// This test ensures that attributes on formals in generic parameter // lists are included when we are checking for unstable attributes. struct StLt<#[lt_struct] 'a>(&'a u32); //~^ ERROR cannot find attribute `lt_struct` in this scope struct StTy<#[ty_struct] I>(I); //~^ ERROR cannot find attribute `ty_struct` in this scope enum EnLt<#[lt_enum] 'b> { A(&'b u32), B } //~^ ERROR cannot find attribute `lt_enum` in this scope enum EnTy<#[ty_enum] J> { A(J), B } //~^ ERROR cannot find attribute `ty_enum` in this scope trait TrLt<#[lt_trait] 'c> { fn foo(&self, _: &'c [u32]) -> &'c u32; } //~^ ERROR cannot find attribute `lt_trait` in this scope trait TrTy<#[ty_trait] K> { fn foo(&self, _: K); } //~^ ERROR cannot find attribute `ty_trait` in this scope type TyLt<#[lt_type] 'd> = &'d u32; //~^ ERROR cannot find attribute `lt_type` in this scope type TyTy<#[ty_type] L> = (L, ); //~^ ERROR cannot find attribute `ty_type` in this scope impl<#[lt_inherent] 'e> StLt<'e> { } //~^ ERROR cannot find attribute `lt_inherent` in this scope impl<#[ty_inherent] M> StTy { } //~^ ERROR cannot find attribute `ty_inherent` in this scope impl<#[lt_impl_for] 'f> TrLt<'f> for StLt<'f> { //~^ ERROR cannot find attribute `lt_impl_for` in this scope fn foo(&self, _: &'f [u32]) -> &'f u32 { loop { } } } impl<#[ty_impl_for] N> TrTy for StTy { //~^ ERROR cannot find attribute `ty_impl_for` in this scope fn foo(&self, _: N) { } } fn f_lt<#[lt_fn] 'g>(_: &'g [u32]) -> &'g u32 { loop { } } //~^ ERROR cannot find attribute `lt_fn` in this scope fn f_ty<#[ty_fn] O>(_: O) { } //~^ ERROR cannot find attribute `ty_fn` in this scope impl StTy { fn m_lt<#[lt_meth] 'h>(_: &'h [u32]) -> &'h u32 { loop { } } //~^ ERROR cannot find attribute `lt_meth` in this scope fn m_ty<#[ty_meth] P>(_: P) { } //~^ ERROR cannot find attribute `ty_meth` in this scope } fn hof_lt(_: Q) where Q: for <#[lt_hof] 'i> Fn(&'i [u32]) -> &'i u32 //~^ ERROR cannot find attribute `lt_hof` in this scope { } fn main() { }