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Differential D132754

[clang] Add __is_target_variant_{os,environment} builtins
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Authored by thakis on Aug 26 2022, 12:24 PM.

Details

Reviewers
hans
Commits
rG396f40a79fc9: [clang] Add __is_target_variant_{os,environment} builtins
Summary

Xcode 13's clang has them. For the included testcase, Xcode's clang
behaves like the implementation in this patch.

Availability.h in the macOS 12.0 SDK (part of Xcode 13, and the current
stable version of the macOS SDK) does something like:

#if defined(__has_builtin)
  ...
  #if __has_builtin(__is_target_os)
   #if __has_builtin(__is_target_environment)
    #if __has_builtin(__is_target_variant_os)
     #if __has_builtin(__is_target_variant_environment)
      #if (... && ((__is_target_os(ios) && __is_target_environment(macabi)) || (__is_target_variant_os(ios) && __is_target_variant_environment(macabi))))
        #define __OSX_AVAILABLE_STARTING(_osx, _ios) ...
        #define __OSX_AVAILABLE_BUT_DEPRECATED(_osxIntro, _osxDep, _iosIntro, _iosDep) ...
        #define __OSX_AVAILABLE_BUT_DEPRECATED_MSG(_osxIntro, _osxDep, _iosIntro, _iosDep, _msg) ...

So if has_builtin(is_target_variant_os) or
has_builtin(is_target_variant_environment) are false, these defines are not
defined.

Most of the time, this doesn't matter. But open-source clang currently fails
to commpile a file containing only #include <Security/cssmtype.h> when
building for catalyst by adding a -target arm64-apple-ios13.1-macabi triple,
due to those __OSX_AVAILABLE macros not being set correctly.

If a potential future SDK version were to include cssmtype.h transitively
from a common header such as <Foundation/Foundation.h>, then it would become
close to impossible to build Catalyst binaries with open-source clang.

To fix this for normal catalyst builds, it's only necessary that
__has_builtin() evaluates to true for these two built-ins -- the implementation
of them doesn't matter. But as a courtesy, a correct (at least on the test
cases I tried) implementation is provided. (This should also help people who
try to build zippered code, where having the correct implementation does
matter.)

Diff Detail

Event Timeline

thakis created this revision.Aug 26 2022, 12:24 PM
Herald added a project: Restricted Project. · View Herald TranscriptAug 26 2022, 12:24 PM
Herald added a subscriber: kristof.beyls. · View Herald Transcript
thakis requested review of this revision.Aug 26 2022, 12:24 PM
thakis added a comment.Aug 26 2022, 12:26 PM

Another patch to make open-source clang more like Xcode's clang, needed to parse system headers.

https://github.com/nico/hack/blob/main/notes/catalyst.md has some background information on catalyst triples and zippered code.

clang/lib/Lex/PPMacroExpansion.cpp
1713

(I saw this comment, but system headers force our hand.)

hans accepted this revision.Aug 26 2022, 12:45 PM

lgtm

This revision is now accepted and ready to land.Aug 26 2022, 12:45 PM
Harbormaster completed remote builds in B183659: Diff 455991.Aug 26 2022, 1:27 PM
This revision was landed with ongoing or failed builds.Aug 26 2022, 3:20 PM
Closed by commit rG396f40a79fc9: [clang] Add __is_target_variant_{os,environment} builtins (authored by thakis). · Explain Why
This revision was automatically updated to reflect the committed changes.
thakis added a commit: rG396f40a79fc9: [clang] Add __is_target_variant_{os,environment} builtins.
Herald added a project: Restricted Project. · View Herald TranscriptAug 26 2022, 3:20 PM

Revision Contents

PathSize
clang/
include/
clang/
Lex/
2 lines
lib/
Lex/
55 lines
test/
Preprocessor/
10 lines
72 lines

Diff 455991

clang/include/clang/Lex/Preprocessor.h

Show First 20 LinesShow All 172 Lines▼ Show 20 Linesclass Preprocessor {
IdentifierInfo *Ident__MODULE__; // __MODULE__ IdentifierInfo *Ident__MODULE__; // __MODULE__
IdentifierInfo *Ident__has_cpp_attribute; // __has_cpp_attribute IdentifierInfo *Ident__has_cpp_attribute; // __has_cpp_attribute
IdentifierInfo *Ident__has_c_attribute; // __has_c_attribute IdentifierInfo *Ident__has_c_attribute; // __has_c_attribute
IdentifierInfo *Ident__has_declspec; // __has_declspec_attribute IdentifierInfo *Ident__has_declspec; // __has_declspec_attribute
IdentifierInfo *Ident__is_target_arch; // __is_target_arch IdentifierInfo *Ident__is_target_arch; // __is_target_arch
IdentifierInfo *Ident__is_target_vendor; // __is_target_vendor IdentifierInfo *Ident__is_target_vendor; // __is_target_vendor
IdentifierInfo *Ident__is_target_os; // __is_target_os IdentifierInfo *Ident__is_target_os; // __is_target_os
IdentifierInfo *Ident__is_target_environment; // __is_target_environment IdentifierInfo *Ident__is_target_environment; // __is_target_environment
IdentifierInfo *Ident__is_target_variant_os;
IdentifierInfo *Ident__is_target_variant_environment;
IdentifierInfo *Ident__FLT_EVAL_METHOD__; // __FLT_EVAL_METHOD IdentifierInfo *Ident__FLT_EVAL_METHOD__; // __FLT_EVAL_METHOD
// Weak, only valid (and set) while InMacroArgs is true. // Weak, only valid (and set) while InMacroArgs is true.
Token* ArgMacro; Token* ArgMacro;
SourceLocation DATELoc, TIMELoc; SourceLocation DATELoc, TIMELoc;
// FEM_UnsetOnCommandLine means that an explicit evaluation method was // FEM_UnsetOnCommandLine means that an explicit evaluation method was
▲ Show 20 LinesShow All 2,530 LinesShow Last 20 Lines

clang/lib/Lex/PPMacroExpansion.cpp

Show First 20 LinesShow All 381 Lines▼ Show 20 Linesvoid Preprocessor::RegisterBuiltinMacros() {
Ident__has_include_next = RegisterBuiltinMacro(*this, "__has_include_next"); Ident__has_include_next = RegisterBuiltinMacro(*this, "__has_include_next");
Ident__has_warning = RegisterBuiltinMacro(*this, "__has_warning"); Ident__has_warning = RegisterBuiltinMacro(*this, "__has_warning");
Ident__is_identifier = RegisterBuiltinMacro(*this, "__is_identifier"); Ident__is_identifier = RegisterBuiltinMacro(*this, "__is_identifier");
Ident__is_target_arch = RegisterBuiltinMacro(*this, "__is_target_arch"); Ident__is_target_arch = RegisterBuiltinMacro(*this, "__is_target_arch");
Ident__is_target_vendor = RegisterBuiltinMacro(*this, "__is_target_vendor"); Ident__is_target_vendor = RegisterBuiltinMacro(*this, "__is_target_vendor");
Ident__is_target_os = RegisterBuiltinMacro(*this, "__is_target_os"); Ident__is_target_os = RegisterBuiltinMacro(*this, "__is_target_os");
Ident__is_target_environment = Ident__is_target_environment =
RegisterBuiltinMacro(*this, "__is_target_environment"); RegisterBuiltinMacro(*this, "__is_target_environment");
Ident__is_target_variant_os =
RegisterBuiltinMacro(*this, "__is_target_variant_os");
Ident__is_target_variant_environment =
RegisterBuiltinMacro(*this, "__is_target_variant_environment");
// Modules. // Modules.
Ident__building_module = RegisterBuiltinMacro(*this, "__building_module"); Ident__building_module = RegisterBuiltinMacro(*this, "__building_module");
if (!getLangOpts().CurrentModule.empty()) if (!getLangOpts().CurrentModule.empty())
Ident__MODULE__ = RegisterBuiltinMacro(*this, "__MODULE__"); Ident__MODULE__ = RegisterBuiltinMacro(*this, "__MODULE__");
else else
Ident__MODULE__ = nullptr; Ident__MODULE__ = nullptr;
} }
▲ Show 20 LinesShow All 1,028 Lines▼ Show 20 Lines
/// Implements the __is_target_environment builtin macro. /// Implements the __is_target_environment builtin macro.
static bool isTargetEnvironment(const TargetInfo &TI, static bool isTargetEnvironment(const TargetInfo &TI,
const IdentifierInfo *II) { const IdentifierInfo *II) {
std::string EnvName = (llvm::Twine("---") + II->getName().lower()).str(); std::string EnvName = (llvm::Twine("---") + II->getName().lower()).str();
llvm::Triple Env(EnvName); llvm::Triple Env(EnvName);
return TI.getTriple().getEnvironment() == Env.getEnvironment(); return TI.getTriple().getEnvironment() == Env.getEnvironment();
} }
/// Implements the __is_target_variant_os builtin macro.
static bool isTargetVariantOS(const TargetInfo &TI, const IdentifierInfo *II) {
if (TI.getTriple().isOSDarwin()) {
const llvm::Triple *VariantTriple = TI.getDarwinTargetVariantTriple();
if (!VariantTriple)
return false;
std::string OSName =
(llvm::Twine("unknown-unknown-") + II->getName().lower()).str();
llvm::Triple OS(OSName);
if (OS.getOS() == llvm::Triple::Darwin) {
// Darwin matches macos, ios, etc.
return VariantTriple->isOSDarwin();
}
return VariantTriple->getOS() == OS.getOS();
}
return false;
}
/// Implements the __is_target_variant_environment builtin macro.
static bool isTargetVariantEnvironment(const TargetInfo &TI,
const IdentifierInfo *II) {
if (TI.getTriple().isOSDarwin()) {
const llvm::Triple *VariantTriple = TI.getDarwinTargetVariantTriple();
if (!VariantTriple)
return false;
std::string EnvName = (llvm::Twine("---") + II->getName().lower()).str();
llvm::Triple Env(EnvName);
return VariantTriple->getEnvironment() == Env.getEnvironment();
}
return false;
}
/// ExpandBuiltinMacro - If an identifier token is read that is to be expanded /// ExpandBuiltinMacro - If an identifier token is read that is to be expanded
/// as a builtin macro, handle it and return the next token as 'Tok'. /// as a builtin macro, handle it and return the next token as 'Tok'.
void Preprocessor::ExpandBuiltinMacro(Token &Tok) { void Preprocessor::ExpandBuiltinMacro(Token &Tok) {
// Figure out which token this is. // Figure out which token this is.
IdentifierInfo *II = Tok.getIdentifierInfo(); IdentifierInfo *II = Tok.getIdentifierInfo();
assert(II && "Can't be a macro without id info!"); assert(II && "Can't be a macro without id info!");
// If this is an _Pragma or Microsoft __pragma directive, expand it, // If this is an _Pragma or Microsoft __pragma directive, expand it,
▲ Show 20 LinesShow All 226 Lines▼ Show 20 Lines#include "clang/Basic/TransformTypeTraits.def"
.Default(false); .Default(false);
} else { } else {
return llvm::StringSwitch<bool>(II->getName()) return llvm::StringSwitch<bool>(II->getName())
// Report builtin templates as being builtins. // Report builtin templates as being builtins.
.Case("__make_integer_seq", getLangOpts().CPlusPlus) .Case("__make_integer_seq", getLangOpts().CPlusPlus)
.Case("__type_pack_element", getLangOpts().CPlusPlus) .Case("__type_pack_element", getLangOpts().CPlusPlus)
// Likewise for some builtin preprocessor macros. // Likewise for some builtin preprocessor macros.
// FIXME: This is inconsistent; we usually suggest detecting // FIXME: This is inconsistent; we usually suggest detecting
// builtin macros via #ifdef. Don't add more cases here. // builtin macros via #ifdef. Don't add more cases here.
thakisAuthorUnsubmitted
Done
ReplyInline Actions

(I saw this comment, but system headers force our hand.)

thakis: (I saw this comment, but system headers force our hand.)
.Case("__is_target_arch", true) .Case("__is_target_arch", true)
.Case("__is_target_vendor", true) .Case("__is_target_vendor", true)
.Case("__is_target_os", true) .Case("__is_target_os", true)
.Case("__is_target_environment", true) .Case("__is_target_environment", true)
.Case("__is_target_variant_os", true)
.Case("__is_target_variant_environment", true)
.Default(false); .Default(false);
} }
}); });
} else if (II == Ident__is_identifier) { } else if (II == Ident__is_identifier) {
EvaluateFeatureLikeBuiltinMacro(OS, Tok, II, *this, false, EvaluateFeatureLikeBuiltinMacro(OS, Tok, II, *this, false,
[](Token &Tok, bool &HasLexedNextToken) -> int { [](Token &Tok, bool &HasLexedNextToken) -> int {
return Tok.is(tok::identifier); return Tok.is(tok::identifier);
}); });
▲ Show 20 LinesShow All 184 Lines▼ Show 20 Lines#include "clang/Basic/TransformTypeTraits.def"
} else if (II == Ident__is_target_environment) { } else if (II == Ident__is_target_environment) {
EvaluateFeatureLikeBuiltinMacro( EvaluateFeatureLikeBuiltinMacro(
OS, Tok, II, *this, false, OS, Tok, II, *this, false,
[this](Token &Tok, bool &HasLexedNextToken) -> int { [this](Token &Tok, bool &HasLexedNextToken) -> int {
IdentifierInfo *II = ExpectFeatureIdentifierInfo( IdentifierInfo *II = ExpectFeatureIdentifierInfo(
Tok, *this, diag::err_feature_check_malformed); Tok, *this, diag::err_feature_check_malformed);
return II && isTargetEnvironment(getTargetInfo(), II); return II && isTargetEnvironment(getTargetInfo(), II);
}); });
} else if (II == Ident__is_target_variant_os) {
EvaluateFeatureLikeBuiltinMacro(
OS, Tok, II, *this, false,
[this](Token &Tok, bool &HasLexedNextToken) -> int {
IdentifierInfo *II = ExpectFeatureIdentifierInfo(
Tok, *this, diag::err_feature_check_malformed);
return II && isTargetVariantOS(getTargetInfo(), II);
});
} else if (II == Ident__is_target_variant_environment) {
EvaluateFeatureLikeBuiltinMacro(
OS, Tok, II, *this, false,
[this](Token &Tok, bool &HasLexedNextToken) -> int {
IdentifierInfo *II = ExpectFeatureIdentifierInfo(
Tok, *this, diag::err_feature_check_malformed);
return II && isTargetVariantEnvironment(getTargetInfo(), II);
});
} else { } else {
llvm_unreachable("Unknown identifier!"); llvm_unreachable("Unknown identifier!");
} }
CreateString(OS.str(), Tok, Tok.getLocation(), Tok.getLocation()); CreateString(OS.str(), Tok, Tok.getLocation(), Tok.getLocation());
Tok.setFlagValue(Token::StartOfLine, IsAtStartOfLine); Tok.setFlagValue(Token::StartOfLine, IsAtStartOfLine);
Tok.setFlagValue(Token::LeadingSpace, HasLeadingSpace); Tok.setFlagValue(Token::LeadingSpace, HasLeadingSpace);
} }
Show All 20 Lines

clang/test/Preprocessor/is_target_unknown.c

Show All 14 Lines
#if !__is_target_os(unknown) #if !__is_target_os(unknown)
#error "mismatching OS" #error "mismatching OS"
#endif #endif
// Unknown environment is allowed. // Unknown environment is allowed.
#if !__is_target_environment(unknown) #if !__is_target_environment(unknown)
#error "mismatching environment" #error "mismatching environment"
#endif #endif
// Unknown variant OS is not allowed.
#if __is_target_variant_os(unknown)
#error "mismatching OS"
#endif
// Unknown variant environment is not allowed.
#if __is_target_variant_environment(unknown)
#error "mismatching environment"
#endif

clang/test/Preprocessor/is_target_variant.c

  • This file was added.
// RUN: %clang_cc1 -fsyntax-only -triple arm64-apple-macos -DMAC -verify %s
// RUN: %clang_cc1 -fsyntax-only -triple arm64-apple-ios13.1 -DIOS -verify %s
// RUN: %clang_cc1 -fsyntax-only -triple arm64-apple-ios13.1-macabi -DCATALYST -verify %s
// RUN: %clang_cc1 -fsyntax-only -triple arm64-apple-macos12 -darwin-target-variant-triple arm64-apple-ios-macabi -DZIPPERED -verify %s
// expected-no-diagnostics
#if !__has_builtin(__is_target_variant_os) || !__has_builtin(__is_target_variant_environment)
#error "has builtin doesn't work"
#endif
#ifdef ZIPPERED
// Target variant is a darwin.
#if !__is_target_variant_os(darwin)
#error "mismatching variant os"
#endif
// Target variant is not macOS...
#if __is_target_variant_os(macos)
#error "mismatching variant os"
#endif
// ...but iOS.
#if !__is_target_variant_os(ios)
#error "mismatching variant os"
#endif
// Zippered builds also set the target variant environment to macabi.
// At the moment, only zippered builds set __is_target_variant_os(ios),
// so checking __is_target_variant_environment() is currently redundant
// with checking the former.
#if !__is_target_variant_environment(macabi)
#error "mismatching variant environment"
#endif
#else
// In non-zippered builds, even for catalyst, no target variant is set.
// So these are all false.
#if __is_target_variant_os(darwin)
#error "mismatching variant os"
#endif
#if __is_target_variant_os(macos)
#error "mismatching variant os"
#endif
#if __is_target_variant_os(ios)
#error "mismatching variant os"
#endif
#if __is_target_variant_environment(macabi)
#error "mismatching variant environment"
#endif
#endif
// The target environment in zippered builds is _not_ macabi.
// The target environment is macabi only in catalyst builds.
#ifdef CATALYST
#if !__is_target_environment(macabi)
#error "mismatching environment"
#endif
#if !__is_target_os(ios)
#error "mismatching os"
#endif
#else
#if __is_target_environment(macabi)
#error "mismatching environment"
#endif
#endif