Putting it into BUILD files unintentionally forces it on all our downstream users. Instead, we just want to enable this during testing and let them choose for themselves in their builds.
Note, that this expands the scope of -Werror to our entire repo for CI, so a bunch of fixes and opt-outs had to be applied to get this change passing.
Closed#14714
PiperOrigin-RevId: 666903224
`absl::string_view`.
Added temporary macro `PROTOBUF_TEMPORARY_ENABLE_STRING_VIEW_RETURN_TYPE` to turn on the new return type before the breaking change happens. It allows users to test and update their code ahead of time.
PiperOrigin-RevId: 652517294
- In most cases, migrate to `absl::string_view`.
- When capturing a temporary string in a variable, use `const std::string` without the ref.
We avoid changing virtual function parameters in this CL, since that is a breaking change.
PiperOrigin-RevId: 647686085
This was previously fixed in C++ (https://github.com/protocolbuffers/protobuf/issues/16549), but not ported to other languages. Delimited field encoding can be inherited by fields where it's invalid, such as non-messages and maps. In these cases, the encoding should be ignored and length-prefixed should be used.
PiperOrigin-RevId: 642792988
The only public target here is the edition defaults helper macro, which can be used by external runtimes and plugins. None of this code is C++-specific though, and should be organized higher up. Appropriate aliases are also placed at the top level for public targets
PiperOrigin-RevId: 625392504
These are already supported, but this will lock down that there's no issues like the ones we hit with text-format.
This also fixes an unrelated bug in our BinaryToJsonString algorithm related to unknown group handling. We still can't actually test binary->JSON in conformance tests for extensions due to TypeResolver's lack of support though.
PiperOrigin-RevId: 622360970
Implementations should not rearrange unknown fields for the same field number, because some field types accept multiple wire types (eg. packed and unpacked).
All languages currently pass this test except Java "full" and Obj-C.
PiperOrigin-RevId: 619953711
We transformed the proto2/proto3 protos to editions, and then run the same set of tests over both. This will verify that migrating to editions preserves the same proto2/proto3 behavior. These will not be enabled by default, and require a flag `--maximum_edition=2023`.
Future changes will:
- add more targeted editions-specific tests
- clean up our conformance test framework to allow for more targeted tests
- add wildcards to failure lists in limited cases to reduce noise
- add feature resolution conformance tests
PiperOrigin-RevId: 574570607
This doesn't change the tests at all, but refactors them to be more reusable in different contexts. Specifically, this will make it easier to add corresponding editions-based tests. This also splits the concept of "uses a proto3 message" and "runs proto3 tests", in preparation for that change.
PiperOrigin-RevId: 574310612
This doesn't change the tests at all, but refactors them to be more reusable in different contexts. Specifically, this will make it easier to add corresponding editions-based tests. This also splits the concept of "uses a proto3 message" and "runs proto3 tests", in preparation for that change.
PiperOrigin-RevId: 574299923
Add some missing endian conversions so that the conformance tests can be run on big endian platforms.
The message length value created by the conformance test runner is little endian according to the comments in the file but actually was sent in the native endianness of the host. I was able to run the java, python, ruby, php and csharp test executables and they all expect little endian length values so those tests would hang on big endian machines. Only the cpp test executable was using native endian so it has been changed to expect little endian too.
Also change the fixed32 and fixed64 functions in binary_json_conformance_test_suite.cc to send the data as little endian which fixes some failures in the python conformance tests on big endian platforms.
Closes#13443
COPYBARA_INTEGRATE_REVIEW=https://github.com/protocolbuffers/protobuf/pull/13443 from linux-on-ibm-z:conformance-runner-little-endian-fix 4ef7948997
PiperOrigin-RevId: 553958649
Going forward we will be forbidding `null` in `json_name`, but we will continue to support embedded `null` in JSON value. This conformance test will help clarify that this is a supported use case.
PiperOrigin-RevId: 527918031
This deletes our old branches of internal Abseil code in favor of their newly open-sourced library. Notably, this removes the ability to turn CHECK crashes into exceptions.
PiperOrigin-RevId: 504460562
Implemented in java, c++, python and upb. Also added conformance test.
https://developers.google.com/protocol-buffers/docs/reference/google.protobuf#google.protobuf.Value
where it says:
attempting to serialize NaN or Infinity results in error. (We can't serialize these as string "NaN" or "Infinity" values like we do for regular fields, because they would parse as string_value, not number_value).
PiperOrigin-RevId: 500828964
Implemented in java, c++, python and upb. Also added conformance test.
https://developers.google.com/protocol-buffers/docs/reference/google.protobuf#google.protobuf.Value
where it says:
attempting to serialize NaN or Infinity results in error. (We can't serialize these as string "NaN" or "Infinity" values like we do for regular fields, because they would parse as string_value, not number_value).
PiperOrigin-RevId: 500139380
* Adding jsoncpp submodule
* Adding bazel dependency
* Hook up jsoncpp in Bazel builds
* Hook up jsoncpp dependency in CMake
* Fix conformance binary path
* Move jsoncpp import to the end of the file to avoid confusing add_test
* Sync from Piper @469587494
PROTOBUF_SYNC_PIPER
* Fixing github SOT protoc builds
* Fixing typos from google
* Remove leaked util/hash reference
* Fixing bad python merge
* Fixing python C++ library order
This style is officially the correct one according to the style guide,
but more importantly this fixes a conflict with TRUE and FALSE macros
defined on Mac OS.