test/clang-tidy/checkers/readability-magic-numbers.cpp - clang-tools-extra - Git at Google

 // RUN: %check_clang_tidy %s readability-magic-numbers %t \
 // RUN: -config='{CheckOptions: \
 // RUN:  [{key: readability-magic-numbers.IgnoredIntegerValues, value: "0;1;2;10;100;"}, \
 // RUN:   {key: readability-magic-numbers.IgnoredFloatingPointValues, value: "3.14;2.71828;9.81;10000.0;101.0;0x1.2p3"}, \
 // RUN:   {key: readability-magic-numbers.IgnorePowersOf2IntegerValues, value: 1}]}' \
 // RUN: --

 template <typename T, int V>
 struct ValueBucket {
   T value[V];
 };

 int BadGlobalInt = 5;
 // CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

 int IntSquarer(int param) {
   return param * param;
 }

 void BuggyFunction() {
   int BadLocalInt = 6;
   // CHECK-MESSAGES: :[[@LINE-1]]:21: warning: 6 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

   (void)IntSquarer(7);
   // CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 7 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

   int LocalArray[15];
   // CHECK-MESSAGES: :[[@LINE-1]]:18: warning: 15 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

   for (int ii = 0; ii < 22; ++ii)
   // CHECK-MESSAGES: :[[@LINE-1]]:25: warning: 22 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
   {
     LocalArray[ii] = 3 * ii;
     // CHECK-MESSAGES: :[[@LINE-1]]:22: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
   }

   ValueBucket<int, 66> Bucket;
   // CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 66 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
 }

 class TwoIntContainer {
 public:
   TwoIntContainer(int val) : anotherMember(val * val), yetAnotherMember(6), anotherConstant(val + val) {}
   // CHECK-MESSAGES: :[[@LINE-1]]:73: warning: 6 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

   int getValue() const;

 private:
   int oneMember = 9;
   // CHECK-MESSAGES: :[[@LINE-1]]:19: warning: 9 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

   int anotherMember;

   int yetAnotherMember;

   const int oneConstant = 2;

   const int anotherConstant;
 };

 int ValueArray[] = {3, 5};
 // CHECK-MESSAGES: :[[@LINE-1]]:21: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
 // CHECK-MESSAGES: :[[@LINE-2]]:24: warning: 5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

 float FloatPiVariable = 3.1415926535f;
 // CHECK-MESSAGES: :[[@LINE-1]]:25: warning: 3.1415926535f is a magic number; consider replacing it with a named constant [readability-magic-numbers]
 double DoublePiVariable = 6.283185307;
 // CHECK-MESSAGES: :[[@LINE-1]]:27: warning: 6.283185307 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

 float SomeFloats[] = {0.5, 0x1.2p4};
 // CHECK-MESSAGES: :[[@LINE-1]]:23: warning: 0.5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
 // CHECK-MESSAGES: :[[@LINE-2]]:28: warning: 0x1.2p4 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

 int getAnswer() {
   if (ValueArray[0] < ValueArray[1])
     return ValueArray[1];

   return -3; // FILENOTFOUND
   // CHECK-MESSAGES: :[[@LINE-1]]:11: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
 }

 /*
  * Clean code
  */

 #define INT_MACRO 5

 const int GoodGlobalIntConstant = 42;

 constexpr int AlsoGoodGlobalIntConstant = 42;

 int InitializedByMacro = INT_MACRO;

 void SolidFunction() {
   const int GoodLocalIntConstant = 43;

   (void)IntSquarer(GoodLocalIntConstant);

   int LocalArray[INT_MACRO];

   ValueBucket<int, INT_MACRO> Bucket;
 }

 const int ConstValueArray[] = {7, 9};

 const int ConstValueArray2D[2][2] = {{7, 9}, {13, 15}};

 /*
  * no warnings for ignored values (specified in the configuration above)
  */
 int GrandfatheredIntegerValues[] = {0, 1, 2, 10, 100, -1, -10, -100, 65536};

 float GrandfatheredFloatValues[] = {3.14f, 3.14, 2.71828, 2.71828f, -1.01E2, 1E4, 0x1.2p3};

 /*
  * no warnings for enums
  */
 enum Smorgasbord {
   STARTER,
   ALPHA = 3,
   BETA = 1 << 5,
 };

 const float FloatPiConstant = 3.1415926535f;
 const double DoublePiConstant = 6.283185307;

 const float Angles[] = {45.0f, 90.0f, 135.0f};

 double DoubleZeroIsAccepted = 0.0;
 float FloatZeroIsAccepted = 0.0f;

 namespace geometry {

 template <typename T>
 struct Point {
   T x;
   T y;

   explicit Point(T xval, T yval) noexcept : x{xval}, y{yval} {
   }
 };

 template <typename T>
 struct Dimension {
   T x;
   T y;

   explicit Dimension(T xval, T yval) noexcept : x{xval}, y{yval} {
   }
 };

 template <typename T>
 struct Rectangle {
   Point<T> origin;
   Dimension<T> size;
   T rotation; // angle of rotation around origin

   Rectangle(Point<T> origin_, Dimension<T> size_, T rotation_ = 0) noexcept : origin{origin_}, size{size_}, rotation{rotation_} {
   }

   bool contains(Point<T> point) const;
 };

 } // namespace geometry

 const geometry::Rectangle<double> mandelbrotCanvas{geometry::Point<double>{-2.5, -1}, geometry::Dimension<double>{3.5, 2}};

 // Simulate the macro magic in Google Test internal headers
 class AssertionHelper {
 public:
   AssertionHelper(const char *Message, int LineNumber) : Message(Message), LineNumber(LineNumber) {}

 private:
   const char *Message;
   int LineNumber;
 };

 #define ASSERTION_HELPER_AT(M, L) AssertionHelper(M, L)

 #define ASSERTION_HELPER(M) ASSERTION_HELPER_AT(M, __LINE__)

 void FunctionWithCompilerDefinedSymbol(void) {
   ASSERTION_HELPER("here and now");
 }

 // prove that integer literals introduced by the compiler are accepted silently
 extern int ConsumeString(const char *Input);

 const char *SomeStrings[] = {"alpha", "beta", "gamma"};

 int TestCheckerOverreach() {
   int Total = 0;

   for (const auto *Str : SomeStrings) {
     Total += ConsumeString(Str);
   }

   return Total;
 }
	// RUN: %check_clang_tidy %s readability-magic-numbers %t \
	// RUN: -config='{CheckOptions: \
	// RUN: [{key: readability-magic-numbers.IgnoredIntegerValues, value: "0;1;2;10;100;"}, \
	// RUN: {key: readability-magic-numbers.IgnoredFloatingPointValues, value: "3.14;2.71828;9.81;10000.0;101.0;0x1.2p3"}, \
	// RUN: {key: readability-magic-numbers.IgnorePowersOf2IntegerValues, value: 1}]}' \
	// RUN: --

	template <typename T, int V>
	struct ValueBucket {
	T value[V];
	};

	int BadGlobalInt = 5;
	// CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	int IntSquarer(int param) {
	return param * param;
	}

	void BuggyFunction() {
	int BadLocalInt = 6;
	// CHECK-MESSAGES: :[[@LINE-1]]:21: warning: 6 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	(void)IntSquarer(7);
	// CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 7 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	int LocalArray[15];
	// CHECK-MESSAGES: :[[@LINE-1]]:18: warning: 15 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	for (int ii = 0; ii < 22; ++ii)
	// CHECK-MESSAGES: :[[@LINE-1]]:25: warning: 22 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	{
	LocalArray[ii] = 3 * ii;
	// CHECK-MESSAGES: :[[@LINE-1]]:22: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	}

	ValueBucket<int, 66> Bucket;
	// CHECK-MESSAGES: :[[@LINE-1]]:20: warning: 66 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	}

	class TwoIntContainer {
	public:
	TwoIntContainer(int val) : anotherMember(val * val), yetAnotherMember(6), anotherConstant(val + val) {}
	// CHECK-MESSAGES: :[[@LINE-1]]:73: warning: 6 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	int getValue() const;

	private:
	int oneMember = 9;
	// CHECK-MESSAGES: :[[@LINE-1]]:19: warning: 9 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	int anotherMember;

	int yetAnotherMember;

	const int oneConstant = 2;

	const int anotherConstant;
	};

	int ValueArray[] = {3, 5};
	// CHECK-MESSAGES: :[[@LINE-1]]:21: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	// CHECK-MESSAGES: :[[@LINE-2]]:24: warning: 5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	float FloatPiVariable = 3.1415926535f;
	// CHECK-MESSAGES: :[[@LINE-1]]:25: warning: 3.1415926535f is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	double DoublePiVariable = 6.283185307;
	// CHECK-MESSAGES: :[[@LINE-1]]:27: warning: 6.283185307 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	float SomeFloats[] = {0.5, 0x1.2p4};
	// CHECK-MESSAGES: :[[@LINE-1]]:23: warning: 0.5 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	// CHECK-MESSAGES: :[[@LINE-2]]:28: warning: 0x1.2p4 is a magic number; consider replacing it with a named constant [readability-magic-numbers]

	int getAnswer() {
	if (ValueArray[0] < ValueArray[1])
	return ValueArray[1];

	return -3; // FILENOTFOUND
	// CHECK-MESSAGES: :[[@LINE-1]]:11: warning: 3 is a magic number; consider replacing it with a named constant [readability-magic-numbers]
	}

	/*
	* Clean code
	*/

	#define INT_MACRO 5

	const int GoodGlobalIntConstant = 42;

	constexpr int AlsoGoodGlobalIntConstant = 42;

	int InitializedByMacro = INT_MACRO;

	void SolidFunction() {
	const int GoodLocalIntConstant = 43;

	(void)IntSquarer(GoodLocalIntConstant);

	int LocalArray[INT_MACRO];

	ValueBucket<int, INT_MACRO> Bucket;
	}

	const int ConstValueArray[] = {7, 9};

	const int ConstValueArray2D[2][2] = {{7, 9}, {13, 15}};

	/*
	* no warnings for ignored values (specified in the configuration above)
	*/
	int GrandfatheredIntegerValues[] = {0, 1, 2, 10, 100, -1, -10, -100, 65536};

	float GrandfatheredFloatValues[] = {3.14f, 3.14, 2.71828, 2.71828f, -1.01E2, 1E4, 0x1.2p3};

	/*
	* no warnings for enums
	*/
	enum Smorgasbord {
	STARTER,
	ALPHA = 3,
	BETA = 1 << 5,
	};

	const float FloatPiConstant = 3.1415926535f;
	const double DoublePiConstant = 6.283185307;

	const float Angles[] = {45.0f, 90.0f, 135.0f};

	double DoubleZeroIsAccepted = 0.0;
	float FloatZeroIsAccepted = 0.0f;

	namespace geometry {

	template <typename T>
	struct Point {
	T x;
	T y;

	explicit Point(T xval, T yval) noexcept : x{xval}, y{yval} {
	}
	};

	template <typename T>
	struct Dimension {
	T x;
	T y;

	explicit Dimension(T xval, T yval) noexcept : x{xval}, y{yval} {
	}
	};

	template <typename T>
	struct Rectangle {
	Point<T> origin;
	Dimension<T> size;
	T rotation; // angle of rotation around origin

	Rectangle(Point<T> origin_, Dimension<T> size_, T rotation_ = 0) noexcept : origin{origin_}, size{size_}, rotation{rotation_} {
	}

	bool contains(Point<T> point) const;
	};

	} // namespace geometry

	const geometry::Rectangle<double> mandelbrotCanvas{geometry::Point<double>{-2.5, -1}, geometry::Dimension<double>{3.5, 2}};

	// Simulate the macro magic in Google Test internal headers
	class AssertionHelper {
	public:
	AssertionHelper(const char *Message, int LineNumber) : Message(Message), LineNumber(LineNumber) {}

	private:
	const char *Message;
	int LineNumber;
	};

	#define ASSERTION_HELPER_AT(M, L) AssertionHelper(M, L)

	#define ASSERTION_HELPER(M) ASSERTION_HELPER_AT(M, __LINE__)

	void FunctionWithCompilerDefinedSymbol(void) {
	ASSERTION_HELPER("here and now");
	}

	// prove that integer literals introduced by the compiler are accepted silently
	extern int ConsumeString(const char *Input);

	const char *SomeStrings[] = {"alpha", "beta", "gamma"};

	int TestCheckerOverreach() {
	int Total = 0;

	for (const auto *Str : SomeStrings) {
	Total += ConsumeString(Str);
	}

	return Total;
	}