go typeparams 源码
golang typeparams 代码
文件路径:/src/go/types/testdata/check/typeparams.go
// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package p
// import "io" // for type assertion tests
var _ any // ok to use any anywhere
func _[_ any, _ interface{any}](any) {
var _ any
}
func identity[T any](x T) T { return x }
func _[_ any](x int) int { panic(0) }
func _[T any](T /* ERROR redeclared */ T)() {}
func _[T, T /* ERROR redeclared */ any]() {}
// Constraints (incl. any) may be parenthesized.
func _[_ (any)]() {}
func _[_ (interface{})]() {}
func reverse[T any](list []T) []T {
rlist := make([]T, len(list))
i := len(list)
for _, x := range list {
i--
rlist[i] = x
}
return rlist
}
var _ = reverse /* ERROR cannot use generic function reverse */
var _ = reverse[int, float32 /* ERROR got 2 type arguments */ ] ([]int{1, 2, 3})
var _ = reverse[int]([ /* ERROR cannot use */ ]float32{1, 2, 3})
var f = reverse[chan int]
var _ = f(0 /* ERROR cannot use 0 .* as \[\]chan int */ )
func swap[A, B any](a A, b B) (B, A) { return b, a }
var _ = swap /* ERROR single value is expected */ [int, float32](1, 2)
var f32, i = swap[int, float32](swap[float32, int](1, 2))
var _ float32 = f32
var _ int = i
func swapswap[A, B any](a A, b B) (A, B) {
return swap[B, A](b, a)
}
type F[A, B any] func(A, B) (B, A)
func min[T interface{ ~int }](x, y T) T {
if x < y {
return x
}
return y
}
func _[T interface{~int | ~float32}](x, y T) bool { return x < y }
func _[T any](x, y T) bool { return x /* ERROR cannot compare */ < y }
func _[T interface{~int | ~float32 | ~bool}](x, y T) bool { return x /* ERROR cannot compare */ < y }
func _[T C1[T]](x, y T) bool { return x /* ERROR cannot compare */ < y }
func _[T C2[T]](x, y T) bool { return x < y }
type C1[T any] interface{}
type C2[T any] interface{ ~int | ~float32 }
func new[T any]() *T {
var x T
return &x
}
var _ = new /* ERROR cannot use generic function new */
var _ *int = new[int]()
func _[T any](map[T /* ERROR incomparable map key type T \(missing comparable constraint\) */]int) {} // w/o constraint we don't know if T is comparable
func f1[T1 any](struct{T1 /* ERROR cannot be a .* type parameter */ }) int { panic(0) }
var _ = f1[int](struct{T1}{})
type T1 = int
func f2[t1 any](struct{t1 /* ERROR cannot be a .* type parameter */ ; x float32}) int { panic(0) }
var _ = f2[t1](struct{t1; x float32}{})
type t1 = int
func f3[A, B, C any](A, struct{x B}, func(A, struct{x B}, *C)) int { panic(0) }
var _ = f3[int, rune, bool](1, struct{x rune}{}, nil)
// indexing
func _[T any] (x T, i int) { _ = x /* ERROR "cannot index" */ [i] }
func _[T interface{ ~int }] (x T, i int) { _ = x /* ERROR "cannot index" */ [i] }
func _[T interface{ ~string }] (x T, i int) { _ = x[i] }
func _[T interface{ ~[]int }] (x T, i int) { _ = x[i] }
func _[T interface{ ~[10]int | ~*[20]int | ~map[int]int }] (x T, i int) { _ = x /* ERROR cannot index */ [i] } // map and non-map types
func _[T interface{ ~string | ~[]byte }] (x T, i int) { _ = x[i] }
func _[T interface{ ~[]int | ~[1]rune }] (x T, i int) { _ = x /* ERROR "cannot index" */ [i] }
func _[T interface{ ~string | ~[]rune }] (x T, i int) { _ = x /* ERROR "cannot index" */ [i] }
// indexing with various combinations of map types in type sets (see issue #42616)
func _[T interface{ ~[]E | ~map[int]E }, E any](x T, i int) { _ = x /* ERROR cannot index */ [i] } // map and non-map types
func _[T interface{ ~[]E }, E any](x T, i int) { _ = &x[i] }
func _[T interface{ ~map[int]E }, E any](x T, i int) { _, _ = x[i] } // comma-ok permitted
func _[T interface{ ~map[int]E }, E any](x T, i int) { _ = &x /* ERROR cannot take address */ [i] }
func _[T interface{ ~map[int]E | ~map[uint]E }, E any](x T, i int) { _ = x /* ERROR cannot index */ [i] } // different map element types
func _[T interface{ ~[]E | ~map[string]E }, E any](x T, i int) { _ = x /* ERROR cannot index */ [i] } // map and non-map types
// indexing with various combinations of array and other types in type sets
func _[T interface{ [10]int }](x T, i int) { _ = x[i]; _ = x[9]; _ = x[10 /* ERROR out of bounds */ ] }
func _[T interface{ [10]byte | string }](x T, i int) { _ = x[i]; _ = x[9]; _ = x[10 /* ERROR out of bounds */ ] }
func _[T interface{ [10]int | *[20]int | []int }](x T, i int) { _ = x[i]; _ = x[9]; _ = x[10 /* ERROR out of bounds */ ] }
// indexing with strings and non-variable arrays (assignment not permitted)
func _[T string](x T) { _ = x[0]; x /* ERROR cannot assign */ [0] = 0 }
func _[T []byte | string](x T) { x /* ERROR cannot assign */ [0] = 0 }
func _[T [10]byte]() { f := func() (x T) { return }; f /* ERROR cannot assign */ ()[0] = 0 }
func _[T [10]byte]() { f := func() (x *T) { return }; f /* ERROR cannot index */ ()[0] = 0 }
func _[T [10]byte]() { f := func() (x *T) { return }; (*f())[0] = 0 }
func _[T *[10]byte]() { f := func() (x T) { return }; f()[0] = 0 }
// slicing
func _[T interface{ ~[10]E }, E any] (x T, i, j, k int) { var _ []E = x[i:j] }
func _[T interface{ ~[10]E }, E any] (x T, i, j, k int) { var _ []E = x[i:j:k] }
func _[T interface{ ~[]byte }] (x T, i, j, k int) { var _ T = x[i:j] }
func _[T interface{ ~[]byte }] (x T, i, j, k int) { var _ T = x[i:j:k] }
func _[T interface{ ~string }] (x T, i, j, k int) { var _ T = x[i:j] }
func _[T interface{ ~string }] (x T, i, j, k int) { var _ T = x[i:j:k /* ERROR 3-index slice of string */ ] }
type myByte1 []byte
type myByte2 []byte
func _[T interface{ []byte | myByte1 | myByte2 }] (x T, i, j, k int) { var _ T = x[i:j:k] }
func _[T interface{ []byte | myByte1 | []int }] (x T, i, j, k int) { var _ T = x /* ERROR no core type */ [i:j:k] }
func _[T interface{ []byte | myByte1 | myByte2 | string }] (x T, i, j, k int) { var _ T = x[i:j] }
func _[T interface{ []byte | myByte1 | myByte2 | string }] (x T, i, j, k int) { var _ T = x[i:j:k /* ERROR 3-index slice of string */ ] }
func _[T interface{ []byte | myByte1 | []int | string }] (x T, i, j, k int) { var _ T = x /* ERROR no core type */ [i:j] }
// len/cap built-ins
func _[T any](x T) { _ = len(x /* ERROR invalid argument */ ) }
func _[T interface{ ~int }](x T) { _ = len(x /* ERROR invalid argument */ ) }
func _[T interface{ ~string | ~[]byte | ~int }](x T) { _ = len(x /* ERROR invalid argument */ ) }
func _[T interface{ ~string }](x T) { _ = len(x) }
func _[T interface{ ~[10]int }](x T) { _ = len(x) }
func _[T interface{ ~[]byte }](x T) { _ = len(x) }
func _[T interface{ ~map[int]int }](x T) { _ = len(x) }
func _[T interface{ ~chan int }](x T) { _ = len(x) }
func _[T interface{ ~string | ~[]byte | ~chan int }](x T) { _ = len(x) }
func _[T any](x T) { _ = cap(x /* ERROR invalid argument */ ) }
func _[T interface{ ~int }](x T) { _ = cap(x /* ERROR invalid argument */ ) }
func _[T interface{ ~string | ~[]byte | ~int }](x T) { _ = cap(x /* ERROR invalid argument */ ) }
func _[T interface{ ~string }](x T) { _ = cap(x /* ERROR invalid argument */ ) }
func _[T interface{ ~[10]int }](x T) { _ = cap(x) }
func _[T interface{ ~[]byte }](x T) { _ = cap(x) }
func _[T interface{ ~map[int]int }](x T) { _ = cap(x /* ERROR invalid argument */ ) }
func _[T interface{ ~chan int }](x T) { _ = cap(x) }
func _[T interface{ ~[]byte | ~chan int }](x T) { _ = cap(x) }
// range iteration
func _[T interface{}](x T) {
for range x /* ERROR cannot range */ {}
}
type myString string
func _[
B1 interface{ string },
B2 interface{ string | myString },
C1 interface{ chan int },
C2 interface{ chan int | <-chan int },
C3 interface{ chan<- int },
S1 interface{ []int },
S2 interface{ []int | [10]int },
A1 interface{ [10]int },
A2 interface{ [10]int | []int },
P1 interface{ *[10]int },
P2 interface{ *[10]int | *[]int },
M1 interface{ map[string]int },
M2 interface{ map[string]int | map[string]string },
]() {
var b0 string
for range b0 {}
for _ = range b0 {}
for _, _ = range b0 {}
var b1 B1
for range b1 {}
for _ = range b1 {}
for _, _ = range b1 {}
var b2 B2
for range b2 {}
var c0 chan int
for range c0 {}
for _ = range c0 {}
for _, _ /* ERROR permits only one iteration variable */ = range c0 {}
var c1 C1
for range c1 {}
for _ = range c1 {}
for _, _ /* ERROR permits only one iteration variable */ = range c1 {}
var c2 C2
for range c2 {}
var c3 C3
for range c3 /* ERROR receive from send-only channel */ {}
var s0 []int
for range s0 {}
for _ = range s0 {}
for _, _ = range s0 {}
var s1 S1
for range s1 {}
for _ = range s1 {}
for _, _ = range s1 {}
var s2 S2
for range s2 /* ERROR cannot range over s2.*no core type */ {}
var a0 []int
for range a0 {}
for _ = range a0 {}
for _, _ = range a0 {}
var a1 A1
for range a1 {}
for _ = range a1 {}
for _, _ = range a1 {}
var a2 A2
for range a2 /* ERROR cannot range over a2.*no core type */ {}
var p0 *[10]int
for range p0 {}
for _ = range p0 {}
for _, _ = range p0 {}
var p1 P1
for range p1 {}
for _ = range p1 {}
for _, _ = range p1 {}
var p2 P2
for range p2 /* ERROR cannot range over p2.*no core type */ {}
var m0 map[string]int
for range m0 {}
for _ = range m0 {}
for _, _ = range m0 {}
var m1 M1
for range m1 {}
for _ = range m1 {}
for _, _ = range m1 {}
var m2 M2
for range m2 /* ERROR cannot range over m2.*no core type */ {}
}
// type inference checks
var _ = new /* ERROR cannot infer T */ ()
func f4[A, B, C any](A, B) C { panic(0) }
var _ = f4 /* ERROR cannot infer C */ (1, 2)
var _ = f4[int, float32, complex128](1, 2)
func f5[A, B, C any](A, []*B, struct{f []C}) int { panic(0) }
var _ = f5[int, float32, complex128](0, nil, struct{f []complex128}{})
var _ = f5 /* ERROR cannot infer */ (0, nil, struct{f []complex128}{})
var _ = f5(0, []*float32{new[float32]()}, struct{f []complex128}{})
func f6[A any](A, []A) int { panic(0) }
var _ = f6(0, nil)
func f6nil[A any](A) int { panic(0) }
var _ = f6nil /* ERROR cannot infer */ (nil)
// type inference with variadic functions
func f7[T any](...T) T { panic(0) }
var _ int = f7 /* ERROR cannot infer T */ ()
var _ int = f7(1)
var _ int = f7(1, 2)
var _ int = f7([]int{}...)
var _ int = f7 /* ERROR cannot use */ ([]float64{}...)
var _ float64 = f7([]float64{}...)
var _ = f7[float64](1, 2.3)
var _ = f7(float64(1), 2.3)
var _ = f7(1, 2.3 /* ERROR does not match */ )
var _ = f7(1.2, 3 /* ERROR does not match */ )
func f8[A, B any](A, B, ...B) int { panic(0) }
var _ = f8(1) /* ERROR not enough arguments */
var _ = f8(1, 2.3)
var _ = f8(1, 2.3, 3.4, 4.5)
var _ = f8(1, 2.3, 3.4, 4 /* ERROR does not match */ )
var _ = f8[int, float64](1, 2.3, 3.4, 4)
var _ = f8[int, float64](0, 0, nil...) // test case for #18268
// init functions cannot have type parameters
func init() {}
func init[_ /* ERROR func init must have no type parameters */ any]() {}
func init[P /* ERROR func init must have no type parameters */ any]() {}
type T struct {}
func (T) m1() {}
func (T) m2[ /* ERROR method must have no type parameters */ _ any]() {}
func (T) m3[ /* ERROR method must have no type parameters */ P any]() {}
// type inference across parameterized types
type S1[P any] struct { f P }
func f9[P any](x S1[P]) {}
func _() {
f9[int](S1[int]{42})
f9(S1[int]{42})
}
type S2[A, B, C any] struct{}
func f10[X, Y, Z any](a S2[X, int, Z], b S2[X, Y, bool]) {}
func _[P any]() {
f10[int, float32, string](S2[int, int, string]{}, S2[int, float32, bool]{})
f10(S2[int, int, string]{}, S2[int, float32, bool]{})
f10(S2[P, int, P]{}, S2[P, float32, bool]{})
}
// corner case for type inference
// (was bug: after instanting f11, the type-checker didn't mark f11 as non-generic)
func f11[T any]() {}
func _() {
f11[int]()
}
// the previous example was extracted from
// For now, a lone type parameter is not permitted as RHS in a type declaration (issue #45639).
// func f12[T interface{m() T}]() {}
//
// type A[T any] T
//
// func (a A[T]) m() A[T]
//
// func _[T any]() {
// f12[A[T]]()
// }
// method expressions
func (_ S1[P]) m()
func _() {
m := S1[int].m
m(struct { f int }{42})
}
func _[T any] (x T) {
m := S1[T].m
m(S1[T]{x})
}
type I1[A any] interface {
m1(A)
}
var _ I1[int] = r1[int]{}
type r1[T any] struct{}
func (_ r1[T]) m1(T)
type I2[A, B any] interface {
m1(A)
m2(A) B
}
var _ I2[int, float32] = R2[int, float32]{}
type R2[P, Q any] struct{}
func (_ R2[X, Y]) m1(X)
func (_ R2[X, Y]) m2(X) Y
// type assertions and type switches over generic types
// NOTE: These are currently disabled because it's unclear what the correct
// approach is, and one can always work around by assigning the variable to
// an interface first.
// // ReadByte1 corresponds to the ReadByte example in the draft design.
// func ReadByte1[T io.Reader](r T) (byte, error) {
// if br, ok := r.(io.ByteReader); ok {
// return br.ReadByte()
// }
// var b [1]byte
// _, err := r.Read(b[:])
// return b[0], err
// }
//
// // ReadBytes2 is like ReadByte1 but uses a type switch instead.
// func ReadByte2[T io.Reader](r T) (byte, error) {
// switch br := r.(type) {
// case io.ByteReader:
// return br.ReadByte()
// }
// var b [1]byte
// _, err := r.Read(b[:])
// return b[0], err
// }
//
// // type assertions and type switches over generic types are strict
// type I3 interface {
// m(int)
// }
//
// type I4 interface {
// m() int // different signature from I3.m
// }
//
// func _[T I3](x I3, p T) {
// // type assertions and type switches over interfaces are not strict
// _ = x.(I4)
// switch x.(type) {
// case I4:
// }
//
// // type assertions and type switches over generic types are strict
// _ = p /* ERROR cannot have dynamic type I4 */.(I4)
// switch p.(type) {
// case I4 /* ERROR cannot have dynamic type I4 */ :
// }
// }
// type assertions and type switches over generic types lead to errors for now
func _[T any](x T) {
_ = x /* ERROR cannot use type assertion */ .(int)
switch x /* ERROR cannot use type switch */ .(type) {
}
// work-around
var t interface{} = x
_ = t.(int)
switch t.(type) {
}
}
func _[T interface{~int}](x T) {
_ = x /* ERROR cannot use type assertion */ .(int)
switch x /* ERROR cannot use type switch */ .(type) {
}
// work-around
var t interface{} = x
_ = t.(int)
switch t.(type) {
}
}
// error messages related to type bounds mention those bounds
type C[P any] interface{}
func _[P C[P]] (x P) {
x.m /* ERROR x.m undefined */ ()
}
type I interface {}
func _[P I] (x P) {
x.m /* ERROR type P has no field or method m */ ()
}
func _[P interface{}] (x P) {
x.m /* ERROR type P has no field or method m */ ()
}
func _[P any] (x P) {
x.m /* ERROR type P has no field or method m */ ()
}
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