use super::{infer, type_at, type_at_pos};
use crate::test_db::TestDB;
use insta::assert_snapshot;
use ra_db::fixture::WithFixture;

#[test]
fn infer_box() {
    let (db, pos) = TestDB::with_position(
        r#"
//- /main.rs crate:main deps:std

fn test() {
    let x = box 1;
    let t = (x, box x, box &1, box [1]);
    t<|>;
}

//- /std.rs crate:std
#[prelude_import] use prelude::*;
mod prelude {}

mod boxed {
    #[lang = "owned_box"]
    pub struct Box<T: ?Sized> {
        inner: *mut T,
    }
}

"#,
    );
    assert_eq!("(Box<i32>, Box<Box<i32>>, Box<&i32>, Box<[i32; _]>)", type_at_pos(&db, pos));
}

#[test]
fn infer_adt_self() {
    let (db, pos) = TestDB::with_position(
        r#"
//- /main.rs
enum Nat { Succ(Self), Demo(Nat), Zero }

fn test() {
    let foo: Nat = Nat::Zero;
    if let Nat::Succ(x) = foo {
        x<|>
    }
}

"#,
    );
    assert_eq!("Nat", type_at_pos(&db, pos));
}

#[test]
fn self_in_struct_lit() {
    assert_snapshot!(infer(
        r#"
//- /main.rs
struct S<T> { x: T }

impl S<u32> {
    fn foo() {
        Self { x: 1 };
    }
}
"#,
    ), @r###"
    49..79 '{     ...     }': ()
    59..72 'Self { x: 1 }': S<u32>
    69..70 '1': u32
    "###);
}

#[test]
fn type_alias_in_struct_lit() {
    assert_snapshot!(infer(
        r#"
//- /main.rs
struct S<T> { x: T }

type SS = S<u32>;

fn foo() {
    SS { x: 1 };
}

"#,
    ), @r###"
    50..70 '{     ...1 }; }': ()
    56..67 'SS { x: 1 }': S<u32>
    64..65 '1': u32
    "###);
}

#[test]
fn infer_ranges() {
    let (db, pos) = TestDB::with_position(
        r#"
//- /main.rs crate:main deps:core
fn test() {
    let a = ..;
    let b = 1..;
    let c = ..2u32;
    let d = 1..2usize;
    let e = ..=10;
    let f = 'a'..='z';

    let t = (a, b, c, d, e, f);
    t<|>;
}

//- /core.rs crate:core
#[prelude_import] use prelude::*;
mod prelude {}

pub mod ops {
    pub struct Range<Idx> {
        pub start: Idx,
        pub end: Idx,
    }
    pub struct RangeFrom<Idx> {
        pub start: Idx,
    }
    struct RangeFull;
    pub struct RangeInclusive<Idx> {
        start: Idx,
        end: Idx,
        is_empty: u8,
    }
    pub struct RangeTo<Idx> {
        pub end: Idx,
    }
    pub struct RangeToInclusive<Idx> {
        pub end: Idx,
    }
}
"#,
    );
    assert_eq!(
        "(RangeFull, RangeFrom<i32>, RangeTo<u32>, Range<usize>, RangeToInclusive<i32>, RangeInclusive<char>)",
        type_at_pos(&db, pos),
    );
}

#[test]
fn infer_while_let() {
    let (db, pos) = TestDB::with_position(
        r#"
//- /main.rs
enum Option<T> { Some(T), None }

fn test() {
    let foo: Option<f32> = None;
    while let Option::Some(x) = foo {
        <|>x
    }
}

"#,
    );
    assert_eq!("f32", type_at_pos(&db, pos));
}

#[test]
fn infer_basics() {
    assert_snapshot!(
        infer(r#"
fn test(a: u32, b: isize, c: !, d: &str) {
    a;
    b;
    c;
    d;
    1usize;
    1isize;
    "test";
    1.0f32;
}"#),
        @r###"
    8..9 'a': u32
    16..17 'b': isize
    26..27 'c': !
    32..33 'd': &str
    41..120 '{     ...f32; }': ()
    47..48 'a': u32
    54..55 'b': isize
    61..62 'c': !
    68..69 'd': &str
    75..81 '1usize': usize
    87..93 '1isize': isize
    99..105 '"test"': &str
    111..117 '1.0f32': f32
    "###
    );
}

#[test]
fn infer_let() {
    assert_snapshot!(
        infer(r#"
fn test() {
    let a = 1isize;
    let b: usize = 1;
    let c = b;
    let d: u32;
    let e;
    let f: i32 = e;
}
"#),
        @r###"
    10..117 '{     ...= e; }': ()
    20..21 'a': isize
    24..30 '1isize': isize
    40..41 'b': usize
    51..52 '1': usize
    62..63 'c': usize
    66..67 'b': usize
    77..78 'd': u32
    93..94 'e': i32
    104..105 'f': i32
    113..114 'e': i32
    "###
    );
}

#[test]
fn infer_paths() {
    assert_snapshot!(
        infer(r#"
fn a() -> u32 { 1 }

mod b {
    fn c() -> u32 { 1 }
}

fn test() {
    a();
    b::c();
}
"#),
        @r###"
    14..19 '{ 1 }': u32
    16..17 '1': u32
    47..52 '{ 1 }': u32
    49..50 '1': u32
    66..90 '{     ...c(); }': ()
    72..73 'a': fn a() -> u32
    72..75 'a()': u32
    81..85 'b::c': fn c() -> u32
    81..87 'b::c()': u32
    "###
    );
}

#[test]
fn infer_path_type() {
    assert_snapshot!(
        infer(r#"
struct S;

impl S {
    fn foo() -> i32 { 1 }
}

fn test() {
    S::foo();
    <S>::foo();
}
"#),
        @r###"
    40..45 '{ 1 }': i32
    42..43 '1': i32
    59..92 '{     ...o(); }': ()
    65..71 'S::foo': fn foo() -> i32
    65..73 'S::foo()': i32
    79..87 '<S>::foo': fn foo() -> i32
    79..89 '<S>::foo()': i32
    "###
    );
}

#[test]
fn infer_struct() {
    assert_snapshot!(
        infer(r#"
struct A {
    b: B,
    c: C,
}
struct B;
struct C(usize);

fn test() {
    let c = C(1);
    B;
    let a: A = A { b: B, c: C(1) };
    a.b;
    a.c;
}
"#),
        @r###"
    71..153 '{     ...a.c; }': ()
    81..82 'c': C
    85..86 'C': C(usize) -> C
    85..89 'C(1)': C
    87..88 '1': usize
    95..96 'B': B
    106..107 'a': A
    113..132 'A { b:...C(1) }': A
    120..121 'B': B
    126..127 'C': C(usize) -> C
    126..130 'C(1)': C
    128..129 '1': usize
    138..139 'a': A
    138..141 'a.b': B
    147..148 'a': A
    147..150 'a.c': C
    "###
    );
}

#[test]
fn infer_enum() {
    assert_snapshot!(
        infer(r#"
enum E {
  V1 { field: u32 },
  V2
}
fn test() {
  E::V1 { field: 1 };
  E::V2;
}"#),
        @r###"
    47..81 '{   E:...:V2; }': ()
    51..69 'E::V1 ...d: 1 }': E
    66..67 '1': u32
    73..78 'E::V2': E
    "###
    );
}

#[test]
fn infer_refs() {
    assert_snapshot!(
        infer(r#"
fn test(a: &u32, b: &mut u32, c: *const u32, d: *mut u32) {
    a;
    *a;
    &a;
    &mut a;
    b;
    *b;
    &b;
    c;
    *c;
    d;
    *d;
}
"#),
        @r###"
    8..9 'a': &u32
    17..18 'b': &mut u32
    30..31 'c': *const u32
    45..46 'd': *mut u32
    58..149 '{     ... *d; }': ()
    64..65 'a': &u32
    71..73 '*a': u32
    72..73 'a': &u32
    79..81 '&a': &&u32
    80..81 'a': &u32
    87..93 '&mut a': &mut &u32
    92..93 'a': &u32
    99..100 'b': &mut u32
    106..108 '*b': u32
    107..108 'b': &mut u32
    114..116 '&b': &&mut u32
    115..116 'b': &mut u32
    122..123 'c': *const u32
    129..131 '*c': u32
    130..131 'c': *const u32
    137..138 'd': *mut u32
    144..146 '*d': u32
    145..146 'd': *mut u32
    "###
    );
}

#[test]
fn infer_raw_ref() {
    assert_snapshot!(
        infer(r#"
fn test(a: i32) {
    &raw mut a;
    &raw const a;
}
"#),
        @r###"
    8..9 'a': i32
    16..53 '{     ...t a; }': ()
    22..32 '&raw mut a': *mut i32
    31..32 'a': i32
    38..50 '&raw const a': *const i32
    49..50 'a': i32
    "###
    );
}

#[test]
fn infer_literals() {
    assert_snapshot!(
        infer(r##"
fn test() {
    5i32;
    5f32;
    5f64;
    "hello";
    b"bytes";
    'c';
    b'b';
    3.14;
    5000;
    false;
    true;
    r#"
        //! doc
        // non-doc
        mod foo {}
        "#;
    br#"yolo"#;
}
"##),
        @r###"
    10..220 '{     ...o"#; }': ()
    16..20 '5i32': i32
    26..30 '5f32': f32
    36..40 '5f64': f64
    46..53 '"hello"': &str
    59..67 'b"bytes"': &[u8; _]
    73..76 ''c'': char
    82..86 'b'b'': u8
    92..96 '3.14': f64
    102..106 '5000': i32
    112..117 'false': bool
    123..127 'true': bool
    133..201 'r#"   ...    "#': &str
    207..217 'br#"yolo"#': &[u8; _]
    "###
    );
}

#[test]
fn infer_unary_op() {
    assert_snapshot!(
        infer(r#"
enum SomeType {}

fn test(x: SomeType) {
    let b = false;
    let c = !b;
    let a = 100;
    let d: i128 = -a;
    let e = -100;
    let f = !!!true;
    let g = !42;
    let h = !10u32;
    let j = !a;
    -3.14;
    !3;
    -x;
    !x;
    -"hello";
    !"hello";
}
"#),
        @r###"
    26..27 'x': SomeType
    39..271 '{     ...lo"; }': ()
    49..50 'b': bool
    53..58 'false': bool
    68..69 'c': bool
    72..74 '!b': bool
    73..74 'b': bool
    84..85 'a': i128
    88..91 '100': i128
    101..102 'd': i128
    111..113 '-a': i128
    112..113 'a': i128
    123..124 'e': i32
    127..131 '-100': i32
    128..131 '100': i32
    141..142 'f': bool
    145..152 '!!!true': bool
    146..152 '!!true': bool
    147..152 '!true': bool
    148..152 'true': bool
    162..163 'g': i32
    166..169 '!42': i32
    167..169 '42': i32
    179..180 'h': u32
    183..189 '!10u32': u32
    184..189 '10u32': u32
    199..200 'j': i128
    203..205 '!a': i128
    204..205 'a': i128
    211..216 '-3.14': f64
    212..216 '3.14': f64
    222..224 '!3': i32
    223..224 '3': i32
    230..232 '-x': {unknown}
    231..232 'x': SomeType
    238..240 '!x': {unknown}
    239..240 'x': SomeType
    246..254 '-"hello"': {unknown}
    247..254 '"hello"': &str
    260..268 '!"hello"': {unknown}
    261..268 '"hello"': &str
    "###
    );
}

#[test]
fn infer_backwards() {
    assert_snapshot!(
        infer(r#"
fn takes_u32(x: u32) {}

struct S { i32_field: i32 }

fn test() -> &mut &f64 {
    let a = unknown_function();
    takes_u32(a);
    let b = unknown_function();
    S { i32_field: b };
    let c = unknown_function();
    &mut &c
}
"#),
        @r###"
    13..14 'x': u32
    21..23 '{}': ()
    77..230 '{     ...t &c }': &mut &f64
    87..88 'a': u32
    91..107 'unknow...nction': {unknown}
    91..109 'unknow...tion()': u32
    115..124 'takes_u32': fn takes_u32(u32)
    115..127 'takes_u32(a)': ()
    125..126 'a': u32
    137..138 'b': i32
    141..157 'unknow...nction': {unknown}
    141..159 'unknow...tion()': i32
    165..183 'S { i3...d: b }': S
    180..181 'b': i32
    193..194 'c': f64
    197..213 'unknow...nction': {unknown}
    197..215 'unknow...tion()': f64
    221..228 '&mut &c': &mut &f64
    226..228 '&c': &f64
    227..228 'c': f64
    "###
    );
}

#[test]
fn infer_self() {
    assert_snapshot!(
        infer(r#"
struct S;

impl S {
    fn test(&self) {
        self;
    }
    fn test2(self: &Self) {
        self;
    }
    fn test3() -> Self {
        S {}
    }
    fn test4() -> Self {
        Self {}
    }
}
"#),
        @r###"
    33..37 'self': &S
    39..60 '{     ...     }': ()
    49..53 'self': &S
    74..78 'self': &S
    87..108 '{     ...     }': ()
    97..101 'self': &S
    132..152 '{     ...     }': S
    142..146 'S {}': S
    176..199 '{     ...     }': S
    186..193 'Self {}': S
    "###
    );
}

#[test]
fn infer_self_as_path() {
    assert_snapshot!(
        infer(r#"
struct S1;
struct S2(isize);
enum E {
    V1,
    V2(u32),
}

impl S1 {
    fn test() {
        Self;
    }
}
impl S2 {
    fn test() {
        Self(1);
    }
}
impl E {
    fn test() {
        Self::V1;
        Self::V2(1);
    }
}
"#),
        @r###"
    86..107 '{     ...     }': ()
    96..100 'Self': S1
    134..158 '{     ...     }': ()
    144..148 'Self': S2(isize) -> S2
    144..151 'Self(1)': S2
    149..150 '1': isize
    184..230 '{     ...     }': ()
    194..202 'Self::V1': E
    212..220 'Self::V2': V2(u32) -> E
    212..223 'Self::V2(1)': E
    221..222 '1': u32
    "###
    );
}

#[test]
fn infer_binary_op() {
    assert_snapshot!(
        infer(r#"
fn f(x: bool) -> i32 {
    0i32
}

fn test() -> bool {
    let x = a && b;
    let y = true || false;
    let z = x == y;
    let t = x != y;
    let minus_forty: isize = -40isize;
    let h = minus_forty <= CONST_2;
    let c = f(z || y) + 5;
    let d = b;
    let g = minus_forty ^= i;
    let ten: usize = 10;
    let ten_is_eleven = ten == some_num;

    ten < 3
}
"#),
        @r###"
    5..6 'x': bool
    21..33 '{     0i32 }': i32
    27..31 '0i32': i32
    53..369 '{     ... < 3 }': bool
    63..64 'x': bool
    67..68 'a': bool
    67..73 'a && b': bool
    72..73 'b': bool
    83..84 'y': bool
    87..91 'true': bool
    87..100 'true || false': bool
    95..100 'false': bool
    110..111 'z': bool
    114..115 'x': bool
    114..120 'x == y': bool
    119..120 'y': bool
    130..131 't': bool
    134..135 'x': bool
    134..140 'x != y': bool
    139..140 'y': bool
    150..161 'minus_forty': isize
    171..179 '-40isize': isize
    172..179 '40isize': isize
    189..190 'h': bool
    193..204 'minus_forty': isize
    193..215 'minus_...ONST_2': bool
    208..215 'CONST_2': isize
    225..226 'c': i32
    229..230 'f': fn f(bool) -> i32
    229..238 'f(z || y)': i32
    229..242 'f(z || y) + 5': i32
    231..232 'z': bool
    231..237 'z || y': bool
    236..237 'y': bool
    241..242 '5': i32
    252..253 'd': {unknown}
    256..257 'b': {unknown}
    267..268 'g': ()
    271..282 'minus_forty': isize
    271..287 'minus_...y ^= i': ()
    286..287 'i': isize
    297..300 'ten': usize
    310..312 '10': usize
    322..335 'ten_is_eleven': bool
    338..341 'ten': usize
    338..353 'ten == some_num': bool
    345..353 'some_num': usize
    360..363 'ten': usize
    360..367 'ten < 3': bool
    366..367 '3': usize
    "###
    );
}

#[test]
fn infer_shift_op() {
    assert_snapshot!(
        infer(r#"
fn test() {
    1u32 << 5u8;
    1u32 >> 5u8;
}
"#),
        @r###"
    10..47 '{     ...5u8; }': ()
    16..20 '1u32': u32
    16..27 '1u32 << 5u8': u32
    24..27 '5u8': u8
    33..37 '1u32': u32
    33..44 '1u32 >> 5u8': u32
    41..44 '5u8': u8
    "###
    );
}

#[test]
fn infer_field_autoderef() {
    assert_snapshot!(
        infer(r#"
struct A {
    b: B,
}
struct B;

fn test1(a: A) {
    let a1 = a;
    a1.b;
    let a2 = &a;
    a2.b;
    let a3 = &mut a;
    a3.b;
    let a4 = &&&&&&&a;
    a4.b;
    let a5 = &mut &&mut &&mut a;
    a5.b;
}

fn test2(a1: *const A, a2: *mut A) {
    a1.b;
    a2.b;
}
"#),
        @r###"
    43..44 'a': A
    49..212 '{     ...5.b; }': ()
    59..61 'a1': A
    64..65 'a': A
    71..73 'a1': A
    71..75 'a1.b': B
    85..87 'a2': &A
    90..92 '&a': &A
    91..92 'a': A
    98..100 'a2': &A
    98..102 'a2.b': B
    112..114 'a3': &mut A
    117..123 '&mut a': &mut A
    122..123 'a': A
    129..131 'a3': &mut A
    129..133 'a3.b': B
    143..145 'a4': &&&&&&&A
    148..156 '&&&&&&&a': &&&&&&&A
    149..156 '&&&&&&a': &&&&&&A
    150..156 '&&&&&a': &&&&&A
    151..156 '&&&&a': &&&&A
    152..156 '&&&a': &&&A
    153..156 '&&a': &&A
    154..156 '&a': &A
    155..156 'a': A
    162..164 'a4': &&&&&&&A
    162..166 'a4.b': B
    176..178 'a5': &mut &&mut &&mut A
    181..199 '&mut &...&mut a': &mut &&mut &&mut A
    186..199 '&&mut &&mut a': &&mut &&mut A
    187..199 '&mut &&mut a': &mut &&mut A
    192..199 '&&mut a': &&mut A
    193..199 '&mut a': &mut A
    198..199 'a': A
    205..207 'a5': &mut &&mut &&mut A
    205..209 'a5.b': B
    223..225 'a1': *const A
    237..239 'a2': *mut A
    249..272 '{     ...2.b; }': ()
    255..257 'a1': *const A
    255..259 'a1.b': B
    265..267 'a2': *mut A
    265..269 'a2.b': B
    "###
    );
}

#[test]
fn infer_argument_autoderef() {
    assert_snapshot!(
        infer(r#"
#[lang = "deref"]
pub trait Deref {
    type Target;
    fn deref(&self) -> &Self::Target;
}

struct A<T>(T);

impl<T> A<T> {
    fn foo(&self) -> &T {
        &self.0
    }
}

struct B<T>(T);

impl<T> Deref for B<T> {
    type Target = T;
    fn deref(&self) -> &Self::Target {
        &self.0
    }
}

fn test() {
    let t = A::foo(&&B(B(A(42))));
}
"#),
        @r###"
    67..71 'self': &Self
    138..142 'self': &A<T>
    150..173 '{     ...     }': &T
    160..167 '&self.0': &T
    161..165 'self': &A<T>
    161..167 'self.0': T
    254..258 'self': &B<T>
    277..300 '{     ...     }': &T
    287..294 '&self.0': &T
    288..292 'self': &B<T>
    288..294 'self.0': T
    314..352 '{     ...))); }': ()
    324..325 't': &i32
    328..334 'A::foo': fn foo<i32>(&A<i32>) -> &i32
    328..349 'A::foo...42))))': &i32
    335..348 '&&B(B(A(42)))': &&B<B<A<i32>>>
    336..348 '&B(B(A(42)))': &B<B<A<i32>>>
    337..338 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>>
    337..348 'B(B(A(42)))': B<B<A<i32>>>
    339..340 'B': B<A<i32>>(A<i32>) -> B<A<i32>>
    339..347 'B(A(42))': B<A<i32>>
    341..342 'A': A<i32>(i32) -> A<i32>
    341..346 'A(42)': A<i32>
    343..345 '42': i32
    "###
    );
}

#[test]
fn infer_method_argument_autoderef() {
    assert_snapshot!(
        infer(r#"
#[lang = "deref"]
pub trait Deref {
    type Target;
    fn deref(&self) -> &Self::Target;
}

struct A<T>(*mut T);

impl<T> A<T> {
    fn foo(&self, x: &A<T>) -> &T {
        &*x.0
    }
}

struct B<T>(T);

impl<T> Deref for B<T> {
    type Target = T;
    fn deref(&self) -> &Self::Target {
        &self.0
    }
}

fn test(a: A<i32>) {
    let t = A(0 as *mut _).foo(&&B(B(a)));
}
"#),
        @r###"
    67..71 'self': &Self
    143..147 'self': &A<T>
    149..150 'x': &A<T>
    165..186 '{     ...     }': &T
    175..180 '&*x.0': &T
    176..180 '*x.0': T
    177..178 'x': &A<T>
    177..180 'x.0': *mut T
    267..271 'self': &B<T>
    290..313 '{     ...     }': &T
    300..307 '&self.0': &T
    301..305 'self': &B<T>
    301..307 'self.0': T
    325..326 'a': A<i32>
    336..382 '{     ...))); }': ()
    346..347 't': &i32
    350..351 'A': A<i32>(*mut i32) -> A<i32>
    350..364 'A(0 as *mut _)': A<i32>
    350..379 'A(0 as...B(a)))': &i32
    352..353 '0': i32
    352..363 '0 as *mut _': *mut i32
    369..378 '&&B(B(a))': &&B<B<A<i32>>>
    370..378 '&B(B(a))': &B<B<A<i32>>>
    371..372 'B': B<B<A<i32>>>(B<A<i32>>) -> B<B<A<i32>>>
    371..378 'B(B(a))': B<B<A<i32>>>
    373..374 'B': B<A<i32>>(A<i32>) -> B<A<i32>>
    373..377 'B(a)': B<A<i32>>
    375..376 'a': A<i32>
    "###
    );
}

#[test]
fn infer_in_elseif() {
    assert_snapshot!(
        infer(r#"
struct Foo { field: i32 }
fn main(foo: Foo) {
    if true {

    } else if false {
        foo.field
    }
}
"#),
        @r###"
    34..37 'foo': Foo
    44..108 '{     ...   } }': ()
    50..106 'if tru...     }': ()
    53..57 'true': bool
    58..66 '{      }': ()
    72..106 'if fal...     }': i32
    75..80 'false': bool
    81..106 '{     ...     }': i32
    91..94 'foo': Foo
    91..100 'foo.field': i32
    "###
    )
}

#[test]
fn infer_if_match_with_return() {
    assert_snapshot!(
        infer(r#"
fn foo() {
    let _x1 = if true {
        1
    } else {
        return;
    };
    let _x2 = if true {
        2
    } else {
        return
    };
    let _x3 = match true {
        true => 3,
        _ => {
            return;
        }
    };
    let _x4 = match true {
        true => 4,
        _ => return
    };
}"#),
        @r###"
    9..322 '{     ...  }; }': ()
    19..22 '_x1': i32
    25..79 'if tru...     }': i32
    28..32 'true': bool
    33..50 '{     ...     }': i32
    43..44 '1': i32
    56..79 '{     ...     }': i32
    66..72 'return': !
    89..92 '_x2': i32
    95..148 'if tru...     }': i32
    98..102 'true': bool
    103..120 '{     ...     }': i32
    113..114 '2': i32
    126..148 '{     ...     }': !
    136..142 'return': !
    158..161 '_x3': i32
    164..246 'match ...     }': i32
    170..174 'true': bool
    185..189 'true': bool
    185..189 'true': bool
    193..194 '3': i32
    204..205 '_': bool
    209..240 '{     ...     }': i32
    223..229 'return': !
    256..259 '_x4': i32
    262..319 'match ...     }': i32
    268..272 'true': bool
    283..287 'true': bool
    283..287 'true': bool
    291..292 '4': i32
    302..303 '_': bool
    307..313 'return': !
    "###
    )
}

#[test]
fn infer_inherent_method() {
    assert_snapshot!(
        infer(r#"
struct A;

impl A {
    fn foo(self, x: u32) -> i32 {}
}

mod b {
    impl super::A {
        fn bar(&self, x: u64) -> i64 {}
    }
}

fn test(a: A) {
    a.foo(1);
    (&a).bar(1);
    a.bar(1);
}
"#),
        @r###"
    31..35 'self': A
    37..38 'x': u32
    52..54 '{}': ()
    102..106 'self': &A
    108..109 'x': u64
    123..125 '{}': ()
    143..144 'a': A
    149..197 '{     ...(1); }': ()
    155..156 'a': A
    155..163 'a.foo(1)': i32
    161..162 '1': u32
    169..180 '(&a).bar(1)': i64
    170..172 '&a': &A
    171..172 'a': A
    178..179 '1': u64
    186..187 'a': A
    186..194 'a.bar(1)': i64
    192..193 '1': u64
    "###
    );
}

#[test]
fn infer_inherent_method_str() {
    assert_snapshot!(
        infer(r#"
#[lang = "str"]
impl str {
    fn foo(&self) -> i32 {}
}

fn test() {
    "foo".foo();
}
"#),
        @r###"
    39..43 'self': &str
    52..54 '{}': ()
    68..88 '{     ...o(); }': ()
    74..79 '"foo"': &str
    74..85 '"foo".foo()': i32
    "###
    );
}

#[test]
fn infer_tuple() {
    assert_snapshot!(
        infer(r#"
fn test(x: &str, y: isize) {
    let a: (u32, &str) = (1, "a");
    let b = (a, x);
    let c = (y, x);
    let d = (c, x);
    let e = (1, "e");
    let f = (e, "d");
}
"#),
        @r###"
    8..9 'x': &str
    17..18 'y': isize
    27..169 '{     ...d"); }': ()
    37..38 'a': (u32, &str)
    54..62 '(1, "a")': (u32, &str)
    55..56 '1': u32
    58..61 '"a"': &str
    72..73 'b': ((u32, &str), &str)
    76..82 '(a, x)': ((u32, &str), &str)
    77..78 'a': (u32, &str)
    80..81 'x': &str
    92..93 'c': (isize, &str)
    96..102 '(y, x)': (isize, &str)
    97..98 'y': isize
    100..101 'x': &str
    112..113 'd': ((isize, &str), &str)
    116..122 '(c, x)': ((isize, &str), &str)
    117..118 'c': (isize, &str)
    120..121 'x': &str
    132..133 'e': (i32, &str)
    136..144 '(1, "e")': (i32, &str)
    137..138 '1': i32
    140..143 '"e"': &str
    154..155 'f': ((i32, &str), &str)
    158..166 '(e, "d")': ((i32, &str), &str)
    159..160 'e': (i32, &str)
    162..165 '"d"': &str
    "###
    );
}

#[test]
fn infer_array() {
    assert_snapshot!(
        infer(r#"
fn test(x: &str, y: isize) {
    let a = [x];
    let b = [a, a];
    let c = [b, b];

    let d = [y, 1, 2, 3];
    let d = [1, y, 2, 3];
    let e = [y];
    let f = [d, d];
    let g = [e, e];

    let h = [1, 2];
    let i = ["a", "b"];

    let b = [a, ["b"]];
    let x: [u8; 0] = [];
}
"#),
        @r###"
    8..9 'x': &str
    17..18 'y': isize
    27..292 '{     ... []; }': ()
    37..38 'a': [&str; _]
    41..44 '[x]': [&str; _]
    42..43 'x': &str
    54..55 'b': [[&str; _]; _]
    58..64 '[a, a]': [[&str; _]; _]
    59..60 'a': [&str; _]
    62..63 'a': [&str; _]
    74..75 'c': [[[&str; _]; _]; _]
    78..84 '[b, b]': [[[&str; _]; _]; _]
    79..80 'b': [[&str; _]; _]
    82..83 'b': [[&str; _]; _]
    95..96 'd': [isize; _]
    99..111 '[y, 1, 2, 3]': [isize; _]
    100..101 'y': isize
    103..104 '1': isize
    106..107 '2': isize
    109..110 '3': isize
    121..122 'd': [isize; _]
    125..137 '[1, y, 2, 3]': [isize; _]
    126..127 '1': isize
    129..130 'y': isize
    132..133 '2': isize
    135..136 '3': isize
    147..148 'e': [isize; _]
    151..154 '[y]': [isize; _]
    152..153 'y': isize
    164..165 'f': [[isize; _]; _]
    168..174 '[d, d]': [[isize; _]; _]
    169..170 'd': [isize; _]
    172..173 'd': [isize; _]
    184..185 'g': [[isize; _]; _]
    188..194 '[e, e]': [[isize; _]; _]
    189..190 'e': [isize; _]
    192..193 'e': [isize; _]
    205..206 'h': [i32; _]
    209..215 '[1, 2]': [i32; _]
    210..211 '1': i32
    213..214 '2': i32
    225..226 'i': [&str; _]
    229..239 '["a", "b"]': [&str; _]
    230..233 '"a"': &str
    235..238 '"b"': &str
    250..251 'b': [[&str; _]; _]
    254..264 '[a, ["b"]]': [[&str; _]; _]
    255..256 'a': [&str; _]
    258..263 '["b"]': [&str; _]
    259..262 '"b"': &str
    274..275 'x': [u8; _]
    287..289 '[]': [u8; _]
    "###
    );
}

#[test]
fn infer_struct_generics() {
    assert_snapshot!(
        infer(r#"
struct A<T> {
    x: T,
}

fn test(a1: A<u32>, i: i32) {
    a1.x;
    let a2 = A { x: i };
    a2.x;
    let a3 = A::<i128> { x: 1 };
    a3.x;
}
"#),
        @r###"
    35..37 'a1': A<u32>
    47..48 'i': i32
    55..146 '{     ...3.x; }': ()
    61..63 'a1': A<u32>
    61..65 'a1.x': u32
    75..77 'a2': A<i32>
    80..90 'A { x: i }': A<i32>
    87..88 'i': i32
    96..98 'a2': A<i32>
    96..100 'a2.x': i32
    110..112 'a3': A<i128>
    115..133 'A::<i1...x: 1 }': A<i128>
    130..131 '1': i128
    139..141 'a3': A<i128>
    139..143 'a3.x': i128
    "###
    );
}

#[test]
fn infer_tuple_struct_generics() {
    assert_snapshot!(
        infer(r#"
struct A<T>(T);
enum Option<T> { Some(T), None }
use Option::*;

fn test() {
    A(42);
    A(42u128);
    Some("x");
    Option::Some("x");
    None;
    let x: Option<i64> = None;
}
"#),
        @r###"
    75..183 '{     ...one; }': ()
    81..82 'A': A<i32>(i32) -> A<i32>
    81..86 'A(42)': A<i32>
    83..85 '42': i32
    92..93 'A': A<u128>(u128) -> A<u128>
    92..101 'A(42u128)': A<u128>
    94..100 '42u128': u128
    107..111 'Some': Some<&str>(&str) -> Option<&str>
    107..116 'Some("x")': Option<&str>
    112..115 '"x"': &str
    122..134 'Option::Some': Some<&str>(&str) -> Option<&str>
    122..139 'Option...e("x")': Option<&str>
    135..138 '"x"': &str
    145..149 'None': Option<{unknown}>
    159..160 'x': Option<i64>
    176..180 'None': Option<i64>
    "###
    );
}

#[test]
fn infer_function_generics() {
    assert_snapshot!(
        infer(r#"
fn id<T>(t: T) -> T { t }

fn test() {
    id(1u32);
    id::<i128>(1);
    let x: u64 = id(1);
}
"#),
        @r###"
    9..10 't': T
    20..25 '{ t }': T
    22..23 't': T
    37..97 '{     ...(1); }': ()
    43..45 'id': fn id<u32>(u32) -> u32
    43..51 'id(1u32)': u32
    46..50 '1u32': u32
    57..67 'id::<i128>': fn id<i128>(i128) -> i128
    57..70 'id::<i128>(1)': i128
    68..69 '1': i128
    80..81 'x': u64
    89..91 'id': fn id<u64>(u64) -> u64
    89..94 'id(1)': u64
    92..93 '1': u64
    "###
    );
}

#[test]
fn infer_impl_generics_basic() {
    assert_snapshot!(
        infer(r#"
struct A<T1, T2> {
    x: T1,
    y: T2,
}
impl<Y, X> A<X, Y> {
    fn x(self) -> X {
        self.x
    }
    fn y(self) -> Y {
        self.y
    }
    fn z<T>(self, t: T) -> (X, Y, T) {
        (self.x, self.y, t)
    }
}

fn test() -> i128 {
    let a = A { x: 1u64, y: 1i64 };
    a.x();
    a.y();
    a.z(1i128);
    a.z::<u128>(1);
}
"#),
        @r###"
    73..77 'self': A<X, Y>
    84..106 '{     ...     }': X
    94..98 'self': A<X, Y>
    94..100 'self.x': X
    116..120 'self': A<X, Y>
    127..149 '{     ...     }': Y
    137..141 'self': A<X, Y>
    137..143 'self.y': Y
    162..166 'self': A<X, Y>
    168..169 't': T
    187..222 '{     ...     }': (X, Y, T)
    197..216 '(self.....y, t)': (X, Y, T)
    198..202 'self': A<X, Y>
    198..204 'self.x': X
    206..210 'self': A<X, Y>
    206..212 'self.y': Y
    214..215 't': T
    244..341 '{     ...(1); }': ()
    254..255 'a': A<u64, i64>
    258..280 'A { x:...1i64 }': A<u64, i64>
    265..269 '1u64': u64
    274..278 '1i64': i64
    286..287 'a': A<u64, i64>
    286..291 'a.x()': u64
    297..298 'a': A<u64, i64>
    297..302 'a.y()': i64
    308..309 'a': A<u64, i64>
    308..318 'a.z(1i128)': (u64, i64, i128)
    312..317 '1i128': i128
    324..325 'a': A<u64, i64>
    324..338 'a.z::<u128>(1)': (u64, i64, u128)
    336..337 '1': u128
    "###
    );
}

#[test]
fn infer_impl_generics_with_autoderef() {
    assert_snapshot!(
        infer(r#"
enum Option<T> {
    Some(T),
    None,
}
impl<T> Option<T> {
    fn as_ref(&self) -> Option<&T> {}
}
fn test(o: Option<u32>) {
    (&o).as_ref();
    o.as_ref();
}
"#),
        @r###"
    77..81 'self': &Option<T>
    97..99 '{}': ()
    110..111 'o': Option<u32>
    126..164 '{     ...f(); }': ()
    132..145 '(&o).as_ref()': Option<&u32>
    133..135 '&o': &Option<u32>
    134..135 'o': Option<u32>
    151..152 'o': Option<u32>
    151..161 'o.as_ref()': Option<&u32>
    "###
    );
}

#[test]
fn infer_generic_chain() {
    assert_snapshot!(
        infer(r#"
struct A<T> {
    x: T,
}
impl<T2> A<T2> {
    fn x(self) -> T2 {
        self.x
    }
}
fn id<T>(t: T) -> T { t }

fn test() -> i128 {
     let x = 1;
     let y = id(x);
     let a = A { x: id(y) };
     let z = id(a.x);
     let b = A { x: z };
     b.x()
}
"#),
        @r###"
    52..56 'self': A<T2>
    64..86 '{     ...     }': T2
    74..78 'self': A<T2>
    74..80 'self.x': T2
    98..99 't': T
    109..114 '{ t }': T
    111..112 't': T
    134..260 '{     ....x() }': i128
    145..146 'x': i128
    149..150 '1': i128
    161..162 'y': i128
    165..167 'id': fn id<i128>(i128) -> i128
    165..170 'id(x)': i128
    168..169 'x': i128
    181..182 'a': A<i128>
    185..199 'A { x: id(y) }': A<i128>
    192..194 'id': fn id<i128>(i128) -> i128
    192..197 'id(y)': i128
    195..196 'y': i128
    210..211 'z': i128
    214..216 'id': fn id<i128>(i128) -> i128
    214..221 'id(a.x)': i128
    217..218 'a': A<i128>
    217..220 'a.x': i128
    232..233 'b': A<i128>
    236..246 'A { x: z }': A<i128>
    243..244 'z': i128
    253..254 'b': A<i128>
    253..258 'b.x()': i128
    "###
    );
}

#[test]
fn infer_associated_const() {
    assert_snapshot!(
        infer(r#"
struct Struct;

impl Struct {
    const FOO: u32 = 1;
}

enum Enum {}

impl Enum {
    const BAR: u32 = 2;
}

trait Trait {
    const ID: u32;
}

struct TraitTest;

impl Trait for TraitTest {
    const ID: u32 = 5;
}

fn test() {
    let x = Struct::FOO;
    let y = Enum::BAR;
    let z = TraitTest::ID;
}
"#),
        @r###"
    51..52 '1': u32
    104..105 '2': u32
    212..213 '5': u32
    228..306 '{     ...:ID; }': ()
    238..239 'x': u32
    242..253 'Struct::FOO': u32
    263..264 'y': u32
    267..276 'Enum::BAR': u32
    286..287 'z': u32
    290..303 'TraitTest::ID': u32
    "###
    );
}

#[test]
fn infer_type_alias() {
    assert_snapshot!(
        infer(r#"
struct A<X, Y> { x: X, y: Y }
type Foo = A<u32, i128>;
type Bar<T> = A<T, u128>;
type Baz<U, V> = A<V, U>;
fn test(x: Foo, y: Bar<&str>, z: Baz<i8, u8>) {
    x.x;
    x.y;
    y.x;
    y.y;
    z.x;
    z.y;
}
"#),
        @r###"
    115..116 'x': A<u32, i128>
    123..124 'y': A<&str, u128>
    137..138 'z': A<u8, i8>
    153..210 '{     ...z.y; }': ()
    159..160 'x': A<u32, i128>
    159..162 'x.x': u32
    168..169 'x': A<u32, i128>
    168..171 'x.y': i128
    177..178 'y': A<&str, u128>
    177..180 'y.x': &str
    186..187 'y': A<&str, u128>
    186..189 'y.y': u128
    195..196 'z': A<u8, i8>
    195..198 'z.x': u8
    204..205 'z': A<u8, i8>
    204..207 'z.y': i8
    "###
    )
}

#[test]
fn recursive_type_alias() {
    assert_snapshot!(
        infer(r#"
struct A<X> {}
type Foo = Foo;
type Bar = A<Bar>;
fn test(x: Foo) {}
"#),
        @r###"
    58..59 'x': {unknown}
    66..68 '{}': ()
    "###
    )
}

#[test]
fn infer_type_param() {
    assert_snapshot!(
        infer(r#"
fn id<T>(x: T) -> T {
    x
}

fn clone<T>(x: &T) -> T {
    *x
}

fn test() {
    let y = 10u32;
    id(y);
    let x: bool = clone(z);
    id::<i128>(1);
}
"#),
        @r###"
    9..10 'x': T
    20..29 '{     x }': T
    26..27 'x': T
    43..44 'x': &T
    55..65 '{     *x }': T
    61..63 '*x': T
    62..63 'x': &T
    77..157 '{     ...(1); }': ()
    87..88 'y': u32
    91..96 '10u32': u32
    102..104 'id': fn id<u32>(u32) -> u32
    102..107 'id(y)': u32
    105..106 'y': u32
    117..118 'x': bool
    127..132 'clone': fn clone<bool>(&bool) -> bool
    127..135 'clone(z)': bool
    133..134 'z': &bool
    141..151 'id::<i128>': fn id<i128>(i128) -> i128
    141..154 'id::<i128>(1)': i128
    152..153 '1': i128
    "###
    );
}

#[test]
fn infer_const() {
    assert_snapshot!(
        infer(r#"
struct Foo;
impl Foo { const ASSOC_CONST: u32 = 0; }
const GLOBAL_CONST: u32 = 101;
fn test() {
    const LOCAL_CONST: u32 = 99;
    let x = LOCAL_CONST;
    let z = GLOBAL_CONST;
    let id = Foo::ASSOC_CONST;
}
"#),
        @r###"
    48..49 '0': u32
    79..82 '101': u32
    94..212 '{     ...NST; }': ()
    137..138 'x': u32
    141..152 'LOCAL_CONST': u32
    162..163 'z': u32
    166..178 'GLOBAL_CONST': u32
    188..190 'id': u32
    193..209 'Foo::A..._CONST': u32
    125..127 '99': u32
    "###
    );
}

#[test]
fn infer_static() {
    assert_snapshot!(
        infer(r#"
static GLOBAL_STATIC: u32 = 101;
static mut GLOBAL_STATIC_MUT: u32 = 101;
fn test() {
    static LOCAL_STATIC: u32 = 99;
    static mut LOCAL_STATIC_MUT: u32 = 99;
    let x = LOCAL_STATIC;
    let y = LOCAL_STATIC_MUT;
    let z = GLOBAL_STATIC;
    let w = GLOBAL_STATIC_MUT;
}
"#),
        @r###"
    28..31 '101': u32
    69..72 '101': u32
    84..279 '{     ...MUT; }': ()
    172..173 'x': u32
    176..188 'LOCAL_STATIC': u32
    198..199 'y': u32
    202..218 'LOCAL_...IC_MUT': u32
    228..229 'z': u32
    232..245 'GLOBAL_STATIC': u32
    255..256 'w': u32
    259..276 'GLOBAL...IC_MUT': u32
    117..119 '99': u32
    160..162 '99': u32
    "###
    );
}

#[test]
fn shadowing_primitive() {
    let t = type_at(
        r#"
//- /main.rs
struct i32;
struct Foo;

impl i32 { fn foo(&self) -> Foo { Foo } }

fn main() {
    let x: i32 = i32;
    x.foo()<|>;
}"#,
    );
    assert_eq!(t, "Foo");
}

#[test]
fn not_shadowing_primitive_by_module() {
    let t = type_at(
        r#"
//- /str.rs
fn foo() {}

//- /main.rs
mod str;
fn foo() -> &'static str { "" }

fn main() {
    foo()<|>;
}"#,
    );
    assert_eq!(t, "&str");
}

#[test]
fn not_shadowing_module_by_primitive() {
    let t = type_at(
        r#"
//- /str.rs
fn foo() -> u32 {0}

//- /main.rs
mod str;
fn foo() -> &'static str { "" }

fn main() {
    str::foo()<|>;
}"#,
    );
    assert_eq!(t, "u32");
}

// This test is actually testing the shadowing behavior within ra_hir_def. It
// lives here because the testing infrastructure in ra_hir_def isn't currently
// capable of asserting the necessary conditions.
#[test]
fn should_be_shadowing_imports() {
    let t = type_at(
        r#"
mod a {
    pub fn foo() -> i8 {0}
    pub struct foo { a: i8 }
}
mod b { pub fn foo () -> u8 {0} }
mod c { pub struct foo { a: u8 } }
mod d {
    pub use super::a::*;
    pub use super::c::foo;
    pub use super::b::foo;
}

fn main() {
    d::foo()<|>;
}"#,
    );
    assert_eq!(t, "u8");

    let t = type_at(
        r#"
mod a {
    pub fn foo() -> i8 {0}
    pub struct foo { a: i8 }
}
mod b { pub fn foo () -> u8 {0} }
mod c { pub struct foo { a: u8 } }
mod d {
    pub use super::a::*;
    pub use super::c::foo;
    pub use super::b::foo;
}

fn main() {
    d::foo{a:0<|>};
}"#,
    );
    assert_eq!(t, "u8");
}

#[test]
fn closure_return() {
    assert_snapshot!(
        infer(r#"
fn foo() -> u32 {
    let x = || -> usize { return 1; };
}
"#),
        @r###"
    16..58 '{     ...; }; }': ()
    26..27 'x': || -> usize
    30..55 '|| -> ...n 1; }': || -> usize
    42..55 '{ return 1; }': usize
    44..52 'return 1': !
    51..52 '1': usize
    "###
    );
}

#[test]
fn closure_return_unit() {
    assert_snapshot!(
        infer(r#"
fn foo() -> u32 {
    let x = || { return; };
}
"#),
        @r###"
    16..47 '{     ...; }; }': ()
    26..27 'x': || -> ()
    30..44 '|| { return; }': || -> ()
    33..44 '{ return; }': ()
    35..41 'return': !
    "###
    );
}

#[test]
fn closure_return_inferred() {
    assert_snapshot!(
        infer(r#"
fn foo() -> u32 {
    let x = || { "test" };
}
"#),
        @r###"
    16..46 '{     ..." }; }': ()
    26..27 'x': || -> &str
    30..43 '|| { "test" }': || -> &str
    33..43 '{ "test" }': &str
    35..41 '"test"': &str
    "###
    );
}

#[test]
fn fn_pointer_return() {
    assert_snapshot!(
        infer(r#"
struct Vtable {
    method: fn(),
}

fn main() {
    let vtable = Vtable { method: || {} };
    let m = vtable.method;
}
"#),
        @r###"
    47..120 '{     ...hod; }': ()
    57..63 'vtable': Vtable
    66..90 'Vtable...| {} }': Vtable
    83..88 '|| {}': || -> ()
    86..88 '{}': ()
    100..101 'm': fn()
    104..110 'vtable': Vtable
    104..117 'vtable.method': fn()
    "###
    );
}

#[test]
fn effects_smoke_test() {
    assert_snapshot!(
        infer(r#"
fn main() {
    let x = unsafe { 92 };
    let y = async { async { () }.await };
    let z = try { () };
    let t = 'a: { 92 };
}
"#),
        @r###"
    10..130 '{     ...2 }; }': ()
    20..21 'x': i32
    24..37 'unsafe { 92 }': i32
    31..37 '{ 92 }': i32
    33..35 '92': i32
    47..48 'y': {unknown}
    57..79 '{ asyn...wait }': {unknown}
    59..77 'async ....await': {unknown}
    65..71 '{ () }': ()
    67..69 '()': ()
    89..90 'z': {unknown}
    93..103 'try { () }': {unknown}
    97..103 '{ () }': ()
    99..101 '()': ()
    113..114 't': i32
    121..127 '{ 92 }': i32
    123..125 '92': i32
    "###
    )
}

#[test]
fn infer_generic_from_later_assignment() {
    assert_snapshot!(
        infer(r#"
enum Option<T> { Some(T), None }
use Option::*;

fn test() {
    let mut end = None;
    loop {
        end = Some(true);
    }
}
"#),
        @r###"
    59..129 '{     ...   } }': ()
    69..76 'mut end': Option<bool>
    79..83 'None': Option<bool>
    89..127 'loop {...     }': !
    94..127 '{     ...     }': ()
    104..107 'end': Option<bool>
    104..120 'end = ...(true)': ()
    110..114 'Some': Some<bool>(bool) -> Option<bool>
    110..120 'Some(true)': Option<bool>
    115..119 'true': bool
    "###
    );
}

#[test]
fn infer_loop_break_with_val() {
    assert_snapshot!(
        infer(r#"
enum Option<T> { Some(T), None }
use Option::*;

fn test() {
    let x = loop {
        if false {
            break None;
        }

        break Some(true);
    };
}
"#),
        @r###"
    59..168 '{     ...  }; }': ()
    69..70 'x': Option<bool>
    73..165 'loop {...     }': Option<bool>
    78..165 '{     ...     }': ()
    88..132 'if fal...     }': ()
    91..96 'false': bool
    97..132 '{     ...     }': ()
    111..121 'break None': !
    117..121 'None': Option<bool>
    142..158 'break ...(true)': !
    148..152 'Some': Some<bool>(bool) -> Option<bool>
    148..158 'Some(true)': Option<bool>
    153..157 'true': bool
    "###
    );
}

#[test]
fn infer_loop_break_without_val() {
    assert_snapshot!(
        infer(r#"
enum Option<T> { Some(T), None }
use Option::*;

fn test() {
    let x = loop {
        if false {
            break;
        }
    };
}
"#),
        @r###"
    59..136 '{     ...  }; }': ()
    69..70 'x': ()
    73..133 'loop {...     }': ()
    78..133 '{     ...     }': ()
    88..127 'if fal...     }': ()
    91..96 'false': bool
    97..127 '{     ...     }': ()
    111..116 'break': !
    "###
    );
}

#[test]
fn infer_labelled_break_with_val() {
    assert_snapshot!(
        infer(r#"
fn foo() {
    let _x = || 'outer: loop {
        let inner = 'inner: loop {
            let i = Default::default();
            if (break 'outer i) {
                loop { break 'inner 5i8; };
            } else if true {
                break 'inner 6;
            }
            break 7;
        };
        break inner < 8;
    };
}
"#),
        @r###"
    9..335 '{     ...  }; }': ()
    19..21 '_x': || -> bool
    24..332 '|| 'ou...     }': || -> bool
    27..332 ''outer...     }': bool
    40..332 '{     ...     }': ()
    54..59 'inner': i8
    62..300 ''inner...     }': i8
    75..300 '{     ...     }': ()
    93..94 'i': bool
    97..113 'Defaul...efault': {unknown}
    97..115 'Defaul...ault()': bool
    129..269 'if (br...     }': ()
    133..147 'break 'outer i': !
    146..147 'i': bool
    149..208 '{     ...     }': ()
    167..193 'loop {...5i8; }': !
    172..193 '{ brea...5i8; }': ()
    174..190 'break ...er 5i8': !
    187..190 '5i8': i8
    214..269 'if tru...     }': ()
    217..221 'true': bool
    222..269 '{     ...     }': ()
    240..254 'break 'inner 6': !
    253..254 '6': i8
    282..289 'break 7': !
    288..289 '7': i8
    310..325 'break inner < 8': !
    316..321 'inner': i8
    316..325 'inner < 8': bool
    324..325 '8': i8
    "###
    );
}

#[test]
fn generic_default() {
    assert_snapshot!(
        infer(r#"
struct Thing<T = ()> { t: T }
enum OtherThing<T = ()> {
    One { t: T },
    Two(T),
}

fn test(t1: Thing, t2: OtherThing, t3: Thing<i32>, t4: OtherThing<i32>) {
    t1.t;
    t3.t;
    match t2 {
        OtherThing::One { t } => { t; },
        OtherThing::Two(t) => { t; },
    }
    match t4 {
        OtherThing::One { t } => { t; },
        OtherThing::Two(t) => { t; },
    }
}
"#),
        @r###"
    97..99 't1': Thing<()>
    108..110 't2': OtherThing<()>
    124..126 't3': Thing<i32>
    140..142 't4': OtherThing<i32>
    161..384 '{     ...   } }': ()
    167..169 't1': Thing<()>
    167..171 't1.t': ()
    177..179 't3': Thing<i32>
    177..181 't3.t': i32
    187..282 'match ...     }': ()
    193..195 't2': OtherThing<()>
    206..227 'OtherT... { t }': OtherThing<()>
    224..225 't': ()
    231..237 '{ t; }': ()
    233..234 't': ()
    247..265 'OtherT...Two(t)': OtherThing<()>
    263..264 't': ()
    269..275 '{ t; }': ()
    271..272 't': ()
    287..382 'match ...     }': ()
    293..295 't4': OtherThing<i32>
    306..327 'OtherT... { t }': OtherThing<i32>
    324..325 't': i32
    331..337 '{ t; }': ()
    333..334 't': i32
    347..365 'OtherT...Two(t)': OtherThing<i32>
    363..364 't': i32
    369..375 '{ t; }': ()
    371..372 't': i32
    "###
    );
}

#[test]
fn generic_default_in_struct_literal() {
    assert_snapshot!(
        infer(r#"
struct Thing<T = ()> { t: T }
enum OtherThing<T = ()> {
    One { t: T },
    Two(T),
}

fn test() {
    let x = Thing { t: loop {} };
    let y = Thing { t: () };
    let z = Thing { t: 1i32 };
    if let Thing { t } = z {
        t;
    }

    let a = OtherThing::One { t: 1i32 };
    let b = OtherThing::Two(1i32);
}
"#),
        @r###"
    99..319 '{     ...32); }': ()
    109..110 'x': Thing<!>
    113..133 'Thing ...p {} }': Thing<!>
    124..131 'loop {}': !
    129..131 '{}': ()
    143..144 'y': Thing<()>
    147..162 'Thing { t: () }': Thing<()>
    158..160 '()': ()
    172..173 'z': Thing<i32>
    176..193 'Thing ...1i32 }': Thing<i32>
    187..191 '1i32': i32
    199..240 'if let...     }': ()
    206..217 'Thing { t }': Thing<i32>
    214..215 't': i32
    220..221 'z': Thing<i32>
    222..240 '{     ...     }': ()
    232..233 't': i32
    250..251 'a': OtherThing<i32>
    254..281 'OtherT...1i32 }': OtherThing<i32>
    275..279 '1i32': i32
    291..292 'b': OtherThing<i32>
    295..310 'OtherThing::Two': Two<i32>(i32) -> OtherThing<i32>
    295..316 'OtherT...(1i32)': OtherThing<i32>
    311..315 '1i32': i32
    "###
    );
}