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clang-p2996/clang/lib/AST/ComparisonCategories.cpp
Reid Kleckner b36c19bc4f [AST] Remove DeclCXX.h dep on ASTContext.h 
Saves only 36 includes of ASTContext.h and related headers.

There are two deps on ASTContext.h:
- C++ method overrides iterator types (TinyPtrVector)
- getting LangOptions

For #1, duplicate the iterator type, which is
TinyPtrVector<>::const_iterator.

For #2, add an out-of-line accessor to get the language options. Getting
the ASTContext from a Decl is already an out of line method that loops
over the parent DeclContexts, so if it is ever performance critical, the
proper fix is to pass the context (or LangOpts) into the predicate in
question.

Other changes are just header fixups.
2020-04-06 10:09:01 -07:00

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//===- ComparisonCategories.cpp - Three Way Comparison Data -----*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines the Comparison Category enum and data types, which
// store the types and expressions needed to support operator<=>
//
//===----------------------------------------------------------------------===//
#include "clang/AST/ComparisonCategories.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/Type.h"
#include "llvm/ADT/SmallVector.h"
using namespace clang;
Optional<ComparisonCategoryType>
clang::getComparisonCategoryForBuiltinCmp(QualType T) {
using CCT = ComparisonCategoryType;
if (T->isIntegralOrEnumerationType())
return CCT::StrongOrdering;
if (T->isRealFloatingType())
return CCT::PartialOrdering;
// C++2a [expr.spaceship]p8: If the composite pointer type is an object
// pointer type, p <=> q is of type std::strong_ordering.
// Note: this assumes neither operand is a null pointer constant.
if (T->isObjectPointerType())
return CCT::StrongOrdering;
// TODO: Extend support for operator<=> to ObjC types.
return llvm::None;
}
bool ComparisonCategoryInfo::ValueInfo::hasValidIntValue() const {
assert(VD && "must have var decl");
if (!VD->checkInitIsICE())
return false;
// Before we attempt to get the value of the first field, ensure that we
// actually have one (and only one) field.
auto *Record = VD->getType()->getAsCXXRecordDecl();
if (std::distance(Record->field_begin(), Record->field_end()) != 1 ||
!Record->field_begin()->getType()->isIntegralOrEnumerationType())
return false;
return true;
}
/// Attempt to determine the integer value used to represent the comparison
/// category result by evaluating the initializer for the specified VarDecl as
/// a constant expression and retreiving the value of the class's first
/// (and only) field.
///
/// Note: The STL types are expected to have the form:
/// struct X { T value; };
/// where T is an integral or enumeration type.
llvm::APSInt ComparisonCategoryInfo::ValueInfo::getIntValue() const {
assert(hasValidIntValue() && "must have a valid value");
return VD->evaluateValue()->getStructField(0).getInt();
}
ComparisonCategoryInfo::ValueInfo *ComparisonCategoryInfo::lookupValueInfo(
ComparisonCategoryResult ValueKind) const {
// Check if we already have a cache entry for this value.
auto It = llvm::find_if(
Objects, [&](ValueInfo const &Info) { return Info.Kind == ValueKind; });
if (It != Objects.end())
return &(*It);
// We don't have a cached result. Lookup the variable declaration and create
// a new entry representing it.
DeclContextLookupResult Lookup = Record->getCanonicalDecl()->lookup(
&Ctx.Idents.get(ComparisonCategories::getResultString(ValueKind)));
if (Lookup.empty() || !isa<VarDecl>(Lookup.front()))
return nullptr;
Objects.emplace_back(ValueKind, cast<VarDecl>(Lookup.front()));
return &Objects.back();
}
static const NamespaceDecl *lookupStdNamespace(const ASTContext &Ctx,
NamespaceDecl *&StdNS) {
if (!StdNS) {
DeclContextLookupResult Lookup =
Ctx.getTranslationUnitDecl()->lookup(&Ctx.Idents.get("std"));
if (!Lookup.empty())
StdNS = dyn_cast<NamespaceDecl>(Lookup.front());
}
return StdNS;
}
static CXXRecordDecl *lookupCXXRecordDecl(const ASTContext &Ctx,
const NamespaceDecl *StdNS,
ComparisonCategoryType Kind) {
StringRef Name = ComparisonCategories::getCategoryString(Kind);
DeclContextLookupResult Lookup = StdNS->lookup(&Ctx.Idents.get(Name));
if (!Lookup.empty())
if (CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(Lookup.front()))
return RD;
return nullptr;
}
const ComparisonCategoryInfo *
ComparisonCategories::lookupInfo(ComparisonCategoryType Kind) const {
auto It = Data.find(static_cast<char>(Kind));
if (It != Data.end())
return &It->second;
if (const NamespaceDecl *NS = lookupStdNamespace(Ctx, StdNS))
if (CXXRecordDecl *RD = lookupCXXRecordDecl(Ctx, NS, Kind))
return &Data.try_emplace((char)Kind, Ctx, RD, Kind).first->second;
return nullptr;
}
const ComparisonCategoryInfo *
ComparisonCategories::lookupInfoForType(QualType Ty) const {
assert(!Ty.isNull() && "type must be non-null");
using CCT = ComparisonCategoryType;
auto *RD = Ty->getAsCXXRecordDecl();
if (!RD)
return nullptr;
// Check to see if we have information for the specified type cached.
const auto *CanonRD = RD->getCanonicalDecl();
for (auto &KV : Data) {
const ComparisonCategoryInfo &Info = KV.second;
if (CanonRD == Info.Record->getCanonicalDecl())
return &Info;
}
if (!RD->getEnclosingNamespaceContext()->isStdNamespace())
return nullptr;
// If not, check to see if the decl names a type in namespace std with a name
// matching one of the comparison category types.
for (unsigned I = static_cast<unsigned>(CCT::First),
End = static_cast<unsigned>(CCT::Last);
I <= End; ++I) {
CCT Kind = static_cast<CCT>(I);
// We've found the comparison category type. Build a new cache entry for
// it.
if (getCategoryString(Kind) == RD->getName())
return &Data.try_emplace((char)Kind, Ctx, RD, Kind).first->second;
}
// We've found nothing. This isn't a comparison category type.
return nullptr;
}
const ComparisonCategoryInfo &ComparisonCategories::getInfoForType(QualType Ty) const {
const ComparisonCategoryInfo *Info = lookupInfoForType(Ty);
assert(Info && "info for comparison category not found");
return *Info;
}
QualType ComparisonCategoryInfo::getType() const {
assert(Record);
return QualType(Record->getTypeForDecl(), 0);
}
StringRef ComparisonCategories::getCategoryString(ComparisonCategoryType Kind) {
using CCKT = ComparisonCategoryType;
switch (Kind) {
case CCKT::PartialOrdering:
return "partial_ordering";
case CCKT::WeakOrdering:
return "weak_ordering";
case CCKT::StrongOrdering:
return "strong_ordering";
}
llvm_unreachable("unhandled cases in switch");
}
StringRef ComparisonCategories::getResultString(ComparisonCategoryResult Kind) {
using CCVT = ComparisonCategoryResult;
switch (Kind) {
case CCVT::Equal:
return "equal";
case CCVT::Equivalent:
return "equivalent";
case CCVT::Less:
return "less";
case CCVT::Greater:
return "greater";
case CCVT::Unordered:
return "unordered";
}
llvm_unreachable("unhandled case in switch");
}
std::vector<ComparisonCategoryResult>
ComparisonCategories::getPossibleResultsForType(ComparisonCategoryType Type) {
using CCT = ComparisonCategoryType;
using CCR = ComparisonCategoryResult;
std::vector<CCR> Values;
Values.reserve(4);
bool IsStrong = Type == CCT::StrongOrdering;
Values.push_back(IsStrong ? CCR::Equal : CCR::Equivalent);
Values.push_back(CCR::Less);
Values.push_back(CCR::Greater);
if (Type == CCT::PartialOrdering)
Values.push_back(CCR::Unordered);
return Values;
}
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