#![allow( clippy::assertions_on_constants, clippy::assertions_on_result_states, clippy::cast_possible_truncation, clippy::cast_possible_wrap, clippy::float_cmp, clippy::needless_pass_by_value, clippy::unit_cmp, clippy::unseparated_literal_suffix )] use cxx::SharedPtr; use cxx_test_suite::module::ffi2; use cxx_test_suite::{cast, ffi, R}; use std::cell::Cell; use std::ffi::CStr; thread_local! { static CORRECT: Cell = Cell::new(false); } #[no_mangle] extern "C" fn cxx_test_suite_set_correct() { CORRECT.with(|correct| correct.set(true)); } macro_rules! check { ($run:expr) => {{ CORRECT.with(|correct| correct.set(false)); $run; assert!(CORRECT.with(Cell::get), "{}", stringify!($run)); }}; } #[test] fn test_c_return() { let shared = ffi::Shared { z: 2020 }; let ns_shared = ffi::AShared { z: 2020 }; let nested_ns_shared = ffi::ABShared { z: 2020 }; assert_eq!(2020, ffi::c_return_primitive()); assert_eq!(2020, ffi::c_return_shared().z); assert_eq!(2020, ffi::c_return_box().0); ffi::c_return_unique_ptr(); ffi2::c_return_ns_unique_ptr(); assert_eq!(2020, *ffi::c_return_ref(&shared)); assert_eq!(2020, *ffi::c_return_ns_ref(&ns_shared)); assert_eq!(2020, *ffi::c_return_nested_ns_ref(&nested_ns_shared)); assert_eq!("2020", ffi::c_return_str(&shared)); assert_eq!( b"2020\0", cast::c_char_to_unsigned(ffi::c_return_slice_char(&shared)), ); assert_eq!("2020", ffi::c_return_rust_string()); assert_eq!("Hello \u{fffd}World", ffi::c_return_rust_string_lossy()); assert_eq!("2020", ffi::c_return_unique_ptr_string().to_str().unwrap()); assert_eq!(4, ffi::c_return_unique_ptr_vector_u8().len()); assert_eq!( 200_u8, ffi::c_return_unique_ptr_vector_u8().into_iter().sum(), ); assert_eq!( 200.5_f64, ffi::c_return_unique_ptr_vector_f64().into_iter().sum(), ); assert_eq!(2, ffi::c_return_unique_ptr_vector_shared().len()); assert_eq!( 2021_usize, ffi::c_return_unique_ptr_vector_shared() .into_iter() .map(|o| o.z) .sum(), ); assert_eq!(b"\x02\0\x02\0"[..], ffi::c_return_rust_vec_u8()); assert_eq!([true, true, false][..], ffi::c_return_rust_vec_bool()); assert_eq!(2020, ffi::c_return_identity(2020)); assert_eq!(2021, ffi::c_return_sum(2020, 1)); match ffi::c_return_enum(0) { enm @ ffi::Enum::AVal => assert_eq!(0, enm.repr), _ => assert!(false), } match ffi::c_return_enum(1) { enm @ ffi::Enum::BVal => assert_eq!(2020, enm.repr), _ => assert!(false), } match ffi::c_return_enum(2021) { enm @ ffi::Enum::LastVal => assert_eq!(2021, enm.repr), _ => assert!(false), } match ffi::c_return_ns_enum(0) { enm @ ffi::AEnum::AAVal => assert_eq!(0, enm.repr), _ => assert!(false), } match ffi::c_return_nested_ns_enum(0) { enm @ ffi::ABEnum::ABAVal => assert_eq!(0, enm.repr), _ => assert!(false), } } #[test] fn test_c_try_return() { assert_eq!((), ffi::c_try_return_void().unwrap()); assert_eq!(2020, ffi::c_try_return_primitive().unwrap()); assert_eq!( "logic error", ffi::c_fail_return_primitive().unwrap_err().what(), ); assert_eq!(2020, ffi::c_try_return_box().unwrap().0); assert_eq!("2020", *ffi::c_try_return_ref(&"2020".to_owned()).unwrap()); assert_eq!("2020", ffi::c_try_return_str("2020").unwrap()); assert_eq!(b"2020", ffi::c_try_return_sliceu8(b"2020").unwrap()); assert_eq!("2020", ffi::c_try_return_rust_string().unwrap()); assert_eq!("2020", &*ffi::c_try_return_unique_ptr_string().unwrap()); } #[test] fn test_c_take() { let unique_ptr = ffi::c_return_unique_ptr(); let unique_ptr_ns = ffi2::c_return_ns_unique_ptr(); check!(ffi::c_take_primitive(2020)); check!(ffi::c_take_shared(ffi::Shared { z: 2020 })); check!(ffi::c_take_ns_shared(ffi::AShared { z: 2020 })); check!(ffi::ns_c_take_ns_shared(ffi::AShared { z: 2020 })); check!(ffi::c_take_nested_ns_shared(ffi::ABShared { z: 2020 })); check!(ffi::c_take_box(Box::new(R(2020)))); check!(ffi::c_take_ref_c(&unique_ptr)); check!(ffi2::c_take_ref_ns_c(&unique_ptr_ns)); check!(cxx_test_suite::module::ffi::c_take_unique_ptr(unique_ptr)); check!(ffi::c_take_str("2020")); check!(ffi::c_take_slice_char(cast::unsigned_to_c_char(b"2020"))); check!(ffi::c_take_slice_shared(&[ ffi::Shared { z: 2020 }, ffi::Shared { z: 2021 }, ])); let shared_sort_slice = &mut [ ffi::Shared { z: 2 }, ffi::Shared { z: 0 }, ffi::Shared { z: 7 }, ffi::Shared { z: 4 }, ]; check!(ffi::c_take_slice_shared_sort(shared_sort_slice)); assert_eq!(shared_sort_slice[0].z, 0); assert_eq!(shared_sort_slice[1].z, 2); assert_eq!(shared_sort_slice[2].z, 4); assert_eq!(shared_sort_slice[3].z, 7); let r_sort_slice = &mut [R(2020), R(2050), R(2021)]; check!(ffi::c_take_slice_r(r_sort_slice)); check!(ffi::c_take_slice_r_sort(r_sort_slice)); assert_eq!(r_sort_slice[0].0, 2020); assert_eq!(r_sort_slice[1].0, 2021); assert_eq!(r_sort_slice[2].0, 2050); check!(ffi::c_take_rust_string("2020".to_owned())); check!(ffi::c_take_unique_ptr_string( ffi::c_return_unique_ptr_string() )); let mut vector = ffi::c_return_unique_ptr_vector_u8(); assert_eq!(vector.pin_mut().pop(), Some(9)); check!(ffi::c_take_unique_ptr_vector_u8(vector)); let mut vector = ffi::c_return_unique_ptr_vector_f64(); vector.pin_mut().push(9.0); check!(ffi::c_take_unique_ptr_vector_f64(vector)); let mut vector = ffi::c_return_unique_ptr_vector_shared(); vector.pin_mut().push(ffi::Shared { z: 9 }); check!(ffi::c_take_unique_ptr_vector_shared(vector)); check!(ffi::c_take_ref_vector(&ffi::c_return_unique_ptr_vector_u8())); let test_vec = [86_u8, 75_u8, 30_u8, 9_u8].to_vec(); check!(ffi::c_take_rust_vec(test_vec.clone())); check!(ffi::c_take_rust_vec_index(test_vec.clone())); let shared_test_vec = vec![ffi::Shared { z: 1010 }, ffi::Shared { z: 1011 }]; check!(ffi::c_take_rust_vec_shared(shared_test_vec.clone())); check!(ffi::c_take_rust_vec_shared_index(shared_test_vec.clone())); check!(ffi::c_take_rust_vec_shared_push(shared_test_vec.clone())); check!(ffi::c_take_rust_vec_shared_truncate( shared_test_vec.clone() )); check!(ffi::c_take_rust_vec_shared_clear(shared_test_vec.clone())); check!(ffi::c_take_rust_vec_shared_forward_iterator( shared_test_vec, )); let shared_sort_vec = vec![ ffi::Shared { z: 2 }, ffi::Shared { z: 0 }, ffi::Shared { z: 7 }, ffi::Shared { z: 4 }, ]; check!(ffi::c_take_rust_vec_shared_sort(shared_sort_vec)); check!(ffi::c_take_ref_rust_vec(&test_vec)); check!(ffi::c_take_ref_rust_vec_index(&test_vec)); check!(ffi::c_take_ref_rust_vec_copy(&test_vec)); check!(ffi::c_take_ref_shared_string(&ffi::SharedString { msg: "2020".to_owned() })); let ns_shared_test_vec = vec![ffi::AShared { z: 1010 }, ffi::AShared { z: 1011 }]; check!(ffi::c_take_rust_vec_ns_shared(ns_shared_test_vec)); let nested_ns_shared_test_vec = vec![ffi::ABShared { z: 1010 }, ffi::ABShared { z: 1011 }]; check!(ffi::c_take_rust_vec_nested_ns_shared( nested_ns_shared_test_vec )); check!(ffi::c_take_enum(ffi::Enum::AVal)); check!(ffi::c_take_ns_enum(ffi::AEnum::AAVal)); check!(ffi::c_take_nested_ns_enum(ffi::ABEnum::ABAVal)); } #[test] fn test_c_callback() { fn callback(s: String) -> usize { if s == "2020" { cxx_test_suite_set_correct(); } 0 } #[allow(clippy::ptr_arg)] fn callback_ref(s: &String) { if s == "2020" { cxx_test_suite_set_correct(); } } fn callback_mut(s: &mut String) { if s == "2020" { cxx_test_suite_set_correct(); } } check!(ffi::c_take_callback(callback)); check!(ffi::c_take_callback_ref(callback_ref)); check!(ffi::c_take_callback_ref_lifetime(callback_ref)); check!(ffi::c_take_callback_mut(callback_mut)); } #[test] fn test_c_call_r() { fn cxx_run_test() { extern "C" { fn cxx_run_test() -> *const i8; } let failure = unsafe { cxx_run_test() }; if !failure.is_null() { let msg = unsafe { CStr::from_ptr(failure as *mut std::os::raw::c_char) }; eprintln!("{}", msg.to_string_lossy()); } } check!(cxx_run_test()); } #[test] fn test_c_method_calls() { let mut unique_ptr = ffi::c_return_unique_ptr(); let old_value = unique_ptr.get(); assert_eq!(2020, old_value); assert_eq!(2021, unique_ptr.pin_mut().set(2021)); assert_eq!(2021, unique_ptr.get()); assert_eq!(2021, unique_ptr.get2()); assert_eq!(2021, *unique_ptr.getRef()); assert_eq!(2021, *unique_ptr.pin_mut().getMut()); assert_eq!(2022, unique_ptr.pin_mut().set_succeed(2022).unwrap()); assert!(unique_ptr.pin_mut().get_fail().is_err()); assert_eq!(2021, ffi::Shared { z: 0 }.c_method_on_shared()); assert_eq!(2022, *ffi::Shared { z: 2022 }.c_method_ref_on_shared()); assert_eq!(2023, *ffi::Shared { z: 2023 }.c_method_mut_on_shared()); let val = 42; let mut array = ffi::Array { a: [0, 0, 0, 0], b: ffi::Buffer::default(), }; array.c_set_array(val); assert_eq!(array.a.len() as i32 * val, array.r_get_array_sum()); } #[test] fn test_shared_ptr_weak_ptr() { let shared_ptr = ffi::c_return_shared_ptr(); let weak_ptr = SharedPtr::downgrade(&shared_ptr); assert_eq!(1, ffi::c_get_use_count(&weak_ptr)); assert!(!weak_ptr.upgrade().is_null()); assert_eq!(1, ffi::c_get_use_count(&weak_ptr)); drop(shared_ptr); assert_eq!(0, ffi::c_get_use_count(&weak_ptr)); assert!(weak_ptr.upgrade().is_null()); } #[test] fn test_c_ns_method_calls() { let unique_ptr = ffi2::ns_c_return_unique_ptr_ns(); let old_value = unique_ptr.get(); assert_eq!(1000, old_value); } #[test] fn test_enum_representations() { assert_eq!(0, ffi::Enum::AVal.repr); assert_eq!(2020, ffi::Enum::BVal.repr); assert_eq!(2021, ffi::Enum::LastVal.repr); } #[test] fn test_debug() { assert_eq!("Shared { z: 1 }", format!("{:?}", ffi::Shared { z: 1 })); assert_eq!("BVal", format!("{:?}", ffi::Enum::BVal)); assert_eq!("Enum(9)", format!("{:?}", ffi::Enum { repr: 9 })); } #[no_mangle] extern "C" fn cxx_test_suite_get_box() -> *mut R { Box::into_raw(Box::new(R(2020usize))) } #[no_mangle] unsafe extern "C" fn cxx_test_suite_r_is_correct(r: *const R) -> bool { (*r).0 == 2020 } #[test] fn test_rust_name_attribute() { assert_eq!("2020", ffi::i32_overloaded_function(2020)); assert_eq!("2020", ffi::str_overloaded_function("2020")); let unique_ptr = ffi::c_return_unique_ptr(); assert_eq!("2020", unique_ptr.i32_overloaded_method(2020)); assert_eq!("2020", unique_ptr.str_overloaded_method("2020")); } #[test] fn test_extern_trivial() { let mut d = ffi2::c_return_trivial(); check!(ffi2::c_take_trivial_ref(&d)); check!(d.c_take_trivial_ref_method()); check!(d.c_take_trivial_mut_ref_method()); check!(ffi2::c_take_trivial(d)); let mut d = ffi2::c_return_trivial_ptr(); check!(d.c_take_trivial_ref_method()); check!(d.c_take_trivial_mut_ref_method()); check!(ffi2::c_take_trivial_ptr(d)); cxx::UniquePtr::new(ffi2::D { d: 42 }); let d = ffi2::ns_c_return_trivial(); check!(ffi2::ns_c_take_trivial(d)); let g = ffi2::c_return_trivial_ns(); check!(ffi2::c_take_trivial_ns_ref(&g)); check!(ffi2::c_take_trivial_ns(g)); let g = ffi2::c_return_trivial_ns_ptr(); check!(ffi2::c_take_trivial_ns_ptr(g)); cxx::UniquePtr::new(ffi2::G { g: 42 }); } #[test] fn test_extern_opaque() { let mut e = ffi2::c_return_opaque_ptr(); check!(ffi2::c_take_opaque_ref(e.as_ref().unwrap())); check!(e.c_take_opaque_ref_method()); check!(e.pin_mut().c_take_opaque_mut_ref_method()); check!(ffi2::c_take_opaque_ptr(e)); let f = ffi2::c_return_ns_opaque_ptr(); check!(ffi2::c_take_opaque_ns_ref(f.as_ref().unwrap())); check!(ffi2::c_take_opaque_ns_ptr(f)); } #[test] fn test_raw_ptr() { let c = ffi::c_return_mut_ptr(2023); let mut c_unique = unsafe { cxx::UniquePtr::from_raw(c) }; assert_eq!(2023, c_unique.pin_mut().set_succeed(2023).unwrap()); // c will be dropped as it's now in a UniquePtr let c2 = ffi::c_return_mut_ptr(2024); assert_eq!(2024, unsafe { ffi::c_take_const_ptr(c2) }); assert_eq!(2024, unsafe { ffi::c_take_mut_ptr(c2) }); // deletes c2 let c3 = ffi::c_return_const_ptr(2025); assert_eq!(2025, unsafe { ffi::c_take_const_ptr(c3) }); assert_eq!(2025, unsafe { ffi::c_take_mut_ptr(c3 as *mut ffi::C) }); // deletes c3 }