unittests/AST/StmtPrinterTest.cpp - clang - Git at Google

 //===- unittests/AST/StmtPrinterTest.cpp --- Statement printer tests ------===//
 //
 // 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 contains tests for Stmt::printPretty() and related methods.
 //
 // Search this file for WRONG to see test cases that are producing something
 // completely wrong, invalid C++ or just misleading.
 //
 // These tests have a coding convention:
 // * statements to be printed should be contained within a function named 'A'
 //   unless it should have some special name (e.g., 'operator+');
 // * additional helper declarations are 'Z', 'Y', 'X' and so on.
 //
 //===----------------------------------------------------------------------===//

 #include "ASTPrint.h"
 #include "clang/AST/ASTContext.h"
 #include "clang/ASTMatchers/ASTMatchFinder.h"
 #include "clang/Tooling/Tooling.h"
 #include "llvm/ADT/SmallString.h"
 #include "gtest/gtest.h"

 using namespace clang;
 using namespace ast_matchers;
 using namespace tooling;

 namespace {

 enum class StdVer { CXX98, CXX11, CXX14, CXX17, CXX2a };

 DeclarationMatcher FunctionBodyMatcher(StringRef ContainingFunction) {
   return functionDecl(hasName(ContainingFunction),
                       has(compoundStmt(has(stmt().bind("id")))));
 }

 template <typename T>
 ::testing::AssertionResult
 PrintedStmtCXXMatches(StdVer Standard, StringRef Code, const T &NodeMatch,
                       StringRef ExpectedPrinted,
                       PolicyAdjusterType PolicyAdjuster = None) {
   const char *StdOpt;
   switch (Standard) {
   case StdVer::CXX98: StdOpt = "-std=c++98"; break;
   case StdVer::CXX11: StdOpt = "-std=c++11"; break;
   case StdVer::CXX14: StdOpt = "-std=c++14"; break;
   case StdVer::CXX17: StdOpt = "-std=c++17"; break;
   case StdVer::CXX2a: StdOpt = "-std=c++2a"; break;
   }

   std::vector<std::string> Args = {
     StdOpt,
     "-Wno-unused-value",
   };
   return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
                             PolicyAdjuster);
 }

 template <typename T>
 ::testing::AssertionResult
 PrintedStmtMSMatches(StringRef Code, const T &NodeMatch,
                      StringRef ExpectedPrinted,
                      PolicyAdjusterType PolicyAdjuster = None) {
   std::vector<std::string> Args = {
     "-std=c++98",
     "-target", "i686-pc-win32",
     "-fms-extensions",
     "-Wno-unused-value",
   };
   return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
                             PolicyAdjuster);
 }

 template <typename T>
 ::testing::AssertionResult
 PrintedStmtObjCMatches(StringRef Code, const T &NodeMatch,
                        StringRef ExpectedPrinted,
                        PolicyAdjusterType PolicyAdjuster = None) {
   std::vector<std::string> Args = {
     "-ObjC",
     "-fobjc-runtime=macosx-10.12.0",
   };
   return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
                             PolicyAdjuster);
 }

 } // unnamed namespace

 TEST(StmtPrinter, TestIntegerLiteral) {
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
     "void A() {"
     "  1, -1, 1U, 1u,"
     "  1L, 1l, -1L, 1UL, 1ul,"
     "  1LL, -1LL, 1ULL;"
     "}",
     FunctionBodyMatcher("A"),
     "1 , -1 , 1U , 1U , "
     "1L , 1L , -1L , 1UL , 1UL , "
     "1LL , -1LL , 1ULL"));
     // Should be: with semicolon
 }

 TEST(StmtPrinter, TestMSIntegerLiteral) {
   ASSERT_TRUE(PrintedStmtMSMatches(
     "void A() {"
     "  1i8, -1i8, 1ui8, "
     "  1i16, -1i16, 1ui16, "
     "  1i32, -1i32, 1ui32, "
     "  1i64, -1i64, 1ui64;"
     "}",
     FunctionBodyMatcher("A"),
     "1i8 , -1i8 , 1Ui8 , "
     "1i16 , -1i16 , 1Ui16 , "
     "1 , -1 , 1U , "
     "1LL , -1LL , 1ULL"));
     // Should be: with semicolon
 }

 TEST(StmtPrinter, TestFloatingPointLiteral) {
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
     "void A() { 1.0f, -1.0f, 1.0, -1.0, 1.0l, -1.0l; }",
     FunctionBodyMatcher("A"),
     "1.F , -1.F , 1. , -1. , 1.L , -1.L"));
     // Should be: with semicolon
 }

 TEST(StmtPrinter, TestCXXConversionDeclImplicit) {
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
     "struct A {"
       "operator void *();"
       "A operator&(A);"
     "};"
     "void bar(void *);"
     "void foo(A a, A b) {"
     "  bar(a & b);"
     "}",
     cxxMemberCallExpr(anything()).bind("id"),
     "a & b"));
 }

 TEST(StmtPrinter, TestCXXConversionDeclExplicit) {
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
     "struct A {"
       "operator void *();"
       "A operator&(A);"
     "};"
     "void bar(void *);"
     "void foo(A a, A b) {"
     "  auto x = (a & b).operator void *();"
     "}",
     cxxMemberCallExpr(anything()).bind("id"),
     "(a & b)"));
     // WRONG; Should be: (a & b).operator void *()
 }

 TEST(StmtPrinter, TestCXXLamda) {
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
     "void A() {"
     "  auto l = [] { };"
     "}",
     lambdaExpr(anything()).bind("id"),
     "[] {\n"
     "}"));

   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
     "void A() {"
     "  int a = 0, b = 1;"
     "  auto l = [a,b](int c, float d) { };"
     "}",
     lambdaExpr(anything()).bind("id"),
     "[a, b](int c, float d) {\n"
     "}"));

   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX14,
     "void A() {"
     "  auto l = [](auto a, int b, auto c, int, auto) { };"
     "}",
     lambdaExpr(anything()).bind("id"),
     "[](auto a, int b, auto c, int, auto) {\n"
     "}"));

   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX2a,
     "void A() {"
     "  auto l = []<typename T1, class T2, int I,"
     "              template<class, typename> class T3>"
     "           (int a, auto, int, auto d) { };"
     "}",
     lambdaExpr(anything()).bind("id"),
     "[]<typename T1, class T2, int I, template <class, typename> class T3>(int a, auto, int, auto d) {\n"
     "}"));
 }

 TEST(StmtPrinter, TestNoImplicitBases) {
   const char *CPPSource = R"(
 class A {
   int field;
   int member() { return field; }
 };
 )";
   // No implicit 'this'.
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
       CPPSource, memberExpr(anything()).bind("id"), "field",
       PolicyAdjusterType(
           [](PrintingPolicy &PP) { PP.SuppressImplicitBase = true; })));
   // Print implicit 'this'.
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
       CPPSource, memberExpr(anything()).bind("id"), "this->field"));

   const char *ObjCSource = R"(
 @interface I {
    int ivar;
 }
 @end
 @implementation I
 - (int) method {
   return ivar;
 }
 @end
       )";
   // No implicit 'self'.
   ASSERT_TRUE(PrintedStmtObjCMatches(ObjCSource, returnStmt().bind("id"),
                                      "return ivar;\n",
                                      PolicyAdjusterType([](PrintingPolicy &PP) {
                                        PP.SuppressImplicitBase = true;
                                      })));
   // Print implicit 'self'.
   ASSERT_TRUE(PrintedStmtObjCMatches(ObjCSource, returnStmt().bind("id"),
                                      "return self->ivar;\n"));
 }

 TEST(StmtPrinter, TerseOutputWithLambdas) {
   const char *CPPSource = "auto lamb = []{ return 0; };";

   // body is printed when TerseOutput is off(default).
   ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11, CPPSource,
                                     lambdaExpr(anything()).bind("id"),
                                     "[] {\n    return 0;\n}"));

   // body not printed when TerseOutput is on.
   ASSERT_TRUE(PrintedStmtCXXMatches(
       StdVer::CXX11, CPPSource, lambdaExpr(anything()).bind("id"), "[] {}",
       PolicyAdjusterType([](PrintingPolicy &PP) { PP.TerseOutput = true; })));
 }
	//===- unittests/AST/StmtPrinterTest.cpp --- Statement printer tests ------===//
	//
	// 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 contains tests for Stmt::printPretty() and related methods.
	//
	// Search this file for WRONG to see test cases that are producing something
	// completely wrong, invalid C++ or just misleading.
	//
	// These tests have a coding convention:
	// * statements to be printed should be contained within a function named 'A'
	// unless it should have some special name (e.g., 'operator+');
	// * additional helper declarations are 'Z', 'Y', 'X' and so on.
	//
	//===----------------------------------------------------------------------===//

	#include "ASTPrint.h"
	#include "clang/AST/ASTContext.h"
	#include "clang/ASTMatchers/ASTMatchFinder.h"
	#include "clang/Tooling/Tooling.h"
	#include "llvm/ADT/SmallString.h"
	#include "gtest/gtest.h"

	using namespace clang;
	using namespace ast_matchers;
	using namespace tooling;

	namespace {

	enum class StdVer { CXX98, CXX11, CXX14, CXX17, CXX2a };

	DeclarationMatcher FunctionBodyMatcher(StringRef ContainingFunction) {
	return functionDecl(hasName(ContainingFunction),
	has(compoundStmt(has(stmt().bind("id")))));
	}

	template <typename T>
	::testing::AssertionResult
	PrintedStmtCXXMatches(StdVer Standard, StringRef Code, const T &NodeMatch,
	StringRef ExpectedPrinted,
	PolicyAdjusterType PolicyAdjuster = None) {
	const char *StdOpt;
	switch (Standard) {
	case StdVer::CXX98: StdOpt = "-std=c++98"; break;
	case StdVer::CXX11: StdOpt = "-std=c++11"; break;
	case StdVer::CXX14: StdOpt = "-std=c++14"; break;
	case StdVer::CXX17: StdOpt = "-std=c++17"; break;
	case StdVer::CXX2a: StdOpt = "-std=c++2a"; break;
	}

	std::vector<std::string> Args = {
	StdOpt,
	"-Wno-unused-value",
	};
	return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
	PolicyAdjuster);
	}

	template <typename T>
	::testing::AssertionResult
	PrintedStmtMSMatches(StringRef Code, const T &NodeMatch,
	StringRef ExpectedPrinted,
	PolicyAdjusterType PolicyAdjuster = None) {
	std::vector<std::string> Args = {
	"-std=c++98",
	"-target", "i686-pc-win32",
	"-fms-extensions",
	"-Wno-unused-value",
	};
	return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
	PolicyAdjuster);
	}

	template <typename T>
	::testing::AssertionResult
	PrintedStmtObjCMatches(StringRef Code, const T &NodeMatch,
	StringRef ExpectedPrinted,
	PolicyAdjusterType PolicyAdjuster = None) {
	std::vector<std::string> Args = {
	"-ObjC",
	"-fobjc-runtime=macosx-10.12.0",
	};
	return PrintedStmtMatches(Code, Args, NodeMatch, ExpectedPrinted,
	PolicyAdjuster);
	}

	} // unnamed namespace

	TEST(StmtPrinter, TestIntegerLiteral) {
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
	"void A() {"
	" 1, -1, 1U, 1u,"
	" 1L, 1l, -1L, 1UL, 1ul,"
	" 1LL, -1LL, 1ULL;"
	"}",
	FunctionBodyMatcher("A"),
	"1 , -1 , 1U , 1U , "
	"1L , 1L , -1L , 1UL , 1UL , "
	"1LL , -1LL , 1ULL"));
	// Should be: with semicolon
	}

	TEST(StmtPrinter, TestMSIntegerLiteral) {
	ASSERT_TRUE(PrintedStmtMSMatches(
	"void A() {"
	" 1i8, -1i8, 1ui8, "
	" 1i16, -1i16, 1ui16, "
	" 1i32, -1i32, 1ui32, "
	" 1i64, -1i64, 1ui64;"
	"}",
	FunctionBodyMatcher("A"),
	"1i8 , -1i8 , 1Ui8 , "
	"1i16 , -1i16 , 1Ui16 , "
	"1 , -1 , 1U , "
	"1LL , -1LL , 1ULL"));
	// Should be: with semicolon
	}

	TEST(StmtPrinter, TestFloatingPointLiteral) {
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
	"void A() { 1.0f, -1.0f, 1.0, -1.0, 1.0l, -1.0l; }",
	FunctionBodyMatcher("A"),
	"1.F , -1.F , 1. , -1. , 1.L , -1.L"));
	// Should be: with semicolon
	}

	TEST(StmtPrinter, TestCXXConversionDeclImplicit) {
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX98,
	"struct A {"
	"operator void *();"
	"A operator&(A);"
	"};"
	"void bar(void *);"
	"void foo(A a, A b) {"
	" bar(a & b);"
	"}",
	cxxMemberCallExpr(anything()).bind("id"),
	"a & b"));
	}

	TEST(StmtPrinter, TestCXXConversionDeclExplicit) {
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
	"struct A {"
	"operator void *();"
	"A operator&(A);"
	"};"
	"void bar(void *);"
	"void foo(A a, A b) {"
	" auto x = (a & b).operator void *();"
	"}",
	cxxMemberCallExpr(anything()).bind("id"),
	"(a & b)"));
	// WRONG; Should be: (a & b).operator void *()
	}

	TEST(StmtPrinter, TestCXXLamda) {
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
	"void A() {"
	" auto l = [] { };"
	"}",
	lambdaExpr(anything()).bind("id"),
	"[] {\n"
	"}"));

	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
	"void A() {"
	" int a = 0, b = 1;"
	" auto l = [a,b](int c, float d) { };"
	"}",
	lambdaExpr(anything()).bind("id"),
	"[a, b](int c, float d) {\n"
	"}"));

	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX14,
	"void A() {"
	" auto l = [](auto a, int b, auto c, int, auto) { };"
	"}",
	lambdaExpr(anything()).bind("id"),
	"[](auto a, int b, auto c, int, auto) {\n"
	"}"));

	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX2a,
	"void A() {"
	" auto l = []<typename T1, class T2, int I,"
	" template<class, typename> class T3>"
	" (int a, auto, int, auto d) { };"
	"}",
	lambdaExpr(anything()).bind("id"),
	"[]<typename T1, class T2, int I, template <class, typename> class T3>(int a, auto, int, auto d) {\n"
	"}"));
	}

	TEST(StmtPrinter, TestNoImplicitBases) {
	const char *CPPSource = R"(
	class A {
	int field;
	int member() { return field; }
	};
	)";
	// No implicit 'this'.
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
	CPPSource, memberExpr(anything()).bind("id"), "field",
	PolicyAdjusterType(
	[](PrintingPolicy &PP) { PP.SuppressImplicitBase = true; })));
	// Print implicit 'this'.
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11,
	CPPSource, memberExpr(anything()).bind("id"), "this->field"));

	const char *ObjCSource = R"(
	@interface I {
	int ivar;
	}
	@end
	@implementation I
	- (int) method {
	return ivar;
	}
	@end
	)";
	// No implicit 'self'.
	ASSERT_TRUE(PrintedStmtObjCMatches(ObjCSource, returnStmt().bind("id"),
	"return ivar;\n",
	PolicyAdjusterType([](PrintingPolicy &PP) {
	PP.SuppressImplicitBase = true;
	})));
	// Print implicit 'self'.
	ASSERT_TRUE(PrintedStmtObjCMatches(ObjCSource, returnStmt().bind("id"),
	"return self->ivar;\n"));
	}

	TEST(StmtPrinter, TerseOutputWithLambdas) {
	const char *CPPSource = "auto lamb = []{ return 0; };";

	// body is printed when TerseOutput is off(default).
	ASSERT_TRUE(PrintedStmtCXXMatches(StdVer::CXX11, CPPSource,
	lambdaExpr(anything()).bind("id"),
	"[] {\n return 0;\n}"));

	// body not printed when TerseOutput is on.
	ASSERT_TRUE(PrintedStmtCXXMatches(
	StdVer::CXX11, CPPSource, lambdaExpr(anything()).bind("id"), "[] {}",
	PolicyAdjusterType([](PrintingPolicy &PP) { PP.TerseOutput = true; })));
	}