test/Analysis/conversion.c - llvm-project/clang - Git at Google

 // RUN: %clang_analyze_cc1 %s \
 // RUN:   -Wno-conversion -Wno-tautological-constant-compare \
 // RUN:   -analyzer-checker=core,apiModeling,unix.StdCLibraryFunctions,alpha.core.Conversion \
 // RUN:   -verify

 unsigned char U8;
 signed char S8;

 void assign(unsigned U, signed S) {
   if (S < -10)
     U8 = S; // expected-warning {{Loss of sign in implicit conversion}}
   if (U > 300)
     S8 = U; // expected-warning {{Loss of precision in implicit conversion}}
   if (S > 10)
     U8 = S; // no-warning
   if (U < 200)
     S8 = U; // no-warning
 }

 void addAssign(void) {
   unsigned long L = 1000;
   int I = -100;
   U8 += L; // expected-warning {{Loss of precision in implicit conversion}}
   L += I; // no-warning
 }

 void subAssign(void) {
   unsigned long L = 1000;
   int I = -100;
   U8 -= L; // expected-warning {{Loss of precision in implicit conversion}}
   L -= I; // no-warning
 }

 void mulAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 *= L; // expected-warning {{Loss of precision in implicit conversion}}
   L *= I;  // expected-warning {{Loss of sign in implicit conversion}}
   I = 10;
   L *= I; // no-warning
 }

 void divAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 /= L; // no-warning
   L /= I; // expected-warning {{Loss of sign in implicit conversion}}
 }

 void remAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 %= L; // no-warning
   L %= I; // expected-warning {{Loss of sign in implicit conversion}}
 }

 void andAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 &= L; // no-warning
   L &= I; // expected-warning {{Loss of sign in implicit conversion}}
 }

 void orAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 |= L; // expected-warning {{Loss of precision in implicit conversion}}
   L |= I;  // expected-warning {{Loss of sign in implicit conversion}}
 }

 void xorAssign(void) {
   unsigned long L = 1000;
   int I = -1;
   U8 ^= L; // expected-warning {{Loss of precision in implicit conversion}}
   L ^= I;  // expected-warning {{Loss of sign in implicit conversion}}
 }

 void init1(void) {
   long long A = 1LL << 60;
   short X = A; // expected-warning {{Loss of precision in implicit conversion}}
 }

 void relational(unsigned U, signed S) {
   if (S > 10) {
     if (U < S) { // no-warning
     }
   }
   if (S < -10) {
     if (U < S) { // expected-warning {{Loss of sign in implicit conversion}}
     }
   }
 }

 void multiplication(unsigned U, signed S) {
   if (S > 5)
     S = U * S; // no-warning
   if (S < -10)
     S = U * S; // expected-warning {{Loss of sign}}
 }

 void division(unsigned U, signed S) {
   if (S > 5)
     S = U / S; // no-warning
   if (S < -10)
     S = U / S; // expected-warning {{Loss of sign}}
 }

 void f(unsigned x) {}
 void g(unsigned x) {}

 void functioncall1(void) {
   long x = -1;
   int y = 0;
   f(x); // expected-warning {{Loss of sign in implicit conversion}}
   f(y);
 }

 void functioncall2(int x, int y) {
   if (x < 0)
     f(x); // expected-warning {{Loss of sign in implicit conversion}}
   f(y);
   f(x); // expected-warning {{Loss of sign in implicit conversion}}
 }

 void dontwarn1(unsigned U, signed S) {
   U8 = S; // It might be known that S is always 0x00-0xff.
   S8 = U; // It might be known that U is always 0x00-0xff.

   U8 = -1;  // Explicit conversion.
   S8 = ~0U; // Explicit conversion.
   if (U > 300)
     U8 &= U; // No loss of precision since there is &=.
 }

 void dontwarn2(unsigned int U) {
   if (U <= 4294967295) {
   }
   if (U <= (2147483647 * 2U + 1U)) {
   }
 }

 void dontwarn3(int X) {
   S8 = X ? 'a' : 'b';
 }

 // don't warn for macros
 #define DOSTUFF ({ unsigned X = 1000; U8 = X; })
 void dontwarn4(void) {
   DOSTUFF;
 }

 void dontwarn5(void) {
   unsigned char c1 = 'A';
   c1 = (c1 >= 'A' && c1 <= 'Z') ? c1 - 'A' + 'a' : c1;
   unsigned char c2 = 0;
   c2 = (c2 >= 'A' && c2 <= 'Z') ? c2 - 'A' + 'a' : c2;
   unsigned char c3 = 'Z';
   c3 = (c3 >= 'A' && c3 <= 'Z') ? c3 - 'A' + 'a' : c3;
   unsigned char c4 = 'a';
   c4 = (c4 >= 'A' && c4 <= 'Z') ? c4 - 'A' + 'a' : c4;
   unsigned char c5 = '@';
   c5 = (c5 >= 'A' && c5 <= 'Z') ? c5 - 'A' + 'a' : c5;
 }

 void dontwarn6(void) {
   int x = ~0;
   unsigned y = ~0;
 }

 void dontwarn7(unsigned x) {
   if (x == (unsigned)-1) {
   }
 }

 void dontwarn8(void) {
   unsigned x = (unsigned)-1;
 }

 unsigned dontwarn9(void) {
   return ~0;
 }

 char dontwarn10(long long x) {
   long long y = 42;
   y += x;
   return y == 42;
 }


 // C library functions, handled via unix.StdCLibraryFunctions

 int isascii(int c);
 void libraryFunction1(void) {
   char kb2[5];
   int X = 1000;
   if (isascii(X)) {
     kb2[0] = X; // no-warning
   }
 }


 typedef struct FILE {} FILE; int getc(FILE *stream);
 # define EOF (-1)
 char reply_string[8192];
 FILE *cin;
 extern int dostuff(void);
 int libraryFunction2(void) {
   int c, n;
   int dig;
   char *cp = reply_string;
   int pflag = 0;
   int code;

   for (;;) {
     dig = n = code = 0;
     while ((c = getc(cin)) != '\n') {
       if (dig < 4 && dostuff())
         code = code * 10 + (c - '0');
       if (!pflag && code == 227)
         pflag = 1;
       if (n == 0)
         n = c;
       if (c == EOF)
         return(4);
       if (cp < &reply_string[sizeof(reply_string) - 1])
         *cp++ = c; // no-warning
     }
   }
 }

 double floating_point(long long a, int b) {
   if (a > 1LL << 55) {
     double r = a; // expected-warning {{Loss of precision}}
     return r;
   } else if (b > 1 << 25) {
     float f = b; // expected-warning {{Loss of precision}}
     return f;
   }
   return 137;
 }

 double floating_point2(void) {
   int a = 1 << 24;
   long long b = 1LL << 53;
   float f = a; // no-warning
   double d = b; // no-warning
   return d - f;
 }

 int floating_point_3(unsigned long long a) {
   double b = a; // no-warning
   return 42;
 }
	// RUN: %clang_analyze_cc1 %s \
	// RUN: -Wno-conversion -Wno-tautological-constant-compare \
	// RUN: -analyzer-checker=core,apiModeling,unix.StdCLibraryFunctions,alpha.core.Conversion \
	// RUN: -verify

	unsigned char U8;
	signed char S8;

	void assign(unsigned U, signed S) {
	if (S < -10)
	U8 = S; // expected-warning {{Loss of sign in implicit conversion}}
	if (U > 300)
	S8 = U; // expected-warning {{Loss of precision in implicit conversion}}
	if (S > 10)
	U8 = S; // no-warning
	if (U < 200)
	S8 = U; // no-warning
	}

	void addAssign(void) {
	unsigned long L = 1000;
	int I = -100;
	U8 += L; // expected-warning {{Loss of precision in implicit conversion}}
	L += I; // no-warning
	}

	void subAssign(void) {
	unsigned long L = 1000;
	int I = -100;
	U8 -= L; // expected-warning {{Loss of precision in implicit conversion}}
	L -= I; // no-warning
	}

	void mulAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 *= L; // expected-warning {{Loss of precision in implicit conversion}}
	L *= I; // expected-warning {{Loss of sign in implicit conversion}}
	I = 10;
	L *= I; // no-warning
	}

	void divAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 /= L; // no-warning
	L /= I; // expected-warning {{Loss of sign in implicit conversion}}
	}

	void remAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 %= L; // no-warning
	L %= I; // expected-warning {{Loss of sign in implicit conversion}}
	}

	void andAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 &= L; // no-warning
	L &= I; // expected-warning {{Loss of sign in implicit conversion}}
	}

	void orAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 \|= L; // expected-warning {{Loss of precision in implicit conversion}}
	L \|= I; // expected-warning {{Loss of sign in implicit conversion}}
	}

	void xorAssign(void) {
	unsigned long L = 1000;
	int I = -1;
	U8 ^= L; // expected-warning {{Loss of precision in implicit conversion}}
	L ^= I; // expected-warning {{Loss of sign in implicit conversion}}
	}

	void init1(void) {
	long long A = 1LL << 60;
	short X = A; // expected-warning {{Loss of precision in implicit conversion}}
	}

	void relational(unsigned U, signed S) {
	if (S > 10) {
	if (U < S) { // no-warning
	}
	}
	if (S < -10) {
	if (U < S) { // expected-warning {{Loss of sign in implicit conversion}}
	}
	}
	}

	void multiplication(unsigned U, signed S) {
	if (S > 5)
	S = U * S; // no-warning
	if (S < -10)
	S = U * S; // expected-warning {{Loss of sign}}
	}

	void division(unsigned U, signed S) {
	if (S > 5)
	S = U / S; // no-warning
	if (S < -10)
	S = U / S; // expected-warning {{Loss of sign}}
	}

	void f(unsigned x) {}
	void g(unsigned x) {}

	void functioncall1(void) {
	long x = -1;
	int y = 0;
	f(x); // expected-warning {{Loss of sign in implicit conversion}}
	f(y);
	}

	void functioncall2(int x, int y) {
	if (x < 0)
	f(x); // expected-warning {{Loss of sign in implicit conversion}}
	f(y);
	f(x); // expected-warning {{Loss of sign in implicit conversion}}
	}

	void dontwarn1(unsigned U, signed S) {
	U8 = S; // It might be known that S is always 0x00-0xff.
	S8 = U; // It might be known that U is always 0x00-0xff.

	U8 = -1; // Explicit conversion.
	S8 = ~0U; // Explicit conversion.
	if (U > 300)
	U8 &= U; // No loss of precision since there is &=.
	}

	void dontwarn2(unsigned int U) {
	if (U <= 4294967295) {
	}
	if (U <= (2147483647 * 2U + 1U)) {
	}
	}

	void dontwarn3(int X) {
	S8 = X ? 'a' : 'b';
	}

	// don't warn for macros
	#define DOSTUFF ({ unsigned X = 1000; U8 = X; })
	void dontwarn4(void) {
	DOSTUFF;
	}

	void dontwarn5(void) {
	unsigned char c1 = 'A';
	c1 = (c1 >= 'A' && c1 <= 'Z') ? c1 - 'A' + 'a' : c1;
	unsigned char c2 = 0;
	c2 = (c2 >= 'A' && c2 <= 'Z') ? c2 - 'A' + 'a' : c2;
	unsigned char c3 = 'Z';
	c3 = (c3 >= 'A' && c3 <= 'Z') ? c3 - 'A' + 'a' : c3;
	unsigned char c4 = 'a';
	c4 = (c4 >= 'A' && c4 <= 'Z') ? c4 - 'A' + 'a' : c4;
	unsigned char c5 = '@';
	c5 = (c5 >= 'A' && c5 <= 'Z') ? c5 - 'A' + 'a' : c5;
	}

	void dontwarn6(void) {
	int x = ~0;
	unsigned y = ~0;
	}

	void dontwarn7(unsigned x) {
	if (x == (unsigned)-1) {
	}
	}

	void dontwarn8(void) {
	unsigned x = (unsigned)-1;
	}

	unsigned dontwarn9(void) {
	return ~0;
	}

	char dontwarn10(long long x) {
	long long y = 42;
	y += x;
	return y == 42;
	}


	// C library functions, handled via unix.StdCLibraryFunctions

	int isascii(int c);
	void libraryFunction1(void) {
	char kb2[5];
	int X = 1000;
	if (isascii(X)) {
	kb2[0] = X; // no-warning
	}
	}


	typedef struct FILE {} FILE; int getc(FILE *stream);
	# define EOF (-1)
	char reply_string[8192];
	FILE *cin;
	extern int dostuff(void);
	int libraryFunction2(void) {
	int c, n;
	int dig;
	char *cp = reply_string;
	int pflag = 0;
	int code;

	for (;;) {
	dig = n = code = 0;
	while ((c = getc(cin)) != '\n') {
	if (dig < 4 && dostuff())
	code = code * 10 + (c - '0');
	if (!pflag && code == 227)
	pflag = 1;
	if (n == 0)
	n = c;
	if (c == EOF)
	return(4);
	if (cp < &reply_string[sizeof(reply_string) - 1])
	*cp++ = c; // no-warning
	}
	}
	}

	double floating_point(long long a, int b) {
	if (a > 1LL << 55) {
	double r = a; // expected-warning {{Loss of precision}}
	return r;
	} else if (b > 1 << 25) {
	float f = b; // expected-warning {{Loss of precision}}
	return f;
	}
	return 137;
	}

	double floating_point2(void) {
	int a = 1 << 24;
	long long b = 1LL << 53;
	float f = a; // no-warning
	double d = b; // no-warning
	return d - f;
	}

	int floating_point_3(unsigned long long a) {
	double b = a; // no-warning
	return 42;
	}