lib/ClangImporter/ImportEnumInfo.cpp - third_party/swift - Git at Google

 //===--- ImportEnumInfo.cpp - Information about importable Clang enums ----===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file provides EnumInfo, which describes a Clang enum ready to be
 // imported
 //
 //===----------------------------------------------------------------------===//

 #include "ClangAdapter.h"
 #include "ImportEnumInfo.h"
 #include "ImporterImpl.h"
 #include "swift/Basic/StringExtras.h"
 #include "swift/Parse/Lexer.h"
 #include "clang/AST/Attr.h"
 #include "clang/AST/Decl.h"
 #include "clang/Lex/MacroInfo.h"
 #include "clang/Lex/Preprocessor.h"

 #include "llvm/ADT/Statistic.h"
 #define DEBUG_TYPE "Enum Info"
 STATISTIC(EnumInfoNumCacheHits, "# of times the enum info cache was hit");
 STATISTIC(EnumInfoNumCacheMisses, "# of times the enum info cache was missed");

 using namespace swift;
 using namespace importer;

 /// Find the last extensibility attribute on \p decl as arranged by source
 /// location...unless there's an API note, in which case that one wins.
 ///
 /// This is not what Clang will do, but it's more useful for us since CF_ENUM
 /// already has enum_extensibility(open) in it.
 static clang::EnumExtensibilityAttr *
 getBestExtensibilityAttr(clang::Preprocessor &pp, const clang::EnumDecl *decl) {
   clang::EnumExtensibilityAttr *bestSoFar = nullptr;
   const clang::SourceManager &sourceMgr = pp.getSourceManager();
   for (auto *next : decl->specific_attrs<clang::EnumExtensibilityAttr>()) {
     if (next->getLocation().isInvalid()) {
       // This is from API notes -- use it!
       return next;
     }

     if (!bestSoFar ||
         sourceMgr.isBeforeInTranslationUnit(bestSoFar->getLocation(),
                                             next->getLocation())) {
       bestSoFar = next;
     }
   }
   return bestSoFar;
 }

 /// Classify the given Clang enumeration to describe how to import it.
 void EnumInfo::classifyEnum(const clang::EnumDecl *decl,
                             clang::Preprocessor &pp) {
   assert(decl);
   clang::PrettyStackTraceDecl trace(decl, clang::SourceLocation(),
                                     pp.getSourceManager(), "classifying");
   assert(decl->isThisDeclarationADefinition());

   // Anonymous enumerations simply get mapped to constants of the
   // underlying type of the enum, because there is no way to conjure up a
   // name for the Swift type.
   if (!decl->hasNameForLinkage()) {
     kind = EnumKind::Constants;
     return;
   }

   // First, check for attributes that denote the classification.
   if (auto domainAttr = decl->getAttr<clang::NSErrorDomainAttr>()) {
     kind = EnumKind::NonFrozenEnum;
     nsErrorDomain = domainAttr->getErrorDomain()->getName();
   }
   if (decl->hasAttr<clang::FlagEnumAttr>()) {
     kind = EnumKind::Options;
     return;
   }
   if (auto *attr = getBestExtensibilityAttr(pp, decl)) {
     if (attr->getExtensibility() == clang::EnumExtensibilityAttr::Closed)
       kind = EnumKind::FrozenEnum;
     else
       kind = EnumKind::NonFrozenEnum;
     return;
   }
   if (!nsErrorDomain.empty())
     return;

   // If API notes have /removed/ a FlagEnum or EnumExtensibility attribute,
   // then we don't need to check the macros.
   for (auto *attr : decl->specific_attrs<clang::SwiftVersionedAttr>()) {
     if (!attr->getIsReplacedByActive())
       continue;
     if (isa<clang::FlagEnumAttr>(attr->getAttrToAdd()) ||
         isa<clang::EnumExtensibilityAttr>(attr->getAttrToAdd())) {
       kind = EnumKind::Unknown;
       return;
     }
   }

   // Was the enum declared using *_ENUM or *_OPTIONS?
   // FIXME: Stop using these once flag_enum and enum_extensibility
   // have been adopted everywhere, or at least relegate them to Swift 4 mode
   // only.
   auto loc = decl->getBeginLoc();
   if (loc.isMacroID()) {
     StringRef MacroName = pp.getImmediateMacroName(loc);
     if (MacroName == "CF_ENUM" || MacroName == "__CF_NAMED_ENUM" ||
         MacroName == "OBJC_ENUM" || MacroName == "SWIFT_ENUM" ||
         MacroName == "SWIFT_ENUM_NAMED") {
       kind = EnumKind::NonFrozenEnum;
       return;
     }
     if (MacroName == "CF_OPTIONS" || MacroName == "OBJC_OPTIONS" ||
         MacroName == "SWIFT_OPTIONS") {
       kind = EnumKind::Options;
       return;
     }
   }

   // Hardcode a particular annoying case in the OS X headers.
   if (decl->getName() == "DYLD_BOOL") {
     kind = EnumKind::FrozenEnum;
     return;
   }

   // Fall back to the 'Unknown' path.
   kind = EnumKind::Unknown;
 }

 /// Returns the common prefix of two strings at camel-case word granularity.
 ///
 /// For example, given "NSFooBar" and "NSFooBas", returns "NSFoo"
 /// (not "NSFooBa"). The returned StringRef is a slice of the "a" argument.
 ///
 /// If either string has a non-identifier character immediately after the
 /// prefix, \p followedByNonIdentifier will be set to \c true. If both strings
 /// have identifier characters after the prefix, \p followedByNonIdentifier will
 /// be set to \c false. Otherwise, \p followedByNonIdentifier will not be
 /// changed from its initial value.
 ///
 /// This is used to derive the common prefix of enum constants so we can elide
 /// it from the Swift interface.
 StringRef importer::getCommonWordPrefix(StringRef a, StringRef b,
                                         bool &followedByNonIdentifier) {
   auto aWords = camel_case::getWords(a), bWords = camel_case::getWords(b);
   auto aI = aWords.begin(), aE = aWords.end(), bI = bWords.begin(),
        bE = bWords.end();

   unsigned prevLength = 0;
   unsigned prefixLength = 0;
   for (; aI != aE && bI != bE; ++aI, ++bI) {
     if (*aI != *bI) {
       followedByNonIdentifier = false;
       break;
     }

     prevLength = prefixLength;
     prefixLength = aI.getPosition() + aI->size();
   }

   // Avoid creating a prefix where the rest of the string starts with a number.
   if ((aI != aE && !Lexer::isIdentifier(*aI)) ||
       (bI != bE && !Lexer::isIdentifier(*bI))) {
     followedByNonIdentifier = true;
     prefixLength = prevLength;
   }

   return a.slice(0, prefixLength);
 }

 /// Returns the common word-prefix of two strings, allowing the second string
 /// to be a common English plural form of the first.
 ///
 /// For example, given "NSProperty" and "NSProperties", the full "NSProperty"
 /// is returned. Given "NSMagicArmor" and "NSMagicArmory", only
 /// "NSMagic" is returned.
 ///
 /// The "-s", "-es", and "-ies" patterns cover every plural NS_OPTIONS name
 /// in Cocoa and Cocoa Touch.
 ///
 /// \see getCommonWordPrefix
 StringRef importer::getCommonPluralPrefix(StringRef singular,
                                           StringRef plural) {
   assert(!plural.empty());

   if (singular.empty())
     return singular;

   bool ignored;
   StringRef commonPrefix = getCommonWordPrefix(singular, plural, ignored);
   if (commonPrefix.size() == singular.size() || plural.back() != 's')
     return commonPrefix;

   StringRef leftover = singular.substr(commonPrefix.size());
   StringRef firstLeftoverWord = camel_case::getFirstWord(leftover);
   StringRef commonPrefixPlusWord =
       singular.substr(0, commonPrefix.size() + firstLeftoverWord.size());

   // Is the plural string just "[singular]s"?
   plural = plural.drop_back();
   if (plural.endswith(firstLeftoverWord))
     return commonPrefixPlusWord;

   if (plural.empty() || plural.back() != 'e')
     return commonPrefix;

   // Is the plural string "[singular]es"?
   plural = plural.drop_back();
   if (plural.endswith(firstLeftoverWord))
     return commonPrefixPlusWord;

   if (plural.empty() || !(plural.back() == 'i' && singular.back() == 'y'))
     return commonPrefix;

   // Is the plural string "[prefix]ies" and the singular "[prefix]y"?
   plural = plural.drop_back();
   firstLeftoverWord = firstLeftoverWord.drop_back();
   if (plural.endswith(firstLeftoverWord))
     return commonPrefixPlusWord;

   return commonPrefix;
 }

 /// Determine the prefix to be stripped from the names of the enum constants
 /// within the given enum.
 void EnumInfo::determineConstantNamePrefix(const clang::EnumDecl *decl) {
   switch (getKind()) {
   case EnumKind::NonFrozenEnum:
   case EnumKind::FrozenEnum:
   case EnumKind::Options:
     // Enums are mapped to Swift enums, Options to Swift option sets, both
     // of which attempt prefix-stripping.
     break;

   case EnumKind::Constants:
   case EnumKind::Unknown:
     // Nothing to do.
     return;
   }

   // If there are no enumers, there is no prefix to compute.
   auto ec = decl->enumerator_begin(), ecEnd = decl->enumerator_end();
   if (ec == ecEnd)
     return;

   // Determine whether the given enumerator is non-deprecated and has no
   // specifically-provided name.
   auto isNonDeprecatedWithoutCustomName = [](
       const clang::EnumConstantDecl *elem) -> bool {
     if (elem->hasAttr<clang::SwiftNameAttr>())
       return false;

     llvm::VersionTuple maxVersion{~0U, ~0U, ~0U};
     switch (elem->getAvailability(nullptr, maxVersion)) {
     case clang::AR_Available:
     case clang::AR_NotYetIntroduced:
       for (auto attr : elem->attrs()) {
         if (auto annotate = dyn_cast<clang::AnnotateAttr>(attr)) {
           if (annotate->getAnnotation() == "swift1_unavailable")
             return false;
         }
         if (auto avail = dyn_cast<clang::AvailabilityAttr>(attr)) {
           if (avail->getPlatform()->getName() == "swift")
             return false;
         }
       }
       return true;

     case clang::AR_Deprecated:
     case clang::AR_Unavailable:
       return false;
     }

     llvm_unreachable("Invalid AvailabilityAttr.");
   };

   // Move to the first non-deprecated enumerator, or non-swift_name'd
   // enumerator, if present.
   auto firstNonDeprecated =
       std::find_if(ec, ecEnd, isNonDeprecatedWithoutCustomName);
   bool hasNonDeprecated = (firstNonDeprecated != ecEnd);
   if (hasNonDeprecated) {
     ec = firstNonDeprecated;
   } else {
     // Advance to the first case without a custom name, deprecated or not.
     while (ec != ecEnd && (*ec)->hasAttr<clang::SwiftNameAttr>())
       ++ec;
     if (ec == ecEnd) {
       return;
     }
   }

   // Compute the common prefix.
   StringRef commonPrefix = (*ec)->getName();
   bool followedByNonIdentifier = false;
   for (++ec; ec != ecEnd; ++ec) {
     // Skip deprecated or swift_name'd enumerators.
     const clang::EnumConstantDecl *elem = *ec;
     if (hasNonDeprecated) {
       if (!isNonDeprecatedWithoutCustomName(elem))
         continue;
     } else {
       if (elem->hasAttr<clang::SwiftNameAttr>())
         continue;
     }

     commonPrefix = getCommonWordPrefix(commonPrefix, elem->getName(),
                                        followedByNonIdentifier);
     if (commonPrefix.empty())
       break;
   }

   if (!commonPrefix.empty()) {
     StringRef checkPrefix = commonPrefix;

     // Account for the 'kConstant' naming convention on enumerators.
     if (checkPrefix[0] == 'k') {
       bool canDropK;
       if (checkPrefix.size() >= 2)
         canDropK = clang::isUppercase(checkPrefix[1]);
       else
         canDropK = !followedByNonIdentifier;

       if (canDropK)
         checkPrefix = checkPrefix.drop_front();
     }

     // Don't use importFullName() here, we want to ignore the swift_name
     // and swift_private attributes.
     StringRef enumNameStr = decl->getName();
     if (enumNameStr.empty())
       enumNameStr = decl->getTypedefNameForAnonDecl()->getName();
     assert(!enumNameStr.empty() && "should have been classified as Constants");

     StringRef commonWithEnum = getCommonPluralPrefix(checkPrefix, enumNameStr);
     size_t delta = commonPrefix.size() - checkPrefix.size();

     // Account for the 'EnumName_Constant' convention on enumerators.
     if (commonWithEnum.size() < checkPrefix.size() &&
         checkPrefix[commonWithEnum.size()] == '_' && !followedByNonIdentifier) {
       delta += 1;
     }

     commonPrefix = commonPrefix.slice(0, commonWithEnum.size() + delta);
   }

   constantNamePrefix = commonPrefix;
 }

 EnumInfo EnumInfoCache::getEnumInfo(const clang::EnumDecl *decl) {
   auto iter = enumInfos.find(decl);
   if (iter != enumInfos.end()) {
     ++EnumInfoNumCacheHits;
     return iter->second;
   }
   ++EnumInfoNumCacheMisses;
   EnumInfo enumInfo(decl, clangPP);
   enumInfos[decl] = enumInfo;
   return enumInfo;
 }
	//===--- ImportEnumInfo.cpp - Information about importable Clang enums ----===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file provides EnumInfo, which describes a Clang enum ready to be
	// imported
	//
	//===----------------------------------------------------------------------===//

	#include "ClangAdapter.h"
	#include "ImportEnumInfo.h"
	#include "ImporterImpl.h"
	#include "swift/Basic/StringExtras.h"
	#include "swift/Parse/Lexer.h"
	#include "clang/AST/Attr.h"
	#include "clang/AST/Decl.h"
	#include "clang/Lex/MacroInfo.h"
	#include "clang/Lex/Preprocessor.h"

	#include "llvm/ADT/Statistic.h"
	#define DEBUG_TYPE "Enum Info"
	STATISTIC(EnumInfoNumCacheHits, "# of times the enum info cache was hit");
	STATISTIC(EnumInfoNumCacheMisses, "# of times the enum info cache was missed");

	using namespace swift;
	using namespace importer;

	/// Find the last extensibility attribute on \p decl as arranged by source
	/// location...unless there's an API note, in which case that one wins.
	///
	/// This is not what Clang will do, but it's more useful for us since CF_ENUM
	/// already has enum_extensibility(open) in it.
	static clang::EnumExtensibilityAttr *
	getBestExtensibilityAttr(clang::Preprocessor &pp, const clang::EnumDecl *decl) {
	clang::EnumExtensibilityAttr *bestSoFar = nullptr;
	const clang::SourceManager &sourceMgr = pp.getSourceManager();
	for (auto *next : decl->specific_attrs<clang::EnumExtensibilityAttr>()) {
	if (next->getLocation().isInvalid()) {
	// This is from API notes -- use it!
	return next;
	}

	if (!bestSoFar \|\|
	sourceMgr.isBeforeInTranslationUnit(bestSoFar->getLocation(),
	next->getLocation())) {
	bestSoFar = next;
	}
	}
	return bestSoFar;
	}

	/// Classify the given Clang enumeration to describe how to import it.
	void EnumInfo::classifyEnum(const clang::EnumDecl *decl,
	clang::Preprocessor &pp) {
	assert(decl);
	clang::PrettyStackTraceDecl trace(decl, clang::SourceLocation(),
	pp.getSourceManager(), "classifying");
	assert(decl->isThisDeclarationADefinition());

	// Anonymous enumerations simply get mapped to constants of the
	// underlying type of the enum, because there is no way to conjure up a
	// name for the Swift type.
	if (!decl->hasNameForLinkage()) {
	kind = EnumKind::Constants;
	return;
	}

	// First, check for attributes that denote the classification.
	if (auto domainAttr = decl->getAttr<clang::NSErrorDomainAttr>()) {
	kind = EnumKind::NonFrozenEnum;
	nsErrorDomain = domainAttr->getErrorDomain()->getName();
	}
	if (decl->hasAttr<clang::FlagEnumAttr>()) {
	kind = EnumKind::Options;
	return;
	}
	if (auto *attr = getBestExtensibilityAttr(pp, decl)) {
	if (attr->getExtensibility() == clang::EnumExtensibilityAttr::Closed)
	kind = EnumKind::FrozenEnum;
	else
	kind = EnumKind::NonFrozenEnum;
	return;
	}
	if (!nsErrorDomain.empty())
	return;

	// If API notes have /removed/ a FlagEnum or EnumExtensibility attribute,
	// then we don't need to check the macros.
	for (auto *attr : decl->specific_attrs<clang::SwiftVersionedAttr>()) {
	if (!attr->getIsReplacedByActive())
	continue;
	if (isa<clang::FlagEnumAttr>(attr->getAttrToAdd()) \|\|
	isa<clang::EnumExtensibilityAttr>(attr->getAttrToAdd())) {
	kind = EnumKind::Unknown;
	return;
	}
	}

	// Was the enum declared using _ENUM or _OPTIONS?
	// FIXME: Stop using these once flag_enum and enum_extensibility
	// have been adopted everywhere, or at least relegate them to Swift 4 mode
	// only.
	auto loc = decl->getBeginLoc();
	if (loc.isMacroID()) {
	StringRef MacroName = pp.getImmediateMacroName(loc);
	if (MacroName == "CF_ENUM" \|\| MacroName == "__CF_NAMED_ENUM" \|\|
	MacroName == "OBJC_ENUM" \|\| MacroName == "SWIFT_ENUM" \|\|
	MacroName == "SWIFT_ENUM_NAMED") {
	kind = EnumKind::NonFrozenEnum;
	return;
	}
	if (MacroName == "CF_OPTIONS" \|\| MacroName == "OBJC_OPTIONS" \|\|
	MacroName == "SWIFT_OPTIONS") {
	kind = EnumKind::Options;
	return;
	}
	}

	// Hardcode a particular annoying case in the OS X headers.
	if (decl->getName() == "DYLD_BOOL") {
	kind = EnumKind::FrozenEnum;
	return;
	}

	// Fall back to the 'Unknown' path.
	kind = EnumKind::Unknown;
	}

	/// Returns the common prefix of two strings at camel-case word granularity.
	///
	/// For example, given "NSFooBar" and "NSFooBas", returns "NSFoo"
	/// (not "NSFooBa"). The returned StringRef is a slice of the "a" argument.
	///
	/// If either string has a non-identifier character immediately after the
	/// prefix, \p followedByNonIdentifier will be set to \c true. If both strings
	/// have identifier characters after the prefix, \p followedByNonIdentifier will
	/// be set to \c false. Otherwise, \p followedByNonIdentifier will not be
	/// changed from its initial value.
	///
	/// This is used to derive the common prefix of enum constants so we can elide
	/// it from the Swift interface.
	StringRef importer::getCommonWordPrefix(StringRef a, StringRef b,
	bool &followedByNonIdentifier) {
	auto aWords = camel_case::getWords(a), bWords = camel_case::getWords(b);
	auto aI = aWords.begin(), aE = aWords.end(), bI = bWords.begin(),
	bE = bWords.end();

	unsigned prevLength = 0;
	unsigned prefixLength = 0;
	for (; aI != aE && bI != bE; ++aI, ++bI) {
	if (aI != bI) {
	followedByNonIdentifier = false;
	break;
	}

	prevLength = prefixLength;
	prefixLength = aI.getPosition() + aI->size();
	}

	// Avoid creating a prefix where the rest of the string starts with a number.
	if ((aI != aE && !Lexer::isIdentifier(*aI)) \|\|
	(bI != bE && !Lexer::isIdentifier(*bI))) {
	followedByNonIdentifier = true;
	prefixLength = prevLength;
	}

	return a.slice(0, prefixLength);
	}

	/// Returns the common word-prefix of two strings, allowing the second string
	/// to be a common English plural form of the first.
	///
	/// For example, given "NSProperty" and "NSProperties", the full "NSProperty"
	/// is returned. Given "NSMagicArmor" and "NSMagicArmory", only
	/// "NSMagic" is returned.
	///
	/// The "-s", "-es", and "-ies" patterns cover every plural NS_OPTIONS name
	/// in Cocoa and Cocoa Touch.
	///
	/// \see getCommonWordPrefix
	StringRef importer::getCommonPluralPrefix(StringRef singular,
	StringRef plural) {
	assert(!plural.empty());

	if (singular.empty())
	return singular;

	bool ignored;
	StringRef commonPrefix = getCommonWordPrefix(singular, plural, ignored);
	if (commonPrefix.size() == singular.size() \|\| plural.back() != 's')
	return commonPrefix;

	StringRef leftover = singular.substr(commonPrefix.size());
	StringRef firstLeftoverWord = camel_case::getFirstWord(leftover);
	StringRef commonPrefixPlusWord =
	singular.substr(0, commonPrefix.size() + firstLeftoverWord.size());

	// Is the plural string just "[singular]s"?
	plural = plural.drop_back();
	if (plural.endswith(firstLeftoverWord))
	return commonPrefixPlusWord;

	if (plural.empty() \|\| plural.back() != 'e')
	return commonPrefix;

	// Is the plural string "[singular]es"?
	plural = plural.drop_back();
	if (plural.endswith(firstLeftoverWord))
	return commonPrefixPlusWord;

	if (plural.empty() \|\| !(plural.back() == 'i' && singular.back() == 'y'))
	return commonPrefix;

	// Is the plural string "[prefix]ies" and the singular "[prefix]y"?
	plural = plural.drop_back();
	firstLeftoverWord = firstLeftoverWord.drop_back();
	if (plural.endswith(firstLeftoverWord))
	return commonPrefixPlusWord;

	return commonPrefix;
	}

	/// Determine the prefix to be stripped from the names of the enum constants
	/// within the given enum.
	void EnumInfo::determineConstantNamePrefix(const clang::EnumDecl *decl) {
	switch (getKind()) {
	case EnumKind::NonFrozenEnum:
	case EnumKind::FrozenEnum:
	case EnumKind::Options:
	// Enums are mapped to Swift enums, Options to Swift option sets, both
	// of which attempt prefix-stripping.
	break;

	case EnumKind::Constants:
	case EnumKind::Unknown:
	// Nothing to do.
	return;
	}

	// If there are no enumers, there is no prefix to compute.
	auto ec = decl->enumerator_begin(), ecEnd = decl->enumerator_end();
	if (ec == ecEnd)
	return;

	// Determine whether the given enumerator is non-deprecated and has no
	// specifically-provided name.
	auto isNonDeprecatedWithoutCustomName = [](
	const clang::EnumConstantDecl *elem) -> bool {
	if (elem->hasAttr<clang::SwiftNameAttr>())
	return false;

	llvm::VersionTuple maxVersion{~0U, ~0U, ~0U};
	switch (elem->getAvailability(nullptr, maxVersion)) {
	case clang::AR_Available:
	case clang::AR_NotYetIntroduced:
	for (auto attr : elem->attrs()) {
	if (auto annotate = dyn_cast<clang::AnnotateAttr>(attr)) {
	if (annotate->getAnnotation() == "swift1_unavailable")
	return false;
	}
	if (auto avail = dyn_cast<clang::AvailabilityAttr>(attr)) {
	if (avail->getPlatform()->getName() == "swift")
	return false;
	}
	}
	return true;

	case clang::AR_Deprecated:
	case clang::AR_Unavailable:
	return false;
	}

	llvm_unreachable("Invalid AvailabilityAttr.");
	};

	// Move to the first non-deprecated enumerator, or non-swift_name'd
	// enumerator, if present.
	auto firstNonDeprecated =
	std::find_if(ec, ecEnd, isNonDeprecatedWithoutCustomName);
	bool hasNonDeprecated = (firstNonDeprecated != ecEnd);
	if (hasNonDeprecated) {
	ec = firstNonDeprecated;
	} else {
	// Advance to the first case without a custom name, deprecated or not.
	while (ec != ecEnd && (*ec)->hasAttr<clang::SwiftNameAttr>())
	++ec;
	if (ec == ecEnd) {
	return;
	}
	}

	// Compute the common prefix.
	StringRef commonPrefix = (*ec)->getName();
	bool followedByNonIdentifier = false;
	for (++ec; ec != ecEnd; ++ec) {
	// Skip deprecated or swift_name'd enumerators.
	const clang::EnumConstantDecl elem = ec;
	if (hasNonDeprecated) {
	if (!isNonDeprecatedWithoutCustomName(elem))
	continue;
	} else {
	if (elem->hasAttr<clang::SwiftNameAttr>())
	continue;
	}

	commonPrefix = getCommonWordPrefix(commonPrefix, elem->getName(),
	followedByNonIdentifier);
	if (commonPrefix.empty())
	break;
	}

	if (!commonPrefix.empty()) {
	StringRef checkPrefix = commonPrefix;

	// Account for the 'kConstant' naming convention on enumerators.
	if (checkPrefix[0] == 'k') {
	bool canDropK;
	if (checkPrefix.size() >= 2)
	canDropK = clang::isUppercase(checkPrefix[1]);
	else
	canDropK = !followedByNonIdentifier;

	if (canDropK)
	checkPrefix = checkPrefix.drop_front();
	}

	// Don't use importFullName() here, we want to ignore the swift_name
	// and swift_private attributes.
	StringRef enumNameStr = decl->getName();
	if (enumNameStr.empty())
	enumNameStr = decl->getTypedefNameForAnonDecl()->getName();
	assert(!enumNameStr.empty() && "should have been classified as Constants");

	StringRef commonWithEnum = getCommonPluralPrefix(checkPrefix, enumNameStr);
	size_t delta = commonPrefix.size() - checkPrefix.size();

	// Account for the 'EnumName_Constant' convention on enumerators.
	if (commonWithEnum.size() < checkPrefix.size() &&
	checkPrefix[commonWithEnum.size()] == '_' && !followedByNonIdentifier) {
	delta += 1;
	}

	commonPrefix = commonPrefix.slice(0, commonWithEnum.size() + delta);
	}

	constantNamePrefix = commonPrefix;
	}

	EnumInfo EnumInfoCache::getEnumInfo(const clang::EnumDecl *decl) {
	auto iter = enumInfos.find(decl);
	if (iter != enumInfos.end()) {
	++EnumInfoNumCacheHits;
	return iter->second;
	}
	++EnumInfoNumCacheMisses;
	EnumInfo enumInfo(decl, clangPP);
	enumInfos[decl] = enumInfo;
	return enumInfo;
	}