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// 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;
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_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_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));
}