use std::default::Default;
use text_format_test_data::*;
use protobuf::text_format::print_to_string;
fn t(expected: &str, setter: |&mut TestTypes|) {
let mut m = TestTypes::new();
setter(&mut m);
assert_eq!(expected, print_to_string(&m).as_slice());
}
#[test]
fn test_singular() {
t("int32_singular: 99", |m| m.set_int32_singular(99));
t("double_singular: 99", |m| m.set_double_singular(99.0));
t("float_singular: 99", |m| m.set_float_singular(99.0));
t("int32_singular: 99", |m| m.set_int32_singular(99));
t("int64_singular: 99", |m| m.set_int64_singular(99));
t("uint32_singular: 99", |m| m.set_uint32_singular(99));
t("uint64_singular: 99", |m| m.set_uint64_singular(99));
t("sint32_singular: 99", |m| m.set_sint32_singular(99));
t("sint64_singular: 99", |m| m.set_sint64_singular(99));
t("fixed32_singular: 99", |m| m.set_fixed32_singular(99));
t("fixed64_singular: 99", |m| m.set_fixed64_singular(99));
t("sfixed32_singular: 99", |m| m.set_sfixed32_singular(99));
t("sfixed64_singular: 99", |m| m.set_sfixed64_singular(99));
t("bool_singular: false", |m| m.set_bool_singular(false));
t("string_singular: \"abc\"", |m| m.set_string_singular("abc".to_string()));
t("bytes_singular: \"def\"", |m| m.set_bytes_singular(b"def".to_vec()));
t("test_enum_singular: DARK", |m| m.set_test_enum_singular(TestEnum::DARK));
t("test_message_singular {}", |m| { m.mut_test_message_singular(); });
}
#[test]
fn test_repeated_one() {
t("int32_repeated: 99", |m| m.mut_int32_repeated().push(99));
t("double_repeated: 99", |m| m.mut_double_repeated().push(99.0));
t("float_repeated: 99", |m| m.mut_float_repeated().push(99.0));
t("int32_repeated: 99", |m| m.mut_int32_repeated().push(99));
t("int64_repeated: 99", |m| m.mut_int64_repeated().push(99));
t("uint32_repeated: 99", |m| m.mut_uint32_repeated().push(99));
t("uint64_repeated: 99", |m| m.mut_uint64_repeated().push(99));
t("sint32_repeated: 99", |m| m.mut_sint32_repeated().push(99));
t("sint64_repeated: 99", |m| m.mut_sint64_repeated().push(99));
t("fixed32_repeated: 99", |m| m.mut_fixed32_repeated().push(99));
t("fixed64_repeated: 99", |m| m.mut_fixed64_repeated().push(99));
t("sfixed32_repeated: 99", |m| m.mut_sfixed32_repeated().push(99));
t("sfixed64_repeated: 99", |m| m.mut_sfixed64_repeated().push(99));
t("bool_repeated: false", |m| m.mut_bool_repeated().push(false));
t("string_repeated: \"abc\"", |m| m.mut_string_repeated().push(String::from_str("abc")));
t("bytes_repeated: \"def\"", |m| m.mut_bytes_repeated().push(b"def".to_vec()));
t("test_enum_repeated: DARK", |m| m.mut_test_enum_repeated().push(TestEnum::DARK));
t("test_message_repeated {}", |m| { m.mut_test_message_repeated().push(Default::default()); });
}
#[test]
fn test_repeated_multiple() {
t("uint32_singular: 30 int32_repeated: 10 int32_repeated: -20", |m| {
m.set_uint32_singular(30);
m.mut_int32_repeated().push(10);
m.mut_int32_repeated().push(-20);
});
}
#[test]
fn test_complex_message() {
t("test_message_singular {value: 30}", |m| m.mut_test_message_singular().set_value(30));
}
#[test]
fn test_show() {
let mut m = TestTypes::new();
m.set_bool_singular(true);
assert_eq!("bool_singular: true", m.to_string().as_slice());
}