llvm-project/clang/unittests/Tooling/RefactoringActionRulesTest.cpp

249 lines
8.4 KiB
C++

//===- unittest/Tooling/RefactoringTestActionRulesTest.cpp ----------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "ReplacementTest.h"
#include "RewriterTestContext.h"
#include "clang/Tooling/Refactoring.h"
#include "clang/Tooling/Refactoring/Extract/Extract.h"
#include "clang/Tooling/Refactoring/RefactoringAction.h"
#include "clang/Tooling/Refactoring/RefactoringDiagnostic.h"
#include "clang/Tooling/Refactoring/Rename/SymbolName.h"
#include "clang/Tooling/Tooling.h"
#include "llvm/Support/Errc.h"
#include "gtest/gtest.h"
using namespace clang;
using namespace tooling;
namespace {
class RefactoringActionRulesTest : public ::testing::Test {
protected:
void SetUp() override {
Context.Sources.setMainFileID(
Context.createInMemoryFile("input.cpp", DefaultCode));
}
RewriterTestContext Context;
std::string DefaultCode = std::string(100, 'a');
};
Expected<AtomicChanges>
createReplacements(const std::unique_ptr<RefactoringActionRule> &Rule,
RefactoringRuleContext &Context) {
class Consumer final : public RefactoringResultConsumer {
void handleError(llvm::Error Err) override { Result = std::move(Err); }
void handle(AtomicChanges SourceReplacements) override {
Result = std::move(SourceReplacements);
}
void handle(SymbolOccurrences Occurrences) override {
RefactoringResultConsumer::handle(std::move(Occurrences));
}
public:
Optional<Expected<AtomicChanges>> Result;
};
Consumer C;
Rule->invoke(C, Context);
return std::move(*C.Result);
}
TEST_F(RefactoringActionRulesTest, MyFirstRefactoringRule) {
class ReplaceAWithB : public SourceChangeRefactoringRule {
std::pair<SourceRange, int> Selection;
public:
ReplaceAWithB(std::pair<SourceRange, int> Selection)
: Selection(Selection) {}
static Expected<ReplaceAWithB>
initiate(RefactoringRuleContext &Cotnext,
std::pair<SourceRange, int> Selection) {
return ReplaceAWithB(Selection);
}
Expected<AtomicChanges>
createSourceReplacements(RefactoringRuleContext &Context) {
const SourceManager &SM = Context.getSources();
SourceLocation Loc =
Selection.first.getBegin().getLocWithOffset(Selection.second);
AtomicChange Change(SM, Loc);
llvm::Error E = Change.replace(SM, Loc, 1, "b");
if (E)
return std::move(E);
return AtomicChanges{Change};
}
};
class SelectionRequirement : public SourceRangeSelectionRequirement {
public:
Expected<std::pair<SourceRange, int>>
evaluate(RefactoringRuleContext &Context) const {
Expected<SourceRange> R =
SourceRangeSelectionRequirement::evaluate(Context);
if (!R)
return R.takeError();
return std::make_pair(*R, 20);
}
};
auto Rule =
createRefactoringActionRule<ReplaceAWithB>(SelectionRequirement());
// When the requirements are satisfied, the rule's function must be invoked.
{
RefactoringRuleContext RefContext(Context.Sources);
SourceLocation Cursor =
Context.Sources.getLocForStartOfFile(Context.Sources.getMainFileID())
.getLocWithOffset(10);
RefContext.setSelectionRange({Cursor, Cursor});
Expected<AtomicChanges> ErrorOrResult =
createReplacements(Rule, RefContext);
ASSERT_FALSE(!ErrorOrResult);
AtomicChanges Result = std::move(*ErrorOrResult);
ASSERT_EQ(Result.size(), 1u);
std::string YAMLString =
const_cast<AtomicChange &>(Result[0]).toYAMLString();
ASSERT_STREQ("---\n"
"Key: 'input.cpp:30'\n"
"FilePath: input.cpp\n"
"Error: ''\n"
"InsertedHeaders: \n"
"RemovedHeaders: \n"
"Replacements: \n" // Extra whitespace here!
" - FilePath: input.cpp\n"
" Offset: 30\n"
" Length: 1\n"
" ReplacementText: b\n"
"...\n",
YAMLString.c_str());
}
// When one of the requirements is not satisfied, invoke should return a
// valid error.
{
RefactoringRuleContext RefContext(Context.Sources);
Expected<AtomicChanges> ErrorOrResult =
createReplacements(Rule, RefContext);
ASSERT_TRUE(!ErrorOrResult);
unsigned DiagID;
llvm::handleAllErrors(ErrorOrResult.takeError(),
[&](DiagnosticError &Error) {
DiagID = Error.getDiagnostic().second.getDiagID();
});
EXPECT_EQ(DiagID, diag::err_refactor_no_selection);
}
}
TEST_F(RefactoringActionRulesTest, ReturnError) {
class ErrorRule : public SourceChangeRefactoringRule {
public:
static Expected<ErrorRule> initiate(RefactoringRuleContext &,
SourceRange R) {
return ErrorRule(R);
}
ErrorRule(SourceRange R) {}
Expected<AtomicChanges> createSourceReplacements(RefactoringRuleContext &) {
return llvm::make_error<llvm::StringError>(
"Error", llvm::make_error_code(llvm::errc::invalid_argument));
}
};
auto Rule =
createRefactoringActionRule<ErrorRule>(SourceRangeSelectionRequirement());
RefactoringRuleContext RefContext(Context.Sources);
SourceLocation Cursor =
Context.Sources.getLocForStartOfFile(Context.Sources.getMainFileID());
RefContext.setSelectionRange({Cursor, Cursor});
Expected<AtomicChanges> Result = createReplacements(Rule, RefContext);
ASSERT_TRUE(!Result);
std::string Message;
llvm::handleAllErrors(Result.takeError(), [&](llvm::StringError &Error) {
Message = Error.getMessage();
});
EXPECT_EQ(Message, "Error");
}
Optional<SymbolOccurrences> findOccurrences(RefactoringActionRule &Rule,
RefactoringRuleContext &Context) {
class Consumer final : public RefactoringResultConsumer {
void handleError(llvm::Error) override {}
void handle(SymbolOccurrences Occurrences) override {
Result = std::move(Occurrences);
}
void handle(AtomicChanges Changes) override {
RefactoringResultConsumer::handle(std::move(Changes));
}
public:
Optional<SymbolOccurrences> Result;
};
Consumer C;
Rule.invoke(C, Context);
return std::move(C.Result);
}
TEST_F(RefactoringActionRulesTest, ReturnSymbolOccurrences) {
class FindOccurrences : public FindSymbolOccurrencesRefactoringRule {
SourceRange Selection;
public:
FindOccurrences(SourceRange Selection) : Selection(Selection) {}
static Expected<FindOccurrences> initiate(RefactoringRuleContext &,
SourceRange Selection) {
return FindOccurrences(Selection);
}
Expected<SymbolOccurrences>
findSymbolOccurrences(RefactoringRuleContext &) override {
SymbolOccurrences Occurrences;
Occurrences.push_back(SymbolOccurrence(SymbolName("test"),
SymbolOccurrence::MatchingSymbol,
Selection.getBegin()));
return std::move(Occurrences);
}
};
auto Rule = createRefactoringActionRule<FindOccurrences>(
SourceRangeSelectionRequirement());
RefactoringRuleContext RefContext(Context.Sources);
SourceLocation Cursor =
Context.Sources.getLocForStartOfFile(Context.Sources.getMainFileID());
RefContext.setSelectionRange({Cursor, Cursor});
Optional<SymbolOccurrences> Result = findOccurrences(*Rule, RefContext);
ASSERT_FALSE(!Result);
SymbolOccurrences Occurrences = std::move(*Result);
EXPECT_EQ(Occurrences.size(), 1u);
EXPECT_EQ(Occurrences[0].getKind(), SymbolOccurrence::MatchingSymbol);
EXPECT_EQ(Occurrences[0].getNameRanges().size(), 1u);
EXPECT_EQ(Occurrences[0].getNameRanges()[0],
SourceRange(Cursor, Cursor.getLocWithOffset(strlen("test"))));
}
TEST_F(RefactoringActionRulesTest, EditorCommandBinding) {
const RefactoringDescriptor &Descriptor = ExtractFunction::describe();
EXPECT_EQ(Descriptor.Name, "extract-function");
EXPECT_EQ(
Descriptor.Description,
"(WIP action; use with caution!) Extracts code into a new function");
EXPECT_EQ(Descriptor.Title, "Extract Function");
}
} // end anonymous namespace