unittests/Analysis/CloneDetectionTest.cpp - third_party/swift-clang - Git at Google

 //===- unittests/Analysis/CloneDetectionTest.cpp - Clone detection tests --===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/AST/RecursiveASTVisitor.h"
 #include "clang/Analysis/CloneDetection.h"
 #include "clang/Tooling/Tooling.h"
 #include "gtest/gtest.h"

 namespace clang {
 namespace analysis {
 namespace {

 class CloneDetectionVisitor
     : public RecursiveASTVisitor<CloneDetectionVisitor> {

   CloneDetector &Detector;

 public:
   explicit CloneDetectionVisitor(CloneDetector &D) : Detector(D) {}

   bool VisitFunctionDecl(FunctionDecl *D) {
     Detector.analyzeCodeBody(D);
     return true;
   }
 };

 /// Example constraint for testing purposes.
 /// Filters out all statements that are in a function which name starts with
 /// "bar".
 class NoBarFunctionConstraint {
 public:
   void constrain(std::vector<CloneDetector::CloneGroup> &CloneGroups) {
     CloneConstraint::splitCloneGroups(
         CloneGroups, [](const StmtSequence &A, const StmtSequence &B) {
           // Check if one of the sequences is in a function which name starts
           // with "bar".
           for (const StmtSequence &Arg : {A, B}) {
             if (const auto *D =
                     dyn_cast<const FunctionDecl>(Arg.getContainingDecl())) {
               if (D->getNameAsString().find("bar") == 0)
                 return false;
             }
           }
           return true;
         });
   }
 };

 TEST(CloneDetector, FilterFunctionsByName) {
   auto ASTUnit =
       clang::tooling::buildASTFromCode("void foo1(int &a1) { a1++; }\n"
                                        "void foo2(int &a2) { a2++; }\n"
                                        "void bar1(int &a3) { a3++; }\n"
                                        "void bar2(int &a4) { a4++; }\n");
   auto TU = ASTUnit->getASTContext().getTranslationUnitDecl();

   CloneDetector Detector;
   // Push all the function bodies into the detector.
   CloneDetectionVisitor Visitor(Detector);
   Visitor.TraverseTranslationUnitDecl(TU);

   // Find clones with the usual settings, but but we want to filter out
   // all statements from functions which names start with "bar".
   std::vector<CloneDetector::CloneGroup> CloneGroups;
   Detector.findClones(CloneGroups, NoBarFunctionConstraint(),
                       RecursiveCloneTypeIIHashConstraint(),
                       MinComplexityConstraint(2), MinGroupSizeConstraint(2),
                       RecursiveCloneTypeIIVerifyConstraint(),
                       OnlyLargestCloneConstraint());

   ASSERT_EQ(CloneGroups.size(), 1u);
   ASSERT_EQ(CloneGroups.front().size(), 2u);

   for (auto &Clone : CloneGroups.front()) {
     const auto ND = dyn_cast<const FunctionDecl>(Clone.getContainingDecl());
     ASSERT_TRUE(ND != nullptr);
     // Check that no function name starting with "bar" is in the results...
     ASSERT_TRUE(ND->getNameAsString().find("bar") != 0);
   }

   // Retry above's example without the filter...
   CloneGroups.clear();

   Detector.findClones(CloneGroups, RecursiveCloneTypeIIHashConstraint(),
                       MinComplexityConstraint(2), MinGroupSizeConstraint(2),
                       RecursiveCloneTypeIIVerifyConstraint(),
                       OnlyLargestCloneConstraint());
   ASSERT_EQ(CloneGroups.size(), 1u);
   ASSERT_EQ(CloneGroups.front().size(), 4u);

   // Count how many functions with the bar prefix we have in the results.
   int FoundFunctionsWithBarPrefix = 0;
   for (auto &Clone : CloneGroups.front()) {
     const auto ND = dyn_cast<const FunctionDecl>(Clone.getContainingDecl());
     ASSERT_TRUE(ND != nullptr);
     // This time check that we picked up the bar functions from above
     if (ND->getNameAsString().find("bar") == 0) {
       FoundFunctionsWithBarPrefix++;
     }
   }
   // We should have found the two functions bar1 and bar2.
   ASSERT_EQ(FoundFunctionsWithBarPrefix, 2);
 }
 } // namespace
 } // namespace analysis
 } // namespace clang
	//===- unittests/Analysis/CloneDetectionTest.cpp - Clone detection tests --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/AST/RecursiveASTVisitor.h"
	#include "clang/Analysis/CloneDetection.h"
	#include "clang/Tooling/Tooling.h"
	#include "gtest/gtest.h"

	namespace clang {
	namespace analysis {
	namespace {

	class CloneDetectionVisitor
	: public RecursiveASTVisitor<CloneDetectionVisitor> {

	CloneDetector &Detector;

	public:
	explicit CloneDetectionVisitor(CloneDetector &D) : Detector(D) {}

	bool VisitFunctionDecl(FunctionDecl *D) {
	Detector.analyzeCodeBody(D);
	return true;
	}
	};

	/// Example constraint for testing purposes.
	/// Filters out all statements that are in a function which name starts with
	/// "bar".
	class NoBarFunctionConstraint {
	public:
	void constrain(std::vector<CloneDetector::CloneGroup> &CloneGroups) {
	CloneConstraint::splitCloneGroups(
	CloneGroups, [](const StmtSequence &A, const StmtSequence &B) {
	// Check if one of the sequences is in a function which name starts
	// with "bar".
	for (const StmtSequence &Arg : {A, B}) {
	if (const auto *D =
	dyn_cast<const FunctionDecl>(Arg.getContainingDecl())) {
	if (D->getNameAsString().find("bar") == 0)
	return false;
	}
	}
	return true;
	});
	}
	};

	TEST(CloneDetector, FilterFunctionsByName) {
	auto ASTUnit =
	clang::tooling::buildASTFromCode("void foo1(int &a1) { a1++; }\n"
	"void foo2(int &a2) { a2++; }\n"
	"void bar1(int &a3) { a3++; }\n"
	"void bar2(int &a4) { a4++; }\n");
	auto TU = ASTUnit->getASTContext().getTranslationUnitDecl();

	CloneDetector Detector;
	// Push all the function bodies into the detector.
	CloneDetectionVisitor Visitor(Detector);
	Visitor.TraverseTranslationUnitDecl(TU);

	// Find clones with the usual settings, but but we want to filter out
	// all statements from functions which names start with "bar".
	std::vector<CloneDetector::CloneGroup> CloneGroups;
	Detector.findClones(CloneGroups, NoBarFunctionConstraint(),
	RecursiveCloneTypeIIHashConstraint(),
	MinComplexityConstraint(2), MinGroupSizeConstraint(2),
	RecursiveCloneTypeIIVerifyConstraint(),
	OnlyLargestCloneConstraint());

	ASSERT_EQ(CloneGroups.size(), 1u);
	ASSERT_EQ(CloneGroups.front().size(), 2u);

	for (auto &Clone : CloneGroups.front()) {
	const auto ND = dyn_cast<const FunctionDecl>(Clone.getContainingDecl());
	ASSERT_TRUE(ND != nullptr);
	// Check that no function name starting with "bar" is in the results...
	ASSERT_TRUE(ND->getNameAsString().find("bar") != 0);
	}

	// Retry above's example without the filter...
	CloneGroups.clear();

	Detector.findClones(CloneGroups, RecursiveCloneTypeIIHashConstraint(),
	MinComplexityConstraint(2), MinGroupSizeConstraint(2),
	RecursiveCloneTypeIIVerifyConstraint(),
	OnlyLargestCloneConstraint());
	ASSERT_EQ(CloneGroups.size(), 1u);
	ASSERT_EQ(CloneGroups.front().size(), 4u);

	// Count how many functions with the bar prefix we have in the results.
	int FoundFunctionsWithBarPrefix = 0;
	for (auto &Clone : CloneGroups.front()) {
	const auto ND = dyn_cast<const FunctionDecl>(Clone.getContainingDecl());
	ASSERT_TRUE(ND != nullptr);
	// This time check that we picked up the bar functions from above
	if (ND->getNameAsString().find("bar") == 0) {
	FoundFunctionsWithBarPrefix++;
	}
	}
	// We should have found the two functions bar1 and bar2.
	ASSERT_EQ(FoundFunctionsWithBarPrefix, 2);
	}
	} // namespace
	} // namespace analysis
	} // namespace clang