test/Sema/floating-point-compare.c - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -Wfloat-equal -verify %s

 int f1(float x, float y) {
   return x == y; // expected-warning {{comparing floating point with ==}}
 }

 int f2(float x, float y) {
   return x != y; // expected-warning {{comparing floating point with ==}}
 }

 int f3(float x) {
   return x == x; // no-warning
 }

 // 0.0 can be represented exactly, so don't warn.
 int f4(float x) {
   return x == 0.0; // no-warning {{comparing}}
 }

 int f5(float x) {
   return x == __builtin_inf(); // no-warning
 }

 // The literal is a double that can't be represented losslessly as a float.
 int tautological_FP_compare(float x) {
   return x == 3.14159; // expected-warning {{floating-point comparison is always false}}
 }

 int tautological_FP_compare_inverse(float x) {
   return x != 3.14159; // expected-warning {{floating-point comparison is always true}}
 }

 // The literal is a double that can be represented losslessly as a long double,
 // but this might not be the comparison what was intended.
 int not_tautological_FP_compare(long double f) {
   return f == 0.1; // expected-warning {{comparing floating point with ==}}
 }

 int tautological_FP_compare_commute(float f) {
   return 0.3 == f; // expected-warning {{floating-point comparison is always false}}
 }

 int tautological_FP_compare_commute_inverse(float f) {
   return 0.3 != f; // expected-warning {{floating-point comparison is always true}}
 }

 int tautological_FP_compare_explicit_upcast(float f) {
   return 0.3 == (double) f; // expected-warning {{floating-point comparison is always false}}
 }

 int tautological_FP_compare_explicit_downcast(double d) {
   return 0.3 == (float) d; // expected-warning {{floating-point comparison is always false}}
 }

 int tautological_FP_compare_ignore_parens(float f) {
   return f == (0.3); // expected-warning {{floating-point comparison is always false}}
 }

 #define CST 0.3

 int tautological_FP_compare_macro(float f) {
   return f == CST; // expected-warning {{floating-point comparison is always false}}
 }
	// RUN: %clang_cc1 -fsyntax-only -Wfloat-equal -verify %s

	int f1(float x, float y) {
	return x == y; // expected-warning {{comparing floating point with ==}}
	}

	int f2(float x, float y) {
	return x != y; // expected-warning {{comparing floating point with ==}}
	}

	int f3(float x) {
	return x == x; // no-warning
	}

	// 0.0 can be represented exactly, so don't warn.
	int f4(float x) {
	return x == 0.0; // no-warning {{comparing}}
	}

	int f5(float x) {
	return x == __builtin_inf(); // no-warning
	}

	// The literal is a double that can't be represented losslessly as a float.
	int tautological_FP_compare(float x) {
	return x == 3.14159; // expected-warning {{floating-point comparison is always false}}
	}

	int tautological_FP_compare_inverse(float x) {
	return x != 3.14159; // expected-warning {{floating-point comparison is always true}}
	}

	// The literal is a double that can be represented losslessly as a long double,
	// but this might not be the comparison what was intended.
	int not_tautological_FP_compare(long double f) {
	return f == 0.1; // expected-warning {{comparing floating point with ==}}
	}

	int tautological_FP_compare_commute(float f) {
	return 0.3 == f; // expected-warning {{floating-point comparison is always false}}
	}

	int tautological_FP_compare_commute_inverse(float f) {
	return 0.3 != f; // expected-warning {{floating-point comparison is always true}}
	}

	int tautological_FP_compare_explicit_upcast(float f) {
	return 0.3 == (double) f; // expected-warning {{floating-point comparison is always false}}
	}

	int tautological_FP_compare_explicit_downcast(double d) {
	return 0.3 == (float) d; // expected-warning {{floating-point comparison is always false}}
	}

	int tautological_FP_compare_ignore_parens(float f) {
	return f == (0.3); // expected-warning {{floating-point comparison is always false}}
	}

	#define CST 0.3

	int tautological_FP_compare_macro(float f) {
	return f == CST; // expected-warning {{floating-point comparison is always false}}
	}