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# How To Implement Field Presence for Proto3
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Protobuf release 3.12 adds experimental support for `optional` fields in
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proto3. Proto3 optional fields track presence like in proto2. For background
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information about what presence tracking means, please see
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[docs/field_presence](field_presence.md).
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## Document Summary
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This document is targeted at developers who own or maintain protobuf code
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generators. All code generators will need to be updated to support proto3
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optional fields. First-party code generators developed by Google are being
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updated already. However third-party code generators will need to be updated
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independently by their authors. This includes:
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- implementations of Protocol Buffers for other languages.
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- alternate implementations of Protocol Buffers that target specialized use
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cases.
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- RPC code generators that create generated APIs for service calls.
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- code generators that implement some utility code on top of protobuf generated
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classes.
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While this document speaks in terms of "code generators", these same principles
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apply to implementations that dynamically generate a protocol buffer API "on the
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fly", directly from a descriptor, in languages that support this kind of usage.
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## Background
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Presence tracking was added to proto3 in response to user feedback, both from
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inside Google and [from open-source
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users](https://github.com/protocolbuffers/protobuf/issues/1606). The [proto3
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wrapper
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types](https://github.com/protocolbuffers/protobuf/blob/master/src/google/protobuf/wrappers.proto)
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were previously the only supported presence mechanism for proto3. Users have
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pointed to both efficiency and usability issues with the wrapper types.
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Presence in proto3 uses exactly the same syntax and semantics as in proto2.
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Proto3 Fields marked `optional` will track presence like proto2, while fields
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without any label (known as "singular fields"), will continue to omit presence
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information. The `optional` keyword was chosen to minimize differences with
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proto2.
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Unfortunately, for the current descriptor protos and `Descriptor` API (as of
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3.11.4) it is not possible to use the same representation as proto2. Proto3
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descriptors already use `LABEL_OPTIONAL` for proto3 singular fields, which do
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not track presence. There is a lot of existing code that reflects over proto3
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protos and assumes that `LABEL_OPTIONAL` in proto3 means "no presence." Changing
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the semantics now would be risky, since old software would likely drop proto3
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presence information, which would be a data loss bug.
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To minimize this risk we chose a descriptor representation that is semantically
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compatible with existing proto3 reflection. Every proto3 optional field is
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placed into a one-field `oneof`. We call this a "synthetic" oneof, as it was not
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present in the source `.proto` file.
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Since oneof fields in proto3 already track presence, existing proto3
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reflection-based algorithms should correctly preserve presence for proto3
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optional fields with no code changes. For example, the JSON and TextFormat
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parsers/serializers in C++ and Java did not require any changes to support
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proto3 presence. This is the major benefit of synthetic oneofs.
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This design does leave some cruft in descriptors. Synthetic oneofs are a
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compatibility measure that we can hopefully clean up in the future. For now
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though, it is important to preserve them across different descriptor formats and
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APIs. It is never safe to drop synthetic oneofs from a proto schema. Code
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generators can (and should) skip synthetic oneofs when generating a user-facing
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API or user-facing documentation. But for any schema representation that is
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consumed programmatically, it is important to keep the synthetic oneofs around.
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In APIs it can be helpful to offer separate accessors that refer to "real"
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oneofs (see [API Changes](#api-changes) below). This is a convenient way to omit
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synthetic oneofs in code generators.
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## Updating a Code Generator
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When a user adds an `optional` field to proto3, this is internally rewritten as
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a one-field oneof, for backward-compatibility with reflection-based algorithms:
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```protobuf
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syntax = "proto3";
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message Foo {
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// Experimental feature, not generally supported yet!
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optional int32 foo = 1;
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// Internally rewritten to:
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// oneof _foo {
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// int32 foo = 1 [proto3_optional=true];
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// }
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//
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// We call _foo a "synthetic" oneof, since it was not created by the user.
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}
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```
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As a result, the main two goals when updating a code generator are:
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1. Give `optional` fields like `foo` normal field presence, as described in
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[docs/field_presence](field_presence.md) If your implementation already
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supports proto2, a proto3 `optional` field should use exactly the same API
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and internal implementation as proto2 `optional`.
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2. Avoid generating any oneof-based accessors for the synthetic oneof. Its only
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purpose is to make reflection-based algorithms work properly if they are
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not aware of proto3 presence. The synthetic oneof should not appear anywhere
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in the generated API.
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### Satisfying the Experimental Check
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If you try to run `protoc` on a file with proto3 `optional` fields, you will get
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an error because the feature is still experimental:
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```
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$ cat test.proto
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syntax = "proto3";
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message Foo {
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// Experimental feature, not generally supported yet!
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optional int32 a = 1;
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}
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$ protoc --cpp_out=. test.proto
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test.proto: This file contains proto3 optional fields, but --experimental_allow_proto3_optional was not set.
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```
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There are two options for getting around this error:
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1. Pass `--experimental_allow_proto3_optional` to protoc.
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2. Make your filename (or a directory name) contain the string
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`test_proto3_optional`. This indicates that the proto file is specifically
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for testing proto3 optional support, so the check is suppressed.
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These options are demonstrated below:
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```
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# One option:
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$ ./src/protoc test.proto --cpp_out=. --experimental_allow_proto3_optional
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# Another option:
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$ cp test.proto test_proto3_optional.proto
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$ ./src/protoc test_proto3_optional.proto --cpp_out=.
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$
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```
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The experimental check will be removed in a future release, once we are ready
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to make this feature generally available. Ideally this will happen for the 3.13
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release of protobuf, sometime in mid-2020, but there is not a specific date set
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for this yet. Some of the timing will depend on feedback we get from the
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community, so if you have questions or concerns please get in touch via a
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GitHub issue.
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### Signaling That Your Code Generator Supports Proto3 Optional
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If you now try to invoke your own code generator with the test proto, you will
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run into a different error:
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```
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$ ./src/protoc test_proto3_optional.proto --my_codegen_out=.
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test_proto3_optional.proto: is a proto3 file that contains optional fields, but
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code generator --my_codegen_out hasn't been updated to support optional fields in
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proto3. Please ask the owner of this code generator to support proto3 optional.
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```
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This check exists to make sure that code generators get a chance to update
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before they are used with proto3 `optional` fields. Without this check an old
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code generator might emit obsolete generated APIs (like accessors for a
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synthetic oneof) and users could start depending on these. That would create
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a legacy migration burden once a code generator actually implements the feature.
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To signal that your code generator supports `optional` fields in proto3, you
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need to tell `protoc` what features you support. The method for doing this
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depends on whether you are using the C++
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`google::protobuf::compiler::CodeGenerator`
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framework or not.
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If you are using the CodeGenerator framework:
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```c++
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class MyCodeGenerator : public google::protobuf::compiler::CodeGenerator {
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// Add this method.
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uint64_t GetSupportedFeatures() const override {
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// Indicate that this code generator supports proto3 optional fields.
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// (Note: don't release your code generator with this flag set until you
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// have actually added and tested your proto3 support!)
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return FEATURE_PROTO3_OPTIONAL;
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}
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}
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```
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If you are generating code using raw `CodeGeneratorRequest` and
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`CodeGeneratorResponse` messages from `plugin.proto`, the change will be very
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similar:
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```c++
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void GenerateResponse() {
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CodeGeneratorResponse response;
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response.set_supported_features(CodeGeneratorResponse::FEATURE_PROTO3_OPTIONAL);
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// Generate code...
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}
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```
|
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Once you have added this, you should now be able to successfully use your code
|
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|
generator to generate a file containing proto3 optional fields:
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```
|
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|
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$ ./src/protoc test_proto3_optional.proto --my_codegen_out=.
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```
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### Updating Your Code Generator
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Now to actually add support for proto3 optional to your code generator. The goal
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is to recognize proto3 optional fields as optional, and suppress any output from
|
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synthetic oneofs.
|
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If your code generator does not currently support proto2, you will need to
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design an API and implementation for supporting presence in scalar fields.
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Generally this means:
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- allocating a bit inside the generated class to represent whether a given field
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is present or not.
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- exposing a `has_foo()` method for each field to return the value of this bit.
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- make the parser set this bit when a value is parsed from the wire.
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- make the serializer test this bit to decide whether to serialize.
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If your code generator already supports proto2, then most of your work is
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already done. All you need to do is make sure that proto3 optional fields have
|
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exactly the same API and behave in exactly the same way as proto2 optional
|
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fields.
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From experience updating several of Google's code generators, most of the
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updates that are required fall into one of several patterns. Here we will show
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the patterns in terms of the C++ CodeGenerator framework. If you are using
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`CodeGeneratorRequest` and `CodeGeneratorReply` directly, you can translate the
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C++ examples to your own language, referencing the C++ implementation of these
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methods where required.
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#### To test whether a field should have presence
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Old:
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```c++
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bool MessageHasPresence(const google::protobuf::Descriptor* message) {
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return message->file()->syntax() ==
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google::protobuf::FileDescriptor::SYNTAX_PROTO2;
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}
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```
|
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New:
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|
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```c++
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|
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// Presence is no longer a property of a message, it's a property of individual
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// fields.
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bool FieldHasPresence(const google::protobuf::FieldDescriptor* field) {
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return field->has_presence();
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// Note, the above will return true for fields in a oneof.
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// If you want to filter out oneof fields, write this instead:
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// return field->has_presence && !field->real_containing_oneof()
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}
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```
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#### To test whether a field is a member of a oneof
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Old:
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|
```c++
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bool FieldIsInOneof(const google::protobuf::FieldDescriptor* field) {
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|
return field->containing_oneof() != nullptr;
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}
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```
|
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New:
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|
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```c++
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bool FieldIsInOneof(const google::protobuf::FieldDescriptor* field) {
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// real_containing_oneof() returns nullptr for synthetic oneofs.
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return field->real_containing_oneof() != nullptr;
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}
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```
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#### To iterate over all oneofs
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Old:
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|
|
```c++
|
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|
|
bool IterateOverOneofs(const google::protobuf::Descriptor* message) {
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|
for (int i = 0; i < message->oneof_decl_count(); i++) {
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const google::protobuf::OneofDescriptor* oneof = message->oneof(i);
|
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|
// ...
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|
}
|
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}
|
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```
|
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|
|
New:
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|
|
|
```c++
|
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|
|
bool IterateOverOneofs(const google::protobuf::Descriptor* message) {
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|
// Real oneofs are always first, and real_oneof_decl_count() will return the
|
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|
|
// total number of oneofs, excluding synthetic oneofs.
|
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|
|
for (int i = 0; i < message->real_oneof_decl_count(); i++) {
|
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|
|
const google::protobuf::OneofDescriptor* oneof = message->oneof(i);
|
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|
|
// ...
|
|
|
|
}
|
|
|
|
}
|
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|
|
```
|
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|
|
|
|
|
|
## Updating Reflection
|
|
|
|
|
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|
|
If your implementation offers reflection, there are a few other changes to make:
|
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|
|
### API Changes
|
|
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|
|
The API for reflecting over fields and oneofs should make the following changes.
|
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|
|
These match the changes implemented in C++ reflection.
|
|
|
|
|
|
|
|
1. Add a `FieldDescriptor::has_presence()` method returning `bool`
|
|
|
|
(adjusted to your language's naming convention). This should return true
|
|
|
|
for all fields that have explicit presence, as documented in
|
|
|
|
[docs/field_presence](field_presence.md). In particular, this includes
|
|
|
|
fields in a oneof, proto2 scalar fields, and proto3 `optional` fields.
|
|
|
|
This accessor will allow users to query what fields have presence without
|
|
|
|
thinking about the difference between proto2 and proto3.
|
|
|
|
2. As a corollary of (1), please do *not* expose an accessor for the
|
|
|
|
`FieldDescriptorProto.proto3_optional` field. We want to avoid having
|
|
|
|
users implement any proto2/proto3-specific logic. Users should use the
|
|
|
|
`has_presence()` function instead.
|
|
|
|
3. You may also wish to add a `FieldDescriptor::has_optional_keyword()` method
|
|
|
|
returning `bool`, which indicates whether the `optional` keyword is present.
|
|
|
|
Message fields will always return `true` for `has_presence()`, so this method
|
|
|
|
can allow a user to know whether the user wrote `optional` or not. It can
|
|
|
|
occasionally be useful to have this information, even though it does not
|
|
|
|
change the presence semantics of the field.
|
|
|
|
4. If your reflection API may be used for a code generator, you may wish to
|
|
|
|
implement methods to help users tell the difference between real and
|
|
|
|
synthetic oneofs. In particular:
|
|
|
|
- `OneofDescriptor::is_synthetic()`: returns true if this is a synthetic
|
|
|
|
oneof.
|
|
|
|
- `FieldDescriptor::real_containing_oneof()`: like `containing_oneof()`,
|
|
|
|
but returns `nullptr` if the oneof is synthetic.
|
|
|
|
- `Descriptor::real_oneof_decl_count()`: like `oneof_decl_count()`, but
|
|
|
|
returns the number of real oneofs only.
|
|
|
|
|
|
|
|
### Implementation Changes
|
|
|
|
|
|
|
|
Proto3 `optional` fields and synthetic oneofs must work correctly when
|
|
|
|
reflected on. Specifically:
|
|
|
|
|
|
|
|
1. Reflection for synthetic oneofs should work properly. Even though synthetic
|
|
|
|
oneofs do not really exist in the message, you can still make reflection work
|
|
|
|
as if they did. In particular, you can make a method like
|
|
|
|
`Reflection::HasOneof()` or `Reflection::GetOneofFieldDescriptor()` look at
|
|
|
|
the hasbit to determine if the oneof is present or not.
|
|
|
|
2. Reflection for proto3 optional fields should work properly. For example, a
|
|
|
|
method like `Reflection::HasField()` should know to look for the hasbit for a
|
|
|
|
proto3 `optional` field. It should not be fooled by the synthetic oneof into
|
|
|
|
thinking that there is a `case` member for the oneof.
|
|
|
|
|
|
|
|
Once you have updated reflection to work properly with proto3 `optional` and
|
|
|
|
synthetic oneofs, any code that *uses* your reflection interface should work
|
|
|
|
properly with no changes. This is the benefit of using synthetic oneofs.
|
|
|
|
|
|
|
|
In particular, if you have a reflection-based implementation of protobuf text
|
|
|
|
format or JSON, it should properly support proto3 optional fields without any
|
|
|
|
changes to the code. The fields will look like they all belong to a one-field
|
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oneof, and existing proto3 reflection code should know how to test presence for
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fields in a oneof.
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So the best way to test your reflection changes is to try round-tripping a
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message through text format, JSON, or some other reflection-based parser and
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serializer, if you have one.
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### Validating Descriptors
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If your reflection implementation supports loading descriptors at runtime,
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you must verify that all synthetic oneofs are ordered after all "real" oneofs.
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Here is the code that implements this validation step in C++, for inspiration:
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```c++
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// Validation that runs for each message.
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// Synthetic oneofs must be last.
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int first_synthetic = -1;
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for (int i = 0; i < message->oneof_decl_count(); i++) {
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const OneofDescriptor* oneof = message->oneof_decl(i);
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if (oneof->is_synthetic()) {
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if (first_synthetic == -1) {
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first_synthetic = i;
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}
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} else {
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if (first_synthetic != -1) {
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AddError(message->full_name(), proto.oneof_decl(i),
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DescriptorPool::ErrorCollector::OTHER,
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"Synthetic oneofs must be after all other oneofs");
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}
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}
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}
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if (first_synthetic == -1) {
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message->real_oneof_decl_count_ = message->oneof_decl_count_;
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} else {
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message->real_oneof_decl_count_ = first_synthetic;
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}
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```
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