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// aux-build:attr-stmt-expr.rs
// aux-build:test-macros.rs
// compile-flags: -Z span-debug
// check-pass
#![feature(proc_macro_hygiene)]
#![feature(stmt_expr_attributes)]
#![feature(rustc_attrs)]
#![allow(dead_code)]
#![no_std] // Don't load unnecessary hygiene information from std
extern crate std;
extern crate attr_stmt_expr;
extern crate test_macros;
use attr_stmt_expr::{expect_let, expect_my_macro_stmt, expect_expr, expect_my_macro_expr};
use test_macros::print_attr;
// We don't use `std::println` so that we avoid loading hygiene
// information from libstd, which would affect the SyntaxContext ids
macro_rules! my_macro {
($($tt:tt)*) => { () }
}
fn print_str(string: &'static str) {
// macros are handled a bit differently
#[expect_my_macro_expr]
my_macro!("{}", string)
}
macro_rules! make_stmt {
($stmt:stmt) => {
#[print_attr]
#[rustc_dummy]
$stmt; // This semicolon is *not* passed to the macro,
// since `$stmt` is already a statement.
}
}
macro_rules! second_make_stmt {
($stmt:stmt) => {
make_stmt!($stmt);
}
}
// The macro will see a semicolon here
#[print_attr]
struct ItemWithSemi;
fn main() {
make_stmt!(struct Foo {});
#[print_attr]
#[expect_let]
let string = "Hello, world!";
#[print_attr]
#[expect_my_macro_stmt]
my_macro!("{}", string);
#[print_attr]
second_make_stmt!(#[allow(dead_code)] struct Bar {});
#[print_attr]
#[rustc_dummy]
struct Other {};
// The macro also sees a semicolon,
// for consistency with the `ItemWithSemi` case above.
#[print_attr]
#[rustc_dummy]
struct NonBracedStruct;
#[expect_expr]
print_str("string")
}
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