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swift-mirror/lib/SymbolGraphGen/AvailabilityMixin.cpp
Allan Shortlidge 92227ad1cf AST: Introduce the Swift, anyAppleOS, and DriverKit platform kinds. 
This change just stages in a few new platform kinds, without fully adding
support for them yet.

- The `Swift` platform represents availability of the Swift runtime across all
  platforms that support an ABI stable Swift runtime (see the pitch at
  https://forums.swift.org/t/pitch-swift-runtime-availability/82742).
- The `anyAppleOS` platform is an experimental platform that represents all of
  Apple's operating systems. This is intended to simplify writing availability
  for Apple's platforms by taking advantage of the new unified OS versioning
  system announced at WWDC 2025.
- The `DriverKit` platform corresponds to Apple DriverKit which is already
  supported by LLVM.
2025-10-27 19:15:04 -07:00

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//===--- AvailabilityMixin.cpp - Symbol Graph Symbol Availability ---------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
#include "AvailabilityMixin.h"
#include "JSON.h"
#include "swift/Basic/Assertions.h"
using namespace swift;
using namespace symbolgraphgen;
namespace {
StringRef getDomain(const SemanticAvailableAttr &AvAttr) {
// FIXME: [avalailability] Move the definition of these strings into
// AvailabilityDomain so that new domains are handled automatically.
if (AvAttr.getDomain().isPackageDescription())
return { "SwiftPM" };
if (AvAttr.getDomain().isSwiftLanguageMode())
return { "Swift" };
// Platform-specific availability.
switch (AvAttr.getPlatform()) {
case swift::PlatformKind::iOS:
return { "iOS" };
case swift::PlatformKind::macCatalyst:
return { "macCatalyst" };
case swift::PlatformKind::macOS:
return { "macOS" };
case swift::PlatformKind::tvOS:
return { "tvOS" };
case swift::PlatformKind::watchOS:
return { "watchOS" };
case swift::PlatformKind::visionOS:
return { "visionOS" };
case swift::PlatformKind::iOSApplicationExtension:
return { "iOSAppExtension" };
case swift::PlatformKind::macCatalystApplicationExtension:
return { "macCatalystAppExtension" };
case swift::PlatformKind::macOSApplicationExtension:
return { "macOSAppExtension" };
case swift::PlatformKind::tvOSApplicationExtension:
return { "tvOSAppExtension" };
case swift::PlatformKind::watchOSApplicationExtension:
return { "watchOSAppExtension" };
case swift::PlatformKind::visionOSApplicationExtension:
return { "visionOSAppExtension" };
case PlatformKind::DriverKit:
return { "DriverKit" };
case swift::PlatformKind::Swift:
return { "Swift" };
case PlatformKind::anyAppleOS:
return { "Any Apple OS" };
case swift::PlatformKind::FreeBSD:
return { "FreeBSD" };
case swift::PlatformKind::OpenBSD:
return { "OpenBSD" };
case swift::PlatformKind::Windows:
return { "Windows" };
case swift::PlatformKind::Android:
return { "Android" };
case swift::PlatformKind::none:
return { "*" };
}
llvm_unreachable("invalid platform kind");
}
} // end anonymous namespace
Availability::Availability(const SemanticAvailableAttr &AvAttr)
: Domain(getDomain(AvAttr)), Introduced(AvAttr.getIntroduced()),
Deprecated(AvAttr.getDeprecated()), Obsoleted(AvAttr.getObsoleted()),
Message(AvAttr.getMessage()), Renamed(AvAttr.getRename()),
IsUnconditionallyDeprecated(AvAttr.isUnconditionallyDeprecated()),
IsUnconditionallyUnavailable(AvAttr.isUnconditionallyUnavailable()) {
assert(!Domain.empty());
}
void
Availability::updateFromDuplicate(const Availability &Other) {
assert(Domain == Other.Domain);
// The highest `introduced` version always wins
// regardless of the order in which they appeared in the source.
if (!Introduced) {
Introduced = Other.Introduced;
} else if (Other.Introduced && *Other.Introduced > *Introduced) {
Introduced = Other.Introduced;
}
// The `deprecated` version that appears last in the source always wins,
// allowing even to erase a previous deprecated.
Deprecated = Other.Deprecated;
// Same for `deprecated` with no version.
IsUnconditionallyDeprecated = Other.IsUnconditionallyDeprecated;
// Same for `unavailable` with no version.
IsUnconditionallyUnavailable = Other.IsUnconditionallyUnavailable;
// Same for `obsoleted`.
Obsoleted = Other.Obsoleted;
// The `message` that appears last in the source always wins.
Message = Other.Message;
// Same for `renamed`.
Renamed = Other.Renamed;
}
void
Availability::updateFromParent(const Availability &Parent) {
assert(Domain == Parent.Domain);
// Allow filling, but never replace a child's existing `introduced`
// availability because it can never be less available than the parent anyway.
//
// e.g. you cannot write this:
// @available(macos, introduced: 10.15)
// struct S {
// @available(macos, introduced: 10.14)
// func foo() {}
// }
//
// So the child's `introduced` availability will always
// be >= the parent's.
if (!Introduced) {
Introduced = Parent.Introduced;
}
// Allow filling from the parent.
// For replacement, we will consider a parent's
// earlier deprecation to supersede a child's later deprecation.
if (!Deprecated) {
Deprecated = Parent.Deprecated;
} else if (Parent.Deprecated && *Parent.Deprecated < *Deprecated) {
Deprecated = Parent.Deprecated;
}
// The above regarding `deprecated` also will apply to `obsoleted`.
if (!Obsoleted) {
Obsoleted = Parent.Obsoleted;
} else if (Parent.Obsoleted && *Parent.Obsoleted < *Obsoleted) {
Obsoleted = Parent.Obsoleted;
}
// Never replace or fill a child's `message` with a parent's because
// there may be context at the parent that doesn't apply at the child,
// i.e. it might not always make sense.
// Never replace or fill a child's `renamed` field because it
// doesn't make sense. Just because a parent is renamed doesn't
// mean its child is renamed to the same thing.
// If a parent is unconditionally deprecated, then so are all
// of its children.
IsUnconditionallyDeprecated |= Parent.IsUnconditionallyDeprecated;
// If a parent is unconditionally unavailable, then so are all
// of its children.
IsUnconditionallyUnavailable |= Parent.IsUnconditionallyUnavailable;
}
void Availability::serialize(llvm::json::OStream &OS) const {
OS.object([&](){
OS.attribute("domain", Domain);
if (Introduced) {
AttributeRAII IntroducedAttribute("introduced", OS);
symbolgraphgen::serialize(*Introduced, OS);
}
if (Deprecated) {
AttributeRAII DeprecatedAttribute("deprecated", OS);
symbolgraphgen::serialize(*Deprecated, OS);
}
if (Obsoleted) {
AttributeRAII ObsoletedAttribute("obsoleted", OS);
symbolgraphgen::serialize(*Obsoleted, OS);
}
if (!Message.empty()) {
OS.attribute("message", Message);
}
if (!Renamed.empty()) {
OS.attribute("renamed", Renamed);
}
if (IsUnconditionallyDeprecated) {
OS.attribute("isUnconditionallyDeprecated", true);
}
if (IsUnconditionallyUnavailable) {
OS.attribute("isUnconditionallyUnavailable", true);
}
}); // end availability object
}
bool Availability::empty() const {
return !Introduced.has_value() &&
!Deprecated.has_value() &&
!Obsoleted.has_value() &&
!IsUnconditionallyDeprecated &&
!IsUnconditionallyUnavailable;
}
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