165 lines
7.1 KiB
Markdown
165 lines
7.1 KiB
Markdown
---
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stage: none
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group: unassigned
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments
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---
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# Ruby 3 gotchas
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This section documents several problems we found while working on [Ruby 3 support](https://gitlab.com/groups/gitlab-org/-/epics/5149)
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and which led to subtle bugs or test failures that were difficult to understand. We encourage every GitLab contributor
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who writes Ruby code on a regular basis to familiarize themselves with these issues.
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To find the complete list of changes to the Ruby 3 language and standard library, see
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[Ruby Changes](https://rubyreferences.github.io/rubychanges/3.0.html).
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## `Hash#each` consistently yields a 2-element array to lambdas
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Consider the following code snippet:
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```ruby
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def foo(a, b)
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p [a, b]
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end
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def bar(a, b = 2)
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p [a, b]
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end
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foo_lambda = method(:foo).to_proc
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bar_lambda = method(:bar).to_proc
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{ a: 1 }.each(&foo_lambda)
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{ a: 1 }.each(&bar_lambda)
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```
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In Ruby 2.7, the output of this program suggests that yielding hash entries to lambdas behaves
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differently depending on how many required arguments there are:
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```ruby
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# Ruby 2.7
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{ a: 1 }.each(&foo_lambda) # prints [:a, 1]
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{ a: 1 }.each(&bar_lambda) # prints [[:a, 1], 2]
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```
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Ruby 3 makes this behavior consistent and always attempts to yield hash entries as a single `[key, value]` array:
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```ruby
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# Ruby 3.0
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{ a: 1 }.each(&foo_lambda) # `foo': wrong number of arguments (given 1, expected 2) (ArgumentError)
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{ a: 1 }.each(&bar_lambda) # prints [[:a, 1], 2]
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```
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To write code that works under both 2.7 and 3.0, consider the following options:
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- Always pass the lambda body as a block: `{ a: 1 }.each { |a, b| p [a, b] }`.
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- Deconstruct the lambda arguments: `{ a: 1 }.each(&->((a, b)) { p [a, b] })`.
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We recommend always passing the block explicitly, and prefer two required arguments as block parameters.
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To learn more, see [Ruby issue 12706](https://bugs.ruby-lang.org/issues/12706).
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## `Symbol#to_proc` returns signature metadata consistent with lambdas
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A common idiom in Ruby is to obtain `Proc` objects using the `&:<symbol>` shorthand and
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pass them to higher-order functions:
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```ruby
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[1, 2, 3].each(&:to_s)
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```
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Ruby desugars `&:<symbol>` to `Symbol#to_proc`. We can call it with
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the method _receiver_ as its first argument (here: `Integer`), and all method _arguments_
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(here: none) as its remaining arguments.
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This behaves the same in both Ruby 2.7 and Ruby 3. Where Ruby 3 diverges is when capturing
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this `Proc` object and inspecting its call signature.
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This is often done when writing DSLs or using other forms of meta-programming:
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```ruby
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p = :foo.to_proc # This usually happens via a conversion through `&:foo`
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# Ruby 2.7: prints [[:rest]] (-1)
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# Ruby 3.0: prints [[:req], [:rest]] (-2)
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puts "#{p.parameters} (#{p.arity})"
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```
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Ruby 2.7 reports zero required and one optional parameter for this `Proc` object, while Ruby 3 reports one required
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and one optional parameter. Ruby 2.7 is incorrect: the first argument must
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always be passed, as it is the receiver of the method the `Proc` object represents, and methods cannot be
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called without a receiver.
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Ruby 3 corrects this: the code that tests `Proc` object arity or parameter lists might now break and
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has to be updated.
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To learn more, see [Ruby issue 16260](https://bugs.ruby-lang.org/issues/16260).
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## `OpenStruct` does not evaluate fields lazily
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The `OpenStruct` implementation has undergone a partial rewrite in Ruby 3, resulting in
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behavioral changes. In Ruby 2.7, `OpenStruct` defines methods lazily, when the method is first accessed.
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In Ruby 3.0, it defines these methods eagerly in the initializer, which can break classes that inherit from `OpenStruct`
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and override these methods.
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Don't inherit from `OpenStruct` for these reasons; ideally, don't use it at all.
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`OpenStruct` is [considered problematic](https://ruby-doc.org/stdlib-3.0.2/libdoc/ostruct/rdoc/OpenStruct.html#class-OpenStruct-label-Caveats).
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When writing new code, prefer a `Struct` instead, which is simpler in implementation, although less flexible.
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## `Regexp` and `Range` instances are frozen
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It is not necessary anymore to explicitly freeze `Regexp` or `Range` instances because Ruby 3 freezes
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them automatically upon creation.
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This has a subtle side-effect: Tests that stub method calls on these types now fail with an error because
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RSpec cannot stub frozen objects:
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```ruby
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# Ruby 2.7: works
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# Ruby 3.0: error: "can't modify frozen object"
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allow(subject.function_returning_range).to receive(:max).and_return(42)
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```
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Rewrite affected tests by not stubbing method calls on frozen objects. The example above can be rewritten as:
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```ruby
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# Works with any Ruby version
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allow(subject).to receive(:function_returning_range).and_return(1..42)
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```
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## Table tests fail with Ruby 3.0.2
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Ruby 3.0.2 has a known bug that causes [table tests](testing_guide/best_practices.md#table-based--parameterized-tests)
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to fail when table values consist of integer values.
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The reasons are documented in [issue 337614](https://gitlab.com/gitlab-org/gitlab/-/issues/337614).
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This problem has been fixed in Ruby and the fix is expected to be included in Ruby 3.0.3.
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The problem only affects users who run an unpatched Ruby 3.0.2. This is likely the case when you
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installed Ruby manually or via tools like `asdf`. Users of the `gitlab-development-kit (GDK)`
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are also affected by this problem.
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Build images are not affected because they include the patch set addressing this bug.
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## Deprecations are not caught in DeprecationToolkit if the method is stubbed
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We rely on `deprecation_toolkit` to fail fast when using functionality that is deprecated in Ruby 2 and removed in Ruby 3.
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A common issue caught during the transition from Ruby 2 to Ruby 3 relates to
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the [separation of positional and keyword arguments in Ruby 3.0](https://www.ruby-lang.org/en/news/2019/12/12/separation-of-positional-and-keyword-arguments-in-ruby-3-0/).
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Unfortunately, if the author has stubbed such methods in tests, deprecations would not be caught.
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We run automated detection for this warning in tests via `deprecation_toolkit`,
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but it relies on the fact that `Kernel#warn` emits a warning, so stubbing out this call will effectively remove the call to warn, which means `deprecation_toolkit` will never see the deprecation warnings.
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Stubbing out the implementation removes that warning, and we never pick it up, so the build is green.
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Please refer to [issue 364099](https://gitlab.com/gitlab-org/gitlab/-/issues/364099) for more context.
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## Testing in `irb` and `rails console`
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Another pitfall is that testing in `irb`/`rails c` silences the deprecation warning,
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since `irb` in Ruby 2.7.x has a [bug](https://bugs.ruby-lang.org/issues/17377) that prevents deprecation warnings from showing.
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When writing code and performing code reviews, pay extra attention to method calls of the form `f({k: v})`.
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This is valid in Ruby 2 when `f` takes either a `Hash` or keyword arguments, but Ruby 3 only considers this valid if `f` takes a `Hash`.
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For Ruby 3 compliance, this should be changed to one of the following invocations if `f` takes keyword arguments:
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- `f(**{k: v})`
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- `f(k: v)`
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