// Protocol Buffers - Google's data interchange format // Copyright 2023 Google LLC. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd //! Tests covering accessors for singular bool, int32, int64, and bytes fields. use googletest::prelude::*; use protobuf::{Optional, ProtoBytes, ProtoStr, ProtoString}; use std::borrow::Cow; use std::ffi::OsString; use std::rc::Rc; use std::sync::Arc; use unittest_rust_proto::{test_all_types, TestAllTypes}; #[test] fn test_default_accessors() { let msg: TestAllTypes = Default::default(); assert_that!( msg, matches_pattern!(&TestAllTypes{ default_int32(): eq(41), default_int64(): eq(42), default_uint32(): eq(43), default_uint64(): eq(44), default_sint32(): eq(-45), default_sint64(): eq(46), default_fixed32(): eq(47), default_fixed64(): eq(48), default_sfixed32(): eq(49), default_sfixed64(): eq(-50), default_float(): eq(51.5), default_double(): eq(52000.0), default_bool(): eq(true), }) ); assert_that!(msg.default_string(), eq("hello")); assert_that!(msg.default_bytes(), eq("world".as_bytes())); } #[test] fn test_optional_fixed32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.has_optional_fixed32(), eq(false)); assert_that!(msg.optional_fixed32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_fixed32(), eq(0)); msg.set_optional_fixed32(7); assert_that!(msg.has_optional_fixed32(), eq(true)); assert_that!(msg.optional_fixed32_opt(), eq(Optional::Set(7))); assert_that!(msg.optional_fixed32(), eq(7)); msg.clear_optional_fixed32(); assert_that!(msg.has_optional_fixed32(), eq(false)); assert_that!(msg.optional_fixed32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_fixed32(), eq(0)); } #[test] fn test_default_fixed32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_fixed32(), eq(47)); assert_that!(msg.has_default_fixed32(), eq(false)); assert_that!(msg.default_fixed32_opt(), eq(Optional::Unset(47))); msg.set_default_fixed32(7); assert_that!(msg.default_fixed32(), eq(7)); assert_that!(msg.has_default_fixed32(), eq(true)); assert_that!(msg.default_fixed32_opt(), eq(Optional::Set(7))); msg.clear_default_fixed32(); assert_that!(msg.default_fixed32(), eq(47)); assert_that!(msg.has_default_fixed32(), eq(false)); assert_that!(msg.default_fixed32_opt(), eq(Optional::Unset(47))); } #[test] fn test_optional_fixed64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_fixed64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_fixed64(), eq(0)); msg.set_optional_fixed64(99); assert_that!(msg.optional_fixed64_opt(), eq(Optional::Set(99))); assert_that!(msg.optional_fixed64(), eq(99)); msg.set_optional_fixed64(2000); assert_that!(msg.optional_fixed64_opt(), eq(Optional::Set(2000))); assert_that!(msg.optional_fixed64(), eq(2000)); msg.clear_optional_fixed64(); assert_that!(msg.optional_fixed64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_fixed64(), eq(0)); } #[test] fn test_default_fixed64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_fixed64(), eq(48)); assert_that!(msg.default_fixed64_opt(), eq(Optional::Unset(48))); msg.set_default_fixed64(4); assert_that!(msg.default_fixed64(), eq(4)); assert_that!(msg.default_fixed64_opt(), eq(Optional::Set(4))); msg.set_default_fixed64(999); assert_that!(msg.default_fixed64(), eq(999)); assert_that!(msg.default_fixed64_opt(), eq(Optional::Set(999))); msg.clear_default_fixed64(); assert_that!(msg.default_fixed64(), eq(48)); assert_that!(msg.default_fixed64_opt(), eq(Optional::Unset(48))); } #[test] fn test_optional_int32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_int32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_int32(), eq(0)); msg.set_optional_int32(0); assert_that!(msg.optional_int32_opt(), eq(Optional::Set(0))); assert_that!(msg.optional_int32(), eq(0)); msg.set_optional_int32(1); assert_that!(msg.optional_int32_opt(), eq(Optional::Set(1))); assert_that!(msg.optional_int32(), eq(1)); msg.clear_optional_int32(); assert_that!(msg.optional_int32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_int32(), eq(0)); } #[test] fn test_default_int32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_int32(), eq(41)); assert_that!(msg.default_int32_opt(), eq(Optional::Unset(41))); msg.set_default_int32(41); assert_that!(msg.default_int32(), eq(41)); assert_that!(msg.default_int32_opt(), eq(Optional::Set(41))); msg.clear_default_int32(); assert_that!(msg.default_int32(), eq(41)); assert_that!(msg.default_int32_opt(), eq(Optional::Unset(41))); msg.set_default_int32(999); assert_that!(msg.default_int32(), eq(999)); assert_that!(msg.default_int32_opt(), eq(Optional::Set(999))); msg.clear_default_int32(); assert_that!(msg.default_int32(), eq(41)); assert_that!(msg.default_int32_opt(), eq(Optional::Unset(41))); } #[test] fn test_optional_int64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_int64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_int64(), eq(0)); msg.set_optional_int64(42); assert_that!(msg.optional_int64_opt(), eq(Optional::Set(42))); assert_that!(msg.optional_int64(), eq(42)); msg.clear_optional_int64(); assert_that!(msg.optional_int64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_int64(), eq(0)); } #[test] fn test_default_int64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_int64(), eq(42)); assert_that!(msg.default_int64_opt(), eq(Optional::Unset(42))); msg.set_default_int64(999); assert_that!(msg.default_int64(), eq(999)); assert_that!(msg.default_int64_opt(), eq(Optional::Set(999))); msg.clear_default_int64(); assert_that!(msg.default_int64(), eq(42)); assert_that!(msg.default_int64_opt(), eq(Optional::Unset(42))); } #[test] fn test_optional_sint32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_sint32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_sint32(), eq(0)); msg.set_optional_sint32(-22); assert_that!(msg.optional_sint32_opt(), eq(Optional::Set(-22))); assert_that!(msg.optional_sint32(), eq(-22)); msg.clear_optional_sint32(); assert_that!(msg.optional_sint32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_sint32(), eq(0)); } #[test] fn test_default_sint32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_sint32(), eq(-45)); assert_that!(msg.default_sint32_opt(), eq(Optional::Unset(-45))); msg.set_default_sint32(999); assert_that!(msg.default_sint32(), eq(999)); assert_that!(msg.default_sint32_opt(), eq(Optional::Set(999))); msg.clear_default_sint32(); assert_that!(msg.default_sint32(), eq(-45)); assert_that!(msg.default_sint32_opt(), eq(Optional::Unset(-45))); } #[test] fn test_optional_sint64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_sint64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_sint64(), eq(0)); msg.set_optional_sint64(7000); assert_that!(msg.optional_sint64_opt(), eq(Optional::Set(7000))); assert_that!(msg.optional_sint64(), eq(7000)); msg.clear_optional_sint64(); assert_that!(msg.optional_sint64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_sint64(), eq(0)); } #[test] fn test_default_sint64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_sint64(), eq(46)); assert_that!(msg.default_sint64_opt(), eq(Optional::Unset(46))); msg.set_default_sint64(999); assert_that!(msg.default_sint64(), eq(999)); assert_that!(msg.default_sint64_opt(), eq(Optional::Set(999))); msg.clear_default_sint64(); assert_that!(msg.default_sint64(), eq(46)); assert_that!(msg.default_sint64_opt(), eq(Optional::Unset(46))); } #[test] fn test_optional_uint32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_uint32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_uint32(), eq(0)); msg.set_optional_uint32(9001); assert_that!(msg.optional_uint32_opt(), eq(Optional::Set(9001))); assert_that!(msg.optional_uint32(), eq(9001)); msg.clear_optional_uint32(); assert_that!(msg.optional_uint32_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_uint32(), eq(0)); } #[test] fn test_default_uint32_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_uint32(), eq(43)); assert_that!(msg.default_uint32_opt(), eq(Optional::Unset(43))); msg.set_default_uint32(999); assert_that!(msg.default_uint32(), eq(999)); assert_that!(msg.default_uint32_opt(), eq(Optional::Set(999))); msg.clear_default_uint32(); assert_that!(msg.default_uint32(), eq(43)); assert_that!(msg.default_uint32_opt(), eq(Optional::Unset(43))); } #[test] fn test_optional_uint64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_uint64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_uint64(), eq(0)); msg.set_optional_uint64(42); assert_that!(msg.optional_uint64_opt(), eq(Optional::Set(42))); assert_that!(msg.optional_uint64(), eq(42)); msg.clear_optional_uint64(); assert_that!(msg.optional_uint64_opt(), eq(Optional::Unset(0))); assert_that!(msg.optional_uint64(), eq(0)); } #[test] fn test_default_uint64_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_uint64(), eq(44)); assert_that!(msg.default_uint64_opt(), eq(Optional::Unset(44))); msg.set_default_uint64(999); assert_that!(msg.default_uint64(), eq(999)); assert_that!(msg.default_uint64_opt(), eq(Optional::Set(999))); msg.clear_default_uint64(); assert_that!(msg.default_uint64(), eq(44)); assert_that!(msg.default_uint64_opt(), eq(Optional::Unset(44))); } #[test] fn test_optional_float_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_float_opt(), eq(Optional::Unset(0.0))); assert_that!(msg.optional_float(), eq(0.0)); msg.set_optional_float(std::f32::consts::PI); assert_that!(msg.optional_float_opt(), eq(Optional::Set(std::f32::consts::PI))); assert_that!(msg.optional_float(), eq(std::f32::consts::PI)); msg.clear_optional_float(); assert_that!(msg.optional_float_opt(), eq(Optional::Unset(0.0))); assert_that!(msg.optional_float(), eq(0.0)); } #[test] fn test_default_float_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_float(), eq(51.5)); assert_that!(msg.default_float_opt(), eq(Optional::Unset(51.5))); msg.set_default_float(999.9); assert_that!(msg.default_float(), eq(999.9)); assert_that!(msg.default_float_opt(), eq(Optional::Set(999.9))); msg.clear_default_float(); assert_that!(msg.default_float(), eq(51.5)); assert_that!(msg.default_float_opt(), eq(Optional::Unset(51.5))); } #[test] fn test_optional_double_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_double_opt(), eq(Optional::Unset(0.0))); assert_that!(msg.optional_double(), eq(0.0)); msg.set_optional_double(-10.99); assert_that!(msg.optional_double_opt(), eq(Optional::Set(-10.99))); assert_that!(msg.optional_double(), eq(-10.99)); msg.clear_optional_double(); assert_that!(msg.optional_double_opt(), eq(Optional::Unset(0.0))); assert_that!(msg.optional_double(), eq(0.0)); } #[test] fn test_default_double_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_double(), eq(52e3)); assert_that!(msg.default_double_opt(), eq(Optional::Unset(52e3))); msg.set_default_double(999.9); assert_that!(msg.default_double(), eq(999.9)); assert_that!(msg.default_double_opt(), eq(Optional::Set(999.9))); msg.clear_default_double(); assert_that!(msg.default_double(), eq(52e3)); assert_that!(msg.default_double_opt(), eq(Optional::Unset(52e3))); } #[test] fn test_optional_bool_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_bool_opt(), eq(Optional::Unset(false))); msg.set_optional_bool(true); assert_that!(msg.optional_bool_opt(), eq(Optional::Set(true))); msg.clear_optional_bool(); assert_that!(msg.optional_bool_opt(), eq(Optional::Unset(false))); } #[test] fn test_default_bool_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_bool(), eq(true)); assert_that!(msg.default_bool_opt(), eq(Optional::Unset(true))); msg.set_default_bool(false); assert_that!(msg.default_bool(), eq(false)); assert_that!(msg.default_bool_opt(), eq(Optional::Set(false))); msg.clear_default_bool(); assert_that!(msg.default_bool(), eq(true)); assert_that!(msg.default_bool_opt(), eq(Optional::Unset(true))); } #[test] fn test_optional_bytes_accessors() { let mut msg = TestAllTypes::new(); assert_that!(*msg.optional_bytes(), empty()); assert_that!(msg.has_optional_bytes(), eq(false)); assert_that!(msg.optional_bytes_opt(), eq(Optional::Unset(&b""[..]))); { let s = Vec::from(&b"hello world"[..]); msg.set_optional_bytes(&s[..]); } assert_that!(msg.optional_bytes(), eq(b"hello world")); assert_that!(msg.has_optional_bytes(), eq(true)); assert_that!(msg.optional_bytes_opt(), eq(Optional::Set(&b"hello world"[..]))); msg.clear_optional_bytes(); assert_that!(*msg.optional_bytes(), empty()); assert_that!(msg.has_optional_bytes(), eq(false)); assert_that!(msg.optional_bytes_opt(), eq(Optional::Unset(&b""[..]))); msg.set_optional_bytes(b""); assert_that!(*msg.optional_bytes(), empty()); assert_that!(msg.has_optional_bytes(), eq(true)); assert_that!(msg.optional_bytes_opt(), eq(Optional::Set(&b""[..]))); } #[test] fn test_into_proxied_for_bytes() { let mut msg = TestAllTypes::new(); // &[u8] let bytes: &[u8] = b"first"; msg.set_optional_bytes(bytes); assert_that!(msg.optional_bytes(), eq(bytes)); // &[u8; N] msg.set_optional_bytes(b"second"); assert_that!(msg.optional_bytes(), eq(b"second")); // Vec msg.set_optional_bytes(Vec::from(b"third")); assert_that!(msg.optional_bytes(), eq(b"third")); // ProtoBytes msg.set_optional_bytes(ProtoBytes::from(b"fourth")); assert_that!(msg.optional_bytes(), eq(b"fourth")); // Box<[u8]> msg.set_optional_bytes(Box::from(b"fifth".to_owned())); assert_that!(msg.optional_bytes(), eq(b"fifth")); // Cow<[u8]> msg.set_optional_bytes(Cow::from(b"sixth")); assert_that!(msg.optional_bytes(), eq(b"sixth")); // Rc<[u8]> msg.set_optional_bytes(Rc::from(b"seventh".to_owned())); assert_that!(msg.optional_bytes(), eq(b"seventh")); // Arc<[u8]> msg.set_optional_bytes(Arc::from(b"eighth".to_owned())); assert_that!(msg.optional_bytes(), eq(b"eighth")); // &Vec msg.set_optional_bytes(&Vec::from(b"ninth")); assert_that!(msg.optional_bytes(), eq(b"ninth")); } #[test] fn test_nonempty_default_bytes_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_bytes(), eq(b"world")); assert_that!(msg.has_default_bytes(), eq(false)); assert_that!(msg.default_bytes_opt(), eq(Optional::Unset(&b"world"[..]))); { let s = String::from("hello world"); msg.set_default_bytes(s.as_bytes()); } assert_that!(msg.default_bytes(), eq(b"hello world")); assert_that!(msg.has_default_bytes(), eq(true)); assert_that!(msg.default_bytes_opt(), eq(Optional::Set(&b"hello world"[..]))); msg.clear_default_bytes(); assert_that!(msg.default_bytes(), eq(b"world")); assert_that!(msg.has_default_bytes(), eq(false)); assert_that!(msg.default_bytes_opt(), eq(Optional::Unset(&b"world"[..]))); msg.set_default_bytes(b""); assert_that!(*msg.default_bytes(), empty()); assert_that!(msg.default_bytes_opt(), eq(Optional::Set(&b""[..]))); msg.clear_default_bytes(); assert_that!(msg.default_bytes(), eq(b"world")); assert_that!(msg.default_bytes_opt(), eq(Optional::Unset(&b"world"[..]))); } #[test] fn test_optional_string_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_string(), eq("")); assert_that!(msg.optional_string_opt(), eq(Optional::Unset("".into()))); { let s = String::from("hello world"); msg.set_optional_string(&s[..]); } assert_that!(msg.optional_string(), eq("hello world")); assert_that!(msg.optional_string_opt(), eq(Optional::Set("hello world".into()))); msg.clear_optional_string(); assert_that!(msg.optional_string(), eq("")); assert_that!(msg.optional_string_opt(), eq(Optional::Unset("".into()))); msg.set_optional_string(""); assert_that!(msg.optional_string(), eq("")); assert_that!(msg.optional_string_opt(), eq(Optional::Set("".into()))); msg.clear_optional_string(); assert_that!(msg.optional_string(), eq("")); assert_that!(msg.optional_string_opt(), eq(Optional::Unset("".into()))); } #[test] fn test_into_proxied_for_string() { let mut msg = TestAllTypes::new(); // &str msg.set_optional_string("first"); assert_that!(msg.optional_string(), eq("first")); // String msg.set_optional_string("second".to_string()); assert_that!(msg.optional_string(), eq("second")); // ProtoStr msg.set_optional_string(ProtoStr::from_str("third")); assert_that!(msg.optional_string(), eq("third")); // ProtoString msg.set_optional_string(ProtoString::from("fourth")); assert_that!(msg.optional_string(), eq("fourth")); // OsString msg.set_optional_string(OsString::from("fifth")); assert_that!(msg.optional_string(), eq("fifth")); // OsStr msg.set_optional_string(OsString::from("sixth").as_os_str()); assert_that!(msg.optional_string(), eq("sixth")); // Box msg.set_optional_string(Box::from("seventh")); assert_that!(msg.optional_string(), eq("seventh")); // Cow msg.set_optional_string(Cow::from("eighth")); assert_that!(msg.optional_string(), eq("eighth")); // Rc msg.set_optional_string(Rc::from("ninth")); assert_that!(msg.optional_string(), eq("ninth")); // Arc msg.set_optional_string(Arc::from("tenth")); assert_that!(msg.optional_string(), eq("tenth")); // &String msg.set_optional_string(&"eleventh".to_string()); assert_that!(msg.optional_string(), eq("eleventh")); } #[test] fn test_nonempty_default_string_accessors() { let mut msg = TestAllTypes::new(); assert_that!(msg.default_string(), eq("hello")); assert_that!(msg.default_string_opt(), eq(Optional::Unset("hello".into()))); { let s = String::from("hello world"); msg.set_default_string(&s[..]); } assert_that!(msg.default_string(), eq("hello world")); assert_that!(msg.default_string_opt(), eq(Optional::Set("hello world".into()))); msg.clear_default_string(); assert_that!(msg.default_string(), eq("hello")); assert_that!(msg.default_string_opt(), eq(Optional::Unset("hello".into()))); msg.set_default_string(""); assert_that!(msg.default_string(), eq("")); assert_that!(msg.default_string_opt(), eq(Optional::Set("".into()))); msg.clear_default_string(); assert_that!(msg.default_string(), eq("hello")); assert_that!(msg.default_string_opt(), eq(Optional::Unset("hello".into()))); } #[test] fn test_singular_msg_field() { let mut msg = TestAllTypes::new(); let msg_view = msg.optional_nested_message(); // testing reading an int inside a view assert_that!(msg_view.bb(), eq(0)); assert_that!(msg.has_optional_nested_message(), eq(false)); let nested_msg_mut = msg.optional_nested_message_mut(); // test reading an int inside a mut assert_that!(nested_msg_mut.bb(), eq(0)); assert_that!(msg.has_optional_nested_message(), eq(true)); } #[test] fn test_message_opt() { let msg = TestAllTypes::new(); let opt: Optional< unittest_rust_proto::test_all_types::NestedMessageView<'_>, unittest_rust_proto::test_all_types::NestedMessageView<'_>, > = msg.optional_nested_message_opt(); assert_that!(opt.is_set(), eq(false)); assert_that!(opt.into_inner().bb(), eq(0)); } #[test] fn test_message_opt_set() { let mut msg = TestAllTypes::new(); let submsg = test_all_types::NestedMessage::new(); msg.set_optional_nested_message(submsg); msg.clear_optional_nested_message(); assert_that!(msg.optional_nested_message_opt().is_set(), eq(false)); } #[test] fn test_setting_submsg() { let mut msg = TestAllTypes::new(); let submsg = test_all_types::NestedMessage::new(); assert_that!(msg.has_optional_nested_message(), eq(false)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(false)); msg.set_optional_nested_message(submsg); // confirm that invoking .set on a submsg indeed flips the set bit assert_that!(msg.has_optional_nested_message(), eq(true)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(true)); msg.clear_optional_nested_message(); assert_that!(msg.has_optional_nested_message(), eq(false)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(false)); } #[test] fn test_msg_mut_initializes() { let mut msg = TestAllTypes::new(); assert_that!(msg.has_optional_nested_message(), eq(false)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(false)); let _ = msg.optional_nested_message_mut(); // confirm that that optional_nested_message_mut makes the field Present assert_that!(msg.has_optional_nested_message(), eq(true)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(true)); msg.clear_optional_nested_message(); assert_that!(msg.has_optional_nested_message(), eq(false)); assert_that!(msg.optional_nested_message_opt().is_set(), eq(false)); } #[test] fn test_optional_nested_enum_accessors() { use test_all_types::NestedEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.has_optional_nested_enum(), eq(false)); assert_that!(msg.optional_nested_enum_opt(), eq(Optional::Unset(NestedEnum::Foo))); assert_that!(msg.optional_nested_enum(), eq(NestedEnum::Foo)); msg.set_optional_nested_enum(NestedEnum::Neg); assert_that!(msg.has_optional_nested_enum(), eq(true)); assert_that!(msg.optional_nested_enum_opt(), eq(Optional::Set(NestedEnum::Neg))); assert_that!(msg.optional_nested_enum(), eq(NestedEnum::Neg)); msg.clear_optional_nested_enum(); assert_that!(msg.has_optional_nested_enum(), eq(false)); assert_that!(msg.optional_nested_enum_opt(), eq(Optional::Unset(NestedEnum::Foo))); assert_that!(msg.optional_nested_enum(), eq(NestedEnum::Foo)); } #[test] fn test_default_nested_enum_accessors() { use test_all_types::NestedEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.default_nested_enum(), eq(NestedEnum::Bar)); assert_that!(msg.default_nested_enum_opt(), eq(Optional::Unset(NestedEnum::Bar))); msg.set_default_nested_enum(NestedEnum::Baz); assert_that!(msg.default_nested_enum(), eq(NestedEnum::Baz)); assert_that!(msg.default_nested_enum_opt(), eq(Optional::Set(NestedEnum::Baz))); msg.clear_default_nested_enum(); assert_that!(msg.default_nested_enum(), eq(NestedEnum::Bar)); assert_that!(msg.default_nested_enum_opt(), eq(Optional::Unset(NestedEnum::Bar))); } #[test] fn test_optional_foreign_enum_accessors() { use unittest_rust_proto::ForeignEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.optional_foreign_enum_opt(), eq(Optional::Unset(ForeignEnum::ForeignFoo))); assert_that!(msg.optional_foreign_enum(), eq(ForeignEnum::ForeignFoo)); msg.set_optional_foreign_enum(ForeignEnum::ForeignBax); assert_that!(msg.optional_foreign_enum_opt(), eq(Optional::Set(ForeignEnum::ForeignBax))); assert_that!(msg.optional_foreign_enum(), eq(ForeignEnum::ForeignBax)); msg.clear_optional_foreign_enum(); assert_that!(msg.optional_foreign_enum_opt(), eq(Optional::Unset(ForeignEnum::ForeignFoo))); assert_that!(msg.optional_foreign_enum(), eq(ForeignEnum::ForeignFoo)); } #[test] fn test_default_foreign_enum_accessors() { use unittest_rust_proto::ForeignEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.default_foreign_enum(), eq(ForeignEnum::ForeignBar)); assert_that!(msg.default_foreign_enum_opt(), eq(Optional::Unset(ForeignEnum::ForeignBar))); msg.set_default_foreign_enum(ForeignEnum::ForeignBaz); assert_that!(msg.default_foreign_enum(), eq(ForeignEnum::ForeignBaz)); assert_that!(msg.default_foreign_enum_opt(), eq(Optional::Set(ForeignEnum::ForeignBaz))); msg.clear_default_foreign_enum(); assert_that!(msg.default_foreign_enum(), eq(ForeignEnum::ForeignBar)); assert_that!(msg.default_foreign_enum_opt(), eq(Optional::Unset(ForeignEnum::ForeignBar))); } #[test] fn test_optional_import_enum_accessors() { use unittest_rust_proto::ImportEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.optional_import_enum_opt(), eq(Optional::Unset(ImportEnum::ImportFoo))); assert_that!(msg.optional_import_enum(), eq(ImportEnum::ImportFoo)); msg.set_optional_import_enum(ImportEnum::ImportBar); assert_that!(msg.optional_import_enum_opt(), eq(Optional::Set(ImportEnum::ImportBar))); assert_that!(msg.optional_import_enum(), eq(ImportEnum::ImportBar)); msg.clear_optional_import_enum(); assert_that!(msg.optional_import_enum_opt(), eq(Optional::Unset(ImportEnum::ImportFoo))); assert_that!(msg.optional_import_enum(), eq(ImportEnum::ImportFoo)); } #[test] fn test_default_import_enum_accessors() { use unittest_rust_proto::ImportEnum; let mut msg = TestAllTypes::new(); assert_that!(msg.default_import_enum(), eq(ImportEnum::ImportBar)); assert_that!(msg.default_import_enum_opt(), eq(Optional::Unset(ImportEnum::ImportBar))); msg.set_default_import_enum(ImportEnum::ImportBaz); assert_that!(msg.default_import_enum(), eq(ImportEnum::ImportBaz)); assert_that!(msg.default_import_enum_opt(), eq(Optional::Set(ImportEnum::ImportBaz))); msg.clear_default_import_enum(); assert_that!(msg.default_import_enum(), eq(ImportEnum::ImportBar)); assert_that!(msg.default_import_enum_opt(), eq(Optional::Unset(ImportEnum::ImportBar))); } #[test] fn test_oneof_accessors() { use unittest_rust_proto::test_oneof2::{Foo::*, FooCase, NestedEnum}; use unittest_rust_proto::TestOneof2; let mut msg = TestOneof2::new(); assert_that!(msg.foo(), matches_pattern!(not_set(_))); assert_that!(msg.foo_case(), eq(FooCase::not_set)); msg.set_foo_int(7); assert_that!(msg.has_foo_int(), eq(true)); assert_that!(msg.foo_int_opt(), eq(Optional::Set(7))); assert_that!(msg.foo(), matches_pattern!(FooInt(eq(7)))); assert_that!(msg.foo_case(), eq(FooCase::FooInt)); msg.clear_foo_int(); assert_that!(msg.has_foo_int(), eq(false)); assert_that!(msg.foo_int_opt(), eq(Optional::Unset(0))); assert_that!(msg.foo(), matches_pattern!(not_set(_))); assert_that!(msg.foo_case(), eq(FooCase::not_set)); msg.set_foo_int(7); msg.set_foo_bytes(b"123"); assert_that!(msg.has_foo_int(), eq(false)); assert_that!(msg.foo_int_opt(), eq(Optional::Unset(0))); assert_that!(msg.foo(), matches_pattern!(FooBytes(eq(b"123")))); assert_that!(msg.foo_case(), eq(FooCase::FooBytes)); msg.set_foo_enum(NestedEnum::Foo); assert_that!(msg.foo(), matches_pattern!(FooEnum(eq(NestedEnum::Foo)))); assert_that!(msg.foo_case(), eq(FooCase::FooEnum)); // Test the accessors or $Msg$Mut let mut msg_mut = msg.as_mut(); assert_that!(msg_mut.foo(), matches_pattern!(FooEnum(eq(NestedEnum::Foo)))); msg_mut.set_foo_int(7); msg_mut.set_foo_bytes(b"123"); assert_that!(msg_mut.foo(), matches_pattern!(FooBytes(eq(b"123")))); assert_that!(msg_mut.foo_case(), eq(FooCase::FooBytes)); assert_that!(msg_mut.foo_int_opt(), eq(Optional::Unset(0))); // Test the accessors on $Msg$View let msg_view = msg.as_view(); assert_that!(msg_view.foo(), matches_pattern!(FooBytes(eq(b"123")))); assert_that!(msg_view.foo_case(), eq(FooCase::FooBytes)); assert_that!(msg_view.foo_int_opt(), eq(Optional::Unset(0))); // TODO: Add tests covering a message-type field in a oneof. } #[test] fn test_msg_oneof_default_accessors() { use unittest_rust_proto::test_oneof2::{Bar::*, BarCase, NestedEnum}; let mut msg = unittest_rust_proto::TestOneof2::new(); assert_that!(msg.bar(), matches_pattern!(not_set(_))); msg.set_bar_int(7); assert_that!(msg.bar_int_opt(), eq(Optional::Set(7))); assert_that!(msg.bar(), matches_pattern!(BarInt(eq(7)))); assert_that!(msg.bar_case(), eq(BarCase::BarInt)); msg.clear_bar_int(); assert_that!(msg.bar_int_opt(), eq(Optional::Unset(5))); assert_that!(msg.bar(), matches_pattern!(not_set(_))); assert_that!(msg.bar_case(), eq(BarCase::not_set)); msg.set_bar_int(7); msg.set_bar_bytes(b"123"); assert_that!(msg.bar_int_opt(), eq(Optional::Unset(5))); assert_that!(msg.bar_enum_opt(), eq(Optional::Unset(NestedEnum::Bar))); assert_that!(msg.bar(), matches_pattern!(BarBytes(eq(b"123")))); assert_that!(msg.bar_case(), eq(BarCase::BarBytes)); msg.set_bar_enum(NestedEnum::Baz); assert_that!(msg.bar(), matches_pattern!(BarEnum(eq(NestedEnum::Baz)))); assert_that!(msg.bar_case(), eq(BarCase::BarEnum)); assert_that!(msg.bar_int_opt(), eq(Optional::Unset(5))); // TODO: Add tests covering a message-type field in a oneof. } #[test] fn test_group() { let mut m = TestAllTypes::new(); // Groups are exposed the same as nested message types. assert_that!(m.optionalgroup_opt().is_set(), eq(false)); assert_that!(m.optionalgroup().a(), eq(0)); m.optionalgroup_mut().set_a(7); assert_that!(m.optionalgroup_opt().is_set(), eq(true)); assert_that!(m.optionalgroup().a(), eq(7)); } #[test] fn test_submsg_setter() { use test_all_types::*; let mut nested = NestedMessage::new(); nested.set_bb(7); let mut parent = TestAllTypes::new(); parent.set_optional_nested_message(nested); assert_that!(parent.optional_nested_message().bb(), eq(7)); } #[test] fn test_clone() { let mut m = TestAllTypes::new(); m.set_optional_int32(42); let clone = m.clone(); assert_that!(clone.optional_int32(), eq(42)); m.clear_optional_int32(); assert_that!(m.has_optional_int32(), eq(false)); assert_that!(clone.has_optional_int32(), eq(true)); assert_that!(clone.optional_int32(), eq(42)); } #[test] fn test_to_owned() { let mut m = TestAllTypes::new(); m.set_optional_int32(42); let clone = m.as_view().to_owned(); assert_that!(clone.optional_int32(), eq(42)); // to_owned should create a new message (modifying the original shouldn't affect // the to_owned). m.clear_optional_int32(); assert_that!(m.has_optional_int32(), eq(false)); assert_that!(clone.has_optional_int32(), eq(true)); assert_that!(clone.optional_int32(), eq(42)); let mut submsg_mut = m.optional_nested_message_mut(); submsg_mut.set_bb(7); let submsg_clone = submsg_mut.to_owned(); assert_that!(submsg_clone.bb(), eq(7)); assert_that!(submsg_mut.bb(), eq(7)); submsg_mut.set_bb(8); assert_that!(submsg_clone.bb(), eq(7)); assert_that!(submsg_mut.bb(), eq(8)); } #[test] fn test_ctype_stringpiece() { let mut msg = TestAllTypes::new(); assert_that!(msg.optional_string_piece(), eq("")); assert_that!(msg.has_optional_string_piece(), eq(false)); msg.set_optional_string_piece("hello"); assert_that!(msg.optional_string_piece(), eq("hello")); assert_that!(msg.has_optional_string_piece(), eq(true)); }