Extending Partial Methods
Note
This article is a feature specification. The specification serves as the design document for the feature. It includes proposed specification changes, along with information needed during the design and development of the feature. These articles are published until the proposed spec changes are finalized and incorporated in the current ECMA specification.
There may be some discrepancies between the feature specification and the completed implementation. Those differences are captured in the pertinent language design meeting (LDM) notes.
You can learn more about the process for adopting feature speclets into the C# language standard in the article on the specifications.
Summary
This proposal aims to remove all restrictions around the signatures of partial
methods in C#. The goal being to expand the set of scenarios in which these
methods can work with source generators as well as being a more general
declaration form for C# methods.
See also the original partial methods specification (ยง14.6.9).
Motivation
C# has limited support for developers splitting methods into declarations and definitions / implementations.
partial class C
{
// The declaration of C.M
partial void M(string message);
}
partial class C
{
// The definition of C.M
partial void M(string message) => Console.WriteLine(message);
}
One behavior of partial
methods is that when the definition is absent then
the language will simply erase any calls to the partial
method. Essentially
it behaves like a call to a [Conditional]
method where the condition was
evaluated to false.
partial class D
{
partial void M(string message);
void Example()
{
M(GetIt()); // Call to M and GetIt erased at compile time
}
string GetIt() => "Hello World";
}
The original motivation for this feature was source generation in the form of designer generated code. Users were constantly editing the generated code because they wanted to hook some aspect of the generated code. Most notably parts of the Windows Forms startup process, after components were initialized.
Editing the generated code was error prone because any action which caused the
designer to regenerate the code would cause the user edit to be erased. The
partial
method feature eased this tension because it allowed designers to
emit hooks in the form of partial
methods.
Designers could emit hooks like partial void OnComponentInit()
and developers
could define declarations for them or not define them. In either case though
the generated code would compile and developers who were interested in the
process could hook in as needed.
This does mean that partial methods have several restrictions:
- Must have a
void
return type. - Cannot have
out
parameters. - Cannot have any accessibility (implicitly
private
).
These restrictions exist because the language must be able to emit code when
the call site is erased. Given they can be erased private
is the only possible
accessibility because the member can't be exposed in assembly metadata. These
restrictions also serve to limit the set of scenarios in which partial
methods
can be applied.
The proposal here is to remove all of the existing restrictions around partial
methods. Essentially let them have out
, non-void return types or any
type of accessibility. Such partial
declarations would then have the added
requirement that a definition must exist. That means the language does not
have to consider the impact of erasing the call sites.
This would expand the set of generator scenarios that partial
methods could
participate in and hence link in nicely with our source generators feature. For
example a regex could be defined using the following pattern:
[RegexGenerated("(dog|cat|fish)")]
partial bool IsPetMatch(string input);
This gives both the developer a simple declarative way of opting into generators as well as giving generators a very easy set of declarations to look through in the source code to drive their generated output.
Compare that with the difficulty that a generator would have hooking up the following snippet of code.
var regex = new RegularExpression("(dog|cat|fish)");
if (regex.IsMatch(someInput))
{
}
Given that the compiler doesn't allow generators to modify code hooking up this
pattern would be pretty much impossible for generators. They would need to
resort to reflection in the IsMatch
implementation, or asking users to change
their call sites to a new method + refactor the regex to pass the string literal
as an argument. It's pretty messy.
Detailed Design
The language will change to allow partial
methods to be annotated with an
explicit accessibility modifier. This means they can be labeled as private
,
public
, etc ...
When a partial
method has an explicit accessibility modifier
though the language will require that the declaration has a matching
definition even when the accessibility is private
:
partial class C
{
// Okay because no definition is required here
partial void M1();
// Okay because M2 has a definition
private partial void M2();
// Error: partial method M3 must have a definition
private partial void M3();
}
partial class C
{
private partial void M2() { }
}
Further the language will remove all restrictions on what can appear on a
partial
method which has an explicit accessibility. Such declarations can
contain non-void return types, out
parameters, extern
modifier,
etc ... These signatures will have the full expressivity of the C# language.
partial class D
{
// Okay
internal partial bool TryParse(string s, out int i);
}
partial class D
{
internal partial bool TryParse(string s, out int i) { }
}
This explicitly allows for partial
methods to participate in overrides
and
interface
implementations:
interface IStudent
{
string GetName();
}
partial class C : IStudent
{
public virtual partial string GetName();
}
partial class C
{
public virtual partial string GetName() => "Jarde";
}
The compiler will change the error it emits when a partial
method contains
an illegal element to essentially say:
Cannot use
ref
on apartial
method that lacks explicit accessibility
This will help point developers in the right direction when using this feature.
Restrictions:
partial
declarations with explicit accessibility must have a definitionpartial
declarations and definition signatures must match on all method and parameter modifiers. The only aspects which can differ are parameter names and attribute lists (this is not new but rather an existing requirement ofpartial
methods).
Questions
partial on all members
Given that we're expanding partial
to be more friendly to source generators
should we also expand it to work on all class members? For example should we
be able to declare partial
constructors, operators, etc ...
Resolution The idea is sound but at this point in the C# 9 schedule we're trying to avoid unnecessary feature creep. Want to solve the immediate problem of expanding the feature to work with modern source generators.
Extending partial
to support other members will be considered for the C# 10
release. Seems likely that we will consider this extension.
Use abstract instead of partial
The crux of this proposal is essentially ensuring that a declaration has a
corresponding definition / implementation. Given that should we use abstract
since it's already a language keyword that forces the developer to think about
having an implementation?
Resolution There was a healthy discussion about this but eventually it was decided against. Yes the requirements are familiar but the concepts are significantly different. Could easily lead the developer to believe they were creating virtual slots when they were not doing so.
C# feature specifications