Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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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
use googletest::prelude::*;
use paste::paste;
use protobuf::ViewProxy;
use unittest_proto::{TestAllTypes, TestAllTypes_, TestAllTypes_::NestedMessage};
macro_rules! generate_repeated_numeric_test {
($(($t: ty, $field: ident)),*) => {
paste! { $(
#[test]
fn [< test_repeated_ $field _accessors >]() {
let mut msg = TestAllTypes::new();
assert_that!(msg.[< repeated_ $field >](), empty());
assert_that!(msg.[< repeated_ $field >]().len(), eq(0));
assert_that!(msg.[<repeated_ $field >]().get(0), none());
let mut mutator = msg.[<repeated_ $field _mut >]();
mutator.push(1 as $t);
assert_that!(mutator.len(), eq(1));
assert_that!(mutator.iter().len(), eq(1));
assert_that!(mutator.get(0), some(eq(1 as $t)));
mutator.set(0, 2 as $t);
assert_that!(mutator.get(0), some(eq(2 as $t)));
mutator.push(1 as $t);
mutator.push(3 as $t);
mutator.set(2, 4 as $t);
assert_that!(mutator.get(2), some(eq(4 as $t)));
mutator.set(2, 0 as $t);
assert_that!(
mutator.iter().collect::<Vec<_>>(),
elements_are![eq(2 as $t), eq(1 as $t), eq(0 as $t)]
);
assert_that!(
mutator.as_view().into_iter().collect::<Vec<_>>(),
elements_are![eq(2 as $t), eq(1 as $t), eq(0 as $t)]
);
for i in 0..mutator.len() {
mutator.set(i, 0 as $t);
}
assert_that!(
msg.[<repeated_ $field _mut >]().iter().collect::<Vec<_>>(),
each(eq(0 as $t))
);
}
#[test]
fn [< test_repeated_ $field _set >]() {
let mut msg = TestAllTypes::new();
let mut mutator = msg.[<repeated_ $field _mut>]();
let mut msg2 = TestAllTypes::new();
let mut mutator2 = msg2.[<repeated_ $field _mut>]();
for i in 0..5 {
mutator2.push(i as $t);
}
protobuf::MutProxy::set(&mut mutator, mutator2.as_view());
assert_that!(
mutator.iter().collect::<Vec<_>>(),
eq(mutator2.iter().collect::<Vec<_>>())
);
}
)* }
};
}
generate_repeated_numeric_test!(
(i32, int32),
(u32, uint32),
(i64, int64),
(u64, uint64),
(f32, float),
(f64, double)
);
#[test]
fn test_repeated_bool_accessors() {
let mut msg = TestAllTypes::new();
assert_that!(msg.repeated_bool(), empty());
assert_that!(msg.repeated_bool().len(), eq(0));
assert_that!(msg.repeated_bool().get(0), none());
let mut mutator = msg.repeated_bool_mut();
mutator.push(true);
assert_that!(mutator.len(), eq(1));
assert_that!(mutator.get(0), some(eq(true)));
mutator.set(0, false);
assert_that!(mutator.get(0), some(eq(false)));
mutator.push(true);
mutator.push(false);
mutator.set(2, true);
assert_that!(mutator.get(2), some(eq(true)));
mutator.set(2, false);
assert_that!(mutator.get(2), some(eq(false)));
assert_that!(mutator.iter().collect::<Vec<_>>(), elements_are![eq(false), eq(true), eq(false)]);
assert_that!(
mutator.as_view().into_iter().collect::<Vec<_>>(),
elements_are![eq(false), eq(true), eq(false)]
);
for i in 0..mutator.len() {
mutator.set(i, false);
}
assert_that!(msg.repeated_bool().iter().collect::<Vec<_>>(), each(eq(false)));
}
#[test]
fn test_repeated_enum_accessors() {
use TestAllTypes_::NestedEnum;
let mut msg = TestAllTypes::new();
assert_that!(msg.repeated_nested_enum(), empty());
assert_that!(msg.repeated_nested_enum().len(), eq(0));
assert_that!(msg.repeated_nested_enum().get(0), none());
let mut mutator = msg.repeated_nested_enum_mut();
mutator.push(NestedEnum::Foo);
assert_that!(mutator.len(), eq(1));
assert_that!(mutator.get(0), some(eq(NestedEnum::Foo)));
mutator.set(0, NestedEnum::Bar);
assert_that!(mutator.get(0), some(eq(NestedEnum::Bar)));
mutator.push(NestedEnum::Baz);
mutator.push(NestedEnum::Foo);
mutator.set(2, NestedEnum::Neg);
assert_that!(mutator.get(2), some(eq(NestedEnum::Neg)));
mutator.set(2, NestedEnum::Foo);
assert_that!(mutator.get(2), some(eq(NestedEnum::Foo)));
assert_that!(
mutator.iter().collect::<Vec<_>>(),
elements_are![eq(NestedEnum::Bar), eq(NestedEnum::Baz), eq(NestedEnum::Foo)]
);
assert_that!(
mutator.as_view().into_iter().collect::<Vec<_>>(),
elements_are![eq(NestedEnum::Bar), eq(NestedEnum::Baz), eq(NestedEnum::Foo)]
);
for i in 0..mutator.len() {
mutator.set(i, NestedEnum::Foo);
}
assert_that!(msg.repeated_nested_enum().iter().collect::<Vec<_>>(), each(eq(NestedEnum::Foo)));
}
#[test]
fn test_repeated_bool_set() {
let mut msg = TestAllTypes::new();
let mut mutator = msg.repeated_bool_mut();
let mut msg2 = TestAllTypes::new();
let mut mutator2 = msg2.repeated_bool_mut();
for _ in 0..5 {
mutator2.push(true);
}
protobuf::MutProxy::set(&mut mutator, mutator2.as_view());
assert_that!(mutator.iter().collect::<Vec<_>>(), eq(mutator2.iter().collect::<Vec<_>>()));
}
#[test]
fn test_repeated_message() {
let mut msg = TestAllTypes::new();
assert_that!(msg.repeated_nested_message().len(), eq(0));
let mut nested = NestedMessage::new();
nested.bb_mut().set(1);
msg.repeated_nested_message_mut().push(nested.as_view());
assert_that!(msg.repeated_nested_message().get(0).unwrap().bb(), eq(1));
let mut msg2 = TestAllTypes::new();
msg2.repeated_nested_message_mut().copy_from(msg.repeated_nested_message());
assert_that!(msg2.repeated_nested_message().get(0).unwrap().bb(), eq(1));
msg2.repeated_nested_message_mut().clear();
assert_that!(msg2.repeated_nested_message().len(), eq(0));
let mut nested2 = NestedMessage::new();
nested2.bb_mut().set(2);
msg.repeated_nested_message_mut().set(0, nested2.as_view());
assert_that!(msg.repeated_nested_message().get(0).unwrap().bb(), eq(2));
assert_that!(
msg.repeated_nested_message().iter().map(|m| m.bb()).collect::<Vec<_>>(),
eq(vec![2]),
);
}
#[test]
fn test_repeated_strings() {
let mut older_msg = TestAllTypes::new();
{
let mut msg = TestAllTypes::new();
assert_that!(msg.repeated_string(), empty());
{
// TODO: b/320936046 - Test SettableValue once available
msg.repeated_string_mut().push("set from Mut".into());
}
assert_that!(msg.repeated_string().len(), eq(1));
// TODO: b/320932827 - Use elements_are! when ready
assert_that!(msg.repeated_string().get(0).unwrap(), eq("set from Mut"));
older_msg.repeated_string_mut().copy_from(msg.repeated_string());
}
// TODO: b/320932827 - Use elements_are! when ready
assert_that!(older_msg.repeated_string().len(), eq(1));
older_msg.repeated_string_mut().clear();
assert_that!(older_msg.repeated_string(), empty());
}
#[test]
fn test_repeated_bytes() {
let mut older_msg = TestAllTypes::new();
{
let mut msg = TestAllTypes::new();
assert_that!(msg.repeated_bytes(), empty());
{
// TODO: b/320936046 - Test SettableValue once available
msg.repeated_bytes_mut().push(b"set from Mut");
}
assert_that!(msg.repeated_bytes().len(), eq(1));
// TODO: b/320932827 - Use elements_are! when ready
assert_that!(msg.repeated_bytes().get(0).unwrap(), eq(b"set from Mut"));
older_msg.repeated_bytes_mut().copy_from(msg.repeated_bytes());
}
// TODO: b/320932827 - Use elements_are! when ready
assert_that!(older_msg.repeated_bytes().len(), eq(1));
older_msg.repeated_bytes_mut().clear();
assert_that!(older_msg.repeated_bytes(), empty());
}