Self
919 143..147 'self': &A<T> 920 143..147 'self': &A<T>
920 149..150 'x': &A<T> 921 149..150 'x': &A<T>
921 165..186 '{ ... }': &T 922 165..186 '{ ... }': &T
922 175..180 '&*x.0': &T 923 175..180 '&*x.0': &T
923 176..180 '*x.0': T 924 176..180 '*x.0': T
924 177..178 'x': &A<T> 925 177..178 'x': &A<T>
925 177..180 'x.0': *mut T 926 177..180 'x.0': *mut T
926 267..271 'self': &B<T> 927 267..271 'self': &B<T>
927 290..313 '{ ... }': &T 928 290..313 '{ ... }': &T
928 300..307 '&self.0': &T 929 300..307 '&self.0': &T
929 301..305 'self': &B<T> 930 301..305 'self': &B<T>
930 301..307 'self.0': T 931 301..307 'self.0': T
931 325..326 'a': A<i32> 932 325..326 'a': A<i32>
932 336..382 '{ ...))); }': () 933 336..382 '{ ...))); }': ()
933 346..347 't': &i32 934 346..347 't': &i32
934 350..351 'A': A<i32>(*mut i32) -> A<i32> 935 350..351 'A': A<i32>(*mut i32) -> A<i32>
935 350..364 'A(0 as *mut _)': A<i32> 936 350..364 'A(0 as *mut _)': A<i32>
936 350..379 'A(0 as...B(a)))': &i32 937 350..379 'A(0 as...B(a)))': &i32
937 352..353 '0': i32 938 352..353 '0': i32
938 352..363 '0 as *mut _': *mut i32 939 352..363 '0 as *mut _': *mut i32
939 369..378 '&&B(B(a))': &&B<B<A<i32>>> 940 369..378 '&&B(B(a))': &&B<B<A<i32>>>
940 370..378 '&B(B(a))': &B<B<A<i32>>> 941 370..378 '&B(B(a))': &B<B<A<i32>>>
941 371..372 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>> 942 371..372 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>>
942 371..378 'B(B(a))': B<B<A<i32>>> 943 371..378 'B(B(a))': B<B<A<i32>>>
943 373..374 'B': B<A<i32>>(A<i32>) -> B<A<i32>> 944 373..374 'B': B<A<i32>>(A<i32>) -> B<A<i32>>
944 373..377 'B(a)': B<A<i32>> 945 373..377 'B(a)': B<A<i32>>
945 375..376 'a': A<i32> 946 375..376 'a': A<i32>
946 "### 947 "#]],
947 ); 948 );
948} 949}
949 950
950#[test] 951#[test]
951fn infer_in_elseif() { 952fn infer_in_elseif() {
952 assert_snapshot!( 953 check_infer(
953 infer(r#" 954 r#"
954struct Foo { field: i32 } 955 struct Foo { field: i32 }
955fn main(foo: Foo) { 956 fn main(foo: Foo) {
956 if true { 957 if true {
957 958
958 } else if false { 959 } else if false {
959 foo.field 960 foo.field
960 } 961 }
961} 962 }
962"#), 963 "#,
963 @r###" 964 expect![[r#"
964 34..37 'foo': Foo 965 34..37 'foo': Foo
965 44..108 '{ ... } }': () 966 44..108 '{ ... } }': ()
966 50..106 'if tru... }': () 967 50..106 'if tru... }': ()
967 53..57 'true': bool 968 53..57 'true': bool
968 58..66 '{ }': () 969 58..66 '{ }': ()
969 72..106 'if fal... }': i32 970 72..106 'if fal... }': i32
970 75..80 'false': bool 971 75..80 'false': bool
971 81..106 '{ ... }': i32 972 81..106 '{ ... }': i32
972 91..94 'foo': Foo 973 91..94 'foo': Foo
973 91..100 'foo.field': i32 974 91..100 'foo.field': i32
974 "### 975 "#]],
975 ) 976 )
976} 977}
977 978
978#[test] 979#[test]
979fn infer_if_match_with_return() { 980fn infer_if_match_with_return() {
980 assert_snapshot!( 981 check_infer(
981 infer(r#" 982 r#"
982fn foo() { 983 fn foo() {
983 let _x1 = if true { 984 let _x1 = if true {
984 1 985 1
985 } else { 986 } else {
986 return; 987 return;
987 }; 988 };
988 let _x2 = if true { 989 let _x2 = if true {
989 2 990 2
990 } else { 991 } else {
991 return 992 return
992 }; 993 };
993 let _x3 = match true { 994 let _x3 = match true {
994 true => 3, 995 true => 3,
995 _ => { 996 _ => {
996 return; 997 return;
997 } 998 }
998 }; 999 };
999 let _x4 = match true { 1000 let _x4 = match true {
1000 true => 4, 1001 true => 4,
1001 _ => return 1002 _ => return
1002 }; 1003 };
1003}"#), 1004 }"#,
1004 @r###" 1005 expect![[r#"
1005 9..322 '{ ... }; }': () 1006 9..322 '{ ... }; }': ()
1006 19..22 '_x1': i32 1007 19..22 '_x1': i32
1007 25..79 'if tru... }': i32 1008 25..79 'if tru... }': i32
1008 28..32 'true': bool 1009 28..32 'true': bool
1009 33..50 '{ ... }': i32 1010 33..50 '{ ... }': i32
1010 43..44 '1': i32 1011 43..44 '1': i32
1011 56..79 '{ ... }': i32 1012 56..79 '{ ... }': i32
1012 66..72 'return': ! 1013 66..72 'return': !
1013 89..92 '_x2': i32 1014 89..92 '_x2': i32
1014 95..148 'if tru... }': i32 1015 95..148 'if tru... }': i32
1015 98..102 'true': bool 1016 98..102 'true': bool
1016 103..120 '{ ... }': i32 1017 103..120 '{ ... }': i32
1017 113..114 '2': i32 1018 113..114 '2': i32
1018 126..148 '{ ... }': ! 1019 126..148 '{ ... }': !
1019 136..142 'return': ! 1020 136..142 'return': !
1020 158..161 '_x3': i32 1021 158..161 '_x3': i32
1021 164..246 'match ... }': i32 1022 164..246 'match ... }': i32
1022 170..174 'true': bool 1023 170..174 'true': bool
1023 185..189 'true': bool 1024 185..189 'true': bool
1024 185..189 'true': bool 1025 185..189 'true': bool
1025 193..194 '3': i32 1026 193..194 '3': i32
1026 204..205 '_': bool 1027 204..205 '_': bool
1027 209..240 '{ ... }': i32 1028 209..240 '{ ... }': i32
1028 223..229 'return': ! 1029 223..229 'return': !
1029 256..259 '_x4': i32 1030 256..259 '_x4': i32
1030 262..319 'match ... }': i32 1031 262..319 'match ... }': i32
1031 268..272 'true': bool 1032 268..272 'true': bool
1032 283..287 'true': bool 1033 283..287 'true': bool
1033 283..287 'true': bool 1034 283..287 'true': bool
1034 291..292 '4': i32 1035 291..292 '4': i32
1035 302..303 '_': bool 1036 302..303 '_': bool
1036 307..313 'return': ! 1037 307..313 'return': !
1037 "### 1038 "#]],
1038 ) 1039 )
1039} 1040}
1040 1041
1041#[test] 1042#[test]
1042fn infer_inherent_method() { 1043fn infer_inherent_method() {
1043 assert_snapshot!( 1044 check_infer(
1044 infer(r#" 1045 r#"
1045struct A; 1046 struct A;
1046 1047
1047impl A { 1048 impl A {
1048 fn foo(self, x: u32) -> i32 {} 1049 fn foo(self, x: u32) -> i32 {}
1049} 1050 }
1050 1051
1051mod b { 1052 mod b {
1052 impl super::A { 1053 impl super::A {
1053 fn bar(&self, x: u64) -> i64 {} 1054 fn bar(&self, x: u64) -> i64 {}
1054 } 1055 }
1055} 1056 }
1056 1057
1057fn test(a: A) { 1058 fn test(a: A) {
1058 a.foo(1); 1059 a.foo(1);
1059 (&a).bar(1); 1060 (&a).bar(1);
1060 a.bar(1); 1061 a.bar(1);
1061} 1062 }
1062"#), 1063 "#,
1063 @r###" 1064 expect![[r#"
1064 31..35 'self': A 1065 31..35 'self': A
1065 37..38 'x': u32 1066 37..38 'x': u32
1066 52..54 '{}': () 1067 52..54 '{}': ()
1067 102..106 'self': &A 1068 102..106 'self': &A
1068 108..109 'x': u64 1069 108..109 'x': u64
1069 123..125 '{}': () 1070 123..125 '{}': ()
1070 143..144 'a': A 1071 143..144 'a': A
1071 149..197 '{ ...(1); }': () 1072 149..197 '{ ...(1); }': ()
1072 155..156 'a': A 1073 155..156 'a': A
1073 155..163 'a.foo(1)': i32 1074 155..163 'a.foo(1)': i32
1074 161..162 '1': u32 1075 161..162 '1': u32
1075 169..180 '(&a).bar(1)': i64 1076 169..180 '(&a).bar(1)': i64
1076 170..172 '&a': &A 1077 170..172 '&a': &A
1077 171..172 'a': A 1078 171..172 'a': A
1078 178..179 '1': u64 1079 178..179 '1': u64
1079 186..187 'a': A 1080 186..187 'a': A
1080 186..194 'a.bar(1)': i64 1081 186..194 'a.bar(1)': i64
1081 192..193 '1': u64 1082 192..193 '1': u64
1082 "### 1083 "#]],
1083 ); 1084 );
1084} 1085}
1085 1086
1086#[test] 1087#[test]
1087fn infer_inherent_method_str() { 1088fn infer_inherent_method_str() {
1088 assert_snapshot!( 1089 check_infer(
1089 infer(r#" 1090 r#"
1090#[lang = "str"] 1091 #[lang = "str"]
1091impl str { 1092 impl str {
1092 fn foo(&self) -> i32 {} 1093 fn foo(&self) -> i32 {}
1093} 1094 }
1094 1095
1095fn test() { 1096 fn test() {
1096 "foo".foo(); 1097 "foo".foo();
1097} 1098 }
1098"#), 1099 "#,
1099 @r###" 1100 expect![[r#"
1100 39..43 'self': &str 1101 39..43 'self': &str
1101 52..54 '{}': () 1102 52..54 '{}': ()
1102 68..88 '{ ...o(); }': () 1103 68..88 '{ ...o(); }': ()
1103 74..79 '"foo"': &str 1104 74..79 '"foo"': &str
1104 74..85 '"foo".foo()': i32 1105 74..85 '"foo".foo()': i32
1105 "### 1106 "#]],
1106 ); 1107 );
1107} 1108}
1108 1109
1109#[test] 1110#[test]
1110fn infer_tuple() { 1111fn infer_tuple() {
1111 assert_snapshot!( 1112 check_infer(
1112 infer(r#" 1113 r#"
1113fn test(x: &str, y: isize) { 1114 fn test(x: &str, y: isize) {
1114 let a: (u32, &str) = (1, "a"); 1115 let a: (u32, &str) = (1, "a");
1115 let b = (a, x); 1116 let b = (a, x);
1116 let c = (y, x); 1117 let c = (y, x);
1117 let d = (c, x); 1118 let d = (c, x);
1118 let e = (1, "e"); 1119 let e = (1, "e");
1119 let f = (e, "d"); 1120 let f = (e, "d");
1120} 1121 }
1121"#), 1122 "#,
1122 @r###" 1123 expect![[r#"
1123 8..9 'x': &str 1124 8..9 'x': &str
1124 17..18 'y': isize 1125 17..18 'y': isize
1125 27..169 '{ ...d"); }': () 1126 27..169 '{ ...d"); }': ()
1126 37..38 'a': (u32, &str) 1127 37..38 'a': (u32, &str)
1127 54..62 '(1, "a")': (u32, &str) 1128 54..62 '(1, "a")': (u32, &str)
1128 55..56 '1': u32 1129 55..56 '1': u32
1129 58..61 '"a"': &str 1130 58..61 '"a"': &str
1130 72..73 'b': ((u32, &str), &str) 1131 72..73 'b': ((u32, &str), &str)
1131 76..82 '(a, x)': ((u32, &str), &str) 1132 76..82 '(a, x)': ((u32, &str), &str)
1132 77..78 'a': (u32, &str) 1133 77..78 'a': (u32, &str)
1133 80..81 'x': &str 1134 80..81 'x': &str
1134 92..93 'c': (isize, &str) 1135 92..93 'c': (isize, &str)
1135 96..102 '(y, x)': (isize, &str) 1136 96..102 '(y, x)': (isize, &str)
1136 97..98 'y': isize 1137 97..98 'y': isize
1137 100..101 'x': &str 1138 100..101 'x': &str
1138 112..113 'd': ((isize, &str), &str) 1139 112..113 'd': ((isize, &str), &str)
1139 116..122 '(c, x)': ((isize, &str), &str) 1140 116..122 '(c, x)': ((isize, &str), &str)
1140 117..118 'c': (isize, &str) 1141 117..118 'c': (isize, &str)
1141 120..121 'x': &str 1142 120..121 'x': &str
1142 132..133 'e': (i32, &str) 1143 132..133 'e': (i32, &str)
1143 136..144 '(1, "e")': (i32, &str) 1144 136..144 '(1, "e")': (i32, &str)
1144 137..138 '1': i32 1145 137..138 '1': i32
1145 140..143 '"e"': &str 1146 140..143 '"e"': &str
1146 154..155 'f': ((i32, &str), &str) 1147 154..155 'f': ((i32, &str), &str)
1147 158..166 '(e, "d")': ((i32, &str), &str) 1148 158..166 '(e, "d")': ((i32, &str), &str)
1148 159..160 'e': (i32, &str) 1149 159..160 'e': (i32, &str)
1149 162..165 '"d"': &str 1150 162..165 '"d"': &str
1150 "### 1151 "#]],
1151 ); 1152 );
1152} 1153}
1153 1154
1154#[test] 1155#[test]
1155fn infer_array() { 1156fn infer_array() {
1156 assert_snapshot!( 1157 check_infer(
1157 infer(r#" 1158 r#"
1158fn test(x: &str, y: isize) { 1159 fn test(x: &str, y: isize) {
1159 let a = [x]; 1160 let a = [x];
1160 let b = [a, a]; 1161 let b = [a, a];
1161 let c = [b, b]; 1162 let c = [b, b];
1162 1163
1163 let d = [y, 1, 2, 3]; 1164 let d = [y, 1, 2, 3];
1164 let d = [1, y, 2, 3]; 1165 let d = [1, y, 2, 3];
1165 let e = [y]; 1166 let e = [y];
1166 let f = [d, d]; 1167 let f = [d, d];
1167 let g = [e, e]; 1168 let g = [e, e];
1168 1169
1169 let h = [1, 2]; 1170 let h = [1, 2];
1170 let i = ["a", "b"]; 1171 let i = ["a", "b"];
1171 1172
1172 let b = [a, ["b"]]; 1173 let b = [a, ["b"]];
1173 let x: [u8; 0] = []; 1174 let x: [u8; 0] = [];
1174} 1175 }
1175"#), 1176 "#,
1176 @r###" 1177 expect![[r#"
1177 8..9 'x': &str 1178 8..9 'x': &str
1178 17..18 'y': isize 1179 17..18 'y': isize
1179 27..292 '{ ... []; }': () 1180 27..292 '{ ... []; }': ()
1180 37..38 'a': [&str; _] 1181 37..38 'a': [&str; _]
1181 41..44 '[x]': [&str; _] 1182 41..44 '[x]': [&str; _]
1182 42..43 'x': &str 1183 42..43 'x': &str
1183 54..55 'b': [[&str; _]; _] 1184 54..55 'b': [[&str; _]; _]
1184 58..64 '[a, a]': [[&str; _]; _] 1185 58..64 '[a, a]': [[&str; _]; _]
1185 59..60 'a': [&str; _] 1186 59..60 'a': [&str; _]
1186 62..63 'a': [&str; _] 1187 62..63 'a': [&str; _]
1187 74..75 'c': [[[&str; _]; _]; _] 1188 74..75 'c': [[[&str; _]; _]; _]
1188 78..84 '[b, b]': [[[&str; _]; _]; _] 1189 78..84 '[b, b]': [[[&str; _]; _]; _]
1189 79..80 'b': [[&str; _]; _] 1190 79..80 'b': [[&str; _]; _]
1190 82..83 'b': [[&str; _]; _] 1191 82..83 'b': [[&str; _]; _]
1191 95..96 'd': [isize; _] 1192 95..96 'd': [isize; _]
1192 99..111 '[y, 1, 2, 3]': [isize; _] 1193 99..111 '[y, 1, 2, 3]': [isize; _]
1193 100..101 'y': isize 1194 100..101 'y': isize
1194 103..104 '1': isize 1195 103..104 '1': isize
1195 106..107 '2': isize 1196 106..107 '2': isize
1196 109..110 '3': isize 1197 109..110 '3': isize
1197 121..122 'd': [isize; _] 1198 121..122 'd': [isize; _]
1198 125..137 '[1, y, 2, 3]': [isize; _] 1199 125..137 '[1, y, 2, 3]': [isize; _]
1199 126..127 '1': isize 1200 126..127 '1': isize
1200 129..130 'y': isize 1201 129..130 'y': isize
1201 132..133 '2': isize 1202 132..133 '2': isize
1202 135..136 '3': isize 1203 135..136 '3': isize
1203 147..148 'e': [isize; _] 1204 147..148 'e': [isize; _]
1204 151..154 '[y]': [isize; _] 1205 151..154 '[y]': [isize; _]
1205 152..153 'y': isize 1206 152..153 'y': isize
1206 164..165 'f': [[isize; _]; _] 1207 164..165 'f': [[isize; _]; _]
1207 168..174 '[d, d]': [[isize; _]; _] 1208 168..174 '[d, d]': [[isize; _]; _]
1208 169..170 'd': [isize; _] 1209 169..170 'd': [isize; _]
1209 172..173 'd': [isize; _] 1210 172..173 'd': [isize; _]
1210 184..185 'g': [[isize; _]; _] 1211 184..185 'g': [[isize; _]; _]
1211 188..194 '[e, e]': [[isize; _]; _] 1212 188..194 '[e, e]': [[isize; _]; _]
1212 189..190 'e': [isize; _] 1213 189..190 'e': [isize; _]
1213 192..193 'e': [isize; _] 1214 192..193 'e': [isize; _]
1214 205..206 'h': [i32; _] 1215 205..206 'h': [i32; _]
1215 209..215 '[1, 2]': [i32; _] 1216 209..215 '[1, 2]': [i32; _]
1216 210..211 '1': i32 1217 210..211 '1': i32
1217 213..214 '2': i32 1218 213..214 '2': i32
1218 225..226 'i': [&str; _] 1219 225..226 'i': [&str; _]
1219 229..239 '["a", "b"]': [&str; _] 1220 229..239 '["a", "b"]': [&str; _]
1220 230..233 '"a"': &str 1221 230..233 '"a"': &str
1221 235..238 '"b"': &str 1222 235..238 '"b"': &str
1222 250..251 'b': [[&str; _]; _] 1223 250..251 'b': [[&str; _]; _]
1223 254..264 '[a, ["b"]]': [[&str; _]; _] 1224 254..264 '[a, ["b"]]': [[&str; _]; _]
1224 255..256 'a': [&str; _] 1225 255..256 'a': [&str; _]
1225 258..263 '["b"]': [&str; _] 1226 258..263 '["b"]': [&str; _]
1226 259..262 '"b"': &str 1227 259..262 '"b"': &str
1227 274..275 'x': [u8; _] 1228 274..275 'x': [u8; _]
1228 287..289 '[]': [u8; _] 1229 287..289 '[]': [u8; _]
1229 "### 1230 "#]],
1230 ); 1231 );
1231} 1232}
1232 1233
1233#[test] 1234#[test]
1234fn infer_struct_generics() { 1235fn infer_struct_generics() {
1235 assert_snapshot!( 1236 check_infer(
1236 infer(r#" 1237 r#"
1237struct A<T> { 1238 struct A<T> {
1238 x: T, 1239 x: T,
1239} 1240 }
1240 1241
1241fn test(a1: A<u32>, i: i32) { 1242 fn test(a1: A<u32>, i: i32) {
1242 a1.x; 1243 a1.x;
1243 let a2 = A { x: i }; 1244 let a2 = A { x: i };
1244 a2.x; 1245 a2.x;
1245 let a3 = A::<i128> { x: 1 }; 1246 let a3 = A::<i128> { x: 1 };
1246 a3.x; 1247 a3.x;
1247} 1248 }
1248"#), 1249 "#,
1249 @r###" 1250 expect![[r#"
1250 35..37 'a1': A<u32> 1251 35..37 'a1': A<u32>
1251 47..48 'i': i32 1252 47..48 'i': i32
1252 55..146 '{ ...3.x; }': () 1253 55..146 '{ ...3.x; }': ()
1253 61..63 'a1': A<u32> 1254 61..63 'a1': A<u32>
1254 61..65 'a1.x': u32 1255 61..65 'a1.x': u32
1255 75..77 'a2': A<i32> 1256 75..77 'a2': A<i32>
1256 80..90 'A { x: i }': A<i32> 1257 80..90 'A { x: i }': A<i32>
1257 87..88 'i': i32 1258 87..88 'i': i32
1258 96..98 'a2': A<i32> 1259 96..98 'a2': A<i32>
1259 96..100 'a2.x': i32 1260 96..100 'a2.x': i32
1260 110..112 'a3': A<i128> 1261 110..112 'a3': A<i128>
1261 115..133 'A::<i1...x: 1 }': A<i128> 1262 115..133 'A::<i1...x: 1 }': A<i128>
1262 130..131 '1': i128 1263 130..131 '1': i128
1263 139..141 'a3': A<i128> 1264 139..141 'a3': A<i128>
1264 139..143 'a3.x': i128 1265 139..143 'a3.x': i128
1265 "### 1266 "#]],
1266 ); 1267 );
1267} 1268}
1268 1269
1269#[test] 1270#[test]
1270fn infer_tuple_struct_generics() { 1271fn infer_tuple_struct_generics() {
1271 assert_snapshot!( 1272 check_infer(
1272 infer(r#" 1273 r#"
1273struct A<T>(T); 1274 struct A<T>(T);
1274enum Option<T> { Some(T), None } 1275 enum Option<T> { Some(T), None }
1275use Option::*; 1276 use Option::*;
1276 1277
1277fn test() { 1278 fn test() {
1278 A(42); 1279 A(42);
1279 A(42u128); 1280 A(42u128);
1280 Some("x"); 1281 Some("x");
1281 Option::Some("x"); 1282 Option::Some("x");
1282 None; 1283 None;
1283 let x: Option<i64> = None; 1284 let x: Option<i64> = None;
1284} 1285 }
1285"#), 1286 "#,
1286 @r###" 1287 expect![[r#"
1287 75..183 '{ ...one; }': () 1288 75..183 '{ ...one; }': ()
1288 81..82 'A': A<i32>(i32) -> A<i32> 1289 81..82 'A': A<i32>(i32) -> A<i32>
1289 81..86 'A(42)': A<i32> 1290 81..86 'A(42)': A<i32>
1290 83..85 '42': i32 1291 83..85 '42': i32
1291 92..93 'A': A<u128>(u128) -> A<u128> 1292 92..93 'A': A<u128>(u128) -> A<u128>
1292 92..101 'A(42u128)': A<u128> 1293 92..101 'A(42u128)': A<u128>
1293 94..100 '42u128': u128 1294 94..100 '42u128': u128
1294 107..111 'Some': Some<&str>(&str) -> Option<&str> 1295 107..111 'Some': Some<&str>(&str) -> Option<&str>
1295 107..116 'Some("x")': Option<&str> 1296 107..116 'Some("x")': Option<&str>
1296 112..115 '"x"': &str 1297 112..115 '"x"': &str
1297 122..134 'Option::Some': Some<&str>(&str) -> Option<&str> 1298 122..134 'Option::Some': Some<&str>(&str) -> Option<&str>
1298 122..139 'Option...e("x")': Option<&str> 1299 122..139 'Option...e("x")': Option<&str>
1299 135..138 '"x"': &str 1300 135..138 '"x"': &str
1300 145..149 'None': Option<{unknown}> 1301 145..149 'None': Option<{unknown}>
1301 159..160 'x': Option<i64> 1302 159..160 'x': Option<i64>
1302 176..180 'None': Option<i64> 1303 176..180 'None': Option<i64>
1303 "### 1304 "#]],
1304 ); 1305 );
1305} 1306}
1306 1307
1307#[test] 1308#[test]
1308fn infer_function_generics() { 1309fn infer_function_generics() {
1309 assert_snapshot!( 1310 check_infer(
1310 infer(r#" 1311 r#"
1311fn id<T>(t: T) -> T { t } 1312 fn id<T>(t: T) -> T { t }
1312 1313
1313fn test() { 1314 fn test() {
1314 id(1u32); 1315 id(1u32);
1315 id::<i128>(1); 1316 id::<i128>(1);
1316 let x: u64 = id(1); 1317 let x: u64 = id(1);
1317} 1318 }
1318"#), 1319 "#,
1319 @r###" 1320 expect![[r#"
1320 9..10 't': T 1321 9..10 't': T
1321 20..25 '{ t }': T 1322 20..25 '{ t }': T
1322 22..23 't': T 1323 22..23 't': T
1323 37..97 '{ ...(1); }': () 1324 37..97 '{ ...(1); }': ()
1324 43..45 'id': fn id<u32>(u32) -> u32 1325 43..45 'id': fn id<u32>(u32) -> u32
1325 43..51 'id(1u32)': u32 1326 43..51 'id(1u32)': u32
1326 46..50 '1u32': u32 1327 46..50 '1u32': u32
1327 57..67 'id::<i128>': fn id<i128>(i128) -> i128 1328 57..67 'id::<i128>': fn id<i128>(i128) -> i128
1328 57..70 'id::<i128>(1)': i128 1329 57..70 'id::<i128>(1)': i128
1329 68..69 '1': i128 1330 68..69 '1': i128
1330 80..81 'x': u64 1331 80..81 'x': u64
1331 89..91 'id': fn id<u64>(u64) -> u64 1332 89..91 'id': fn id<u64>(u64) -> u64
1332 89..94 'id(1)': u64 1333 89..94 'id(1)': u64
1333 92..93 '1': u64 1334 92..93 '1': u64
1334 "### 1335 "#]],
1335 ); 1336 );
1336} 1337}
1337 1338
1338#[test] 1339#[test]
1339fn infer_impl_generics_basic() { 1340fn infer_impl_generics_basic() {
1340 assert_snapshot!( 1341 check_infer(
1341 infer(r#" 1342 r#"
1342struct A<T1, T2> { 1343 struct A<T1, T2> {
1343 x: T1, 1344 x: T1,
1344 y: T2, 1345 y: T2,
1345} 1346 }
1346impl<Y, X> A<X, Y> { 1347 impl<Y, X> A<X, Y> {
1347 fn x(self) -> X { 1348 fn x(self) -> X {
1348 self.x 1349 self.x
1349 } 1350 }
1350 fn y(self) -> Y { 1351 fn y(self) -> Y {
1351 self.y 1352 self.y
1352 } 1353 }
1353 fn z<T>(self, t: T) -> (X, Y, T) { 1354 fn z<T>(self, t: T) -> (X, Y, T) {
1354 (self.x, self.y, t) 1355 (self.x, self.y, t)
1355 } 1356 }
1356} 1357 }
1357 1358
1358fn test() -> i128 { 1359 fn test() -> i128 {
1359 let a = A { x: 1u64, y: 1i64 }; 1360 let a = A { x: 1u64, y: 1i64 };
1360 a.x(); 1361 a.x();
1361 a.y(); 1362 a.y();
1362 a.z(1i128); 1363 a.z(1i128);
1363 a.z::<u128>(1); 1364 a.z::<u128>(1);
1364} 1365 }
1365"#), 1366 "#,
1366 @r###" 1367 expect![[r#"
1367 73..77 'self': A<X, Y> 1368 73..77 'self': A<X, Y>
1368 84..106 '{ ... }': X 1369 84..106 '{ ... }': X
1369 94..98 'self': A<X, Y> 1370 94..98 'self': A<X, Y>
1370 94..100 'self.x': X 1371 94..100 'self.x': X
1371 116..120 'self': A<X, Y> 1372 116..120 'self': A<X, Y>
1372 127..149 '{ ... }': Y 1373 127..149 '{ ... }': Y
1373 137..141 'self': A<X, Y> 1374 137..141 'self': A<X, Y>
1374 137..143 'self.y': Y 1375 137..143 'self.y': Y
1375 162..166 'self': A<X, Y> 1376 162..166 'self': A<X, Y>
1376 168..169 't': T 1377 168..169 't': T
1377 187..222 '{ ... }': (X, Y, T) 1378 187..222 '{ ... }': (X, Y, T)
1378 197..216 '(self.....y, t)': (X, Y, T) 1379 197..216 '(self.....y, t)': (X, Y, T)
1379 198..202 'self': A<X, Y> 1380 198..202 'self': A<X, Y>
1380 198..204 'self.x': X 1381 198..204 'self.x': X
1381 206..210 'self': A<X, Y> 1382 206..210 'self': A<X, Y>
1382 206..212 'self.y': Y 1383 206..212 'self.y': Y
1383 214..215 't': T 1384 214..215 't': T
1384 244..341 '{ ...(1); }': () 1385 244..341 '{ ...(1); }': ()
1385 254..255 'a': A<u64, i64> 1386 254..255 'a': A<u64, i64>
1386 258..280 'A { x:...1i64 }': A<u64, i64> 1387 258..280 'A { x:...1i64 }': A<u64, i64>
1387 265..269 '1u64': u64 1388 265..269 '1u64': u64
1388 274..278 '1i64': i64 1389 274..278 '1i64': i64
1389 286..287 'a': A<u64, i64> 1390 286..287 'a': A<u64, i64>
1390 286..291 'a.x()': u64 1391 286..291 'a.x()': u64
1391 297..298 'a': A<u64, i64> 1392 297..298 'a': A<u64, i64>
1392 297..302 'a.y()': i64 1393 297..302 'a.y()': i64
1393 308..309 'a': A<u64, i64> 1394 308..309 'a': A<u64, i64>
1394 308..318 'a.z(1i128)': (u64, i64, i128) 1395 308..318 'a.z(1i128)': (u64, i64, i128)
1395 312..317 '1i128': i128 1396 312..317 '1i128': i128
1396 324..325 'a': A<u64, i64> 1397 324..325 'a': A<u64, i64>
1397 324..338 'a.z::<u128>(1)': (u64, i64, u128) 1398 324..338 'a.z::<u128>(1)': (u64, i64, u128)
1398 336..337 '1': u128 1399 336..337 '1': u128
1399 "### 1400 "#]],
1400 ); 1401 );
1401} 1402}
1402 1403
1403#[test] 1404#[test]
1404fn infer_impl_generics_with_autoderef() { 1405fn infer_impl_generics_with_autoderef() {
1405 assert_snapshot!( 1406 check_infer(
1406 infer(r#" 1407 r#"
1407enum Option<T> { 1408 enum Option<T> {
1408 Some(T), 1409 Some(T),
1409 None, 1410 None,
1410} 1411 }
1411impl<T> Option<T> { 1412 impl<T> Option<T> {
1412 fn as_ref(&self) -> Option<&T> {} 1413 fn as_ref(&self) -> Option<&T> {}
1413} 1414 }
1414fn test(o: Option<u32>) { 1415 fn test(o: Option<u32>) {
1415 (&o).as_ref(); 1416 (&o).as_ref();
1416 o.as_ref(); 1417 o.as_ref();
1417} 1418 }
1418"#), 1419 "#,
1419 @r###" 1420 expect![[r#"
1420 77..81 'self': &Option<T> 1421 77..81 'self': &Option<T>
1421 97..99 '{}': () 1422 97..99 '{}': ()
1422 110..111 'o': Option<u32> 1423 110..111 'o': Option<u32>
1423 126..164 '{ ...f(); }': () 1424 126..164 '{ ...f(); }': ()
1424 132..145 '(&o).as_ref()': Option<&u32> 1425 132..145 '(&o).as_ref()': Option<&u32>
1425 133..135 '&o': &Option<u32> 1426 133..135 '&o': &Option<u32>
1426 134..135 'o': Option<u32> 1427 134..135 'o': Option<u32>
1427 151..152 'o': Option<u32> 1428 151..152 'o': Option<u32>
1428 151..161 'o.as_ref()': Option<&u32> 1429 151..161 'o.as_ref()': Option<&u32>
1429 "### 1430 "#]],
1430 ); 1431 );
1431} 1432}
1432 1433
1433#[test] 1434#[test]
1434fn infer_generic_chain() { 1435fn infer_generic_chain() {
1435 assert_snapshot!( 1436 check_infer(
1436 infer(r#" 1437 r#"
1437struct A<T> { 1438 struct A<T> {
1438 x: T, 1439 x: T,
1439} 1440 }
1440impl<T2> A<T2> { 1441 impl<T2> A<T2> {
1441 fn x(self) -> T2 { 1442 fn x(self) -> T2 {
1442 self.x 1443 self.x
1443 } 1444 }
1444} 1445 }
1445fn id<T>(t: T) -> T { t } 1446 fn id<T>(t: T) -> T { t }
1446 1447
1447fn test() -> i128 { 1448 fn test() -> i128 {
1448 let x = 1; 1449 let x = 1;
1449 let y = id(x); 1450 let y = id(x);
1450 let a = A { x: id(y) }; 1451 let a = A { x: id(y) };
1451 let z = id(a.x); 1452 let z = id(a.x);
1452 let b = A { x: z }; 1453 let b = A { x: z };
1453 b.x() 1454 b.x()
1454} 1455 }
1455"#), 1456 "#,
1456 @r###" 1457 expect![[r#"
1457 52..56 'self': A<T2> 1458 52..56 'self': A<T2>
1458 64..86 '{ ... }': T2 1459 64..86 '{ ... }': T2
1459 74..78 'self': A<T2> 1460 74..78 'self': A<T2>
1460 74..80 'self.x': T2 1461 74..80 'self.x': T2
1461 98..99 't': T 1462 98..99 't': T
1462 109..114 '{ t }': T 1463 109..114 '{ t }': T
1463 111..112 't': T 1464 111..112 't': T
1464 134..260 '{ ....x() }': i128 1465 134..254 '{ ....x() }': i128
1465 145..146 'x': i128 1466 144..145 'x': i128
1466 149..150 '1': i128 1467 148..149 '1': i128
1467 161..162 'y': i128 1468 159..160 'y': i128
1468 165..167 'id': fn id<i128>(i128) -> i128 1469 163..165 'id': fn id<i128>(i128) -> i128
1469 165..170 'id(x)': i128 1470 163..168 'id(x)': i128
1470 168..169 'x': i128 1471 166..167 'x': i128
1471 181..182 'a': A<i128> 1472 178..179 'a': A<i128>
1472 185..199 'A { x: id(y) }': A<i128> 1473 182..196 'A { x: id(y) }': A<i128>
1473 192..194 'id': fn id<i128>(i128) -> i128 1474 189..191 'id': fn id<i128>(i128) -> i128
1474 192..197 'id(y)': i128 1475 189..194 'id(y)': i128
1475 195..196 'y': i128 1476 192..193 'y': i128
1476 210..211 'z': i128 1477 206..207 'z': i128
1477 214..216 'id': fn id<i128>(i128) -> i128 1478 210..212 'id': fn id<i128>(i128) -> i128
1478 214..221 'id(a.x)': i128 1479 210..217 'id(a.x)': i128
1479 217..218 'a': A<i128> 1480 213..214 'a': A<i128>
1480 217..220 'a.x': i128 1481 213..216 'a.x': i128
1481 232..233 'b': A<i128> 1482 227..228 'b': A<i128>
1482 236..246 'A { x: z }': A<i128> 1483 231..241 'A { x: z }': A<i128>
1483 243..244 'z': i128 1484 238..239 'z': i128
1484 253..254 'b': A<i128> 1485 247..248 'b': A<i128>
1485 253..258 'b.x()': i128 1486 247..252 'b.x()': i128
1486 "### 1487 "#]],
1487 ); 1488 );
1488} 1489}
1489 1490
1490#[test] 1491#[test]
1491fn infer_associated_const() { 1492fn infer_associated_const() {
1492 assert_snapshot!( 1493 check_infer(
1493 infer(r#" 1494 r#"
1494struct Struct; 1495 struct Struct;
1495 1496
1496impl Struct { 1497 impl Struct {
1497 const FOO: u32 = 1; 1498 const FOO: u32 = 1;
1498} 1499 }
1499 1500
1500enum Enum {} 1501 enum Enum {}
1501 1502
1502impl Enum { 1503 impl Enum {
1503 const BAR: u32 = 2; 1504 const BAR: u32 = 2;
1504} 1505 }
1505 1506
1506trait Trait { 1507 trait Trait {
1507 const ID: u32; 1508 const ID: u32;
1508} 1509 }
1509 1510
1510struct TraitTest; 1511 struct TraitTest;
1511 1512
1512impl Trait for TraitTest { 1513 impl Trait for TraitTest {
1513 const ID: u32 = 5; 1514 const ID: u32 = 5;
1514} 1515 }
1515 1516
1516fn test() { 1517 fn test() {
1517 let x = Struct::FOO; 1518 let x = Struct::FOO;
1518 let y = Enum::BAR; 1519 let y = Enum::BAR;
1519 let z = TraitTest::ID; 1520 let z = TraitTest::ID;
1520} 1521 }
1521"#), 1522 "#,
1522 @r###" 1523 expect![[r#"
1523 51..52 '1': u32 1524 51..52 '1': u32
1524 104..105 '2': u32 1525 104..105 '2': u32
1525 212..213 '5': u32 1526 212..213 '5': u32
1526 228..306 '{ ...:ID; }': () 1527 228..306 '{ ...:ID; }': ()
1527 238..239 'x': u32 1528 238..239 'x': u32
1528 242..253 'Struct::FOO': u32 1529 242..253 'Struct::FOO': u32
1529 263..264 'y': u32 1530 263..264 'y': u32
1530 267..276 'Enum::BAR': u32 1531 267..276 'Enum::BAR': u32
1531 286..287 'z': u32 1532 286..287 'z': u32
1532 290..303 'TraitTest::ID': u32 1533 290..303 'TraitTest::ID': u32
1533 "### 1534 "#]],
1534 ); 1535 );
1535} 1536}
1536 1537
1537#[test] 1538#[test]
1538fn infer_type_alias() { 1539fn infer_type_alias() {
1539 assert_snapshot!( 1540 check_infer(
1540 infer(r#" 1541 r#"
1541struct A<X, Y> { x: X, y: Y } 1542 struct A<X, Y> { x: X, y: Y }
1542type Foo = A<u32, i128>; 1543 type Foo = A<u32, i128>;
1543type Bar<T> = A<T, u128>; 1544 type Bar<T> = A<T, u128>;
1544type Baz<U, V> = A<V, U>; 1545 type Baz<U, V> = A<V, U>;
1545fn test(x: Foo, y: Bar<&str>, z: Baz<i8, u8>) { 1546 fn test(x: Foo, y: Bar<&str>, z: Baz<i8, u8>) {
1546 x.x; 1547 x.x;
1547 x.y; 1548 x.y;
1548 y.x; 1549 y.x;
1549 y.y; 1550 y.y;
1550 z.x; 1551 z.x;
1551 z.y; 1552 z.y;
1552} 1553 }
1553"#), 1554 "#,
1554 @r###" 1555 expect![[r#"
1555 115..116 'x': A<u32, i128> 1556 115..116 'x': A<u32, i128>
1556 123..124 'y': A<&str, u128> 1557 123..124 'y': A<&str, u128>
1557 137..138 'z': A<u8, i8> 1558 137..138 'z': A<u8, i8>
1558 153..210 '{ ...z.y; }': () 1559 153..210 '{ ...z.y; }': ()
1559 159..160 'x': A<u32, i128> 1560 159..160 'x': A<u32, i128>
1560 159..162 'x.x': u32 1561 159..162 'x.x': u32
1561 168..169 'x': A<u32, i128> 1562 168..169 'x': A<u32, i128>
1562 168..171 'x.y': i128 1563 168..171 'x.y': i128
1563 177..178 'y': A<&str, u128> 1564 177..178 'y': A<&str, u128>
1564 177..180 'y.x': &str 1565 177..180 'y.x': &str
1565 186..187 'y': A<&str, u128> 1566 186..187 'y': A<&str, u128>
1566 186..189 'y.y': u128 1567 186..189 'y.y': u128
1567 195..196 'z': A<u8, i8> 1568 195..196 'z': A<u8, i8>
1568 195..198 'z.x': u8 1569 195..198 'z.x': u8
1569 204..205 'z': A<u8, i8> 1570 204..205 'z': A<u8, i8>
1570 204..207 'z.y': i8 1571 204..207 'z.y': i8
1571 "### 1572 "#]],
1572 ) 1573 )
1573} 1574}
1574 1575
1575#[test] 1576#[test]
1576fn recursive_type_alias() { 1577fn recursive_type_alias() {
1577 assert_snapshot!( 1578 check_infer(
1578 infer(r#" 1579 r#"
1579struct A<X> {} 1580 struct A<X> {}
1580type Foo = Foo; 1581 type Foo = Foo;
1581type Bar = A<Bar>; 1582 type Bar = A<Bar>;
1582fn test(x: Foo) {} 1583 fn test(x: Foo) {}
1583"#), 1584 "#,
1584 @r###" 1585 expect![[r#"
1585 58..59 'x': {unknown} 1586 58..59 'x': {unknown}
1586 66..68 '{}': () 1587 66..68 '{}': ()
1587 "### 1588 "#]],
1588 ) 1589 )
1589} 1590}
1590 1591
1591#[test] 1592#[test]
1592fn infer_type_param() { 1593fn infer_type_param() {
1593 assert_snapshot!( 1594 check_infer(
1594 infer(r#" 1595 r#"
1595fn id<T>(x: T) -> T { 1596 fn id<T>(x: T) -> T {
1596 x 1597 x
1597} 1598 }
1598 1599
1599fn clone<T>(x: &T) -> T { 1600 fn clone<T>(x: &T) -> T {
1600 *x 1601 *x
1601} 1602 }
1602 1603
1603fn test() { 1604 fn test() {
1604 let y = 10u32; 1605 let y = 10u32;
1605 id(y); 1606 id(y);
1606 let x: bool = clone(z); 1607 let x: bool = clone(z);
1607 id::<i128>(1); 1608 id::<i128>(1);
1608} 1609 }
1609"#), 1610 "#,
1610 @r###" 1611 expect![[r#"
1611 9..10 'x': T 1612 9..10 'x': T
1612 20..29 '{ x }': T 1613 20..29 '{ x }': T
1613 26..27 'x': T 1614 26..27 'x': T
1614 43..44 'x': &T 1615 43..44 'x': &T
1615 55..65 '{ *x }': T 1616 55..65 '{ *x }': T
1616 61..63 '*x': T 1617 61..63 '*x': T
1617 62..63 'x': &T 1618 62..63 'x': &T
1618 77..157 '{ ...(1); }': () 1619 77..157 '{ ...(1); }': ()
1619 87..88 'y': u32 1620 87..88 'y': u32
1620 91..96 '10u32': u32 1621 91..96 '10u32': u32
1621 102..104 'id': fn id<u32>(u32) -> u32 1622 102..104 'id': fn id<u32>(u32) -> u32
1622 102..107 'id(y)': u32 1623 102..107 'id(y)': u32
1623 105..106 'y': u32 1624 105..106 'y': u32
1624 117..118 'x': bool 1625 117..118 'x': bool
1625 127..132 'clone': fn clone<bool>(&bool) -> bool 1626 127..132 'clone': fn clone<bool>(&bool) -> bool
1626 127..135 'clone(z)': bool 1627 127..135 'clone(z)': bool
1627 133..134 'z': &bool 1628 133..134 'z': &bool
1628 141..151 'id::<i128>': fn id<i128>(i128) -> i128 1629 141..151 'id::<i128>': fn id<i128>(i128) -> i128
1629 141..154 'id::<i128>(1)': i128 1630 141..154 'id::<i128>(1)': i128
1630 152..153 '1': i128 1631 152..153 '1': i128
1631 "### 1632 "#]],
1632 ); 1633 );
1633} 1634}
1634 1635
1635#[test] 1636#[test]
1636fn infer_const() { 1637fn infer_const() {
1637 assert_snapshot!( 1638 check_infer(
1638 infer(r#" 1639 r#"
1639struct Foo; 1640 struct Foo;
1640impl Foo { const ASSOC_CONST: u32 = 0; } 1641 impl Foo { const ASSOC_CONST: u32 = 0; }
1641const GLOBAL_CONST: u32 = 101; 1642 const GLOBAL_CONST: u32 = 101;
1642fn test() { 1643 fn test() {
1643 const LOCAL_CONST: u32 = 99; 1644 const LOCAL_CONST: u32 = 99;
1644 let x = LOCAL_CONST; 1645 let x = LOCAL_CONST;
1645 let z = GLOBAL_CONST; 1646 let z = GLOBAL_CONST;
1646 let id = Foo::ASSOC_CONST; 1647 let id = Foo::ASSOC_CONST;
1647} 1648 }
1648"#), 1649 "#,
1649 @r###" 1650 expect![[r#"
1650 48..49 '0': u32 1651 48..49 '0': u32
1651 79..82 '101': u32 1652 79..82 '101': u32
1652 94..212 '{ ...NST; }': () 1653 94..212 '{ ...NST; }': ()
1653 137..138 'x': u32 1654 137..138 'x': u32
1654 141..152 'LOCAL_CONST': u32 1655 141..152 'LOCAL_CONST': u32
1655 162..163 'z': u32 1656 162..163 'z': u32
1656 166..178 'GLOBAL_CONST': u32 1657 166..178 'GLOBAL_CONST': u32
1657 188..190 'id': u32 1658 188..190 'id': u32
1658 193..209 'Foo::A..._CONST': u32 1659 193..209 'Foo::A..._CONST': u32
1659 125..127 '99': u32 1660 125..127 '99': u32
1660 "### 1661 "#]],
1661 ); 1662 );
1662} 1663}
1663 1664
1664#[test] 1665#[test]
1665fn infer_static() { 1666fn infer_static() {
1666 assert_snapshot!( 1667 check_infer(
1667 infer(r#" 1668 r#"
1668static GLOBAL_STATIC: u32 = 101; 1669 static GLOBAL_STATIC: u32 = 101;
1669static mut GLOBAL_STATIC_MUT: u32 = 101; 1670 static mut GLOBAL_STATIC_MUT: u32 = 101;
1670fn test() { 1671 fn test() {
1671 static LOCAL_STATIC: u32 = 99; 1672 static LOCAL_STATIC: u32 = 99;
1672 static mut LOCAL_STATIC_MUT: u32 = 99; 1673 static mut LOCAL_STATIC_MUT: u32 = 99;
1673 let x = LOCAL_STATIC; 1674 let x = LOCAL_STATIC;
1674 let y = LOCAL_STATIC_MUT; 1675 let y = LOCAL_STATIC_MUT;
1675 let z = GLOBAL_STATIC; 1676 let z = GLOBAL_STATIC;
1676 let w = GLOBAL_STATIC_MUT; 1677 let w = GLOBAL_STATIC_MUT;
1677} 1678 }
1678"#), 1679 "#,
1679 @r###" 1680 expect![[r#"
1680 28..31 '101': u32 1681 28..31 '101': u32
1681 69..72 '101': u32 1682 69..72 '101': u32
1682 84..279 '{ ...MUT; }': () 1683 84..279 '{ ...MUT; }': ()
1683 172..173 'x': u32 1684 172..173 'x': u32
1684 176..188 'LOCAL_STATIC': u32 1685 176..188 'LOCAL_STATIC': u32
1685 198..199 'y': u32 1686 198..199 'y': u32
1686 202..218 'LOCAL_...IC_MUT': u32 1687 202..218 'LOCAL_...IC_MUT': u32
1687 228..229 'z': u32 1688 228..229 'z': u32
1688 232..245 'GLOBAL_STATIC': u32 1689 232..245 'GLOBAL_STATIC': u32
1689 255..256 'w': u32 1690 255..256 'w': u32
1690 259..276 'GLOBAL...IC_MUT': u32 1691 259..276 'GLOBAL...IC_MUT': u32
1691 117..119 '99': u32 1692 117..119 '99': u32
1692 160..162 '99': u32 1693 160..162 '99': u32
1693 "### 1694 "#]],
1694 ); 1695 );
1695} 1696}
1696 1697
@@ -1777,413 +1778,413 @@ fn main() {
1777 1778
1778#[test] 1779#[test]
1779fn closure_return() { 1780fn closure_return() {
1780 assert_snapshot!( 1781 check_infer(
1781 infer(r#" 1782 r#"
1782fn foo() -> u32 { 1783 fn foo() -> u32 {
1783 let x = || -> usize { return 1; }; 1784 let x = || -> usize { return 1; };
1784} 1785 }
1785"#), 1786 "#,
1786 @r###" 1787 expect![[r#"
1787 16..58 '{ ...; }; }': () 1788 16..58 '{ ...; }; }': ()
1788 26..27 'x': || -> usize 1789 26..27 'x': || -> usize
1789 30..55 '|| -> ...n 1; }': || -> usize 1790 30..55 '|| -> ...n 1; }': || -> usize
1790 42..55 '{ return 1; }': usize 1791 42..55 '{ return 1; }': usize
1791 44..52 'return 1': ! 1792 44..52 'return 1': !
1792 51..52 '1': usize 1793 51..52 '1': usize
1793 "### 1794 "#]],
1794 ); 1795 );
1795} 1796}
1796 1797
1797#[test] 1798#[test]
1798fn closure_return_unit() { 1799fn closure_return_unit() {
1799 assert_snapshot!( 1800 check_infer(
1800 infer(r#" 1801 r#"
1801fn foo() -> u32 { 1802 fn foo() -> u32 {
1802 let x = || { return; }; 1803 let x = || { return; };
1803} 1804 }
1804"#), 1805 "#,
1805 @r###" 1806 expect![[r#"
1806 16..47 '{ ...; }; }': () 1807 16..47 '{ ...; }; }': ()
1807 26..27 'x': || -> () 1808 26..27 'x': || -> ()
1808 30..44 '|| { return; }': || -> () 1809 30..44 '|| { return; }': || -> ()
1809 33..44 '{ return; }': () 1810 33..44 '{ return; }': ()
1810 35..41 'return': ! 1811 35..41 'return': !
1811 "### 1812 "#]],
1812 ); 1813 );
1813} 1814}
1814 1815
1815#[test] 1816#[test]
1816fn closure_return_inferred() { 1817fn closure_return_inferred() {
1817 assert_snapshot!( 1818 check_infer(
1818 infer(r#" 1819 r#"
1819fn foo() -> u32 { 1820 fn foo() -> u32 {
1820 let x = || { "test" }; 1821 let x = || { "test" };
1821} 1822 }
1822"#), 1823 "#,
1823 @r###" 1824 expect![[r#"
1824 16..46 '{ ..." }; }': () 1825 16..46 '{ ..." }; }': ()
1825 26..27 'x': || -> &str 1826 26..27 'x': || -> &str
1826 30..43 '|| { "test" }': || -> &str 1827 30..43 '|| { "test" }': || -> &str
1827 33..43 '{ "test" }': &str 1828 33..43 '{ "test" }': &str
1828 35..41 '"test"': &str 1829 35..41 '"test"': &str
1829 "### 1830 "#]],
1830 ); 1831 );
1831} 1832}
1832 1833
1833#[test] 1834#[test]
1834fn fn_pointer_return() { 1835fn fn_pointer_return() {
1835 assert_snapshot!( 1836 check_infer(
1836 infer(r#" 1837 r#"
1837struct Vtable { 1838 struct Vtable {
1838 method: fn(), 1839 method: fn(),
1839} 1840 }
1840 1841
1841fn main() { 1842 fn main() {
1842 let vtable = Vtable { method: || {} }; 1843 let vtable = Vtable { method: || {} };
1843 let m = vtable.method; 1844 let m = vtable.method;
1844} 1845 }
1845"#), 1846 "#,
1846 @r###" 1847 expect![[r#"
1847 47..120 '{ ...hod; }': () 1848 47..120 '{ ...hod; }': ()
1848 57..63 'vtable': Vtable 1849 57..63 'vtable': Vtable
1849 66..90 'Vtable...| {} }': Vtable 1850 66..90 'Vtable...| {} }': Vtable
1850 83..88 '|| {}': || -> () 1851 83..88 '|| {}': || -> ()
1851 86..88 '{}': () 1852 86..88 '{}': ()
1852 100..101 'm': fn() 1853 100..101 'm': fn()
1853 104..110 'vtable': Vtable 1854 104..110 'vtable': Vtable
1854 104..117 'vtable.method': fn() 1855 104..117 'vtable.method': fn()
1855 "### 1856 "#]],
1856 ); 1857 );
1857} 1858}
1858 1859
1859#[test] 1860#[test]
1860fn effects_smoke_test() { 1861fn effects_smoke_test() {
1861 assert_snapshot!( 1862 check_infer(
1862 infer(r#" 1863 r#"
1863fn main() { 1864 fn main() {
1864 let x = unsafe { 92 }; 1865 let x = unsafe { 92 };
1865 let y = async { async { () }.await }; 1866 let y = async { async { () }.await };
1866 let z = try { () }; 1867 let z = try { () };
1867 let t = 'a: { 92 }; 1868 let t = 'a: { 92 };
1868} 1869 }
1869"#), 1870 "#,
1870 @r###" 1871 expect![[r#"
1871 10..130 '{ ...2 }; }': () 1872 10..130 '{ ...2 }; }': ()
1872 20..21 'x': i32 1873 20..21 'x': i32
1873 24..37 'unsafe { 92 }': i32 1874 24..37 'unsafe { 92 }': i32
1874 31..37 '{ 92 }': i32 1875 31..37 '{ 92 }': i32
1875 33..35 '92': i32 1876 33..35 '92': i32
1876 47..48 'y': {unknown} 1877 47..48 'y': {unknown}
1877 57..79 '{ asyn...wait }': {unknown} 1878 57..79 '{ asyn...wait }': {unknown}
1878 59..77 'async ....await': {unknown} 1879 59..77 'async ....await': {unknown}
1879 65..71 '{ () }': () 1880 65..71 '{ () }': ()
1880 67..69 '()': () 1881 67..69 '()': ()
1881 89..90 'z': {unknown} 1882 89..90 'z': {unknown}
1882 93..103 'try { () }': {unknown} 1883 93..103 'try { () }': {unknown}
1883 97..103 '{ () }': () 1884 97..103 '{ () }': ()
1884 99..101 '()': () 1885 99..101 '()': ()
1885 113..114 't': i32 1886 113..114 't': i32
1886 121..127 '{ 92 }': i32 1887 121..127 '{ 92 }': i32
1887 123..125 '92': i32 1888 123..125 '92': i32
1888 "### 1889 "#]],
1889 ) 1890 )
1890} 1891}
1891 1892
1892#[test] 1893#[test]
1893fn infer_generic_from_later_assignment() { 1894fn infer_generic_from_later_assignment() {
1894 assert_snapshot!( 1895 check_infer(
1895 infer(r#" 1896 r#"
1896enum Option<T> { Some(T), None } 1897 enum Option<T> { Some(T), None }
1897use Option::*; 1898 use Option::*;
1898 1899
1899fn test() { 1900 fn test() {
1900 let mut end = None; 1901 let mut end = None;
1901 loop { 1902 loop {
1902 end = Some(true); 1903 end = Some(true);
1903 } 1904 }
1904} 1905 }
1905"#), 1906 "#,
1906 @r###" 1907 expect![[r#"
1907 59..129 '{ ... } }': () 1908 59..129 '{ ... } }': ()
1908 69..76 'mut end': Option<bool> 1909 69..76 'mut end': Option<bool>
1909 79..83 'None': Option<bool> 1910 79..83 'None': Option<bool>
1910 89..127 'loop {... }': ! 1911 89..127 'loop {... }': !
1911 94..127 '{ ... }': () 1912 94..127 '{ ... }': ()
1912 104..107 'end': Option<bool> 1913 104..107 'end': Option<bool>
1913 104..120 'end = ...(true)': () 1914 104..120 'end = ...(true)': ()
1914 110..114 'Some': Some<bool>(bool) -> Option<bool> 1915 110..114 'Some': Some<bool>(bool) -> Option<bool>
1915 110..120 'Some(true)': Option<bool> 1916 110..120 'Some(true)': Option<bool>
1916 115..119 'true': bool 1917 115..119 'true': bool
1917 "### 1918 "#]],
1918 ); 1919 );
1919} 1920}
1920 1921
1921#[test] 1922#[test]
1922fn infer_loop_break_with_val() { 1923fn infer_loop_break_with_val() {
1923 assert_snapshot!( 1924 check_infer(
1924 infer(r#" 1925 r#"
1925enum Option<T> { Some(T), None } 1926 enum Option<T> { Some(T), None }
1926use Option::*; 1927 use Option::*;
1927 1928
1928fn test() { 1929 fn test() {
1929 let x = loop { 1930 let x = loop {
1930 if false { 1931 if false {
1931 break None; 1932 break None;
1932 } 1933 }
1933 1934
1934 break Some(true); 1935 break Some(true);
1935 }; 1936 };
1936} 1937 }
1937"#), 1938 "#,
1938 @r###" 1939 expect![[r#"
1939 59..168 '{ ... }; }': () 1940 59..168 '{ ... }; }': ()
1940 69..70 'x': Option<bool> 1941 69..70 'x': Option<bool>
1941 73..165 'loop {... }': Option<bool> 1942 73..165 'loop {... }': Option<bool>
1942 78..165 '{ ... }': () 1943 78..165 '{ ... }': ()
1943 88..132 'if fal... }': () 1944 88..132 'if fal... }': ()
1944 91..96 'false': bool 1945 91..96 'false': bool
1945 97..132 '{ ... }': () 1946 97..132 '{ ... }': ()
1946 111..121 'break None': ! 1947 111..121 'break None': !
1947 117..121 'None': Option<bool> 1948 117..121 'None': Option<bool>
1948 142..158 'break ...(true)': ! 1949 142..158 'break ...(true)': !
1949 148..152 'Some': Some<bool>(bool) -> Option<bool> 1950 148..152 'Some': Some<bool>(bool) -> Option<bool>
1950 148..158 'Some(true)': Option<bool> 1951 148..158 'Some(true)': Option<bool>
1951 153..157 'true': bool 1952 153..157 'true': bool
1952 "### 1953 "#]],
1953 ); 1954 );
1954} 1955}
1955 1956
1956#[test] 1957#[test]
1957fn infer_loop_break_without_val() { 1958fn infer_loop_break_without_val() {
1958 assert_snapshot!( 1959 check_infer(
1959 infer(r#" 1960 r#"
1960enum Option<T> { Some(T), None } 1961 enum Option<T> { Some(T), None }
1961use Option::*; 1962 use Option::*;
1962 1963
1963fn test() { 1964 fn test() {
1964 let x = loop { 1965 let x = loop {
1965 if false { 1966 if false {
1966 break; 1967 break;
1967 } 1968 }
1968 }; 1969 };
1969} 1970 }
1970"#), 1971 "#,
1971 @r###" 1972 expect![[r#"
1972 59..136 '{ ... }; }': () 1973 59..136 '{ ... }; }': ()
1973 69..70 'x': () 1974 69..70 'x': ()
1974 73..133 'loop {... }': () 1975 73..133 'loop {... }': ()
1975 78..133 '{ ... }': () 1976 78..133 '{ ... }': ()
1976 88..127 'if fal... }': () 1977 88..127 'if fal... }': ()
1977 91..96 'false': bool 1978 91..96 'false': bool
1978 97..127 '{ ... }': () 1979 97..127 '{ ... }': ()
1979 111..116 'break': ! 1980 111..116 'break': !
1980 "### 1981 "#]],
1981 ); 1982 );
1982} 1983}
1983 1984
1984#[test] 1985#[test]
1985fn infer_labelled_break_with_val() { 1986fn infer_labelled_break_with_val() {
1986 assert_snapshot!( 1987 check_infer(
1987 infer(r#" 1988 r#"
1988fn foo() { 1989 fn foo() {
1989 let _x = || 'outer: loop { 1990 let _x = || 'outer: loop {
1990 let inner = 'inner: loop { 1991 let inner = 'inner: loop {
1991 let i = Default::default(); 1992 let i = Default::default();
1992 if (break 'outer i) { 1993 if (break 'outer i) {
1993 loop { break 'inner 5i8; }; 1994 loop { break 'inner 5i8; };
1994 } else if true { 1995 } else if true {
1995 break 'inner 6; 1996 break 'inner 6;
1996 } 1997 }
1997 break 7; 1998 break 7;
1998 }; 1999 };
1999 break inner < 8; 2000 break inner < 8;
2000 }; 2001 };
2001} 2002 }
2002"#), 2003 "#,
2003 @r###" 2004 expect![[r#"
2004 9..335 '{ ... }; }': () 2005 9..335 '{ ... }; }': ()
2005 19..21 '_x': || -> bool 2006 19..21 '_x': || -> bool
2006 24..332 '|| 'ou... }': || -> bool 2007 24..332 '|| 'ou... }': || -> bool
2007 27..332 ''outer... }': bool 2008 27..332 ''outer... }': bool
2008 40..332 '{ ... }': () 2009 40..332 '{ ... }': ()
2009 54..59 'inner': i8 2010 54..59 'inner': i8
2010 62..300 ''inner... }': i8 2011 62..300 ''inner... }': i8
2011 75..300 '{ ... }': () 2012 75..300 '{ ... }': ()
2012 93..94 'i': bool 2013 93..94 'i': bool
2013 97..113 'Defaul...efault': {unknown} 2014 97..113 'Defaul...efault': {unknown}
2014 97..115 'Defaul...ault()': bool 2015 97..115 'Defaul...ault()': bool
2015 129..269 'if (br... }': () 2016 129..269 'if (br... }': ()
2016 133..147 'break 'outer i': ! 2017 133..147 'break 'outer i': !
2017 146..147 'i': bool 2018 146..147 'i': bool
2018 149..208 '{ ... }': () 2019 149..208 '{ ... }': ()
2019 167..193 'loop {...5i8; }': ! 2020 167..193 'loop {...5i8; }': !
2020 172..193 '{ brea...5i8; }': () 2021 172..193 '{ brea...5i8; }': ()
2021 174..190 'break ...er 5i8': ! 2022 174..190 'break ...er 5i8': !
2022 187..190 '5i8': i8 2023 187..190 '5i8': i8
2023 214..269 'if tru... }': () 2024 214..269 'if tru... }': ()
2024 217..221 'true': bool 2025 217..221 'true': bool
2025 222..269 '{ ... }': () 2026 222..269 '{ ... }': ()
2026 240..254 'break 'inner 6': ! 2027 240..254 'break 'inner 6': !
2027 253..254 '6': i8 2028 253..254 '6': i8
2028 282..289 'break 7': ! 2029 282..289 'break 7': !
2029 288..289 '7': i8 2030 288..289 '7': i8
2030 310..325 'break inner < 8': ! 2031 310..325 'break inner < 8': !
2031 316..321 'inner': i8 2032 316..321 'inner': i8
2032 316..325 'inner < 8': bool 2033 316..325 'inner < 8': bool
2033 324..325 '8': i8 2034 324..325 '8': i8
2034 "### 2035 "#]],
2035 ); 2036 );
2036} 2037}
2037 2038
2038#[test] 2039#[test]
2039fn generic_default() { 2040fn generic_default() {
2040 assert_snapshot!( 2041 check_infer(
2041 infer(r#" 2042 r#"
2042struct Thing<T = ()> { t: T } 2043 struct Thing<T = ()> { t: T }
2043enum OtherThing<T = ()> { 2044 enum OtherThing<T = ()> {
2044 One { t: T }, 2045 One { t: T },
2045 Two(T), 2046 Two(T),
2046} 2047 }
2047 2048
2048fn test(t1: Thing, t2: OtherThing, t3: Thing<i32>, t4: OtherThing<i32>) { 2049 fn test(t1: Thing, t2: OtherThing, t3: Thing<i32>, t4: OtherThing<i32>) {
2049 t1.t; 2050 t1.t;
2050 t3.t; 2051 t3.t;
2051 match t2 { 2052 match t2 {
2052 OtherThing::One { t } => { t; }, 2053 OtherThing::One { t } => { t; },
2053 OtherThing::Two(t) => { t; }, 2054 OtherThing::Two(t) => { t; },
2054 } 2055 }
2055 match t4 { 2056 match t4 {
2056 OtherThing::One { t } => { t; }, 2057 OtherThing::One { t } => { t; },
2057 OtherThing::Two(t) => { t; }, 2058 OtherThing::Two(t) => { t; },
2058 } 2059 }
2059} 2060 }
2060"#), 2061 "#,
2061 @r###" 2062 expect![[r#"
2062 97..99 't1': Thing<()> 2063 97..99 't1': Thing<()>
2063 108..110 't2': OtherThing<()> 2064 108..110 't2': OtherThing<()>
2064 124..126 't3': Thing<i32> 2065 124..126 't3': Thing<i32>
2065 140..142 't4': OtherThing<i32> 2066 140..142 't4': OtherThing<i32>
2066 161..384 '{ ... } }': () 2067 161..384 '{ ... } }': ()
2067 167..169 't1': Thing<()> 2068 167..169 't1': Thing<()>
2068 167..171 't1.t': () 2069 167..171 't1.t': ()
2069 177..179 't3': Thing<i32> 2070 177..179 't3': Thing<i32>
2070 177..181 't3.t': i32 2071 177..181 't3.t': i32
2071 187..282 'match ... }': () 2072 187..282 'match ... }': ()
2072 193..195 't2': OtherThing<()> 2073 193..195 't2': OtherThing<()>
2073 206..227 'OtherT... { t }': OtherThing<()> 2074 206..227 'OtherT... { t }': OtherThing<()>
2074 224..225 't': () 2075 224..225 't': ()
2075 231..237 '{ t; }': () 2076 231..237 '{ t; }': ()
2076 233..234 't': () 2077 233..234 't': ()
2077 247..265 'OtherT...Two(t)': OtherThing<()> 2078 247..265 'OtherT...Two(t)': OtherThing<()>
2078 263..264 't': () 2079 263..264 't': ()
2079 269..275 '{ t; }': () 2080 269..275 '{ t; }': ()
2080 271..272 't': () 2081 271..272 't': ()
2081 287..382 'match ... }': () 2082 287..382 'match ... }': ()
2082 293..295 't4': OtherThing<i32> 2083 293..295 't4': OtherThing<i32>
2083 306..327 'OtherT... { t }': OtherThing<i32> 2084 306..327 'OtherT... { t }': OtherThing<i32>
2084 324..325 't': i32 2085 324..325 't': i32
2085 331..337 '{ t; }': () 2086 331..337 '{ t; }': ()
2086 333..334 't': i32 2087 333..334 't': i32
2087 347..365 'OtherT...Two(t)': OtherThing<i32> 2088 347..365 'OtherT...Two(t)': OtherThing<i32>
2088 363..364 't': i32 2089 363..364 't': i32
2089 369..375 '{ t; }': () 2090 369..375 '{ t; }': ()
2090 371..372 't': i32 2091 371..372 't': i32
2091 "### 2092 "#]],
2092 ); 2093 );
2093} 2094}
2094 2095
2095#[test] 2096#[test]
2096fn generic_default_in_struct_literal() { 2097fn generic_default_in_struct_literal() {
2097 assert_snapshot!( 2098 check_infer(
2098 infer(r#" 2099 r#"
2099struct Thing<T = ()> { t: T } 2100 struct Thing<T = ()> { t: T }
2100enum OtherThing<T = ()> { 2101 enum OtherThing<T = ()> {
2101 One { t: T }, 2102 One { t: T },
2102 Two(T), 2103 Two(T),
2103} 2104 }
2104 2105
2105fn test() { 2106 fn test() {
2106 let x = Thing { t: loop {} }; 2107 let x = Thing { t: loop {} };
2107 let y = Thing { t: () }; 2108 let y = Thing { t: () };
2108 let z = Thing { t: 1i32 }; 2109 let z = Thing { t: 1i32 };
2109 if let Thing { t } = z { 2110 if let Thing { t } = z {
2110 t; 2111 t;
2111 } 2112 }
2112 2113
2113 let a = OtherThing::One { t: 1i32 }; 2114 let a = OtherThing::One { t: 1i32 };
2114 let b = OtherThing::Two(1i32); 2115 let b = OtherThing::Two(1i32);
2115} 2116 }
2116"#), 2117 "#,
2117 @r###" 2118 expect![[r#"
2118 99..319 '{ ...32); }': () 2119 99..319 '{ ...32); }': ()
2119 109..110 'x': Thing<!> 2120 109..110 'x': Thing<!>
2120 113..133 'Thing ...p {} }': Thing<!> 2121 113..133 'Thing ...p {} }': Thing<!>
2121 124..131 'loop {}': ! 2122 124..131 'loop {}': !
2122 129..131 '{}': () 2123 129..131 '{}': ()
2123 143..144 'y': Thing<()> 2124 143..144 'y': Thing<()>
2124 147..162 'Thing { t: () }': Thing<()> 2125 147..162 'Thing { t: () }': Thing<()>
2125 158..160 '()': () 2126 158..160 '()': ()
2126 172..173 'z': Thing<i32> 2127 172..173 'z': Thing<i32>
2127 176..193 'Thing ...1i32 }': Thing<i32> 2128 176..193 'Thing ...1i32 }': Thing<i32>
2128 187..191 '1i32': i32 2129 187..191 '1i32': i32
2129 199..240 'if let... }': () 2130 199..240 'if let... }': ()
2130 206..217 'Thing { t }': Thing<i32> 2131 206..217 'Thing { t }': Thing<i32>
2131 214..215 't': i32 2132 214..215 't': i32
2132 220..221 'z': Thing<i32> 2133 220..221 'z': Thing<i32>
2133 222..240 '{ ... }': () 2134 222..240 '{ ... }': ()
2134 232..233 't': i32 2135 232..233 't': i32
2135 250..251 'a': OtherThing<i32> 2136 250..251 'a': OtherThing<i32>
2136 254..281 'OtherT...1i32 }': OtherThing<i32> 2137 254..281 'OtherT...1i32 }': OtherThing<i32>
2137 275..279 '1i32': i32 2138 275..279 '1i32': i32
2138 291..292 'b': OtherThing<i32> 2139 291..292 'b': OtherThing<i32>
2139 295..310 'OtherThing::Two': Two<i32>(i32) -> OtherThing<i32> 2140 295..310 'OtherThing::Two': Two<i32>(i32) -> OtherThing<i32>
2140 295..316 'OtherT...(1i32)': OtherThing<i32> 2141 295..316 'OtherT...(1i32)': OtherThing<i32>
2141 311..315 '1i32': i32 2142 311..315 '1i32': i32
2142 "### 2143 "#]],
2143 ); 2144 );
2144} 2145}
2145 2146
2146#[test] 2147#[test]
2147fn generic_default_depending_on_other_type_arg() { 2148fn generic_default_depending_on_other_type_arg() {
2148 assert_snapshot!( 2149 // FIXME: the {unknown} is a bug
2149 infer(r#" 2150 check_infer(
2150struct Thing<T = u128, F = fn() -> T> { t: T } 2151 r#"
2151 2152 struct Thing<T = u128, F = fn() -> T> { t: T }
2152fn test(t1: Thing<u32>, t2: Thing) { 2153
2153 t1; 2154 fn test(t1: Thing<u32>, t2: Thing) {
2154 t2; 2155 t1;
2155 Thing::<_> { t: 1u32 }; 2156 t2;
2156} 2157 Thing::<_> { t: 1u32 };
2157"#), 2158 }
2158 // FIXME: the {unknown} is a bug 2159 "#,
2159 @r###" 2160 expect![[r#"
2160 56..58 't1': Thing<u32, fn() -> u32> 2161 56..58 't1': Thing<u32, fn() -> u32>
2161 72..74 't2': Thing<u128, fn() -> u128> 2162 72..74 't2': Thing<u128, fn() -> u128>
2162 83..130 '{ ...2 }; }': () 2163 83..130 '{ ...2 }; }': ()
2163 89..91 't1': Thing<u32, fn() -> u32> 2164 89..91 't1': Thing<u32, fn() -> u32>
2164 97..99 't2': Thing<u128, fn() -> u128> 2165 97..99 't2': Thing<u128, fn() -> u128>
2165 105..127 'Thing:...1u32 }': Thing<u32, fn() -> {unknown}> 2166 105..127 'Thing:...1u32 }': Thing<u32, fn() -> {unknown}>
2166 121..125 '1u32': u32 2167 121..125 '1u32': u32
2167 "### 2168 "#]],
2168 ); 2169 );
2169} 2170}
2170 2171
2171#[test] 2172#[test]
2172fn generic_default_depending_on_other_type_arg_forward() { 2173fn generic_default_depending_on_other_type_arg_forward() {
2173 assert_snapshot!( 2174 // the {unknown} here is intentional, as defaults are not allowed to
2174 infer(r#" 2175 // refer to type parameters coming later
2175struct Thing<F = fn() -> T, T = u128> { t: T } 2176 check_infer(
2176 2177 r#"
2177fn test(t1: Thing) { 2178 struct Thing<F = fn() -> T, T = u128> { t: T }
2178 t1; 2179
2179} 2180 fn test(t1: Thing) {
2180"#), 2181 t1;
2181 // the {unknown} here is intentional, as defaults are not allowed to 2182 }
2182 // refer to type parameters coming later 2183 "#,
2183 @r###" 2184 expect![[r#"
2184 56..58 't1': Thing<fn() -> {unknown}, u128> 2185 56..58 't1': Thing<fn() -> {unknown}, u128>
2185 67..78 '{ t1; }': () 2186 67..78 '{ t1; }': ()
2186 73..75 't1': Thing<fn() -> {unknown}, u128> 2187 73..75 't1': Thing<fn() -> {unknown}, u128>
2187 "### 2188 "#]],
2188 ); 2189 );
2189} 2190}
diff --git a/crates/ra_hir_ty/src/tests/traits.rs b/crates/ra_hir_ty/src/tests/traits.rs
index 27737fa94..d3c4d3f2a 100644
--- a/crates/ra_hir_ty/src/tests/traits.rs
+++ b/crates/ra_hir_ty/src/tests/traits.rs
@@ -1,7 +1,7 @@
1use insta::assert_snapshot; 1use expect::expect;
2use test_utils::mark; 2use test_utils::mark;
3 3
4use super::{check_types, infer, infer_with_mismatches}; 4use super::{check_infer, check_infer_with_mismatches, check_types};
5 5
6#[test] 6#[test]
7fn infer_await() { 7fn infer_await() {
@@ -38,7 +38,7 @@ fn infer_async() {
38 r#" 38 r#"
39//- /main.rs crate:main deps:core 39//- /main.rs crate:main deps:core
40async fn foo() -> u64 { 40async fn foo() -> u64 {
41 128 41 128
42} 42}
43 43
44fn test() { 44fn test() {
@@ -65,7 +65,7 @@ fn infer_desugar_async() {
65 r#" 65 r#"
66//- /main.rs crate:main deps:core 66//- /main.rs crate:main deps:core
67async fn foo() -> u64 { 67async fn foo() -> u64 {
68 128 68 128
69} 69}
70 70
71fn test() { 71fn test() {
@@ -222,291 +222,291 @@ mod ops {
222 222
223#[test] 223#[test]
224fn infer_from_bound_1() { 224fn infer_from_bound_1() {
225 assert_snapshot!( 225 check_infer(
226 infer(r#" 226 r#"
227trait Trait<T> {} 227 trait Trait<T> {}
228struct S<T>(T); 228 struct S<T>(T);
229impl<U> Trait<U> for S<U> {} 229 impl<U> Trait<U> for S<U> {}
230fn foo<T: Trait<u32>>(t: T) {} 230 fn foo<T: Trait<u32>>(t: T) {}
231fn test() { 231 fn test() {
232 let s = S(unknown); 232 let s = S(unknown);
233 foo(s); 233 foo(s);
234} 234 }
235"#), 235 "#,
236 @r###" 236 expect![[r#"
237 85..86 't': T 237 85..86 't': T
238 91..93 '{}': () 238 91..93 '{}': ()
239 104..143 '{ ...(s); }': () 239 104..143 '{ ...(s); }': ()
240 114..115 's': S<u32> 240 114..115 's': S<u32>
241 118..119 'S': S<u32>(u32) -> S<u32> 241 118..119 'S': S<u32>(u32) -> S<u32>
242 118..128 'S(unknown)': S<u32> 242 118..128 'S(unknown)': S<u32>
243 120..127 'unknown': u32 243 120..127 'unknown': u32
244 134..137 'foo': fn foo<S<u32>>(S<u32>) 244 134..137 'foo': fn foo<S<u32>>(S<u32>)
245 134..140 'foo(s)': () 245 134..140 'foo(s)': ()
246 138..139 's': S<u32> 246 138..139 's': S<u32>
247 "### 247 "#]],
248 ); 248 );
249} 249}
250 250
251#[test] 251#[test]
252fn infer_from_bound_2() { 252fn infer_from_bound_2() {
253 assert_snapshot!( 253 check_infer(
254 infer(r#" 254 r#"
255trait Trait<T> {} 255 trait Trait<T> {}
256struct S<T>(T); 256 struct S<T>(T);
257impl<U> Trait<U> for S<U> {} 257 impl<U> Trait<U> for S<U> {}
258fn foo<U, T: Trait<U>>(t: T) -> U {} 258 fn foo<U, T: Trait<U>>(t: T) -> U {}
259fn test() { 259 fn test() {
260 let s = S(unknown); 260 let s = S(unknown);
261 let x: u32 = foo(s); 261 let x: u32 = foo(s);
262} 262 }
263"#), 263 "#,
264 @r###" 264 expect![[r#"
265 86..87 't': T 265 86..87 't': T
266 97..99 '{}': () 266 97..99 '{}': ()
267 110..162 '{ ...(s); }': () 267 110..162 '{ ...(s); }': ()
268 120..121 's': S<u32> 268 120..121 's': S<u32>
269 124..125 'S': S<u32>(u32) -> S<u32> 269 124..125 'S': S<u32>(u32) -> S<u32>
270 124..134 'S(unknown)': S<u32> 270 124..134 'S(unknown)': S<u32>
271 126..133 'unknown': u32 271 126..133 'unknown': u32
272 144..145 'x': u32 272 144..145 'x': u32
273 153..156 'foo': fn foo<u32, S<u32>>(S<u32>) -> u32 273 153..156 'foo': fn foo<u32, S<u32>>(S<u32>) -> u32
274 153..159 'foo(s)': u32 274 153..159 'foo(s)': u32
275 157..158 's': S<u32> 275 157..158 's': S<u32>
276 "### 276 "#]],
277 ); 277 );
278} 278}
279 279
280#[test] 280#[test]
281fn trait_default_method_self_bound_implements_trait() { 281fn trait_default_method_self_bound_implements_trait() {
282 mark::check!(trait_self_implements_self); 282 mark::check!(trait_self_implements_self);
283 assert_snapshot!( 283 check_infer(
284 infer(r#" 284 r#"
285trait Trait { 285 trait Trait {
286 fn foo(&self) -> i64; 286 fn foo(&self) -> i64;
287 fn bar(&self) -> { 287 fn bar(&self) -> {
288 let x = self.foo(); 288 let x = self.foo();
289 } 289 }
290} 290 }
291"#), 291 "#,
292 @r###" 292 expect![[r#"
293 26..30 'self': &Self 293 26..30 'self': &Self
294 52..56 'self': &Self 294 52..56 'self': &Self
295 61..96 '{ ... }': () 295 61..96 '{ ... }': ()
296 75..76 'x': i64 296 75..76 'x': i64
297 79..83 'self': &Self 297 79..83 'self': &Self
298 79..89 'self.foo()': i64 298 79..89 'self.foo()': i64
299 "### 299 "#]],
300 ); 300 );
301} 301}
302 302
303#[test] 303#[test]
304fn trait_default_method_self_bound_implements_super_trait() { 304fn trait_default_method_self_bound_implements_super_trait() {
305 assert_snapshot!( 305 check_infer(
306 infer(r#" 306 r#"
307trait SuperTrait { 307 trait SuperTrait {
308 fn foo(&self) -> i64; 308 fn foo(&self) -> i64;
309} 309 }
310trait Trait: SuperTrait { 310 trait Trait: SuperTrait {
311 fn bar(&self) -> { 311 fn bar(&self) -> {
312 let x = self.foo(); 312 let x = self.foo();
313 } 313 }
314} 314 }
315"#), 315 "#,
316 @r###" 316 expect![[r#"
317 31..35 'self': &Self 317 31..35 'self': &Self
318 85..89 'self': &Self 318 85..89 'self': &Self
319 94..129 '{ ... }': () 319 94..129 '{ ... }': ()
320 108..109 'x': i64 320 108..109 'x': i64
321 112..116 'self': &Self 321 112..116 'self': &Self
322 112..122 'self.foo()': i64 322 112..122 'self.foo()': i64
323 "### 323 "#]],
324 ); 324 );
325} 325}
326 326
327#[test] 327#[test]
328fn infer_project_associated_type() { 328fn infer_project_associated_type() {
329 assert_snapshot!( 329 check_infer(
330 infer(r#" 330 r#"
331trait Iterable { 331 trait Iterable {
332 type Item; 332 type Item;
333} 333 }
334struct S; 334 struct S;
335impl Iterable for S { type Item = u32; } 335 impl Iterable for S { type Item = u32; }
336fn test<T: Iterable>() { 336 fn test<T: Iterable>() {
337 let x: <S as Iterable>::Item = 1; 337 let x: <S as Iterable>::Item = 1;
338 let y: <T as Iterable>::Item = no_matter; 338 let y: <T as Iterable>::Item = no_matter;
339 let z: T::Item = no_matter; 339 let z: T::Item = no_matter;
340 let a: <T>::Item = no_matter; 340 let a: <T>::Item = no_matter;
341} 341 }
342"#), 342 "#,
343 @r###" 343 expect![[r#"
344 107..260 '{ ...ter; }': () 344 108..261 '{ ...ter; }': ()
345 117..118 'x': u32 345 118..119 'x': u32
346 144..145 '1': u32 346 145..146 '1': u32
347 155..156 'y': Iterable::Item<T> 347 156..157 'y': Iterable::Item<T>
348 182..191 'no_matter': Iterable::Item<T> 348 183..192 'no_matter': Iterable::Item<T>
349 201..202 'z': Iterable::Item<T> 349 202..203 'z': Iterable::Item<T>
350 214..223 'no_matter': Iterable::Item<T> 350 215..224 'no_matter': Iterable::Item<T>
351 233..234 'a': Iterable::Item<T> 351 234..235 'a': Iterable::Item<T>
352 248..257 'no_matter': Iterable::Item<T> 352 249..258 'no_matter': Iterable::Item<T>
353 "### 353 "#]],
354 ); 354 );
355} 355}
356 356
357#[test] 357#[test]
358fn infer_return_associated_type() { 358fn infer_return_associated_type() {
359 assert_snapshot!( 359 check_infer(
360 infer(r#" 360 r#"
361trait Iterable { 361 trait Iterable {
362 type Item; 362 type Item;
363} 363 }
364struct S; 364 struct S;
365impl Iterable for S { type Item = u32; } 365 impl Iterable for S { type Item = u32; }
366fn foo1<T: Iterable>(t: T) -> T::Item {} 366 fn foo1<T: Iterable>(t: T) -> T::Item {}
367fn foo2<T: Iterable>(t: T) -> <T as Iterable>::Item {} 367 fn foo2<T: Iterable>(t: T) -> <T as Iterable>::Item {}
368fn foo3<T: Iterable>(t: T) -> <T>::Item {} 368 fn foo3<T: Iterable>(t: T) -> <T>::Item {}
369fn test() { 369 fn test() {
370 let x = foo1(S); 370 let x = foo1(S);
371 let y = foo2(S); 371 let y = foo2(S);
372 let z = foo3(S); 372 let z = foo3(S);
373} 373 }
374"#), 374 "#,
375 @r###" 375 expect![[r#"
376 105..106 't': T 376 106..107 't': T
377 122..124 '{}': () 377 123..125 '{}': ()
378 146..147 't': T 378 147..148 't': T
379 177..179 '{}': () 379 178..180 '{}': ()
380 201..202 't': T 380 202..203 't': T
381 220..222 '{}': () 381 221..223 '{}': ()
382 233..299 '{ ...(S); }': () 382 234..300 '{ ...(S); }': ()
383 243..244 'x': u32 383 244..245 'x': u32
384 247..251 'foo1': fn foo1<S>(S) -> <S as Iterable>::Item 384 248..252 'foo1': fn foo1<S>(S) -> <S as Iterable>::Item
385 247..254 'foo1(S)': u32 385 248..255 'foo1(S)': u32
386 252..253 'S': S 386 253..254 'S': S
387 264..265 'y': u32 387 265..266 'y': u32
388 268..272 'foo2': fn foo2<S>(S) -> <S as Iterable>::Item 388 269..273 'foo2': fn foo2<S>(S) -> <S as Iterable>::Item
389 268..275 'foo2(S)': u32 389 269..276 'foo2(S)': u32
390 273..274 'S': S 390 274..275 'S': S
391 285..286 'z': u32 391 286..287 'z': u32
392 289..293 'foo3': fn foo3<S>(S) -> <S as Iterable>::Item 392 290..294 'foo3': fn foo3<S>(S) -> <S as Iterable>::Item
393 289..296 'foo3(S)': u32 393 290..297 'foo3(S)': u32
394 294..295 'S': S 394 295..296 'S': S
395 "### 395 "#]],
396 ); 396 );
397} 397}
398 398
399#[test] 399#[test]
400fn infer_associated_type_bound() { 400fn infer_associated_type_bound() {
401 assert_snapshot!( 401 check_infer(
402 infer(r#" 402 r#"
403trait Iterable { 403 trait Iterable {
404 type Item; 404 type Item;
405} 405 }
406fn test<T: Iterable<Item=u32>>() { 406 fn test<T: Iterable<Item=u32>>() {
407 let y: T::Item = unknown; 407 let y: T::Item = unknown;
408} 408 }
409"#), 409 "#,
410 @r###" 410 expect![[r#"
411 66..99 '{ ...own; }': () 411 67..100 '{ ...own; }': ()
412 76..77 'y': u32 412 77..78 'y': u32
413 89..96 'unknown': u32 413 90..97 'unknown': u32
414 "### 414 "#]],
415 ); 415 );
416} 416}
417 417
418#[test] 418#[test]
419fn infer_const_body() { 419fn infer_const_body() {
420 assert_snapshot!( 420 check_infer(
421 infer(r#" 421 r#"
422const A: u32 = 1 + 1; 422 const A: u32 = 1 + 1;
423static B: u64 = { let x = 1; x }; 423 static B: u64 = { let x = 1; x };
424"#), 424 "#,
425 @r###" 425 expect![[r#"
426 15..16 '1': u32 426 15..16 '1': u32
427 15..20 '1 + 1': u32 427 15..20 '1 + 1': u32
428 19..20 '1': u32 428 19..20 '1': u32
429 38..54 '{ let ...1; x }': u64 429 38..54 '{ let ...1; x }': u64
430 44..45 'x': u64 430 44..45 'x': u64
431 48..49 '1': u64 431 48..49 '1': u64
432 51..52 'x': u64 432 51..52 'x': u64
433 "### 433 "#]],
434 ); 434 );
435} 435}
436 436
437#[test] 437#[test]
438fn tuple_struct_fields() { 438fn tuple_struct_fields() {
439 assert_snapshot!( 439 check_infer(
440 infer(r#" 440 r#"
441struct S(i32, u64); 441 struct S(i32, u64);
442fn test() -> u64 { 442 fn test() -> u64 {
443 let a = S(4, 6); 443 let a = S(4, 6);
444 let b = a.0; 444 let b = a.0;
445 a.1 445 a.1
446} 446 }
447"#), 447 "#,
448 @r###" 448 expect![[r#"
449 37..86 '{ ... a.1 }': u64 449 37..86 '{ ... a.1 }': u64
450 47..48 'a': S 450 47..48 'a': S
451 51..52 'S': S(i32, u64) -> S 451 51..52 'S': S(i32, u64) -> S
452 51..58 'S(4, 6)': S 452 51..58 'S(4, 6)': S
453 53..54 '4': i32 453 53..54 '4': i32
454 56..57 '6': u64 454 56..57 '6': u64
455 68..69 'b': i32 455 68..69 'b': i32
456 72..73 'a': S 456 72..73 'a': S
457 72..75 'a.0': i32 457 72..75 'a.0': i32
458 81..82 'a': S 458 81..82 'a': S
459 81..84 'a.1': u64 459 81..84 'a.1': u64
460 "### 460 "#]],
461 ); 461 );
462} 462}
463 463
464#[test] 464#[test]
465fn tuple_struct_with_fn() { 465fn tuple_struct_with_fn() {
466 assert_snapshot!( 466 check_infer(
467 infer(r#" 467 r#"
468struct S(fn(u32) -> u64); 468 struct S(fn(u32) -> u64);
469fn test() -> u64 { 469 fn test() -> u64 {
470 let a = S(|i| 2*i); 470 let a = S(|i| 2*i);
471 let b = a.0(4); 471 let b = a.0(4);
472 a.0(2) 472 a.0(2)
473} 473 }
474"#), 474 "#,
475 @r###" 475 expect![[r#"
476 43..101 '{ ...0(2) }': u64 476 43..101 '{ ...0(2) }': u64
477 53..54 'a': S 477 53..54 'a': S
478 57..58 'S': S(fn(u32) -> u64) -> S 478 57..58 'S': S(fn(u32) -> u64) -> S
479 57..67 'S(|i| 2*i)': S 479 57..67 'S(|i| 2*i)': S
480 59..66 '|i| 2*i': |u32| -> u64 480 59..66 '|i| 2*i': |u32| -> u64
481 60..61 'i': u32 481 60..61 'i': u32
482 63..64 '2': u32 482 63..64 '2': u32
483 63..66 '2*i': u32 483 63..66 '2*i': u32
484 65..66 'i': u32 484 65..66 'i': u32
485 77..78 'b': u64 485 77..78 'b': u64
486 81..82 'a': S 486 81..82 'a': S
487 81..84 'a.0': fn(u32) -> u64 487 81..84 'a.0': fn(u32) -> u64
488 81..87 'a.0(4)': u64 488 81..87 'a.0(4)': u64
489 85..86 '4': u32 489 85..86 '4': u32
490 93..94 'a': S 490 93..94 'a': S
491 93..96 'a.0': fn(u32) -> u64 491 93..96 'a.0': fn(u32) -> u64
492 93..99 'a.0(2)': u64 492 93..99 'a.0(2)': u64
493 97..98 '2': u32 493 97..98 '2': u32
494 "### 494 "#]],
495 ); 495 );
496} 496}
497 497
498#[test] 498#[test]
499fn indexing_arrays() { 499fn indexing_arrays() {
500 assert_snapshot!( 500 check_infer(
501 infer("fn main() { &mut [9][2]; }"), 501 "fn main() { &mut [9][2]; }",
502 @r###" 502 expect![[r#"
503 10..26 '{ &mut...[2]; }': () 503 10..26 '{ &mut...[2]; }': ()
504 12..23 '&mut [9][2]': &mut {unknown} 504 12..23 '&mut [9][2]': &mut {unknown}
505 17..20 '[9]': [i32; _] 505 17..20 '[9]': [i32; _]
506 17..23 '[9][2]': {unknown} 506 17..23 '[9][2]': {unknown}
507 18..19 '9': i32 507 18..19 '9': i32
508 21..22 '2': i32 508 21..22 '2': i32
509 "### 509 "#]],
510 ) 510 )
511} 511}
512 512
@@ -908,476 +908,475 @@ fn test<T: ApplyL>(t: T) {
908 908
909#[test] 909#[test]
910fn argument_impl_trait() { 910fn argument_impl_trait() {
911 assert_snapshot!( 911 check_infer_with_mismatches(
912 infer_with_mismatches(r#" 912 r#"
913trait Trait<T> { 913 trait Trait<T> {
914 fn foo(&self) -> T; 914 fn foo(&self) -> T;
915 fn foo2(&self) -> i64; 915 fn foo2(&self) -> i64;
916} 916 }
917fn bar(x: impl Trait<u16>) {} 917 fn bar(x: impl Trait<u16>) {}
918struct S<T>(T); 918 struct S<T>(T);
919impl<T> Trait<T> for S<T> {} 919 impl<T> Trait<T> for S<T> {}
920 920
921fn test(x: impl Trait<u64>, y: &impl Trait<u32>) { 921 fn test(x: impl Trait<u64>, y: &impl Trait<u32>) {
922 x; 922 x;
923 y; 923 y;
924 let z = S(1); 924 let z = S(1);
925 bar(z); 925 bar(z);
926 x.foo(); 926 x.foo();
927 y.foo(); 927 y.foo();
928 z.foo(); 928 z.foo();
929 x.foo2(); 929 x.foo2();
930 y.foo2(); 930 y.foo2();
931 z.foo2(); 931 z.foo2();
932} 932 }
933"#, true), 933 "#,
934 @r###" 934 expect![[r#"
935 29..33 'self': &Self 935 29..33 'self': &Self
936 54..58 'self': &Self 936 54..58 'self': &Self
937 77..78 'x': impl Trait<u16> 937 77..78 'x': impl Trait<u16>
938 97..99 '{}': () 938 97..99 '{}': ()
939 154..155 'x': impl Trait<u64> 939 154..155 'x': impl Trait<u64>
940 174..175 'y': &impl Trait<u32> 940 174..175 'y': &impl Trait<u32>
941 195..323 '{ ...2(); }': () 941 195..323 '{ ...2(); }': ()
942 201..202 'x': impl Trait<u64> 942 201..202 'x': impl Trait<u64>
943 208..209 'y': &impl Trait<u32> 943 208..209 'y': &impl Trait<u32>
944 219..220 'z': S<u16> 944 219..220 'z': S<u16>
945 223..224 'S': S<u16>(u16) -> S<u16> 945 223..224 'S': S<u16>(u16) -> S<u16>
946 223..227 'S(1)': S<u16> 946 223..227 'S(1)': S<u16>
947 225..226 '1': u16 947 225..226 '1': u16
948 233..236 'bar': fn bar(S<u16>) 948 233..236 'bar': fn bar(S<u16>)
949 233..239 'bar(z)': () 949 233..239 'bar(z)': ()
950 237..238 'z': S<u16> 950 237..238 'z': S<u16>
951 245..246 'x': impl Trait<u64> 951 245..246 'x': impl Trait<u64>
952 245..252 'x.foo()': u64 952 245..252 'x.foo()': u64
953 258..259 'y': &impl Trait<u32> 953 258..259 'y': &impl Trait<u32>
954 258..265 'y.foo()': u32 954 258..265 'y.foo()': u32
955 271..272 'z': S<u16> 955 271..272 'z': S<u16>
956 271..278 'z.foo()': u16 956 271..278 'z.foo()': u16
957 284..285 'x': impl Trait<u64> 957 284..285 'x': impl Trait<u64>
958 284..292 'x.foo2()': i64 958 284..292 'x.foo2()': i64
959 298..299 'y': &impl Trait<u32> 959 298..299 'y': &impl Trait<u32>
960 298..306 'y.foo2()': i64 960 298..306 'y.foo2()': i64
961 312..313 'z': S<u16> 961 312..313 'z': S<u16>
962 312..320 'z.foo2()': i64 962 312..320 'z.foo2()': i64
963 "### 963 "#]],
964 ); 964 );
965} 965}
966 966
967#[test] 967#[test]
968fn argument_impl_trait_type_args_1() { 968fn argument_impl_trait_type_args_1() {
969 assert_snapshot!( 969 check_infer_with_mismatches(
970 infer_with_mismatches(r#" 970 r#"
971trait Trait {} 971 trait Trait {}
972trait Foo { 972 trait Foo {
973 // this function has an implicit Self param, an explicit type param, 973 // this function has an implicit Self param, an explicit type param,
974 // and an implicit impl Trait param! 974 // and an implicit impl Trait param!
975 fn bar<T>(x: impl Trait) -> T { loop {} } 975 fn bar<T>(x: impl Trait) -> T { loop {} }
976} 976 }
977fn foo<T>(x: impl Trait) -> T { loop {} } 977 fn foo<T>(x: impl Trait) -> T { loop {} }
978struct S; 978 struct S;
979impl Trait for S {} 979 impl Trait for S {}
980struct F; 980 struct F;
981impl Foo for F {} 981 impl Foo for F {}
982 982
983fn test() { 983 fn test() {
984 Foo::bar(S); 984 Foo::bar(S);
985 <F as Foo>::bar(S); 985 <F as Foo>::bar(S);
986 F::bar(S); 986 F::bar(S);
987 Foo::bar::<u32>(S); 987 Foo::bar::<u32>(S);
988 <F as Foo>::bar::<u32>(S); 988 <F as Foo>::bar::<u32>(S);
989 989
990 foo(S); 990 foo(S);
991 foo::<u32>(S); 991 foo::<u32>(S);
992 foo::<u32, i32>(S); // we should ignore the extraneous i32 992 foo::<u32, i32>(S); // we should ignore the extraneous i32
993} 993 }
994"#, true), 994 "#,
995 @r###" 995 expect![[r#"
996 155..156 'x': impl Trait 996 155..156 'x': impl Trait
997 175..186 '{ loop {} }': T 997 175..186 '{ loop {} }': T
998 177..184 'loop {}': ! 998 177..184 'loop {}': !
999 182..184 '{}': () 999 182..184 '{}': ()
1000 199..200 'x': impl Trait 1000 199..200 'x': impl Trait
1001 219..230 '{ loop {} }': T 1001 219..230 '{ loop {} }': T
1002 221..228 'loop {}': ! 1002 221..228 'loop {}': !
1003 226..228 '{}': () 1003 226..228 '{}': ()
1004 300..509 '{ ... i32 }': () 1004 300..509 '{ ... i32 }': ()
1005 306..314 'Foo::bar': fn bar<{unknown}, {unknown}>(S) -> {unknown} 1005 306..314 'Foo::bar': fn bar<{unknown}, {unknown}>(S) -> {unknown}
1006 306..317 'Foo::bar(S)': {unknown} 1006 306..317 'Foo::bar(S)': {unknown}
1007 315..316 'S': S 1007 315..316 'S': S
1008 323..338 '<F as Foo>::bar': fn bar<F, {unknown}>(S) -> {unknown} 1008 323..338 '<F as Foo>::bar': fn bar<F, {unknown}>(S) -> {unknown}
1009 323..341 '<F as ...bar(S)': {unknown} 1009 323..341 '<F as ...bar(S)': {unknown}
1010 339..340 'S': S 1010 339..340 'S': S
1011 347..353 'F::bar': fn bar<F, {unknown}>(S) -> {unknown} 1011 347..353 'F::bar': fn bar<F, {unknown}>(S) -> {unknown}
1012 347..356 'F::bar(S)': {unknown} 1012 347..356 'F::bar(S)': {unknown}
1013 354..355 'S': S 1013 354..355 'S': S
1014 362..377 'Foo::bar::<u32>': fn bar<{unknown}, u32>(S) -> u32 1014 362..377 'Foo::bar::<u32>': fn bar<{unknown}, u32>(S) -> u32
1015 362..380 'Foo::b...32>(S)': u32 1015 362..380 'Foo::b...32>(S)': u32
1016 378..379 'S': S 1016 378..379 'S': S
1017 386..408 '<F as ...:<u32>': fn bar<F, u32>(S) -> u32 1017 386..408 '<F as ...:<u32>': fn bar<F, u32>(S) -> u32
1018 386..411 '<F as ...32>(S)': u32 1018 386..411 '<F as ...32>(S)': u32
1019 409..410 'S': S 1019 409..410 'S': S
1020 418..421 'foo': fn foo<{unknown}>(S) -> {unknown} 1020 418..421 'foo': fn foo<{unknown}>(S) -> {unknown}
1021 418..424 'foo(S)': {unknown} 1021 418..424 'foo(S)': {unknown}
1022 422..423 'S': S 1022 422..423 'S': S
1023 430..440 'foo::<u32>': fn foo<u32>(S) -> u32 1023 430..440 'foo::<u32>': fn foo<u32>(S) -> u32
1024 430..443 'foo::<u32>(S)': u32 1024 430..443 'foo::<u32>(S)': u32
1025 441..442 'S': S 1025 441..442 'S': S
1026 449..464 'foo::<u32, i32>': fn foo<u32>(S) -> u32 1026 449..464 'foo::<u32, i32>': fn foo<u32>(S) -> u32
1027 449..467 'foo::<...32>(S)': u32 1027 449..467 'foo::<...32>(S)': u32
1028 465..466 'S': S 1028 465..466 'S': S
1029 "### 1029 "#]],
1030 ); 1030 );
1031} 1031}
1032 1032
1033#[test] 1033#[test]
1034fn argument_impl_trait_type_args_2() { 1034fn argument_impl_trait_type_args_2() {
1035 assert_snapshot!( 1035 check_infer_with_mismatches(
1036 infer_with_mismatches(r#" 1036 r#"
1037trait Trait {} 1037 trait Trait {}
1038struct S; 1038 struct S;
1039impl Trait for S {} 1039 impl Trait for S {}
1040struct F<T>; 1040 struct F<T>;
1041impl<T> F<T> { 1041 impl<T> F<T> {
1042 fn foo<U>(self, x: impl Trait) -> (T, U) { loop {} } 1042 fn foo<U>(self, x: impl Trait) -> (T, U) { loop {} }
1043} 1043 }
1044 1044
1045fn test() { 1045 fn test() {
1046 F.foo(S); 1046 F.foo(S);
1047 F::<u32>.foo(S); 1047 F::<u32>.foo(S);
1048 F::<u32>.foo::<i32>(S); 1048 F::<u32>.foo::<i32>(S);
1049 F::<u32>.foo::<i32, u32>(S); // extraneous argument should be ignored 1049 F::<u32>.foo::<i32, u32>(S); // extraneous argument should be ignored
1050} 1050 }
1051"#, true), 1051 "#,
1052 @r###" 1052 expect![[r#"
1053 87..91 'self': F<T> 1053 87..91 'self': F<T>
1054 93..94 'x': impl Trait 1054 93..94 'x': impl Trait
1055 118..129 '{ loop {} }': (T, U) 1055 118..129 '{ loop {} }': (T, U)
1056 120..127 'loop {}': ! 1056 120..127 'loop {}': !
1057 125..127 '{}': () 1057 125..127 '{}': ()
1058 143..283 '{ ...ored }': () 1058 143..283 '{ ...ored }': ()
1059 149..150 'F': F<{unknown}> 1059 149..150 'F': F<{unknown}>
1060 149..157 'F.foo(S)': ({unknown}, {unknown}) 1060 149..157 'F.foo(S)': ({unknown}, {unknown})
1061 155..156 'S': S 1061 155..156 'S': S
1062 163..171 'F::<u32>': F<u32> 1062 163..171 'F::<u32>': F<u32>
1063 163..178 'F::<u32>.foo(S)': (u32, {unknown}) 1063 163..178 'F::<u32>.foo(S)': (u32, {unknown})
1064 176..177 'S': S 1064 176..177 'S': S
1065 184..192 'F::<u32>': F<u32> 1065 184..192 'F::<u32>': F<u32>
1066 184..206 'F::<u3...32>(S)': (u32, i32) 1066 184..206 'F::<u3...32>(S)': (u32, i32)
1067 204..205 'S': S 1067 204..205 'S': S
1068 212..220 'F::<u32>': F<u32> 1068 212..220 'F::<u32>': F<u32>
1069 212..239 'F::<u3...32>(S)': (u32, i32) 1069 212..239 'F::<u3...32>(S)': (u32, i32)
1070 237..238 'S': S 1070 237..238 'S': S
1071 "### 1071 "#]],
1072 ); 1072 );
1073} 1073}
1074 1074
1075#[test] 1075#[test]
1076fn argument_impl_trait_to_fn_pointer() { 1076fn argument_impl_trait_to_fn_pointer() {
1077 assert_snapshot!( 1077 check_infer_with_mismatches(
1078 infer_with_mismatches(r#" 1078 r#"
1079trait Trait {} 1079 trait Trait {}
1080fn foo(x: impl Trait) { loop {} } 1080 fn foo(x: impl Trait) { loop {} }
1081struct S; 1081 struct S;
1082impl Trait for S {} 1082 impl Trait for S {}
1083 1083
1084fn test() { 1084 fn test() {
1085 let f: fn(S) -> () = foo; 1085 let f: fn(S) -> () = foo;
1086} 1086 }
1087"#, true), 1087 "#,
1088 @r###" 1088 expect![[r#"
1089 22..23 'x': impl Trait 1089 22..23 'x': impl Trait
1090 37..48 '{ loop {} }': () 1090 37..48 '{ loop {} }': ()
1091 39..46 'loop {}': ! 1091 39..46 'loop {}': !
1092 44..46 '{}': () 1092 44..46 '{}': ()
1093 90..123 '{ ...foo; }': () 1093 90..123 '{ ...foo; }': ()
1094 100..101 'f': fn(S) 1094 100..101 'f': fn(S)
1095 117..120 'foo': fn foo(S) 1095 117..120 'foo': fn foo(S)
1096 "### 1096 "#]],
1097 ); 1097 );
1098} 1098}
1099 1099
1100#[test] 1100#[test]
1101fn impl_trait() { 1101fn impl_trait() {
1102 assert_snapshot!( 1102 check_infer(
1103 infer(r#" 1103 r#"
1104trait Trait<T> { 1104 trait Trait<T> {
1105 fn foo(&self) -> T; 1105 fn foo(&self) -> T;
1106 fn foo2(&self) -> i64; 1106 fn foo2(&self) -> i64;
1107} 1107 }
1108fn bar() -> impl Trait<u64> {} 1108 fn bar() -> impl Trait<u64> {}
1109 1109
1110fn test(x: impl Trait<u64>, y: &impl Trait<u64>) { 1110 fn test(x: impl Trait<u64>, y: &impl Trait<u64>) {
1111 x; 1111 x;
1112 y; 1112 y;
1113 let z = bar(); 1113 let z = bar();
1114 x.foo(); 1114 x.foo();
1115 y.foo(); 1115 y.foo();
1116 z.foo(); 1116 z.foo();
1117 x.foo2(); 1117 x.foo2();
1118 y.foo2(); 1118 y.foo2();
1119 z.foo2(); 1119 z.foo2();
1120} 1120 }
1121"#), 1121 "#,
1122 @r###" 1122 expect![[r#"
1123 29..33 'self': &Self 1123 29..33 'self': &Self
1124 54..58 'self': &Self 1124 54..58 'self': &Self
1125 98..100 '{}': () 1125 98..100 '{}': ()
1126 110..111 'x': impl Trait<u64> 1126 110..111 'x': impl Trait<u64>
1127 130..131 'y': &impl Trait<u64> 1127 130..131 'y': &impl Trait<u64>
1128 151..268 '{ ...2(); }': () 1128 151..268 '{ ...2(); }': ()
1129 157..158 'x': impl Trait<u64> 1129 157..158 'x': impl Trait<u64>
1130 164..165 'y': &impl Trait<u64> 1130 164..165 'y': &impl Trait<u64>
1131 175..176 'z': impl Trait<u64> 1131 175..176 'z': impl Trait<u64>
1132 179..182 'bar': fn bar() -> impl Trait<u64> 1132 179..182 'bar': fn bar() -> impl Trait<u64>
1133 179..184 'bar()': impl Trait<u64> 1133 179..184 'bar()': impl Trait<u64>
1134 190..191 'x': impl Trait<u64> 1134 190..191 'x': impl Trait<u64>
1135 190..197 'x.foo()': u64 1135 190..197 'x.foo()': u64
1136 203..204 'y': &impl Trait<u64> 1136 203..204 'y': &impl Trait<u64>
1137 203..210 'y.foo()': u64 1137 203..210 'y.foo()': u64
1138 216..217 'z': impl Trait<u64> 1138 216..217 'z': impl Trait<u64>
1139 216..223 'z.foo()': u64 1139 216..223 'z.foo()': u64
1140 229..230 'x': impl Trait<u64> 1140 229..230 'x': impl Trait<u64>
1141 229..237 'x.foo2()': i64 1141 229..237 'x.foo2()': i64
1142 243..244 'y': &impl Trait<u64> 1142 243..244 'y': &impl Trait<u64>
1143 243..251 'y.foo2()': i64 1143 243..251 'y.foo2()': i64
1144 257..258 'z': impl Trait<u64> 1144 257..258 'z': impl Trait<u64>
1145 257..265 'z.foo2()': i64 1145 257..265 'z.foo2()': i64
1146 "### 1146 "#]],
1147 ); 1147 );
1148} 1148}
1149 1149
1150#[test] 1150#[test]
1151fn simple_return_pos_impl_trait() { 1151fn simple_return_pos_impl_trait() {
1152 mark::check!(lower_rpit); 1152 mark::check!(lower_rpit);
1153 assert_snapshot!( 1153 check_infer(
1154 infer(r#" 1154 r#"
1155trait Trait<T> { 1155 trait Trait<T> {
1156 fn foo(&self) -> T; 1156 fn foo(&self) -> T;
1157} 1157 }
1158fn bar() -> impl Trait<u64> { loop {} } 1158 fn bar() -> impl Trait<u64> { loop {} }
1159 1159
1160fn test() { 1160 fn test() {
1161 let a = bar(); 1161 let a = bar();
1162 a.foo(); 1162 a.foo();
1163} 1163 }
1164"#), 1164 "#,
1165 @r###" 1165 expect![[r#"
1166 29..33 'self': &Self 1166 29..33 'self': &Self
1167 71..82 '{ loop {} }': ! 1167 71..82 '{ loop {} }': !
1168 73..80 'loop {}': ! 1168 73..80 'loop {}': !
1169 78..80 '{}': () 1169 78..80 '{}': ()
1170 94..129 '{ ...o(); }': () 1170 94..129 '{ ...o(); }': ()
1171 104..105 'a': impl Trait<u64> 1171 104..105 'a': impl Trait<u64>
1172 108..111 'bar': fn bar() -> impl Trait<u64> 1172 108..111 'bar': fn bar() -> impl Trait<u64>
1173 108..113 'bar()': impl Trait<u64> 1173 108..113 'bar()': impl Trait<u64>
1174 119..120 'a': impl Trait<u64> 1174 119..120 'a': impl Trait<u64>
1175 119..126 'a.foo()': u64 1175 119..126 'a.foo()': u64
1176 "### 1176 "#]],
1177 ); 1177 );
1178} 1178}
1179 1179
1180#[test] 1180#[test]
1181fn more_return_pos_impl_trait() { 1181fn more_return_pos_impl_trait() {
1182 assert_snapshot!( 1182 check_infer(
1183 infer(r#" 1183 r#"
1184trait Iterator { 1184 trait Iterator {
1185 type Item; 1185 type Item;
1186 fn next(&mut self) -> Self::Item; 1186 fn next(&mut self) -> Self::Item;
1187} 1187 }
1188trait Trait<T> { 1188 trait Trait<T> {
1189 fn foo(&self) -> T; 1189 fn foo(&self) -> T;
1190} 1190 }
1191fn bar() -> (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>) { loop {} } 1191 fn bar() -> (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>) { loop {} }
1192fn baz<T>(t: T) -> (impl Iterator<Item = impl Trait<T>>, impl Trait<T>) { loop {} } 1192 fn baz<T>(t: T) -> (impl Iterator<Item = impl Trait<T>>, impl Trait<T>) { loop {} }
1193 1193
1194fn test() { 1194 fn test() {
1195 let (a, b) = bar(); 1195 let (a, b) = bar();
1196 a.next().foo(); 1196 a.next().foo();
1197 b.foo(); 1197 b.foo();
1198 let (c, d) = baz(1u128); 1198 let (c, d) = baz(1u128);
1199 c.next().foo(); 1199 c.next().foo();
1200 d.foo(); 1200 d.foo();
1201} 1201 }
1202"#), 1202 "#,
1203 @r###" 1203 expect![[r#"
1204 49..53 'self': &mut Self 1204 49..53 'self': &mut Self
1205 101..105 'self': &Self 1205 101..105 'self': &Self
1206 184..195 '{ loop {} }': ({unknown}, {unknown}) 1206 184..195 '{ loop {} }': ({unknown}, {unknown})
1207 186..193 'loop {}': ! 1207 186..193 'loop {}': !
1208 191..193 '{}': () 1208 191..193 '{}': ()
1209 206..207 't': T 1209 206..207 't': T
1210 268..279 '{ loop {} }': ({unknown}, {unknown}) 1210 268..279 '{ loop {} }': ({unknown}, {unknown})
1211 270..277 'loop {}': ! 1211 270..277 'loop {}': !
1212 275..277 '{}': () 1212 275..277 '{}': ()
1213 291..413 '{ ...o(); }': () 1213 291..413 '{ ...o(); }': ()
1214 301..307 '(a, b)': (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>) 1214 301..307 '(a, b)': (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>)
1215 302..303 'a': impl Iterator<Item = impl Trait<u32>> 1215 302..303 'a': impl Iterator<Item = impl Trait<u32>>
1216 305..306 'b': impl Trait<u64> 1216 305..306 'b': impl Trait<u64>
1217 310..313 'bar': fn bar() -> (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>) 1217 310..313 'bar': fn bar() -> (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>)
1218 310..315 'bar()': (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>) 1218 310..315 'bar()': (impl Iterator<Item = impl Trait<u32>>, impl Trait<u64>)
1219 321..322 'a': impl Iterator<Item = impl Trait<u32>> 1219 321..322 'a': impl Iterator<Item = impl Trait<u32>>
1220 321..329 'a.next()': impl Trait<u32> 1220 321..329 'a.next()': impl Trait<u32>
1221 321..335 'a.next().foo()': u32 1221 321..335 'a.next().foo()': u32
1222 341..342 'b': impl Trait<u64> 1222 341..342 'b': impl Trait<u64>
1223 341..348 'b.foo()': u64 1223 341..348 'b.foo()': u64
1224 358..364 '(c, d)': (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>) 1224 358..364 '(c, d)': (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>)
1225 359..360 'c': impl Iterator<Item = impl Trait<u128>> 1225 359..360 'c': impl Iterator<Item = impl Trait<u128>>
1226 362..363 'd': impl Trait<u128> 1226 362..363 'd': impl Trait<u128>
1227 367..370 'baz': fn baz<u128>(u128) -> (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>) 1227 367..370 'baz': fn baz<u128>(u128) -> (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>)
1228 367..377 'baz(1u128)': (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>) 1228 367..377 'baz(1u128)': (impl Iterator<Item = impl Trait<u128>>, impl Trait<u128>)
1229 371..376 '1u128': u128 1229 371..376 '1u128': u128
1230 383..384 'c': impl Iterator<Item = impl Trait<u128>> 1230 383..384 'c': impl Iterator<Item = impl Trait<u128>>
1231 383..391 'c.next()': impl Trait<u128> 1231 383..391 'c.next()': impl Trait<u128>
1232 383..397 'c.next().foo()': u128 1232 383..397 'c.next().foo()': u128
1233 403..404 'd': impl Trait<u128> 1233 403..404 'd': impl Trait<u128>
1234 403..410 'd.foo()': u128 1234 403..410 'd.foo()': u128
1235 "### 1235 "#]],
1236 ); 1236 );
1237} 1237}
1238 1238
1239#[test] 1239#[test]
1240fn dyn_trait() { 1240fn dyn_trait() {
1241 assert_snapshot!( 1241 check_infer(
1242 infer(r#" 1242 r#"
1243trait Trait<T> { 1243 trait Trait<T> {
1244 fn foo(&self) -> T; 1244 fn foo(&self) -> T;
1245 fn foo2(&self) -> i64; 1245 fn foo2(&self) -> i64;
1246} 1246 }
1247fn bar() -> dyn Trait<u64> {} 1247 fn bar() -> dyn Trait<u64> {}
1248 1248
1249fn test(x: dyn Trait<u64>, y: &dyn Trait<u64>) { 1249 fn test(x: dyn Trait<u64>, y: &dyn Trait<u64>) {
1250 x; 1250 x;
1251 y; 1251 y;
1252 let z = bar(); 1252 let z = bar();
1253 x.foo(); 1253 x.foo();
1254 y.foo(); 1254 y.foo();
1255 z.foo(); 1255 z.foo();
1256 x.foo2(); 1256 x.foo2();
1257 y.foo2(); 1257 y.foo2();
1258 z.foo2(); 1258 z.foo2();
1259} 1259 }
1260"#), 1260 "#,
1261 @r###" 1261 expect![[r#"
1262 29..33 'self': &Self 1262 29..33 'self': &Self
1263 54..58 'self': &Self 1263 54..58 'self': &Self
1264 97..99 '{}': () 1264 97..99 '{}': ()
1265 109..110 'x': dyn Trait<u64> 1265 109..110 'x': dyn Trait<u64>
1266 128..129 'y': &dyn Trait<u64> 1266 128..129 'y': &dyn Trait<u64>
1267 148..265 '{ ...2(); }': () 1267 148..265 '{ ...2(); }': ()
1268 154..155 'x': dyn Trait<u64> 1268 154..155 'x': dyn Trait<u64>
1269 161..162 'y': &dyn Trait<u64> 1269 161..162 'y': &dyn Trait<u64>
1270 172..173 'z': dyn Trait<u64> 1270 172..173 'z': dyn Trait<u64>
1271 176..179 'bar': fn bar() -> dyn Trait<u64> 1271 176..179 'bar': fn bar() -> dyn Trait<u64>
1272 176..181 'bar()': dyn Trait<u64> 1272 176..181 'bar()': dyn Trait<u64>
1273 187..188 'x': dyn Trait<u64> 1273 187..188 'x': dyn Trait<u64>
1274 187..194 'x.foo()': u64 1274 187..194 'x.foo()': u64
1275 200..201 'y': &dyn Trait<u64> 1275 200..201 'y': &dyn Trait<u64>
1276 200..207 'y.foo()': u64 1276 200..207 'y.foo()': u64
1277 213..214 'z': dyn Trait<u64> 1277 213..214 'z': dyn Trait<u64>
1278 213..220 'z.foo()': u64 1278 213..220 'z.foo()': u64
1279 226..227 'x': dyn Trait<u64> 1279 226..227 'x': dyn Trait<u64>
1280 226..234 'x.foo2()': i64 1280 226..234 'x.foo2()': i64
1281 240..241 'y': &dyn Trait<u64> 1281 240..241 'y': &dyn Trait<u64>
1282 240..248 'y.foo2()': i64 1282 240..248 'y.foo2()': i64
1283 254..255 'z': dyn Trait<u64> 1283 254..255 'z': dyn Trait<u64>
1284 254..262 'z.foo2()': i64 1284 254..262 'z.foo2()': i64
1285 "### 1285 "#]],
1286 ); 1286 );
1287} 1287}
1288 1288
1289#[test] 1289#[test]
1290fn dyn_trait_in_impl() { 1290fn dyn_trait_in_impl() {
1291 assert_snapshot!( 1291 check_infer(
1292 infer(r#" 1292 r#"
1293trait Trait<T, U> { 1293 trait Trait<T, U> {
1294 fn foo(&self) -> (T, U); 1294 fn foo(&self) -> (T, U);
1295} 1295 }
1296struct S<T, U> {} 1296 struct S<T, U> {}
1297impl<T, U> S<T, U> { 1297 impl<T, U> S<T, U> {
1298 fn bar(&self) -> &dyn Trait<T, U> { loop {} } 1298 fn bar(&self) -> &dyn Trait<T, U> { loop {} }
1299} 1299 }
1300trait Trait2<T, U> { 1300 trait Trait2<T, U> {
1301 fn baz(&self) -> (T, U); 1301 fn baz(&self) -> (T, U);
1302} 1302 }
1303impl<T, U> Trait2<T, U> for dyn Trait<T, U> { } 1303 impl<T, U> Trait2<T, U> for dyn Trait<T, U> { }
1304 1304
1305fn test(s: S<u32, i32>) { 1305 fn test(s: S<u32, i32>) {
1306 s.bar().baz(); 1306 s.bar().baz();
1307} 1307 }
1308"#), 1308 "#,
1309 @r###" 1309 expect![[r#"
1310 32..36 'self': &Self 1310 32..36 'self': &Self
1311 102..106 'self': &S<T, U> 1311 102..106 'self': &S<T, U>
1312 128..139 '{ loop {} }': &dyn Trait<T, U> 1312 128..139 '{ loop {} }': &dyn Trait<T, U>
1313 130..137 'loop {}': ! 1313 130..137 'loop {}': !
1314 135..137 '{}': () 1314 135..137 '{}': ()
1315 175..179 'self': &Self 1315 175..179 'self': &Self
1316 251..252 's': S<u32, i32> 1316 251..252 's': S<u32, i32>
1317 267..289 '{ ...z(); }': () 1317 267..289 '{ ...z(); }': ()
1318 273..274 's': S<u32, i32> 1318 273..274 's': S<u32, i32>
1319 273..280 's.bar()': &dyn Trait<u32, i32> 1319 273..280 's.bar()': &dyn Trait<u32, i32>
1320 273..286 's.bar().baz()': (u32, i32) 1320 273..286 's.bar().baz()': (u32, i32)
1321 "### 1321 "#]],
1322 ); 1322 );
1323} 1323}
1324 1324
1325#[test] 1325#[test]
1326fn dyn_trait_bare() { 1326fn dyn_trait_bare() {
1327 assert_snapshot!( 1327 check_infer(
1328 infer(r#" 1328 r#"
1329trait Trait { 1329 trait Trait {
1330 fn foo(&self) -> u64; 1330 fn foo(&self) -> u64;
1331} 1331 }
1332fn bar() -> Trait {} 1332 fn bar() -> Trait {}
1333 1333
1334fn test(x: Trait, y: &Trait) -> u64 { 1334 fn test(x: Trait, y: &Trait) -> u64 {
1335 x; 1335 x;
1336 y; 1336 y;
1337 let z = bar(); 1337 let z = bar();
1338 x.foo(); 1338 x.foo();
1339 y.foo(); 1339 y.foo();
1340 z.foo(); 1340 z.foo();
1341} 1341 }
1342"#), 1342 "#,
1343 @r###" 1343 expect![[r#"
1344 26..30 'self': &Self 1344 26..30 'self': &Self
1345 60..62 '{}': () 1345 60..62 '{}': ()
1346 72..73 'x': dyn Trait 1346 72..73 'x': dyn Trait
1347 82..83 'y': &dyn Trait 1347 82..83 'y': &dyn Trait
1348 100..175 '{ ...o(); }': () 1348 100..175 '{ ...o(); }': ()
1349 106..107 'x': dyn Trait 1349 106..107 'x': dyn Trait
1350 113..114 'y': &dyn Trait 1350 113..114 'y': &dyn Trait
1351 124..125 'z': dyn Trait 1351 124..125 'z': dyn Trait
1352 128..131 'bar': fn bar() -> dyn Trait 1352 128..131 'bar': fn bar() -> dyn Trait
1353 128..133 'bar()': dyn Trait 1353 128..133 'bar()': dyn Trait
1354 139..140 'x': dyn Trait 1354 139..140 'x': dyn Trait
1355 139..146 'x.foo()': u64 1355 139..146 'x.foo()': u64
1356 152..153 'y': &dyn Trait 1356 152..153 'y': &dyn Trait
1357 152..159 'y.foo()': u64 1357 152..159 'y.foo()': u64
1358 165..166 'z': dyn Trait 1358 165..166 'z': dyn Trait
1359 165..172 'z.foo()': u64 1359 165..172 'z.foo()': u64
1360 "### 1360 "#]],
1361 ); 1361 );
1362} 1362}
1363 1363
1364#[test] 1364#[test]
1365fn weird_bounds() { 1365fn weird_bounds() {
1366 assert_snapshot!( 1366 check_infer(
1367 infer(r#" 1367 r#"
1368trait Trait {} 1368 trait Trait {}
1369fn test(a: impl Trait + 'lifetime, b: impl 'lifetime, c: impl (Trait), d: impl ('lifetime), e: impl ?Sized, f: impl Trait + ?Sized) { 1369 fn test(a: impl Trait + 'lifetime, b: impl 'lifetime, c: impl (Trait), d: impl ('lifetime), e: impl ?Sized, f: impl Trait + ?Sized) {}
1370} 1370 "#,
1371"#), 1371 expect![[r#"
1372 @r###" 1372 23..24 'a': impl Trait + {error}
1373 23..24 'a': impl Trait + {error} 1373 50..51 'b': impl {error}
1374 50..51 'b': impl {error} 1374 69..70 'c': impl Trait
1375 69..70 'c': impl Trait 1375 86..87 'd': impl {error}
1376 86..87 'd': impl {error} 1376 107..108 'e': impl {error}
1377 107..108 'e': impl {error} 1377 123..124 'f': impl Trait + {error}
1378 123..124 'f': impl Trait + {error} 1378 147..149 '{}': ()
1379 147..150 '{ }': () 1379 "#]],
1380 "###
1381 ); 1380 );
1382} 1381}
1383 1382
@@ -1399,66 +1398,66 @@ fn test(x: (impl Trait + UnknownTrait)) {
1399 1398
1400#[test] 1399#[test]
1401fn assoc_type_bindings() { 1400fn assoc_type_bindings() {
1402 assert_snapshot!( 1401 check_infer(
1403 infer(r#" 1402 r#"
1404trait Trait { 1403 trait Trait {
1405 type Type; 1404 type Type;
1406} 1405 }
1407
1408fn get<T: Trait>(t: T) -> <T as Trait>::Type {}
1409fn get2<U, T: Trait<Type = U>>(t: T) -> U {}
1410fn set<T: Trait<Type = u64>>(t: T) -> T {t}
1411 1406
1412struct S<T>; 1407 fn get<T: Trait>(t: T) -> <T as Trait>::Type {}
1413impl<T> Trait for S<T> { type Type = T; } 1408 fn get2<U, T: Trait<Type = U>>(t: T) -> U {}
1414 1409 fn set<T: Trait<Type = u64>>(t: T) -> T {t}
1415fn test<T: Trait<Type = u32>>(x: T, y: impl Trait<Type = i64>) { 1410
1416 get(x); 1411 struct S<T>;
1417 get2(x); 1412 impl<T> Trait for S<T> { type Type = T; }
1418 get(y); 1413
1419 get2(y); 1414 fn test<T: Trait<Type = u32>>(x: T, y: impl Trait<Type = i64>) {
1420 get(set(S)); 1415 get(x);
1421 get2(set(S)); 1416 get2(x);
1422 get2(S::<str>); 1417 get(y);
1423} 1418 get2(y);
1424"#), 1419 get(set(S));
1425 @r###" 1420 get2(set(S));
1426 49..50 't': T 1421 get2(S::<str>);
1427 77..79 '{}': () 1422 }
1428 111..112 't': T 1423 "#,
1429 122..124 '{}': () 1424 expect![[r#"
1430 154..155 't': T 1425 49..50 't': T
1431 165..168 '{t}': T 1426 77..79 '{}': ()
1432 166..167 't': T 1427 111..112 't': T
1433 256..257 'x': T 1428 122..124 '{}': ()
1434 262..263 'y': impl Trait<Type = i64> 1429 154..155 't': T
1435 289..397 '{ ...r>); }': () 1430 165..168 '{t}': T
1436 295..298 'get': fn get<T>(T) -> <T as Trait>::Type 1431 166..167 't': T
1437 295..301 'get(x)': u32 1432 256..257 'x': T
1438 299..300 'x': T 1433 262..263 'y': impl Trait<Type = i64>
1439 307..311 'get2': fn get2<u32, T>(T) -> u32 1434 289..397 '{ ...r>); }': ()
1440 307..314 'get2(x)': u32 1435 295..298 'get': fn get<T>(T) -> <T as Trait>::Type
1441 312..313 'x': T 1436 295..301 'get(x)': u32
1442 320..323 'get': fn get<impl Trait<Type = i64>>(impl Trait<Type = i64>) -> <impl Trait<Type = i64> as Trait>::Type 1437 299..300 'x': T
1443 320..326 'get(y)': i64 1438 307..311 'get2': fn get2<u32, T>(T) -> u32
1444 324..325 'y': impl Trait<Type = i64> 1439 307..314 'get2(x)': u32
1445 332..336 'get2': fn get2<i64, impl Trait<Type = i64>>(impl Trait<Type = i64>) -> i64 1440 312..313 'x': T
1446 332..339 'get2(y)': i64 1441 320..323 'get': fn get<impl Trait<Type = i64>>(impl Trait<Type = i64>) -> <impl Trait<Type = i64> as Trait>::Type
1447 337..338 'y': impl Trait<Type = i64> 1442 320..326 'get(y)': i64
1448 345..348 'get': fn get<S<u64>>(S<u64>) -> <S<u64> as Trait>::Type 1443 324..325 'y': impl Trait<Type = i64>
1449 345..356 'get(set(S))': u64 1444 332..336 'get2': fn get2<i64, impl Trait<Type = i64>>(impl Trait<Type = i64>) -> i64
1450 349..352 'set': fn set<S<u64>>(S<u64>) -> S<u64> 1445 332..339 'get2(y)': i64
1451 349..355 'set(S)': S<u64> 1446 337..338 'y': impl Trait<Type = i64>
1452 353..354 'S': S<u64> 1447 345..348 'get': fn get<S<u64>>(S<u64>) -> <S<u64> as Trait>::Type
1453 362..366 'get2': fn get2<u64, S<u64>>(S<u64>) -> u64 1448 345..356 'get(set(S))': u64
1454 362..374 'get2(set(S))': u64 1449 349..352 'set': fn set<S<u64>>(S<u64>) -> S<u64>
1455 367..370 'set': fn set<S<u64>>(S<u64>) -> S<u64> 1450 349..355 'set(S)': S<u64>
1456 367..373 'set(S)': S<u64> 1451 353..354 'S': S<u64>
1457 371..372 'S': S<u64> 1452 362..366 'get2': fn get2<u64, S<u64>>(S<u64>) -> u64
1458 380..384 'get2': fn get2<str, S<str>>(S<str>) -> str 1453 362..374 'get2(set(S))': u64
1459 380..394 'get2(S::<str>)': str 1454 367..370 'set': fn set<S<u64>>(S<u64>) -> S<u64>
1460 385..393 'S::<str>': S<str> 1455 367..373 'set(S)': S<u64>
1461 "### 1456 371..372 'S': S<u64>
1457 380..384 'get2': fn get2<str, S<str>>(S<str>) -> str
1458 380..394 'get2(S::<str>)': str
1459 385..393 'S::<str>': S<str>
1460 "#]],
1462 ); 1461 );
1463} 1462}
1464 1463
@@ -1506,27 +1505,27 @@ mod iter {
1506 1505
1507#[test] 1506#[test]
1508fn projection_eq_within_chalk() { 1507fn projection_eq_within_chalk() {
1509 assert_snapshot!( 1508 check_infer(
1510 infer(r#" 1509 r#"
1511trait Trait1 { 1510 trait Trait1 {
1512 type Type; 1511 type Type;
1513} 1512 }
1514trait Trait2<T> { 1513 trait Trait2<T> {
1515 fn foo(self) -> T; 1514 fn foo(self) -> T;
1516} 1515 }
1517impl<T, U> Trait2<T> for U where U: Trait1<Type = T> {} 1516 impl<T, U> Trait2<T> for U where U: Trait1<Type = T> {}
1518 1517
1519fn test<T: Trait1<Type = u32>>(x: T) { 1518 fn test<T: Trait1<Type = u32>>(x: T) {
1520 x.foo(); 1519 x.foo();
1521} 1520 }
1522"#), 1521 "#,
1523 @r###" 1522 expect![[r#"
1524 61..65 'self': Self 1523 61..65 'self': Self
1525 163..164 'x': T 1524 163..164 'x': T
1526 169..185 '{ ...o(); }': () 1525 169..185 '{ ...o(); }': ()
1527 175..176 'x': T 1526 175..176 'x': T
1528 175..182 'x.foo()': u32 1527 175..182 'x.foo()': u32
1529 "### 1528 "#]],
1530 ); 1529 );
1531} 1530}
1532 1531
@@ -1549,445 +1548,445 @@ fn test<T: foo::Trait>(x: T) {
1549 1548
1550#[test] 1549#[test]
1551fn super_trait_method_resolution() { 1550fn super_trait_method_resolution() {
1552 assert_snapshot!( 1551 check_infer(
1553 infer(r#" 1552 r#"
1554mod foo { 1553 mod foo {
1555 trait SuperTrait { 1554 trait SuperTrait {
1556 fn foo(&self) -> u32 {} 1555 fn foo(&self) -> u32 {}
1557 } 1556 }
1558} 1557 }
1559trait Trait1: foo::SuperTrait {} 1558 trait Trait1: foo::SuperTrait {}
1560trait Trait2 where Self: foo::SuperTrait {} 1559 trait Trait2 where Self: foo::SuperTrait {}
1561 1560
1562fn test<T: Trait1, U: Trait2>(x: T, y: U) { 1561 fn test<T: Trait1, U: Trait2>(x: T, y: U) {
1563 x.foo(); 1562 x.foo();
1564 y.foo(); 1563 y.foo();
1565} 1564 }
1566"#), 1565 "#,
1567 @r###" 1566 expect![[r#"
1568 49..53 'self': &Self 1567 49..53 'self': &Self
1569 62..64 '{}': () 1568 62..64 '{}': ()
1570 181..182 'x': T 1569 181..182 'x': T
1571 187..188 'y': U 1570 187..188 'y': U
1572 193..222 '{ ...o(); }': () 1571 193..222 '{ ...o(); }': ()
1573 199..200 'x': T 1572 199..200 'x': T
1574 199..206 'x.foo()': u32 1573 199..206 'x.foo()': u32
1575 212..213 'y': U 1574 212..213 'y': U
1576 212..219 'y.foo()': u32 1575 212..219 'y.foo()': u32
1577 "### 1576 "#]],
1578 ); 1577 );
1579} 1578}
1580 1579
1581#[test] 1580#[test]
1582fn super_trait_impl_trait_method_resolution() { 1581fn super_trait_impl_trait_method_resolution() {
1583 assert_snapshot!( 1582 check_infer(
1584 infer(r#" 1583 r#"
1585mod foo { 1584 mod foo {
1586 trait SuperTrait { 1585 trait SuperTrait {
1587 fn foo(&self) -> u32 {} 1586 fn foo(&self) -> u32 {}
1588 } 1587 }
1589} 1588 }
1590trait Trait1: foo::SuperTrait {} 1589 trait Trait1: foo::SuperTrait {}
1591 1590
1592fn test(x: &impl Trait1) { 1591 fn test(x: &impl Trait1) {
1593 x.foo(); 1592 x.foo();
1594} 1593 }
1595"#), 1594 "#,
1596 @r###" 1595 expect![[r#"
1597 49..53 'self': &Self 1596 49..53 'self': &Self
1598 62..64 '{}': () 1597 62..64 '{}': ()
1599 115..116 'x': &impl Trait1 1598 115..116 'x': &impl Trait1
1600 132..148 '{ ...o(); }': () 1599 132..148 '{ ...o(); }': ()
1601 138..139 'x': &impl Trait1 1600 138..139 'x': &impl Trait1
1602 138..145 'x.foo()': u32 1601 138..145 'x.foo()': u32
1603 "### 1602 "#]],
1604 ); 1603 );
1605} 1604}
1606 1605
1607#[test] 1606#[test]
1608fn super_trait_cycle() { 1607fn super_trait_cycle() {
1609 // This just needs to not crash 1608 // This just needs to not crash
1610 assert_snapshot!( 1609 check_infer(
1611 infer(r#" 1610 r#"
1612trait A: B {} 1611 trait A: B {}
1613trait B: A {} 1612 trait B: A {}
1614 1613
1615fn test<T: A>(x: T) { 1614 fn test<T: A>(x: T) {
1616 x.foo(); 1615 x.foo();
1617} 1616 }
1618"#), 1617 "#,
1619 @r###" 1618 expect![[r#"
1620 43..44 'x': T 1619 43..44 'x': T
1621 49..65 '{ ...o(); }': () 1620 49..65 '{ ...o(); }': ()
1622 55..56 'x': T 1621 55..56 'x': T
1623 55..62 'x.foo()': {unknown} 1622 55..62 'x.foo()': {unknown}
1624 "### 1623 "#]],
1625 ); 1624 );
1626} 1625}
1627 1626
1628#[test] 1627#[test]
1629fn super_trait_assoc_type_bounds() { 1628fn super_trait_assoc_type_bounds() {
1630 assert_snapshot!( 1629 check_infer(
1631 infer(r#" 1630 r#"
1632trait SuperTrait { type Type; } 1631 trait SuperTrait { type Type; }
1633trait Trait where Self: SuperTrait {} 1632 trait Trait where Self: SuperTrait {}
1634 1633
1635fn get2<U, T: Trait<Type = U>>(t: T) -> U {} 1634 fn get2<U, T: Trait<Type = U>>(t: T) -> U {}
1636fn set<T: Trait<Type = u64>>(t: T) -> T {t} 1635 fn set<T: Trait<Type = u64>>(t: T) -> T {t}
1637 1636
1638struct S<T>; 1637 struct S<T>;
1639impl<T> SuperTrait for S<T> { type Type = T; } 1638 impl<T> SuperTrait for S<T> { type Type = T; }
1640impl<T> Trait for S<T> {} 1639 impl<T> Trait for S<T> {}
1641 1640
1642fn test() { 1641 fn test() {
1643 get2(set(S)); 1642 get2(set(S));
1644} 1643 }
1645"#), 1644 "#,
1646 @r###" 1645 expect![[r#"
1647 102..103 't': T 1646 102..103 't': T
1648 113..115 '{}': () 1647 113..115 '{}': ()
1649 145..146 't': T 1648 145..146 't': T
1650 156..159 '{t}': T 1649 156..159 '{t}': T
1651 157..158 't': T 1650 157..158 't': T
1652 258..279 '{ ...S)); }': () 1651 258..279 '{ ...S)); }': ()
1653 264..268 'get2': fn get2<u64, S<u64>>(S<u64>) -> u64 1652 264..268 'get2': fn get2<u64, S<u64>>(S<u64>) -> u64
1654 264..276 'get2(set(S))': u64 1653 264..276 'get2(set(S))': u64
1655 269..272 'set': fn set<S<u64>>(S<u64>) -> S<u64> 1654 269..272 'set': fn set<S<u64>>(S<u64>) -> S<u64>
1656 269..275 'set(S)': S<u64> 1655 269..275 'set(S)': S<u64>
1657 273..274 'S': S<u64> 1656 273..274 'S': S<u64>
1658 "### 1657 "#]],
1659 ); 1658 );
1660} 1659}
1661 1660
1662#[test] 1661#[test]
1663fn fn_trait() { 1662fn fn_trait() {
1664 assert_snapshot!( 1663 check_infer(
1665 infer(r#" 1664 r#"
1666trait FnOnce<Args> { 1665 trait FnOnce<Args> {
1667 type Output; 1666 type Output;
1668 1667
1669 fn call_once(self, args: Args) -> <Self as FnOnce<Args>>::Output; 1668 fn call_once(self, args: Args) -> <Self as FnOnce<Args>>::Output;
1670} 1669 }
1671 1670
1672fn test<F: FnOnce(u32, u64) -> u128>(f: F) { 1671 fn test<F: FnOnce(u32, u64) -> u128>(f: F) {
1673 f.call_once((1, 2)); 1672 f.call_once((1, 2));
1674} 1673 }
1675"#), 1674 "#,
1676 @r###" 1675 expect![[r#"
1677 56..60 'self': Self 1676 56..60 'self': Self
1678 62..66 'args': Args 1677 62..66 'args': Args
1679 149..150 'f': F 1678 149..150 'f': F
1680 155..183 '{ ...2)); }': () 1679 155..183 '{ ...2)); }': ()
1681 161..162 'f': F 1680 161..162 'f': F
1682 161..180 'f.call...1, 2))': u128 1681 161..180 'f.call...1, 2))': u128
1683 173..179 '(1, 2)': (u32, u64) 1682 173..179 '(1, 2)': (u32, u64)
1684 174..175 '1': u32 1683 174..175 '1': u32
1685 177..178 '2': u64 1684 177..178 '2': u64
1686 "### 1685 "#]],
1687 ); 1686 );
1688} 1687}
1689 1688
1690#[test] 1689#[test]
1691fn fn_ptr_and_item() { 1690fn fn_ptr_and_item() {
1692 assert_snapshot!( 1691 check_infer(
1693 infer(r#" 1692 r#"
1694#[lang="fn_once"] 1693 #[lang="fn_once"]
1695trait FnOnce<Args> { 1694 trait FnOnce<Args> {
1696 type Output; 1695 type Output;
1697 1696
1698 fn call_once(self, args: Args) -> Self::Output; 1697 fn call_once(self, args: Args) -> Self::Output;
1699} 1698 }
1700 1699
1701trait Foo<T> { 1700 trait Foo<T> {
1702 fn foo(&self) -> T; 1701 fn foo(&self) -> T;
1703} 1702 }
1704 1703
1705struct Bar<T>(T); 1704 struct Bar<T>(T);
1706 1705
1707impl<A1, R, F: FnOnce(A1) -> R> Foo<(A1, R)> for Bar<F> { 1706 impl<A1, R, F: FnOnce(A1) -> R> Foo<(A1, R)> for Bar<F> {
1708 fn foo(&self) -> (A1, R) {} 1707 fn foo(&self) -> (A1, R) {}
1709} 1708 }
1710 1709
1711enum Opt<T> { None, Some(T) } 1710 enum Opt<T> { None, Some(T) }
1712impl<T> Opt<T> { 1711 impl<T> Opt<T> {
1713 fn map<U, F: FnOnce(T) -> U>(self, f: F) -> Opt<U> {} 1712 fn map<U, F: FnOnce(T) -> U>(self, f: F) -> Opt<U> {}
1714} 1713 }
1715 1714
1716fn test() { 1715 fn test() {
1717 let bar: Bar<fn(u8) -> u32>; 1716 let bar: Bar<fn(u8) -> u32>;
1718 bar.foo(); 1717 bar.foo();
1719 1718
1720 let opt: Opt<u8>; 1719 let opt: Opt<u8>;
1721 let f: fn(u8) -> u32; 1720 let f: fn(u8) -> u32;
1722 opt.map(f); 1721 opt.map(f);
1723} 1722 }
1724"#), 1723 "#,
1725 @r###" 1724 expect![[r#"
1726 74..78 'self': Self 1725 74..78 'self': Self
1727 80..84 'args': Args 1726 80..84 'args': Args
1728 139..143 'self': &Self 1727 139..143 'self': &Self
1729 243..247 'self': &Bar<F> 1728 243..247 'self': &Bar<F>
1730 260..262 '{}': () 1729 260..262 '{}': ()
1731 346..350 'self': Opt<T> 1730 346..350 'self': Opt<T>
1732 352..353 'f': F 1731 352..353 'f': F
1733 368..370 '{}': () 1732 368..370 '{}': ()
1734 384..500 '{ ...(f); }': () 1733 384..500 '{ ...(f); }': ()
1735 394..397 'bar': Bar<fn(u8) -> u32> 1734 394..397 'bar': Bar<fn(u8) -> u32>
1736 423..426 'bar': Bar<fn(u8) -> u32> 1735 423..426 'bar': Bar<fn(u8) -> u32>
1737 423..432 'bar.foo()': (u8, u32) 1736 423..432 'bar.foo()': (u8, u32)
1738 443..446 'opt': Opt<u8> 1737 443..446 'opt': Opt<u8>
1739 465..466 'f': fn(u8) -> u32 1738 465..466 'f': fn(u8) -> u32
1740 487..490 'opt': Opt<u8> 1739 487..490 'opt': Opt<u8>
1741 487..497 'opt.map(f)': Opt<u32> 1740 487..497 'opt.map(f)': Opt<u32>
1742 495..496 'f': fn(u8) -> u32 1741 495..496 'f': fn(u8) -> u32
1743 "### 1742 "#]],
1744 ); 1743 );
1745} 1744}
1746 1745
1747#[test] 1746#[test]
1748fn fn_trait_deref_with_ty_default() { 1747fn fn_trait_deref_with_ty_default() {
1749 assert_snapshot!( 1748 check_infer(
1750 infer(r#" 1749 r#"
1751#[lang = "deref"] 1750 #[lang = "deref"]
1752trait Deref { 1751 trait Deref {
1753 type Target; 1752 type Target;
1754 1753
1755 fn deref(&self) -> &Self::Target; 1754 fn deref(&self) -> &Self::Target;
1756} 1755 }
1757 1756
1758#[lang="fn_once"] 1757 #[lang="fn_once"]
1759trait FnOnce<Args> { 1758 trait FnOnce<Args> {
1760 type Output; 1759 type Output;
1761 1760
1762 fn call_once(self, args: Args) -> Self::Output; 1761 fn call_once(self, args: Args) -> Self::Output;
1763} 1762 }
1764 1763
1765struct Foo; 1764 struct Foo;
1766 1765
1767impl Foo { 1766 impl Foo {
1768 fn foo(&self) -> usize {} 1767 fn foo(&self) -> usize {}
1769} 1768 }
1770 1769
1771struct Lazy<T, F = fn() -> T>(F); 1770 struct Lazy<T, F = fn() -> T>(F);
1772 1771
1773impl<T, F> Lazy<T, F> { 1772 impl<T, F> Lazy<T, F> {
1774 pub fn new(f: F) -> Lazy<T, F> {} 1773 pub fn new(f: F) -> Lazy<T, F> {}
1775} 1774 }
1776 1775
1777impl<T, F: FnOnce() -> T> Deref for Lazy<T, F> { 1776 impl<T, F: FnOnce() -> T> Deref for Lazy<T, F> {
1778 type Target = T; 1777 type Target = T;
1779} 1778 }
1780 1779
1781fn test() { 1780 fn test() {
1782 let lazy1: Lazy<Foo, _> = Lazy::new(|| Foo); 1781 let lazy1: Lazy<Foo, _> = Lazy::new(|| Foo);
1783 let r1 = lazy1.foo(); 1782 let r1 = lazy1.foo();
1784 1783
1785 fn make_foo_fn() -> Foo {} 1784 fn make_foo_fn() -> Foo {}
1786 let make_foo_fn_ptr: fn() -> Foo = make_foo_fn; 1785 let make_foo_fn_ptr: fn() -> Foo = make_foo_fn;
1787 let lazy2: Lazy<Foo, _> = Lazy::new(make_foo_fn_ptr); 1786 let lazy2: Lazy<Foo, _> = Lazy::new(make_foo_fn_ptr);
1788 let r2 = lazy2.foo(); 1787 let r2 = lazy2.foo();
1789} 1788 }
1790"#), 1789 "#,
1791 @r###" 1790 expect![[r#"
1792 64..68 'self': &Self 1791 64..68 'self': &Self
1793 165..169 'self': Self 1792 165..169 'self': Self
1794 171..175 'args': Args 1793 171..175 'args': Args
1795 239..243 'self': &Foo 1794 239..243 'self': &Foo
1796 254..256 '{}': () 1795 254..256 '{}': ()
1797 334..335 'f': F 1796 334..335 'f': F
1798 354..356 '{}': () 1797 354..356 '{}': ()
1799 443..689 '{ ...o(); }': () 1798 443..689 '{ ...o(); }': ()
1800 453..458 'lazy1': Lazy<Foo, || -> Foo> 1799 453..458 'lazy1': Lazy<Foo, || -> Foo>
1801 475..484 'Lazy::new': fn new<Foo, || -> Foo>(|| -> Foo) -> Lazy<Foo, || -> Foo> 1800 475..484 'Lazy::new': fn new<Foo, || -> Foo>(|| -> Foo) -> Lazy<Foo, || -> Foo>
1802 475..492 'Lazy::...| Foo)': Lazy<Foo, || -> Foo> 1801 475..492 'Lazy::...| Foo)': Lazy<Foo, || -> Foo>
1803 485..491 '|| Foo': || -> Foo 1802 485..491 '|| Foo': || -> Foo
1804 488..491 'Foo': Foo 1803 488..491 'Foo': Foo
1805 502..504 'r1': usize 1804 502..504 'r1': usize
1806 507..512 'lazy1': Lazy<Foo, || -> Foo> 1805 507..512 'lazy1': Lazy<Foo, || -> Foo>
1807 507..518 'lazy1.foo()': usize 1806 507..518 'lazy1.foo()': usize
1808 560..575 'make_foo_fn_ptr': fn() -> Foo 1807 560..575 'make_foo_fn_ptr': fn() -> Foo
1809 591..602 'make_foo_fn': fn make_foo_fn() -> Foo 1808 591..602 'make_foo_fn': fn make_foo_fn() -> Foo
1810 612..617 'lazy2': Lazy<Foo, fn() -> Foo> 1809 612..617 'lazy2': Lazy<Foo, fn() -> Foo>
1811 634..643 'Lazy::new': fn new<Foo, fn() -> Foo>(fn() -> Foo) -> Lazy<Foo, fn() -> Foo> 1810 634..643 'Lazy::new': fn new<Foo, fn() -> Foo>(fn() -> Foo) -> Lazy<Foo, fn() -> Foo>
1812 634..660 'Lazy::...n_ptr)': Lazy<Foo, fn() -> Foo> 1811 634..660 'Lazy::...n_ptr)': Lazy<Foo, fn() -> Foo>
1813 644..659 'make_foo_fn_ptr': fn() -> Foo 1812 644..659 'make_foo_fn_ptr': fn() -> Foo
1814 670..672 'r2': usize 1813 670..672 'r2': usize
1815 675..680 'lazy2': Lazy<Foo, fn() -> Foo> 1814 675..680 'lazy2': Lazy<Foo, fn() -> Foo>
1816 675..686 'lazy2.foo()': usize 1815 675..686 'lazy2.foo()': usize
1817 549..551 '{}': () 1816 549..551 '{}': ()
1818 "### 1817 "#]],
1819 ); 1818 );
1820} 1819}
1821 1820
1822#[test] 1821#[test]
1823fn closure_1() { 1822fn closure_1() {
1824 assert_snapshot!( 1823 check_infer(
1825 infer(r#" 1824 r#"
1826#[lang = "fn_once"] 1825 #[lang = "fn_once"]
1827trait FnOnce<Args> { 1826 trait FnOnce<Args> {
1828 type Output; 1827 type Output;
1829} 1828 }
1830 1829
1831enum Option<T> { Some(T), None } 1830 enum Option<T> { Some(T), None }
1832impl<T> Option<T> { 1831 impl<T> Option<T> {
1833 fn map<U, F: FnOnce(T) -> U>(self, f: F) -> Option<U> {} 1832 fn map<U, F: FnOnce(T) -> U>(self, f: F) -> Option<U> {}
1834} 1833 }
1835 1834
1836fn test() { 1835 fn test() {
1837 let x = Option::Some(1u32); 1836 let x = Option::Some(1u32);
1838 x.map(|v| v + 1); 1837 x.map(|v| v + 1);
1839 x.map(|_v| 1u64); 1838 x.map(|_v| 1u64);
1840 let y: Option<i64> = x.map(|_v| 1); 1839 let y: Option<i64> = x.map(|_v| 1);
1841} 1840 }
1842"#), 1841 "#,
1843 @r###" 1842 expect![[r#"
1844 147..151 'self': Option<T> 1843 147..151 'self': Option<T>
1845 153..154 'f': F 1844 153..154 'f': F
1846 172..174 '{}': () 1845 172..174 '{}': ()
1847 188..307 '{ ... 1); }': () 1846 188..307 '{ ... 1); }': ()
1848 198..199 'x': Option<u32> 1847 198..199 'x': Option<u32>
1849 202..214 'Option::Some': Some<u32>(u32) -> Option<u32> 1848 202..214 'Option::Some': Some<u32>(u32) -> Option<u32>
1850 202..220 'Option...(1u32)': Option<u32> 1849 202..220 'Option...(1u32)': Option<u32>
1851 215..219 '1u32': u32 1850 215..219 '1u32': u32
1852 226..227 'x': Option<u32> 1851 226..227 'x': Option<u32>
1853 226..242 'x.map(...v + 1)': Option<u32> 1852 226..242 'x.map(...v + 1)': Option<u32>
1854 232..241 '|v| v + 1': |u32| -> u32 1853 232..241 '|v| v + 1': |u32| -> u32
1855 233..234 'v': u32 1854 233..234 'v': u32
1856 236..237 'v': u32 1855 236..237 'v': u32
1857 236..241 'v + 1': u32 1856 236..241 'v + 1': u32
1858 240..241 '1': u32 1857 240..241 '1': u32
1859 248..249 'x': Option<u32> 1858 248..249 'x': Option<u32>
1860 248..264 'x.map(... 1u64)': Option<u64> 1859 248..264 'x.map(... 1u64)': Option<u64>
1861 254..263 '|_v| 1u64': |u32| -> u64 1860 254..263 '|_v| 1u64': |u32| -> u64
1862 255..257 '_v': u32 1861 255..257 '_v': u32
1863 259..263 '1u64': u64 1862 259..263 '1u64': u64
1864 274..275 'y': Option<i64> 1863 274..275 'y': Option<i64>
1865 291..292 'x': Option<u32> 1864 291..292 'x': Option<u32>
1866 291..304 'x.map(|_v| 1)': Option<i64> 1865 291..304 'x.map(|_v| 1)': Option<i64>
1867 297..303 '|_v| 1': |u32| -> i64 1866 297..303 '|_v| 1': |u32| -> i64
1868 298..300 '_v': u32 1867 298..300 '_v': u32
1869 302..303 '1': i64 1868 302..303 '1': i64
1870 "### 1869 "#]],
1871 ); 1870 );
1872} 1871}
1873 1872
1874#[test] 1873#[test]
1875fn closure_2() { 1874fn closure_2() {
1876 assert_snapshot!( 1875 check_infer(
1877 infer(r#" 1876 r#"
1878trait FnOnce<Args> { 1877 trait FnOnce<Args> {
1879 type Output; 1878 type Output;
1880} 1879 }
1881 1880
1882fn test<F: FnOnce(u32) -> u64>(f: F) { 1881 fn test<F: FnOnce(u32) -> u64>(f: F) {
1883 f(1); 1882 f(1);
1884 let g = |v| v + 1; 1883 let g = |v| v + 1;
1885 g(1u64); 1884 g(1u64);
1886 let h = |v| 1u128 + v; 1885 let h = |v| 1u128 + v;
1887} 1886 }
1888"#), 1887 "#,
1889 @r###" 1888 expect![[r#"
1890 72..73 'f': F 1889 72..73 'f': F
1891 78..154 '{ ...+ v; }': () 1890 78..154 '{ ...+ v; }': ()
1892 84..85 'f': F 1891 84..85 'f': F
1893 84..88 'f(1)': {unknown} 1892 84..88 'f(1)': {unknown}
1894 86..87 '1': i32 1893 86..87 '1': i32
1895 98..99 'g': |u64| -> i32 1894 98..99 'g': |u64| -> i32
1896 102..111 '|v| v + 1': |u64| -> i32 1895 102..111 '|v| v + 1': |u64| -> i32
1897 103..104 'v': u64 1896 103..104 'v': u64
1898 106..107 'v': u64 1897 106..107 'v': u64
1899 106..111 'v + 1': i32 1898 106..111 'v + 1': i32
1900 110..111 '1': i32 1899 110..111 '1': i32
1901 117..118 'g': |u64| -> i32 1900 117..118 'g': |u64| -> i32
1902 117..124 'g(1u64)': i32 1901 117..124 'g(1u64)': i32
1903 119..123 '1u64': u64 1902 119..123 '1u64': u64
1904 134..135 'h': |u128| -> u128 1903 134..135 'h': |u128| -> u128
1905 138..151 '|v| 1u128 + v': |u128| -> u128 1904 138..151 '|v| 1u128 + v': |u128| -> u128
1906 139..140 'v': u128 1905 139..140 'v': u128
1907 142..147 '1u128': u128 1906 142..147 '1u128': u128
1908 142..151 '1u128 + v': u128 1907 142..151 '1u128 + v': u128
1909 150..151 'v': u128 1908 150..151 'v': u128
1910 "### 1909 "#]],
1911 ); 1910 );
1912} 1911}
1913 1912
1914#[test] 1913#[test]
1915fn closure_as_argument_inference_order() { 1914fn closure_as_argument_inference_order() {
1916 assert_snapshot!( 1915 check_infer(
1917 infer(r#" 1916 r#"
1918#[lang = "fn_once"] 1917 #[lang = "fn_once"]
1919trait FnOnce<Args> { 1918 trait FnOnce<Args> {
1920 type Output; 1919 type Output;
1921} 1920 }
1922 1921
1923fn foo1<T, U, F: FnOnce(T) -> U>(x: T, f: F) -> U {} 1922 fn foo1<T, U, F: FnOnce(T) -> U>(x: T, f: F) -> U {}
1924fn foo2<T, U, F: FnOnce(T) -> U>(f: F, x: T) -> U {} 1923 fn foo2<T, U, F: FnOnce(T) -> U>(f: F, x: T) -> U {}
1925 1924
1926struct S; 1925 struct S;
1927impl S { 1926 impl S {
1928 fn method(self) -> u64; 1927 fn method(self) -> u64;
1929 1928
1930 fn foo1<T, U, F: FnOnce(T) -> U>(self, x: T, f: F) -> U {} 1929 fn foo1<T, U, F: FnOnce(T) -> U>(self, x: T, f: F) -> U {}
1931 fn foo2<T, U, F: FnOnce(T) -> U>(self, f: F, x: T) -> U {} 1930 fn foo2<T, U, F: FnOnce(T) -> U>(self, f: F, x: T) -> U {}
1932} 1931 }
1933 1932
1934fn test() { 1933 fn test() {
1935 let x1 = foo1(S, |s| s.method()); 1934 let x1 = foo1(S, |s| s.method());
1936 let x2 = foo2(|s| s.method(), S); 1935 let x2 = foo2(|s| s.method(), S);
1937 let x3 = S.foo1(S, |s| s.method()); 1936 let x3 = S.foo1(S, |s| s.method());
1938 let x4 = S.foo2(|s| s.method(), S); 1937 let x4 = S.foo2(|s| s.method(), S);
1939} 1938 }
1940"#), 1939 "#,
1941 @r###" 1940 expect![[r#"
1942 94..95 'x': T 1941 94..95 'x': T
1943 100..101 'f': F 1942 100..101 'f': F
1944 111..113 '{}': () 1943 111..113 '{}': ()
1945 147..148 'f': F 1944 147..148 'f': F
1946 153..154 'x': T 1945 153..154 'x': T
1947 164..166 '{}': () 1946 164..166 '{}': ()
1948 201..205 'self': S 1947 201..205 'self': S
1949 253..257 'self': S 1948 253..257 'self': S
1950 259..260 'x': T 1949 259..260 'x': T
1951 265..266 'f': F 1950 265..266 'f': F
1952 276..278 '{}': () 1951 276..278 '{}': ()
1953 316..320 'self': S 1952 316..320 'self': S
1954 322..323 'f': F 1953 322..323 'f': F
1955 328..329 'x': T 1954 328..329 'x': T
1956 339..341 '{}': () 1955 339..341 '{}': ()
1957 355..514 '{ ... S); }': () 1956 355..514 '{ ... S); }': ()
1958 365..367 'x1': u64 1957 365..367 'x1': u64
1959 370..374 'foo1': fn foo1<S, u64, |S| -> u64>(S, |S| -> u64) -> u64 1958 370..374 'foo1': fn foo1<S, u64, |S| -> u64>(S, |S| -> u64) -> u64
1960 370..393 'foo1(S...hod())': u64 1959 370..393 'foo1(S...hod())': u64
1961 375..376 'S': S 1960 375..376 'S': S
1962 378..392 '|s| s.method()': |S| -> u64 1961 378..392 '|s| s.method()': |S| -> u64
1963 379..380 's': S 1962 379..380 's': S
1964 382..383 's': S 1963 382..383 's': S
1965 382..392 's.method()': u64 1964 382..392 's.method()': u64
1966 403..405 'x2': u64 1965 403..405 'x2': u64
1967 408..412 'foo2': fn foo2<S, u64, |S| -> u64>(|S| -> u64, S) -> u64 1966 408..412 'foo2': fn foo2<S, u64, |S| -> u64>(|S| -> u64, S) -> u64
1968 408..431 'foo2(|...(), S)': u64 1967 408..431 'foo2(|...(), S)': u64
1969 413..427 '|s| s.method()': |S| -> u64 1968 413..427 '|s| s.method()': |S| -> u64
1970 414..415 's': S 1969 414..415 's': S
1971 417..418 's': S 1970 417..418 's': S
1972 417..427 's.method()': u64 1971 417..427 's.method()': u64
1973 429..430 'S': S 1972 429..430 'S': S
1974 441..443 'x3': u64 1973 441..443 'x3': u64
1975 446..447 'S': S 1974 446..447 'S': S
1976 446..471 'S.foo1...hod())': u64 1975 446..471 'S.foo1...hod())': u64
1977 453..454 'S': S 1976 453..454 'S': S
1978 456..470 '|s| s.method()': |S| -> u64 1977 456..470 '|s| s.method()': |S| -> u64
1979 457..458 's': S 1978 457..458 's': S
1980 460..461 's': S 1979 460..461 's': S
1981 460..470 's.method()': u64 1980 460..470 's.method()': u64
1982 481..483 'x4': u64 1981 481..483 'x4': u64
1983 486..487 'S': S 1982 486..487 'S': S
1984 486..511 'S.foo2...(), S)': u64 1983 486..511 'S.foo2...(), S)': u64
1985 493..507 '|s| s.method()': |S| -> u64 1984 493..507 '|s| s.method()': |S| -> u64
1986 494..495 's': S 1985 494..495 's': S
1987 497..498 's': S 1986 497..498 's': S
1988 497..507 's.method()': u64 1987 497..507 's.method()': u64
1989 509..510 'S': S 1988 509..510 'S': S
1990 "### 1989 "#]],
1991 ); 1990 );
1992} 1991}
1993 1992
@@ -2056,43 +2055,44 @@ fn test<T, U>() where T::Item: Trait2, T: Trait<U::Item>, U: Trait<()> {
2056 2055
2057#[test] 2056#[test]
2058fn unselected_projection_on_impl_self() { 2057fn unselected_projection_on_impl_self() {
2059 assert_snapshot!(infer( 2058 check_infer(
2060 r#" 2059 r#"
2061//- /main.rs 2060 //- /main.rs
2062trait Trait { 2061 trait Trait {
2063 type Item; 2062 type Item;
2064 2063
2065 fn f(&self, x: Self::Item); 2064 fn f(&self, x: Self::Item);
2066} 2065 }
2067 2066
2068struct S; 2067 struct S;
2069 2068
2070impl Trait for S { 2069 impl Trait for S {
2071 type Item = u32; 2070 type Item = u32;
2072 fn f(&self, x: Self::Item) { let y = x; } 2071 fn f(&self, x: Self::Item) { let y = x; }
2073} 2072 }
2074 2073
2075struct S2; 2074 struct S2;
2076 2075
2077impl Trait for S2 { 2076 impl Trait for S2 {
2078 type Item = i32; 2077 type Item = i32;
2079 fn f(&self, x: <Self>::Item) { let y = x; } 2078 fn f(&self, x: <Self>::Item) { let y = x; }
2080} 2079 }
2081"#, 2080 "#,
2082 ), @r###" 2081 expect![[r#"
2083 40..44 'self': &Self 2082 40..44 'self': &Self
2084 46..47 'x': Trait::Item<Self> 2083 46..47 'x': Trait::Item<Self>
2085 126..130 'self': &S 2084 126..130 'self': &S
2086 132..133 'x': u32 2085 132..133 'x': u32
2087 147..161 '{ let y = x; }': () 2086 147..161 '{ let y = x; }': ()
2088 153..154 'y': u32 2087 153..154 'y': u32
2089 157..158 'x': u32 2088 157..158 'x': u32
2090 228..232 'self': &S2 2089 228..232 'self': &S2
2091 234..235 'x': i32 2090 234..235 'x': i32
2092 251..265 '{ let y = x; }': () 2091 251..265 '{ let y = x; }': ()
2093 257..258 'y': i32 2092 257..258 'y': i32
2094 261..262 'x': i32 2093 261..262 'x': i32
2095 "###); 2094 "#]],
2095 );
2096} 2096}
2097 2097
2098#[test] 2098#[test]
@@ -2261,170 +2261,170 @@ fn test<I: Iterator<Item: Iterator<Item = u32>>>() {
2261 2261
2262#[test] 2262#[test]
2263fn proc_macro_server_types() { 2263fn proc_macro_server_types() {
2264 assert_snapshot!( 2264 check_infer(
2265 infer(r#" 2265 r#"
2266macro_rules! with_api { 2266 macro_rules! with_api {
2267 ($S:ident, $self:ident, $m:ident) => { 2267 ($S:ident, $self:ident, $m:ident) => {
2268 $m! { 2268 $m! {
2269 TokenStream { 2269 TokenStream {
2270 fn new() -> $S::TokenStream; 2270 fn new() -> $S::TokenStream;
2271 }, 2271 },
2272 Group { 2272 Group {
2273 }, 2273 },
2274 } 2274 }
2275 }; 2275 };
2276} 2276 }
2277macro_rules! associated_item { 2277 macro_rules! associated_item {
2278 (type TokenStream) => 2278 (type TokenStream) =>
2279 (type TokenStream: 'static;); 2279 (type TokenStream: 'static;);
2280 (type Group) => 2280 (type Group) =>
2281 (type Group: 'static;); 2281 (type Group: 'static;);
2282 ($($item:tt)*) => ($($item)*;) 2282 ($($item:tt)*) => ($($item)*;)
2283} 2283 }
2284macro_rules! declare_server_traits { 2284 macro_rules! declare_server_traits {
2285 ($($name:ident { 2285 ($($name:ident {
2286 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)?;)* 2286 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)?;)*
2287 }),* $(,)?) => { 2287 }),* $(,)?) => {
2288 pub trait Types { 2288 pub trait Types {
2289 $(associated_item!(type $name);)* 2289 $(associated_item!(type $name);)*
2290 } 2290 }
2291
2292 $(pub trait $name: Types {
2293 $(associated_item!(fn $method($($arg: $arg_ty),*) $(-> $ret_ty)?);)*
2294 })*
2295
2296 pub trait Server: Types $(+ $name)* {}
2297 impl<S: Types $(+ $name)*> Server for S {}
2298 }
2299}
2300 2291
2301with_api!(Self, self_, declare_server_traits); 2292 $(pub trait $name: Types {
2302struct G {} 2293 $(associated_item!(fn $method($($arg: $arg_ty),*) $(-> $ret_ty)?);)*
2303struct T {} 2294 })*
2304struct Rustc;
2305impl Types for Rustc {
2306 type TokenStream = T;
2307 type Group = G;
2308}
2309 2295
2310fn make<T>() -> T { loop {} } 2296 pub trait Server: Types $(+ $name)* {}
2311impl TokenStream for Rustc { 2297 impl<S: Types $(+ $name)*> Server for S {}
2312 fn new() -> Self::TokenStream { 2298 }
2313 let group: Self::Group = make(); 2299 }
2314 make() 2300
2315 } 2301 with_api!(Self, self_, declare_server_traits);
2316} 2302 struct G {}
2317"#), 2303 struct T {}
2318 @r###" 2304 struct Rustc;
2319 1061..1072 '{ loop {} }': T 2305 impl Types for Rustc {
2320 1063..1070 'loop {}': ! 2306 type TokenStream = T;
2321 1068..1070 '{}': () 2307 type Group = G;
2322 1136..1199 '{ ... }': T 2308 }
2323 1150..1155 'group': G 2309
2324 1171..1175 'make': fn make<G>() -> G 2310 fn make<T>() -> T { loop {} }
2325 1171..1177 'make()': G 2311 impl TokenStream for Rustc {
2326 1187..1191 'make': fn make<T>() -> T 2312 fn new() -> Self::TokenStream {
2327 1187..1193 'make()': T 2313 let group: Self::Group = make();
2328 "### 2314 make()
2315 }
2316 }
2317 "#,
2318 expect![[r#"
2319 1061..1072 '{ loop {} }': T
2320 1063..1070 'loop {}': !
2321 1068..1070 '{}': ()
2322 1136..1199 '{ ... }': T
2323 1150..1155 'group': G
2324 1171..1175 'make': fn make<G>() -> G
2325 1171..1177 'make()': G
2326 1187..1191 'make': fn make<T>() -> T
2327 1187..1193 'make()': T
2328 "#]],
2329 ); 2329 );
2330} 2330}
2331 2331
2332#[test] 2332#[test]
2333fn unify_impl_trait() { 2333fn unify_impl_trait() {
2334 assert_snapshot!( 2334 check_infer_with_mismatches(
2335 infer_with_mismatches(r#" 2335 r#"
2336trait Trait<T> {} 2336 trait Trait<T> {}
2337
2338 fn foo(x: impl Trait<u32>) { loop {} }
2339 fn bar<T>(x: impl Trait<T>) -> T { loop {} }
2340
2341 struct S<T>(T);
2342 impl<T> Trait<T> for S<T> {}
2343
2344 fn default<T>() -> T { loop {} }
2337 2345
2338fn foo(x: impl Trait<u32>) { loop {} } 2346 fn test() -> impl Trait<i32> {
2339fn bar<T>(x: impl Trait<T>) -> T { loop {} } 2347 let s1 = S(default());
2340 2348 foo(s1);
2341struct S<T>(T); 2349 let x: i32 = bar(S(default()));
2342impl<T> Trait<T> for S<T> {} 2350 S(default())
2343 2351 }
2344fn default<T>() -> T { loop {} } 2352 "#,
2345 2353 expect![[r#"
2346fn test() -> impl Trait<i32> { 2354 26..27 'x': impl Trait<u32>
2347 let s1 = S(default()); 2355 46..57 '{ loop {} }': ()
2348 foo(s1); 2356 48..55 'loop {}': !
2349 let x: i32 = bar(S(default())); 2357 53..55 '{}': ()
2350 S(default()) 2358 68..69 'x': impl Trait<T>
2351} 2359 91..102 '{ loop {} }': T
2352"#, true), 2360 93..100 'loop {}': !
2353 @r###" 2361 98..100 '{}': ()
2354 26..27 'x': impl Trait<u32> 2362 171..182 '{ loop {} }': T
2355 46..57 '{ loop {} }': () 2363 173..180 'loop {}': !
2356 48..55 'loop {}': ! 2364 178..180 '{}': ()
2357 53..55 '{}': () 2365 213..309 '{ ...t()) }': S<{unknown}>
2358 68..69 'x': impl Trait<T> 2366 223..225 's1': S<u32>
2359 91..102 '{ loop {} }': T 2367 228..229 'S': S<u32>(u32) -> S<u32>
2360 93..100 'loop {}': ! 2368 228..240 'S(default())': S<u32>
2361 98..100 '{}': () 2369 230..237 'default': fn default<u32>() -> u32
2362 171..182 '{ loop {} }': T 2370 230..239 'default()': u32
2363 173..180 'loop {}': ! 2371 246..249 'foo': fn foo(S<u32>)
2364 178..180 '{}': () 2372 246..253 'foo(s1)': ()
2365 213..309 '{ ...t()) }': S<{unknown}> 2373 250..252 's1': S<u32>
2366 223..225 's1': S<u32> 2374 263..264 'x': i32
2367 228..229 'S': S<u32>(u32) -> S<u32> 2375 272..275 'bar': fn bar<i32>(S<i32>) -> i32
2368 228..240 'S(default())': S<u32> 2376 272..289 'bar(S(...lt()))': i32
2369 230..237 'default': fn default<u32>() -> u32 2377 276..277 'S': S<i32>(i32) -> S<i32>
2370 230..239 'default()': u32 2378 276..288 'S(default())': S<i32>
2371 246..249 'foo': fn foo(S<u32>) 2379 278..285 'default': fn default<i32>() -> i32
2372 246..253 'foo(s1)': () 2380 278..287 'default()': i32
2373 250..252 's1': S<u32> 2381 295..296 'S': S<{unknown}>({unknown}) -> S<{unknown}>
2374 263..264 'x': i32 2382 295..307 'S(default())': S<{unknown}>
2375 272..275 'bar': fn bar<i32>(S<i32>) -> i32 2383 297..304 'default': fn default<{unknown}>() -> {unknown}
2376 272..289 'bar(S(...lt()))': i32 2384 297..306 'default()': {unknown}
2377 276..277 'S': S<i32>(i32) -> S<i32> 2385 "#]],
2378 276..288 'S(default())': S<i32>
2379 278..285 'default': fn default<i32>() -> i32
2380 278..287 'default()': i32
2381 295..296 'S': S<{unknown}>({unknown}) -> S<{unknown}>
2382 295..307 'S(default())': S<{unknown}>
2383 297..304 'default': fn default<{unknown}>() -> {unknown}
2384 297..306 'default()': {unknown}
2385 "###
2386 ); 2386 );
2387} 2387}
2388 2388
2389#[test] 2389#[test]
2390fn assoc_types_from_bounds() { 2390fn assoc_types_from_bounds() {
2391 assert_snapshot!( 2391 check_infer(
2392 infer(r#" 2392 r#"
2393//- /main.rs 2393 //- /main.rs
2394#[lang = "fn_once"] 2394 #[lang = "fn_once"]
2395trait FnOnce<Args> { 2395 trait FnOnce<Args> {
2396 type Output; 2396 type Output;
2397} 2397 }
2398 2398
2399trait T { 2399 trait T {
2400 type O; 2400 type O;
2401} 2401 }
2402 2402
2403impl T for () { 2403 impl T for () {
2404 type O = (); 2404 type O = ();
2405} 2405 }
2406 2406
2407fn f<X, F>(_v: F) 2407 fn f<X, F>(_v: F)
2408where 2408 where
2409 X: T, 2409 X: T,
2410 F: FnOnce(&X::O), 2410 F: FnOnce(&X::O),
2411{ } 2411 { }
2412 2412
2413fn main() { 2413 fn main() {
2414 f::<(), _>(|z| { z; }); 2414 f::<(), _>(|z| { z; });
2415} 2415 }
2416"#), 2416 "#,
2417 @r###" 2417 expect![[r#"
2418 133..135 '_v': F 2418 133..135 '_v': F
2419 178..181 '{ }': () 2419 178..181 '{ }': ()
2420 193..224 '{ ... }); }': () 2420 193..224 '{ ... }); }': ()
2421 199..209 'f::<(), _>': fn f<(), |&()| -> ()>(|&()| -> ()) 2421 199..209 'f::<(), _>': fn f<(), |&()| -> ()>(|&()| -> ())
2422 199..221 'f::<()... z; })': () 2422 199..221 'f::<()... z; })': ()
2423 210..220 '|z| { z; }': |&()| -> () 2423 210..220 '|z| { z; }': |&()| -> ()
2424 211..212 'z': &() 2424 211..212 'z': &()
2425 214..220 '{ z; }': () 2425 214..220 '{ z; }': ()
2426 216..217 'z': &() 2426 216..217 'z': &()
2427 "### 2427 "#]],
2428 ); 2428 );
2429} 2429}
2430 2430
@@ -2497,120 +2497,120 @@ fn test() {
2497 2497
2498#[test] 2498#[test]
2499fn iterator_chain() { 2499fn iterator_chain() {
2500 assert_snapshot!( 2500 check_infer(
2501 infer(r#" 2501 r#"
2502//- /main.rs 2502 //- /main.rs
2503#[lang = "fn_once"] 2503 #[lang = "fn_once"]
2504trait FnOnce<Args> { 2504 trait FnOnce<Args> {
2505 type Output; 2505 type Output;
2506} 2506 }
2507#[lang = "fn_mut"] 2507 #[lang = "fn_mut"]
2508trait FnMut<Args>: FnOnce<Args> { } 2508 trait FnMut<Args>: FnOnce<Args> { }
2509 2509
2510enum Option<T> { Some(T), None } 2510 enum Option<T> { Some(T), None }
2511use Option::*; 2511 use Option::*;
2512 2512
2513pub trait Iterator { 2513 pub trait Iterator {
2514 type Item; 2514 type Item;
2515 2515
2516 fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> 2516 fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F>
2517 where 2517 where
2518 F: FnMut(Self::Item) -> Option<B>, 2518 F: FnMut(Self::Item) -> Option<B>,
2519 { loop {} } 2519 { loop {} }
2520 2520
2521 fn for_each<F>(self, f: F) 2521 fn for_each<F>(self, f: F)
2522 where 2522 where
2523 F: FnMut(Self::Item), 2523 F: FnMut(Self::Item),
2524 { loop {} } 2524 { loop {} }
2525} 2525 }
2526 2526
2527pub trait IntoIterator { 2527 pub trait IntoIterator {
2528 type Item; 2528 type Item;
2529 type IntoIter: Iterator<Item = Self::Item>; 2529 type IntoIter: Iterator<Item = Self::Item>;
2530 fn into_iter(self) -> Self::IntoIter; 2530 fn into_iter(self) -> Self::IntoIter;
2531} 2531 }
2532 2532
2533pub struct FilterMap<I, F> { } 2533 pub struct FilterMap<I, F> { }
2534impl<B, I: Iterator, F> Iterator for FilterMap<I, F> 2534 impl<B, I: Iterator, F> Iterator for FilterMap<I, F>
2535where 2535 where
2536 F: FnMut(I::Item) -> Option<B>, 2536 F: FnMut(I::Item) -> Option<B>,
2537{ 2537 {
2538 type Item = B; 2538 type Item = B;
2539} 2539 }
2540 2540
2541#[stable(feature = "rust1", since = "1.0.0")] 2541 #[stable(feature = "rust1", since = "1.0.0")]
2542impl<I: Iterator> IntoIterator for I { 2542 impl<I: Iterator> IntoIterator for I {
2543 type Item = I::Item; 2543 type Item = I::Item;
2544 type IntoIter = I; 2544 type IntoIter = I;
2545 2545
2546 fn into_iter(self) -> I { 2546 fn into_iter(self) -> I {
2547 self 2547 self
2548 } 2548 }
2549} 2549 }
2550 2550
2551struct Vec<T> {} 2551 struct Vec<T> {}
2552impl<T> Vec<T> { 2552 impl<T> Vec<T> {
2553 fn new() -> Self { loop {} } 2553 fn new() -> Self { loop {} }
2554} 2554 }
2555 2555
2556impl<T> IntoIterator for Vec<T> { 2556 impl<T> IntoIterator for Vec<T> {
2557 type Item = T; 2557 type Item = T;
2558 type IntoIter = IntoIter<T>; 2558 type IntoIter = IntoIter<T>;
2559} 2559 }
2560 2560
2561pub struct IntoIter<T> { } 2561 pub struct IntoIter<T> { }
2562impl<T> Iterator for IntoIter<T> { 2562 impl<T> Iterator for IntoIter<T> {
2563 type Item = T; 2563 type Item = T;
2564} 2564 }
2565 2565
2566fn main() { 2566 fn main() {
2567 Vec::<i32>::new().into_iter() 2567 Vec::<i32>::new().into_iter()
2568 .filter_map(|x| if x > 0 { Some(x as u32) } else { None }) 2568 .filter_map(|x| if x > 0 { Some(x as u32) } else { None })
2569 .for_each(|y| { y; }); 2569 .for_each(|y| { y; });
2570} 2570 }
2571"#), 2571 "#,
2572 @r###" 2572 expect![[r#"
2573 226..230 'self': Self 2573 226..230 'self': Self
2574 232..233 'f': F 2574 232..233 'f': F
2575 317..328 '{ loop {} }': FilterMap<Self, F> 2575 317..328 '{ loop {} }': FilterMap<Self, F>
2576 319..326 'loop {}': ! 2576 319..326 'loop {}': !
2577 324..326 '{}': () 2577 324..326 '{}': ()
2578 349..353 'self': Self 2578 349..353 'self': Self
2579 355..356 'f': F 2579 355..356 'f': F
2580 405..416 '{ loop {} }': () 2580 405..416 '{ loop {} }': ()
2581 407..414 'loop {}': ! 2581 407..414 'loop {}': !
2582 412..414 '{}': () 2582 412..414 '{}': ()
2583 525..529 'self': Self 2583 525..529 'self': Self
2584 854..858 'self': I 2584 854..858 'self': I
2585 865..885 '{ ... }': I 2585 865..885 '{ ... }': I
2586 875..879 'self': I 2586 875..879 'self': I
2587 944..955 '{ loop {} }': Vec<T> 2587 944..955 '{ loop {} }': Vec<T>
2588 946..953 'loop {}': ! 2588 946..953 'loop {}': !
2589 951..953 '{}': () 2589 951..953 '{}': ()
2590 1142..1273 '{ ... }); }': () 2590 1142..1269 '{ ... }); }': ()
2591 1148..1163 'Vec::<i32>::new': fn new<i32>() -> Vec<i32> 2591 1148..1163 'Vec::<i32>::new': fn new<i32>() -> Vec<i32>
2592 1148..1165 'Vec::<...:new()': Vec<i32> 2592 1148..1165 'Vec::<...:new()': Vec<i32>
2593 1148..1177 'Vec::<...iter()': IntoIter<i32> 2593 1148..1177 'Vec::<...iter()': IntoIter<i32>
2594 1148..1242 'Vec::<...one })': FilterMap<IntoIter<i32>, |i32| -> Option<u32>> 2594 1148..1240 'Vec::<...one })': FilterMap<IntoIter<i32>, |i32| -> Option<u32>>
2595 1148..1270 'Vec::<... y; })': () 2595 1148..1266 'Vec::<... y; })': ()
2596 1196..1241 '|x| if...None }': |i32| -> Option<u32> 2596 1194..1239 '|x| if...None }': |i32| -> Option<u32>
2597 1197..1198 'x': i32 2597 1195..1196 'x': i32
2598 1200..1241 'if x >...None }': Option<u32> 2598 1198..1239 'if x >...None }': Option<u32>
2599 1203..1204 'x': i32 2599 1201..1202 'x': i32
2600 1203..1208 'x > 0': bool 2600 1201..1206 'x > 0': bool
2601 1207..1208 '0': i32 2601 1205..1206 '0': i32
2602 1209..1227 '{ Some...u32) }': Option<u32> 2602 1207..1225 '{ Some...u32) }': Option<u32>
2603 1211..1215 'Some': Some<u32>(u32) -> Option<u32> 2603 1209..1213 'Some': Some<u32>(u32) -> Option<u32>
2604 1211..1225 'Some(x as u32)': Option<u32> 2604 1209..1223 'Some(x as u32)': Option<u32>
2605 1216..1217 'x': i32 2605 1214..1215 'x': i32
2606 1216..1224 'x as u32': u32 2606 1214..1222 'x as u32': u32
2607 1233..1241 '{ None }': Option<u32> 2607 1231..1239 '{ None }': Option<u32>
2608 1235..1239 'None': Option<u32> 2608 1233..1237 'None': Option<u32>
2609 1259..1269 '|y| { y; }': |u32| -> () 2609 1255..1265 '|y| { y; }': |u32| -> ()
2610 1260..1261 'y': u32 2610 1256..1257 'y': u32
2611 1263..1269 '{ y; }': () 2611 1259..1265 '{ y; }': ()
2612 1265..1266 'y': u32 2612 1261..1262 'y': u32
2613 "### 2613 "#]],
2614 ); 2614 );
2615} 2615}
2616 2616
@@ -2648,176 +2648,176 @@ fn main() {
2648 2648
2649#[test] 2649#[test]
2650fn trait_object_no_coercion() { 2650fn trait_object_no_coercion() {
2651 assert_snapshot!( 2651 check_infer_with_mismatches(
2652 infer_with_mismatches(r#" 2652 r#"
2653trait Foo {} 2653 trait Foo {}
2654 2654
2655fn foo(x: &dyn Foo) {} 2655 fn foo(x: &dyn Foo) {}
2656 2656
2657fn test(x: &dyn Foo) { 2657 fn test(x: &dyn Foo) {
2658 foo(x); 2658 foo(x);
2659} 2659 }
2660"#, true), 2660 "#,
2661 @r###" 2661 expect![[r#"
2662 21..22 'x': &dyn Foo 2662 21..22 'x': &dyn Foo
2663 34..36 '{}': () 2663 34..36 '{}': ()
2664 46..47 'x': &dyn Foo 2664 46..47 'x': &dyn Foo
2665 59..74 '{ foo(x); }': () 2665 59..74 '{ foo(x); }': ()
2666 65..68 'foo': fn foo(&dyn Foo) 2666 65..68 'foo': fn foo(&dyn Foo)
2667 65..71 'foo(x)': () 2667 65..71 'foo(x)': ()
2668 69..70 'x': &dyn Foo 2668 69..70 'x': &dyn Foo
2669 "### 2669 "#]],
2670 ); 2670 );
2671} 2671}
2672 2672
2673#[test] 2673#[test]
2674fn builtin_copy() { 2674fn builtin_copy() {
2675 assert_snapshot!( 2675 check_infer_with_mismatches(
2676 infer_with_mismatches(r#" 2676 r#"
2677#[lang = "copy"] 2677 #[lang = "copy"]
2678trait Copy {} 2678 trait Copy {}
2679 2679
2680struct IsCopy; 2680 struct IsCopy;
2681impl Copy for IsCopy {} 2681 impl Copy for IsCopy {}
2682struct NotCopy; 2682 struct NotCopy;
2683 2683
2684trait Test { fn test(&self) -> bool; } 2684 trait Test { fn test(&self) -> bool; }
2685impl<T: Copy> Test for T {} 2685 impl<T: Copy> Test for T {}
2686 2686
2687fn test() { 2687 fn test() {
2688 IsCopy.test(); 2688 IsCopy.test();
2689 NotCopy.test(); 2689 NotCopy.test();
2690 (IsCopy, IsCopy).test(); 2690 (IsCopy, IsCopy).test();
2691 (IsCopy, NotCopy).test(); 2691 (IsCopy, NotCopy).test();
2692} 2692 }
2693"#, true), 2693 "#,
2694 @r###" 2694 expect![[r#"
2695 110..114 'self': &Self 2695 110..114 'self': &Self
2696 166..267 '{ ...t(); }': () 2696 166..267 '{ ...t(); }': ()
2697 172..178 'IsCopy': IsCopy 2697 172..178 'IsCopy': IsCopy
2698 172..185 'IsCopy.test()': bool 2698 172..185 'IsCopy.test()': bool
2699 191..198 'NotCopy': NotCopy 2699 191..198 'NotCopy': NotCopy
2700 191..205 'NotCopy.test()': {unknown} 2700 191..205 'NotCopy.test()': {unknown}
2701 211..227 '(IsCop...sCopy)': (IsCopy, IsCopy) 2701 211..227 '(IsCop...sCopy)': (IsCopy, IsCopy)
2702 211..234 '(IsCop...test()': bool 2702 211..234 '(IsCop...test()': bool
2703 212..218 'IsCopy': IsCopy 2703 212..218 'IsCopy': IsCopy
2704 220..226 'IsCopy': IsCopy 2704 220..226 'IsCopy': IsCopy
2705 240..257 '(IsCop...tCopy)': (IsCopy, NotCopy) 2705 240..257 '(IsCop...tCopy)': (IsCopy, NotCopy)
2706 240..264 '(IsCop...test()': {unknown} 2706 240..264 '(IsCop...test()': {unknown}
2707 241..247 'IsCopy': IsCopy 2707 241..247 'IsCopy': IsCopy
2708 249..256 'NotCopy': NotCopy 2708 249..256 'NotCopy': NotCopy
2709 "### 2709 "#]],
2710 ); 2710 );
2711} 2711}
2712 2712
2713#[test] 2713#[test]
2714fn builtin_fn_def_copy() { 2714fn builtin_fn_def_copy() {
2715 assert_snapshot!( 2715 check_infer_with_mismatches(
2716 infer_with_mismatches(r#" 2716 r#"
2717#[lang = "copy"] 2717 #[lang = "copy"]
2718trait Copy {} 2718 trait Copy {}
2719 2719
2720fn foo() {} 2720 fn foo() {}
2721fn bar<T: Copy>(T) -> T {} 2721 fn bar<T: Copy>(T) -> T {}
2722struct Struct(usize); 2722 struct Struct(usize);
2723enum Enum { Variant(usize) } 2723 enum Enum { Variant(usize) }
2724 2724
2725trait Test { fn test(&self) -> bool; } 2725 trait Test { fn test(&self) -> bool; }
2726impl<T: Copy> Test for T {} 2726 impl<T: Copy> Test for T {}
2727 2727
2728fn test() { 2728 fn test() {
2729 foo.test(); 2729 foo.test();
2730 bar.test(); 2730 bar.test();
2731 Struct.test(); 2731 Struct.test();
2732 Enum::Variant.test(); 2732 Enum::Variant.test();
2733} 2733 }
2734"#, true), 2734 "#,
2735 @r###" 2735 expect![[r#"
2736 41..43 '{}': () 2736 41..43 '{}': ()
2737 60..61 'T': {unknown} 2737 60..61 'T': {unknown}
2738 68..70 '{}': () 2738 68..70 '{}': ()
2739 68..70: expected T, got () 2739 68..70: expected T, got ()
2740 145..149 'self': &Self 2740 145..149 'self': &Self
2741 201..281 '{ ...t(); }': () 2741 201..281 '{ ...t(); }': ()
2742 207..210 'foo': fn foo() 2742 207..210 'foo': fn foo()
2743 207..217 'foo.test()': bool 2743 207..217 'foo.test()': bool
2744 223..226 'bar': fn bar<{unknown}>({unknown}) -> {unknown} 2744 223..226 'bar': fn bar<{unknown}>({unknown}) -> {unknown}
2745 223..233 'bar.test()': bool 2745 223..233 'bar.test()': bool
2746 239..245 'Struct': Struct(usize) -> Struct 2746 239..245 'Struct': Struct(usize) -> Struct
2747 239..252 'Struct.test()': bool 2747 239..252 'Struct.test()': bool
2748 258..271 'Enum::Variant': Variant(usize) -> Enum 2748 258..271 'Enum::Variant': Variant(usize) -> Enum
2749 258..278 'Enum::...test()': bool 2749 258..278 'Enum::...test()': bool
2750 "### 2750 "#]],
2751 ); 2751 );
2752} 2752}
2753 2753
2754#[test] 2754#[test]
2755fn builtin_fn_ptr_copy() { 2755fn builtin_fn_ptr_copy() {
2756 assert_snapshot!( 2756 check_infer_with_mismatches(
2757 infer_with_mismatches(r#" 2757 r#"
2758#[lang = "copy"] 2758 #[lang = "copy"]
2759trait Copy {} 2759 trait Copy {}
2760 2760
2761trait Test { fn test(&self) -> bool; } 2761 trait Test { fn test(&self) -> bool; }
2762impl<T: Copy> Test for T {} 2762 impl<T: Copy> Test for T {}
2763 2763
2764fn test(f1: fn(), f2: fn(usize) -> u8, f3: fn(u8, u8) -> &u8) { 2764 fn test(f1: fn(), f2: fn(usize) -> u8, f3: fn(u8, u8) -> &u8) {
2765 f1.test(); 2765 f1.test();
2766 f2.test(); 2766 f2.test();
2767 f3.test(); 2767 f3.test();
2768} 2768 }
2769"#, true), 2769 "#,
2770 @r###" 2770 expect![[r#"
2771 54..58 'self': &Self 2771 54..58 'self': &Self
2772 108..110 'f1': fn() 2772 108..110 'f1': fn()
2773 118..120 'f2': fn(usize) -> u8 2773 118..120 'f2': fn(usize) -> u8
2774 139..141 'f3': fn(u8, u8) -> &u8 2774 139..141 'f3': fn(u8, u8) -> &u8
2775 162..210 '{ ...t(); }': () 2775 162..210 '{ ...t(); }': ()
2776 168..170 'f1': fn() 2776 168..170 'f1': fn()
2777 168..177 'f1.test()': bool 2777 168..177 'f1.test()': bool
2778 183..185 'f2': fn(usize) -> u8 2778 183..185 'f2': fn(usize) -> u8
2779 183..192 'f2.test()': bool 2779 183..192 'f2.test()': bool
2780 198..200 'f3': fn(u8, u8) -> &u8 2780 198..200 'f3': fn(u8, u8) -> &u8
2781 198..207 'f3.test()': bool 2781 198..207 'f3.test()': bool
2782 "### 2782 "#]],
2783 ); 2783 );
2784} 2784}
2785 2785
2786#[test] 2786#[test]
2787fn builtin_sized() { 2787fn builtin_sized() {
2788 assert_snapshot!( 2788 check_infer_with_mismatches(
2789 infer_with_mismatches(r#" 2789 r#"
2790#[lang = "sized"] 2790 #[lang = "sized"]
2791trait Sized {} 2791 trait Sized {}
2792 2792
2793trait Test { fn test(&self) -> bool; } 2793 trait Test { fn test(&self) -> bool; }
2794impl<T: Sized> Test for T {} 2794 impl<T: Sized> Test for T {}
2795 2795
2796fn test() { 2796 fn test() {
2797 1u8.test(); 2797 1u8.test();
2798 (*"foo").test(); // not Sized 2798 (*"foo").test(); // not Sized
2799 (1u8, 1u8).test(); 2799 (1u8, 1u8).test();
2800 (1u8, *"foo").test(); // not Sized 2800 (1u8, *"foo").test(); // not Sized
2801} 2801 }
2802"#, true), 2802 "#,
2803 @r###" 2803 expect![[r#"
2804 56..60 'self': &Self 2804 56..60 'self': &Self
2805 113..228 '{ ...ized }': () 2805 113..228 '{ ...ized }': ()
2806 119..122 '1u8': u8 2806 119..122 '1u8': u8
2807 119..129 '1u8.test()': bool 2807 119..129 '1u8.test()': bool
2808 135..150 '(*"foo").test()': {unknown} 2808 135..150 '(*"foo").test()': {unknown}
2809 136..142 '*"foo"': str 2809 136..142 '*"foo"': str
2810 137..142 '"foo"': &str 2810 137..142 '"foo"': &str
2811 169..179 '(1u8, 1u8)': (u8, u8) 2811 169..179 '(1u8, 1u8)': (u8, u8)
2812 169..186 '(1u8, ...test()': bool 2812 169..186 '(1u8, ...test()': bool
2813 170..173 '1u8': u8 2813 170..173 '1u8': u8
2814 175..178 '1u8': u8 2814 175..178 '1u8': u8
2815 192..205 '(1u8, *"foo")': (u8, str) 2815 192..205 '(1u8, *"foo")': (u8, str)
2816 192..212 '(1u8, ...test()': {unknown} 2816 192..212 '(1u8, ...test()': {unknown}
2817 193..196 '1u8': u8 2817 193..196 '1u8': u8
2818 198..204 '*"foo"': str 2818 198..204 '*"foo"': str
2819 199..204 '"foo"': &str 2819 199..204 '"foo"': &str
2820 "### 2820 "#]],
2821 ); 2821 );
2822} 2822}
2823 2823
@@ -2867,156 +2867,150 @@ impl<A: Step> iter::Iterator for ops::Range<A> {
2867 2867
2868#[test] 2868#[test]
2869fn infer_closure_arg() { 2869fn infer_closure_arg() {
2870 assert_snapshot!( 2870 check_infer(
2871 infer( 2871 r#"
2872 r#" 2872 //- /lib.rs
2873 //- /lib.rs
2874
2875 enum Option<T> {
2876 None,
2877 Some(T)
2878 }
2879 2873
2880 fn foo() { 2874 enum Option<T> {
2881 let s = Option::None; 2875 None,
2882 let f = |x: Option<i32>| {}; 2876 Some(T)
2883 (&f)(s) 2877 }
2884 } 2878
2885 "# 2879 fn foo() {
2886 ), 2880 let s = Option::None;
2887 @r###" 2881 let f = |x: Option<i32>| {};
2888 52..126 '{ ...)(s) }': () 2882 (&f)(s)
2889 62..63 's': Option<i32> 2883 }
2890 66..78 'Option::None': Option<i32> 2884 "#,
2891 88..89 'f': |Option<i32>| -> () 2885 expect![[r#"
2892 92..111 '|x: Op...2>| {}': |Option<i32>| -> () 2886 52..126 '{ ...)(s) }': ()
2893 93..94 'x': Option<i32> 2887 62..63 's': Option<i32>
2894 109..111 '{}': () 2888 66..78 'Option::None': Option<i32>
2895 117..124 '(&f)(s)': () 2889 88..89 'f': |Option<i32>| -> ()
2896 118..120 '&f': &|Option<i32>| -> () 2890 92..111 '|x: Op...2>| {}': |Option<i32>| -> ()
2897 119..120 'f': |Option<i32>| -> () 2891 93..94 'x': Option<i32>
2898 122..123 's': Option<i32> 2892 109..111 '{}': ()
2899 "### 2893 117..124 '(&f)(s)': ()
2894 118..120 '&f': &|Option<i32>| -> ()
2895 119..120 'f': |Option<i32>| -> ()
2896 122..123 's': Option<i32>
2897 "#]],
2900 ); 2898 );
2901} 2899}
2902 2900
2903#[test] 2901#[test]
2904fn infer_fn_trait_arg() { 2902fn infer_fn_trait_arg() {
2905 assert_snapshot!( 2903 check_infer(
2906 infer( 2904 r#"
2907 r#" 2905 //- /lib.rs deps:std
2908 //- /lib.rs deps:std
2909 2906
2910 #[lang = "fn_once"] 2907 #[lang = "fn_once"]
2911 pub trait FnOnce<Args> { 2908 pub trait FnOnce<Args> {
2912 type Output; 2909 type Output;
2913 2910
2914 extern "rust-call" fn call_once(&self, args: Args) -> Self::Output; 2911 extern "rust-call" fn call_once(&self, args: Args) -> Self::Output;
2915 } 2912 }
2916 2913
2917 #[lang = "fn"] 2914 #[lang = "fn"]
2918 pub trait Fn<Args>:FnOnce<Args> { 2915 pub trait Fn<Args>:FnOnce<Args> {
2919 extern "rust-call" fn call(&self, args: Args) -> Self::Output; 2916 extern "rust-call" fn call(&self, args: Args) -> Self::Output;
2920 } 2917 }
2921 2918
2922 enum Option<T> { 2919 enum Option<T> {
2923 None, 2920 None,
2924 Some(T) 2921 Some(T)
2925 } 2922 }
2926 2923
2927 fn foo<F, T>(f: F) -> T 2924 fn foo<F, T>(f: F) -> T
2928 where 2925 where
2929 F: Fn(Option<i32>) -> T, 2926 F: Fn(Option<i32>) -> T,
2930 { 2927 {
2931 let s = None; 2928 let s = None;
2932 f(s) 2929 f(s)
2933 } 2930 }
2934 "# 2931 "#,
2935 ), 2932 expect![[r#"
2936 @r###" 2933 101..105 'self': &Self
2937 101..105 'self': &Self 2934 107..111 'args': Args
2938 107..111 'args': Args 2935 220..224 'self': &Self
2939 220..224 'self': &Self 2936 226..230 'args': Args
2940 226..230 'args': Args 2937 313..314 'f': F
2941 313..314 'f': F 2938 359..389 '{ ...f(s) }': T
2942 359..389 '{ ...f(s) }': T 2939 369..370 's': Option<i32>
2943 369..370 's': Option<i32> 2940 373..377 'None': Option<i32>
2944 373..377 'None': Option<i32> 2941 383..384 'f': F
2945 383..384 'f': F 2942 383..387 'f(s)': T
2946 383..387 'f(s)': T 2943 385..386 's': Option<i32>
2947 385..386 's': Option<i32> 2944 "#]],
2948 "###
2949 ); 2945 );
2950} 2946}
2951 2947
2952#[test] 2948#[test]
2953fn infer_box_fn_arg() { 2949fn infer_box_fn_arg() {
2954 assert_snapshot!( 2950 check_infer(
2955 infer( 2951 r#"
2956 r#" 2952 //- /lib.rs deps:std
2957 //- /lib.rs deps:std
2958 2953
2959 #[lang = "fn_once"] 2954 #[lang = "fn_once"]
2960 pub trait FnOnce<Args> { 2955 pub trait FnOnce<Args> {
2961 type Output; 2956 type Output;
2962 2957
2963 extern "rust-call" fn call_once(self, args: Args) -> Self::Output; 2958 extern "rust-call" fn call_once(self, args: Args) -> Self::Output;
2964 } 2959 }
2965 2960
2966 #[lang = "deref"] 2961 #[lang = "deref"]
2967 pub trait Deref { 2962 pub trait Deref {
2968 type Target: ?Sized; 2963 type Target: ?Sized;
2969 2964
2970 fn deref(&self) -> &Self::Target; 2965 fn deref(&self) -> &Self::Target;
2971 } 2966 }
2972 2967
2973 #[lang = "owned_box"] 2968 #[lang = "owned_box"]
2974 pub struct Box<T: ?Sized> { 2969 pub struct Box<T: ?Sized> {
2975 inner: *mut T, 2970 inner: *mut T,
2976 } 2971 }
2977 2972
2978 impl<T: ?Sized> Deref for Box<T> { 2973 impl<T: ?Sized> Deref for Box<T> {
2979 type Target = T; 2974 type Target = T;
2980 2975
2981 fn deref(&self) -> &T { 2976 fn deref(&self) -> &T {
2982 &self.inner 2977 &self.inner
2983 }
2984 } 2978 }
2979 }
2985 2980
2986 enum Option<T> { 2981 enum Option<T> {
2987 None, 2982 None,
2988 Some(T) 2983 Some(T)
2989 } 2984 }
2990 2985
2991 fn foo() { 2986 fn foo() {
2992 let s = Option::None; 2987 let s = Option::None;
2993 let f: Box<dyn FnOnce(&Option<i32>)> = box (|ps| {}); 2988 let f: Box<dyn FnOnce(&Option<i32>)> = box (|ps| {});
2994 f(&s) 2989 f(&s)
2995 } 2990 }
2996 "# 2991 "#,
2997 ), 2992 expect![[r#"
2998 @r###" 2993 100..104 'self': Self
2999 100..104 'self': Self 2994 106..110 'args': Args
3000 106..110 'args': Args 2995 214..218 'self': &Self
3001 214..218 'self': &Self 2996 384..388 'self': &Box<T>
3002 384..388 'self': &Box<T> 2997 396..423 '{ ... }': &T
3003 396..423 '{ ... }': &T 2998 406..417 '&self.inner': &*mut T
3004 406..417 '&self.inner': &*mut T 2999 407..411 'self': &Box<T>
3005 407..411 'self': &Box<T> 3000 407..417 'self.inner': *mut T
3006 407..417 'self.inner': *mut T 3001 478..575 '{ ...(&s) }': FnOnce::Output<dyn FnOnce<(&Option<i32>,)>, (&Option<i32>,)>
3007 478..575 '{ ...(&s) }': FnOnce::Output<dyn FnOnce<(&Option<i32>,)>, (&Option<i32>,)> 3002 488..489 's': Option<i32>
3008 488..489 's': Option<i32> 3003 492..504 'Option::None': Option<i32>
3009 492..504 'Option::None': Option<i32> 3004 514..515 'f': Box<dyn FnOnce<(&Option<i32>,)>>
3010 514..515 'f': Box<dyn FnOnce<(&Option<i32>,)>> 3005 549..562 'box (|ps| {})': Box<|{unknown}| -> ()>
3011 549..562 'box (|ps| {})': Box<|{unknown}| -> ()> 3006 554..561 '|ps| {}': |{unknown}| -> ()
3012 554..561 '|ps| {}': |{unknown}| -> () 3007 555..557 'ps': {unknown}
3013 555..557 'ps': {unknown} 3008 559..561 '{}': ()
3014 559..561 '{}': () 3009 568..569 'f': Box<dyn FnOnce<(&Option<i32>,)>>
3015 568..569 'f': Box<dyn FnOnce<(&Option<i32>,)>> 3010 568..573 'f(&s)': FnOnce::Output<dyn FnOnce<(&Option<i32>,)>, (&Option<i32>,)>
3016 568..573 'f(&s)': FnOnce::Output<dyn FnOnce<(&Option<i32>,)>, (&Option<i32>,)> 3011 570..572 '&s': &Option<i32>
3017 570..572 '&s': &Option<i32> 3012 571..572 's': Option<i32>
3018 571..572 's': Option<i32> 3013 "#]],
3019 "###
3020 ); 3014 );
3021} 3015}
3022 3016