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|
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:7:12
|
LL | const CST: (u32, (u32, (u32, (u32, u32)))) = (0, (0, (0, (0, 0))));
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
= note: `-D clippy::type-complexity` implied by `-D warnings`
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:8:12
|
LL | static ST: (u32, (u32, (u32, (u32, u32)))) = (0, (0, (0, (0, 0))));
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:11:8
|
LL | f: Vec<Vec<Box<(u32, u32, u32, u32)>>>,
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:14:11
|
LL | struct Ts(Vec<Vec<Box<(u32, u32, u32, u32)>>>);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:17:11
|
LL | Tuple(Vec<Vec<Box<(u32, u32, u32, u32)>>>),
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:18:17
|
LL | Struct { f: Vec<Vec<Box<(u32, u32, u32, u32)>>> },
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:22:14
|
LL | const A: (u32, (u32, (u32, (u32, u32)))) = (0, (0, (0, (0, 0))));
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:23:30
|
LL | fn impl_method(&self, p: Vec<Vec<Box<(u32, u32, u32, u32)>>>) {}
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:27:14
|
LL | const A: Vec<Vec<Box<(u32, u32, u32, u32)>>>;
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:28:14
|
LL | type B = Vec<Vec<Box<(u32, u32, u32, u32)>>>;
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:29:25
|
LL | fn method(&self, p: Vec<Vec<Box<(u32, u32, u32, u32)>>>);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:30:29
|
LL | fn def_method(&self, p: Vec<Vec<Box<(u32, u32, u32, u32)>>>) {}
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:42:15
|
LL | fn test1() -> Vec<Vec<Box<(u32, u32, u32, u32)>>> {
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:46:14
|
LL | fn test2(_x: Vec<Vec<Box<(u32, u32, u32, u32)>>>) {}
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: very complex type used. Consider factoring parts into `type` definitions
--> $DIR/type_complexity.rs:49:13
|
LL | let _y: Vec<Vec<Box<(u32, u32, u32, u32)>>> = vec![];
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: aborting due to 15 previous errors
|