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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2023 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 "RefactoringActions.h"
#include "swift/AST/Pattern.h"
using namespace swift::refactoring;
namespace {
/// Abstract helper class containing info about a TernaryExpr
/// that can be expanded into an IfStmt.
class ExpandableTernaryExprInfo {
public:
virtual ~ExpandableTernaryExprInfo() {}
virtual TernaryExpr *getTernary() = 0;
virtual SourceRange getNameRange() = 0;
virtual Type getType() = 0;
virtual bool shouldDeclareNameAndType() { return !getType().isNull(); }
virtual bool isValid() {
// Ensure all public properties are non-nil and valid
if (!getTernary() || !getNameRange().isValid())
return false;
if (shouldDeclareNameAndType() && getType().isNull())
return false;
return true; // valid
}
CharSourceRange getNameCharRange(const SourceManager &SM) {
return Lexer::getCharSourceRangeFromSourceRange(SM, getNameRange());
}
};
/// Concrete subclass containing info about an AssignExpr
/// where the source is the expandable TernaryExpr.
class ExpandableAssignTernaryExprInfo : public ExpandableTernaryExprInfo {
public:
ExpandableAssignTernaryExprInfo(AssignExpr *Assign) : Assign(Assign) {}
TernaryExpr *getTernary() override {
if (!Assign)
return nullptr;
return dyn_cast_or_null<TernaryExpr>(Assign->getSrc());
}
SourceRange getNameRange() override {
auto Invalid = SourceRange();
if (!Assign)
return Invalid;
if (auto dest = Assign->getDest())
return dest->getSourceRange();
return Invalid;
}
Type getType() override { return nullptr; }
private:
AssignExpr *Assign = nullptr;
};
/// Concrete subclass containing info about a PatternBindingDecl
/// where the pattern initializer is the expandable TernaryExpr.
class ExpandableBindingTernaryExprInfo : public ExpandableTernaryExprInfo {
public:
ExpandableBindingTernaryExprInfo(PatternBindingDecl *Binding)
: Binding(Binding) {}
TernaryExpr *getTernary() override {
if (Binding && Binding->getNumPatternEntries() == 1) {
if (auto *Init = Binding->getInit(0)) {
return dyn_cast<TernaryExpr>(Init);
}
}
return nullptr;
}
SourceRange getNameRange() override {
if (auto Pattern = getNamePattern())
return Pattern->getSourceRange();
return SourceRange();
}
Type getType() override {
if (auto Pattern = getNamePattern())
return Pattern->getType();
return nullptr;
}
private:
Pattern *getNamePattern() {
if (!Binding || Binding->getNumPatternEntries() != 1)
return nullptr;
auto Pattern = Binding->getPattern(0);
if (!Pattern)
return nullptr;
if (auto TyPattern = dyn_cast<TypedPattern>(Pattern))
Pattern = TyPattern->getSubPattern();
return Pattern;
}
PatternBindingDecl *Binding = nullptr;
};
std::unique_ptr<ExpandableTernaryExprInfo>
findExpandableTernaryExpression(const ResolvedRangeInfo &Info) {
if (Info.Kind != RangeKind::SingleDecl &&
Info.Kind != RangeKind::SingleExpression)
return nullptr;
if (Info.ContainedNodes.size() != 1)
return nullptr;
if (auto D = Info.ContainedNodes[0].dyn_cast<Decl *>())
if (auto Binding = dyn_cast<PatternBindingDecl>(D))
return std::make_unique<ExpandableBindingTernaryExprInfo>(Binding);
if (auto E = Info.ContainedNodes[0].dyn_cast<Expr *>())
if (auto Assign = dyn_cast<AssignExpr>(E))
return std::make_unique<ExpandableAssignTernaryExprInfo>(Assign);
return nullptr;
}
} // namespace
bool RefactoringActionExpandTernaryExpr::isApplicable(
const ResolvedRangeInfo &Info, DiagnosticEngine &Diag) {
auto Target = findExpandableTernaryExpression(Info);
return Target && Target->isValid();
}
bool RefactoringActionExpandTernaryExpr::performChange() {
auto Target = findExpandableTernaryExpression(RangeInfo);
if (!Target || !Target->isValid())
return true; // abort
auto NameCharRange = Target->getNameCharRange(SM);
auto IfRange = Target->getTernary()->getSourceRange();
auto IfCharRange = Lexer::getCharSourceRangeFromSourceRange(SM, IfRange);
auto CondRange = Target->getTernary()->getCondExpr()->getSourceRange();
auto CondCharRange = Lexer::getCharSourceRangeFromSourceRange(SM, CondRange);
auto ThenRange = Target->getTernary()->getThenExpr()->getSourceRange();
auto ThenCharRange = Lexer::getCharSourceRangeFromSourceRange(SM, ThenRange);
auto ElseRange = Target->getTernary()->getElseExpr()->getSourceRange();
auto ElseCharRange = Lexer::getCharSourceRangeFromSourceRange(SM, ElseRange);
SmallString<64> DeclBuffer;
llvm::raw_svector_ostream OS(DeclBuffer);
StringRef Space = " ";
StringRef NewLine = "\n";
if (Target->shouldDeclareNameAndType()) {
// Specifier will not be replaced; append after specifier
OS << NameCharRange.str() << tok::colon << Space;
OS << Target->getType() << NewLine;
}
OS << tok::kw_if << Space;
OS << CondCharRange.str() << Space;
OS << tok::l_brace << NewLine;
OS << NameCharRange.str() << Space;
OS << tok::equal << Space;
OS << ThenCharRange.str() << NewLine;
OS << tok::r_brace << Space;
OS << tok::kw_else << Space;
OS << tok::l_brace << NewLine;
OS << NameCharRange.str() << Space;
OS << tok::equal << Space;
OS << ElseCharRange.str() << NewLine;
OS << tok::r_brace;
// Start replacement with name range, skip the specifier
auto ReplaceRange(NameCharRange);
ReplaceRange.widen(IfCharRange);
EditConsumer.accept(SM, ReplaceRange, DeclBuffer.str());
return false; // don't abort
}
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