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//===--- VariantValue.cpp - Polymorphic value type -*- C++ -*-===/
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// Polymorphic value type.
///
//===----------------------------------------------------------------------===//
#include "clang/ASTMatchers/Dynamic/VariantValue.h"
#include "clang/Basic/LLVM.h"
#include "llvm/ADT/STLExtras.h"
namespace clang {
namespace ast_matchers {
namespace dynamic {
std::string ArgKind::asString() const {
switch (getArgKind()) {
case AK_Matcher:
return (Twine("Matcher<") + MatcherKind.asStringRef() + ">").str();
case AK_Boolean:
return "boolean";
case AK_Double:
return "double";
case AK_Unsigned:
return "unsigned";
case AK_String:
return "string";
}
llvm_unreachable("unhandled ArgKind");
}
bool ArgKind::isConvertibleTo(ArgKind To, unsigned *Specificity) const {
if (K != To.K)
return false;
if (K != AK_Matcher) {
if (Specificity)
*Specificity = 1;
return true;
}
unsigned Distance;
if (!MatcherKind.isBaseOf(To.MatcherKind, &Distance))
return false;
if (Specificity)
*Specificity = 100 - Distance;
return true;
}
bool
VariantMatcher::MatcherOps::canConstructFrom(const DynTypedMatcher &Matcher,
bool &IsExactMatch) const {
IsExactMatch = Matcher.getSupportedKind().isSame(NodeKind);
return Matcher.canConvertTo(NodeKind);
}
llvm::Optional<DynTypedMatcher>
VariantMatcher::MatcherOps::constructVariadicOperator(
DynTypedMatcher::VariadicOperator Op,
ArrayRef<VariantMatcher> InnerMatchers) const {
std::vector<DynTypedMatcher> DynMatchers;
for (const auto &InnerMatcher : InnerMatchers) {
// Abort if any of the inner matchers can't be converted to
// Matcher<T>.
if (!InnerMatcher.Value)
return llvm::None;
llvm::Optional<DynTypedMatcher> Inner =
InnerMatcher.Value->getTypedMatcher(*this);
if (!Inner)
return llvm::None;
DynMatchers.push_back(*Inner);
}
return DynTypedMatcher::constructVariadic(Op, NodeKind, DynMatchers);
}
VariantMatcher::Payload::~Payload() {}
class VariantMatcher::SinglePayload : public VariantMatcher::Payload {
public:
SinglePayload(const DynTypedMatcher &Matcher) : Matcher(Matcher) {}
llvm::Optional<DynTypedMatcher> getSingleMatcher() const override {
return Matcher;
}
std::string getTypeAsString() const override {
return (Twine("Matcher<") + Matcher.getSupportedKind().asStringRef() + ">")
.str();
}
llvm::Optional<DynTypedMatcher>
getTypedMatcher(const MatcherOps &Ops) const override {
bool Ignore;
if (Ops.canConstructFrom(Matcher, Ignore))
return Matcher;
return llvm::None;
}
bool isConvertibleTo(ast_type_traits::ASTNodeKind Kind,
unsigned *Specificity) const override {
return ArgKind(Matcher.getSupportedKind())
.isConvertibleTo(Kind, Specificity);
}
private:
const DynTypedMatcher Matcher;
};
class VariantMatcher::PolymorphicPayload : public VariantMatcher::Payload {
public:
PolymorphicPayload(std::vector<DynTypedMatcher> MatchersIn)
: Matchers(std::move(MatchersIn)) {}
~PolymorphicPayload() override {}
llvm::Optional<DynTypedMatcher> getSingleMatcher() const override {
if (Matchers.size() != 1)
return llvm::Optional<DynTypedMatcher>();
return Matchers[0];
}
std::string getTypeAsString() const override {
std::string Inner;
for (size_t i = 0, e = Matchers.size(); i != e; ++i) {
if (i != 0)
Inner += "|";
Inner += Matchers[i].getSupportedKind().asStringRef();
}
return (Twine("Matcher<") + Inner + ">").str();
}
llvm::Optional<DynTypedMatcher>
getTypedMatcher(const MatcherOps &Ops) const override {
bool FoundIsExact = false;
const DynTypedMatcher *Found = nullptr;
int NumFound = 0;
for (size_t i = 0, e = Matchers.size(); i != e; ++i) {
bool IsExactMatch;
if (Ops.canConstructFrom(Matchers[i], IsExactMatch)) {
if (Found) {
if (FoundIsExact) {
assert(!IsExactMatch && "We should not have two exact matches.");
continue;
}
}
Found = &Matchers[i];
FoundIsExact = IsExactMatch;
++NumFound;
}
}
// We only succeed if we found exactly one, or if we found an exact match.
if (Found && (FoundIsExact || NumFound == 1))
return *Found;
return llvm::None;
}
bool isConvertibleTo(ast_type_traits::ASTNodeKind Kind,
unsigned *Specificity) const override {
unsigned MaxSpecificity = 0;
for (const DynTypedMatcher &Matcher : Matchers) {
unsigned ThisSpecificity;
if (ArgKind(Matcher.getSupportedKind())
.isConvertibleTo(Kind, &ThisSpecificity)) {
MaxSpecificity = std::max(MaxSpecificity, ThisSpecificity);
}
}
if (Specificity)
*Specificity = MaxSpecificity;
return MaxSpecificity > 0;
}
const std::vector<DynTypedMatcher> Matchers;
};
class VariantMatcher::VariadicOpPayload : public VariantMatcher::Payload {
public:
VariadicOpPayload(DynTypedMatcher::VariadicOperator Op,
std::vector<VariantMatcher> Args)
: Op(Op), Args(std::move(Args)) {}
llvm::Optional<DynTypedMatcher> getSingleMatcher() const override {
return llvm::Optional<DynTypedMatcher>();
}
std::string getTypeAsString() const override {
std::string Inner;
for (size_t i = 0, e = Args.size(); i != e; ++i) {
if (i != 0)
Inner += "&";
Inner += Args[i].getTypeAsString();
}
return Inner;
}
llvm::Optional<DynTypedMatcher>
getTypedMatcher(const MatcherOps &Ops) const override {
return Ops.constructVariadicOperator(Op, Args);
}
bool isConvertibleTo(ast_type_traits::ASTNodeKind Kind,
unsigned *Specificity) const override {
for (const VariantMatcher &Matcher : Args) {
if (!Matcher.isConvertibleTo(Kind, Specificity))
return false;
}
return true;
}
private:
const DynTypedMatcher::VariadicOperator Op;
const std::vector<VariantMatcher> Args;
};
VariantMatcher::VariantMatcher() {}
VariantMatcher VariantMatcher::SingleMatcher(const DynTypedMatcher &Matcher) {
return VariantMatcher(std::make_shared<SinglePayload>(Matcher));
}
VariantMatcher
VariantMatcher::PolymorphicMatcher(std::vector<DynTypedMatcher> Matchers) {
return VariantMatcher(
std::make_shared<PolymorphicPayload>(std::move(Matchers)));
}
VariantMatcher VariantMatcher::VariadicOperatorMatcher(
DynTypedMatcher::VariadicOperator Op,
std::vector<VariantMatcher> Args) {
return VariantMatcher(
std::make_shared<VariadicOpPayload>(Op, std::move(Args)));
}
llvm::Optional<DynTypedMatcher> VariantMatcher::getSingleMatcher() const {
return Value ? Value->getSingleMatcher() : llvm::Optional<DynTypedMatcher>();
}
void VariantMatcher::reset() { Value.reset(); }
std::string VariantMatcher::getTypeAsString() const {
if (Value) return Value->getTypeAsString();
return "<Nothing>";
}
VariantValue::VariantValue(const VariantValue &Other) : Type(VT_Nothing) {
*this = Other;
}
VariantValue::VariantValue(bool Boolean) : Type(VT_Nothing) {
setBoolean(Boolean);
}
VariantValue::VariantValue(double Double) : Type(VT_Nothing) {
setDouble(Double);
}
VariantValue::VariantValue(unsigned Unsigned) : Type(VT_Nothing) {
setUnsigned(Unsigned);
}
VariantValue::VariantValue(StringRef String) : Type(VT_Nothing) {
setString(String);
}
VariantValue::VariantValue(const VariantMatcher &Matcher) : Type(VT_Nothing) {
setMatcher(Matcher);
}
VariantValue::~VariantValue() { reset(); }
VariantValue &VariantValue::operator=(const VariantValue &Other) {
if (this == &Other) return *this;
reset();
switch (Other.Type) {
case VT_Boolean:
setBoolean(Other.getBoolean());
break;
case VT_Double:
setDouble(Other.getDouble());
break;
case VT_Unsigned:
setUnsigned(Other.getUnsigned());
break;
case VT_String:
setString(Other.getString());
break;
case VT_Matcher:
setMatcher(Other.getMatcher());
break;
case VT_Nothing:
Type = VT_Nothing;
break;
}
return *this;
}
void VariantValue::reset() {
switch (Type) {
case VT_String:
delete Value.String;
break;
case VT_Matcher:
delete Value.Matcher;
break;
// Cases that do nothing.
case VT_Boolean:
case VT_Double:
case VT_Unsigned:
case VT_Nothing:
break;
}
Type = VT_Nothing;
}
bool VariantValue::isBoolean() const {
return Type == VT_Boolean;
}
bool VariantValue::getBoolean() const {
assert(isBoolean());
return Value.Boolean;
}
void VariantValue::setBoolean(bool NewValue) {
reset();
Type = VT_Boolean;
Value.Boolean = NewValue;
}
bool VariantValue::isDouble() const {
return Type == VT_Double;
}
double VariantValue::getDouble() const {
assert(isDouble());
return Value.Double;
}
void VariantValue::setDouble(double NewValue) {
reset();
Type = VT_Double;
Value.Double = NewValue;
}
bool VariantValue::isUnsigned() const {
return Type == VT_Unsigned;
}
unsigned VariantValue::getUnsigned() const {
assert(isUnsigned());
return Value.Unsigned;
}
void VariantValue::setUnsigned(unsigned NewValue) {
reset();
Type = VT_Unsigned;
Value.Unsigned = NewValue;
}
bool VariantValue::isString() const {
return Type == VT_String;
}
const std::string &VariantValue::getString() const {
assert(isString());
return *Value.String;
}
void VariantValue::setString(StringRef NewValue) {
reset();
Type = VT_String;
Value.String = new std::string(NewValue);
}
bool VariantValue::isMatcher() const {
return Type == VT_Matcher;
}
const VariantMatcher &VariantValue::getMatcher() const {
assert(isMatcher());
return *Value.Matcher;
}
void VariantValue::setMatcher(const VariantMatcher &NewValue) {
reset();
Type = VT_Matcher;
Value.Matcher = new VariantMatcher(NewValue);
}
bool VariantValue::isConvertibleTo(ArgKind Kind, unsigned *Specificity) const {
switch (Kind.getArgKind()) {
case ArgKind::AK_Boolean:
if (!isBoolean())
return false;
*Specificity = 1;
return true;
case ArgKind::AK_Double:
if (!isDouble())
return false;
*Specificity = 1;
return true;
case ArgKind::AK_Unsigned:
if (!isUnsigned())
return false;
*Specificity = 1;
return true;
case ArgKind::AK_String:
if (!isString())
return false;
*Specificity = 1;
return true;
case ArgKind::AK_Matcher:
if (!isMatcher())
return false;
return getMatcher().isConvertibleTo(Kind.getMatcherKind(), Specificity);
}
llvm_unreachable("Invalid Type");
}
bool VariantValue::isConvertibleTo(ArrayRef<ArgKind> Kinds,
unsigned *Specificity) const {
unsigned MaxSpecificity = 0;
for (const ArgKind& Kind : Kinds) {
unsigned ThisSpecificity;
if (!isConvertibleTo(Kind, &ThisSpecificity))
continue;
MaxSpecificity = std::max(MaxSpecificity, ThisSpecificity);
}
if (Specificity && MaxSpecificity > 0) {
*Specificity = MaxSpecificity;
}
return MaxSpecificity > 0;
}
std::string VariantValue::getTypeAsString() const {
switch (Type) {
case VT_String: return "String";
case VT_Matcher: return getMatcher().getTypeAsString();
case VT_Boolean: return "Boolean";
case VT_Double: return "Double";
case VT_Unsigned: return "Unsigned";
case VT_Nothing: return "Nothing";
}
llvm_unreachable("Invalid Type");
}
} // end namespace dynamic
} // end namespace ast_matchers
} // end namespace clang