// RUN: %clang_cc1 -fsyntax-only -verify -Wconversion \
// RUN: -nostdsysteminc -nobuiltininc -isystem %S/Inputs \
// RUN: -triple x86_64-apple-darwin %s -Wno-unreachable-code
#include <conversion.h>
#define BIG 0x7f7f7f7f7f7f7f7fL
void test0(char c, short s, int i, long l, long long ll) {
c = c;
c = s; // expected-warning {{implicit conversion loses integer precision}}
c = i; // expected-warning {{implicit conversion loses integer precision}}
c = l; // expected-warning {{implicit conversion loses integer precision}}
s = c;
s = s;
s = i; // expected-warning {{implicit conversion loses integer precision}}
s = l; // expected-warning {{implicit conversion loses integer precision}}
i = c;
i = s;
i = i;
i = l; // expected-warning {{implicit conversion loses integer precision}}
l = c;
l = s;
l = i;
l = l;
c = (char) 0;
c = (short) 0;
c = (int) 0;
c = (long) 0;
s = (char) 0;
s = (short) 0;
s = (int) 0;
s = (long) 0;
i = (char) 0;
i = (short) 0;
i = (int) 0;
i = (long) 0;
l = (char) 0;
l = (short) 0;
l = (int) 0;
l = (long) 0;
c = (char) BIG;
c = (short) BIG; // expected-warning {{implicit conversion from 'short' to 'char' changes value}}
c = (int) BIG; // expected-warning {{implicit conversion from 'int' to 'char' changes value}}
c = (long) BIG; // expected-warning {{implicit conversion from 'long' to 'char' changes value}}
s = (char) BIG;
s = (short) BIG;
s = (int) BIG; // expected-warning {{implicit conversion from 'int' to 'short' changes value}}
s = (long) BIG; // expected-warning {{implicit conversion from 'long' to 'short' changes value}}
i = (char) BIG;
i = (short) BIG;
i = (int) BIG;
i = (long) BIG; // expected-warning {{implicit conversion from 'long' to 'int' changes value}}
l = (char) BIG;
l = (short) BIG;
l = (int) BIG;
l = (long) BIG;
}
char test1(long long ll) {
return (long long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
char test1_a(long long ll) {
return (long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
char test1_b(long long ll) {
return (int) ll; // expected-warning {{implicit conversion loses integer precision}}
}
char test1_c(long long ll) {
return (short) ll; // expected-warning {{implicit conversion loses integer precision}}
}
char test1_d(long long ll) {
return (char) ll;
}
char test1_e(long long ll) {
return (long long) BIG; // expected-warning {{implicit conversion from 'long long' to 'char' changes value}}
}
char test1_f(long long ll) {
return (long) BIG; // expected-warning {{implicit conversion from 'long' to 'char' changes value}}
}
char test1_g(long long ll) {
return (int) BIG; // expected-warning {{implicit conversion from 'int' to 'char' changes value}}
}
char test1_h(long long ll) {
return (short) BIG; // expected-warning {{implicit conversion from 'short' to 'char' changes value}}
}
char test1_i(long long ll) {
return (char) BIG;
}
short test2(long long ll) {
return (long long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
short test2_a(long long ll) {
return (long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
short test2_b(long long ll) {
return (int) ll; // expected-warning {{implicit conversion loses integer precision}}
}
short test2_c(long long ll) {
return (short) ll;
}
short test2_d(long long ll) {
return (char) ll;
}
short test2_e(long long ll) {
return (long long) BIG; // expected-warning {{implicit conversion from 'long long' to 'short' changes value}}
}
short test2_f(long long ll) {
return (long) BIG; // expected-warning {{implicit conversion from 'long' to 'short' changes value}}
}
short test2_g(long long ll) {
return (int) BIG; // expected-warning {{implicit conversion from 'int' to 'short' changes value}}
}
short test2_h(long long ll) {
return (short) BIG;
}
short test2_i(long long ll) {
return (char) BIG;
}
int test3(long long ll) {
return (long long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
int test3_b(long long ll) {
return (long) ll; // expected-warning {{implicit conversion loses integer precision}}
}
int test3_c(long long ll) {
return (int) ll;
}
int test3_d(long long ll) {
return (short) ll;
}
int test3_e(long long ll) {
return (char) ll;
}
int test3_f(long long ll) {
return (long long) BIG; // expected-warning {{implicit conversion from 'long long' to 'int' changes value}}
}
int test3_g(long long ll) {
return (long) BIG; // expected-warning {{implicit conversion from 'long' to 'int' changes value}}
}
int test3_h(long long ll) {
return (int) BIG;
}
int test3_i(long long ll) {
return (short) BIG;
}
int test3_j(long long ll) {
return (char) BIG;
}
long test4(long long ll) {
return (long long) ll;
}
long test4_a(long long ll) {
return (long) ll;
}
long test4_b(long long ll) {
return (int) ll;
}
long test4_c(long long ll) {
return (short) ll;
}
long test4_d(long long ll) {
return (char) ll;
}
long test4_e(long long ll) {
return (long long) BIG;
}
long test4_f(long long ll) {
return (long) BIG;
}
long test4_g(long long ll) {
return (int) BIG;
}
long test4_h(long long ll) {
return (short) BIG;
}
long test4_i(long long ll) {
return (char) BIG;
}
long long test5(long long ll) {
return (long long) ll;
return (long) ll;
return (int) ll;
return (short) ll;
return (char) ll;
return (long long) BIG;
return (long) BIG;
return (int) BIG;
return (short) BIG;
return (char) BIG;
}
void takes_char(char);
void takes_short(short);
void takes_int(int);
void takes_long(long);
void takes_longlong(long long);
void takes_float(float);
void takes_double(double);
void takes_longdouble(long double);
void test6(char v) {
takes_char(v);
takes_short(v);
takes_int(v);
takes_long(v);
takes_longlong(v);
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test7(short v) {
takes_char(v); // expected-warning {{implicit conversion loses integer precision}}
takes_short(v);
takes_int(v);
takes_long(v);
takes_longlong(v);
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test8(int v) {
takes_char(v); // expected-warning {{implicit conversion loses integer precision}}
takes_short(v); // expected-warning {{implicit conversion loses integer precision}}
takes_int(v);
takes_long(v);
takes_longlong(v);
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test9(long v) {
takes_char(v); // expected-warning {{implicit conversion loses integer precision}}
takes_short(v); // expected-warning {{implicit conversion loses integer precision}}
takes_int(v); // expected-warning {{implicit conversion loses integer precision}}
takes_long(v);
takes_longlong(v);
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test10(long long v) {
takes_char(v); // expected-warning {{implicit conversion loses integer precision}}
takes_short(v); // expected-warning {{implicit conversion loses integer precision}}
takes_int(v); // expected-warning {{implicit conversion loses integer precision}}
takes_long(v);
takes_longlong(v);
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test11(float v) {
takes_char(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_short(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_int(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_long(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_longlong(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_float(v);
takes_double(v);
takes_longdouble(v);
}
void test12(double v) {
takes_char(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_short(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_int(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_long(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_longlong(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_float(v); // expected-warning {{implicit conversion loses floating-point precision}}
takes_double(v);
takes_longdouble(v);
}
void test13(long double v) {
takes_char(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_short(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_int(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_long(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_longlong(v); // expected-warning {{implicit conversion turns floating-point number into integer}}
takes_float(v); // expected-warning {{implicit conversion loses floating-point precision}}
takes_double(v); // expected-warning {{implicit conversion loses floating-point precision}}
takes_longdouble(v);
}
void test14(long l) {
// Fine because of the boolean whitelist.
char c;
c = (l == 4);
c = ((l <= 4) && (l >= 0));
c = ((l <= 4) && (l >= 0)) || (l > 20);
}
void test15(char c) {
c = c + 1 + c * 2;
c = (short) c + 1 + c * 2; // expected-warning {{implicit conversion loses integer precision}}
}
// PR 5422
extern void *test16_external;
void test16(void) {
int a = (unsigned long) &test16_external; // expected-warning {{implicit conversion loses integer precision}}
}
// PR 5938
void test17() {
union {
unsigned long long a : 8;
unsigned long long b : 32;
unsigned long long c;
} U;
unsigned int x;
x = U.a;
x = U.b;
x = U.c; // expected-warning {{implicit conversion loses integer precision}}
}
// PR 5939
void test18() {
union {
unsigned long long a : 1;
unsigned long long b;
} U;
int x;
x = (U.a ? 0 : 1);
x = (U.b ? 0 : 1);
}
// None of these should warn.
unsigned char test19(unsigned long u64) {
unsigned char x1 = u64 & 0xff;
unsigned char x2 = u64 >> 56;
unsigned char mask = 0xee;
unsigned char x3 = u64 & mask;
return x1 + x2 + x3;
}
// <rdar://problem/7631400>
void test_7631400(void) {
// This should show up despite the caret being inside a macro substitution
char s = LONG_MAX; // expected-warning {{implicit conversion from 'long' to 'char' changes value}}
}
// <rdar://problem/7676608>: assertion for compound operators with non-integral RHS
void f7676608(int);
void test_7676608(void) {
float q = 0.7f;
char c = 5;
f7676608(c *= q);
}
// <rdar://problem/7904686>
void test_7904686(void) {
const int i = -1;
unsigned u1 = i; // expected-warning {{implicit conversion changes signedness}}
u1 = i; // expected-warning {{implicit conversion changes signedness}}
unsigned u2 = -1; // expected-warning {{implicit conversion changes signedness}}
u2 = -1; // expected-warning {{implicit conversion changes signedness}}
}
// <rdar://problem/8232669>: don't warn about conversions required by
// contexts in system headers
void test_8232669(void) {
unsigned bitset[20];
SETBIT(bitset, 0);
unsigned y = 50;
SETBIT(bitset, y);
#define USER_SETBIT(set,bit) do { int i = bit; set[i/(8*sizeof(set[0]))] |= (1 << (i%(8*sizeof(set)))); } while(0)
USER_SETBIT(bitset, 0); // expected-warning 2 {{implicit conversion changes signedness}}
}
// <rdar://problem/8559831>
enum E8559831a { E8559831a_val };
enum E8559831b { E8559831b_val };
typedef enum { E8559831c_val } E8559831c;
enum { E8559831d_val } value_d;
void test_8559831_a(enum E8559831a value);
void test_8559831(enum E8559831b value_a, E8559831c value_c) {
test_8559831_a(value_a); // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
enum E8559831a a1 = value_a; // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
a1 = value_a; // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
test_8559831_a(E8559831b_val); // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
enum E8559831a a1a = E8559831b_val; // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
a1 = E8559831b_val; // expected-warning{{implicit conversion from enumeration type 'enum E8559831b' to different enumeration type 'enum E8559831a'}}
test_8559831_a(value_c); // expected-warning{{implicit conversion from enumeration type 'E8559831c' to different enumeration type 'enum E8559831a'}}
enum E8559831a a2 = value_c; // expected-warning{{implicit conversion from enumeration type 'E8559831c' to different enumeration type 'enum E8559831a'}}
a2 = value_c; // expected-warning{{implicit conversion from enumeration type 'E8559831c' to different enumeration type 'enum E8559831a'}}
test_8559831_a(value_d);
enum E8559831a a3 = value_d;
a3 = value_d;
}
void test26(int si, long sl) {
si = sl % sl; // expected-warning {{implicit conversion loses integer precision: 'long' to 'int'}}
si = sl % si;
si = si % sl;
si = si / sl;
si = sl / si; // expected-warning {{implicit conversion loses integer precision: 'long' to 'int'}}
}
// rdar://16502418
typedef unsigned short uint16_t;
typedef unsigned int uint32_t;
typedef __attribute__ ((ext_vector_type(16),__aligned__(32))) uint16_t ushort16;
typedef __attribute__ ((ext_vector_type( 8),__aligned__( 32))) uint32_t uint8;
void test27(ushort16 constants) {
uint8 pairedConstants = (uint8) constants;
ushort16 crCbScale = pairedConstants.s4; // expected-warning {{implicit conversion loses integer precision: 'uint32_t' (aka 'unsigned int') to 'ushort16'}}
ushort16 brBias = pairedConstants.s6; // expected-warning {{implicit conversion loses integer precision: 'uint32_t' (aka 'unsigned int') to 'ushort16'}}
}
float double2float_test1(double a) {
return a; // expected-warning {{implicit conversion loses floating-point precision: 'double' to 'float'}}
}
void double2float_test2(double a, float *b) {
*b += a; // expected-warning {{implicit conversion when assigning computation result loses floating-point precision: 'double' to 'float'}}
}
float sinf (float x);
double double2float_test3(double a) {
return sinf(a); // expected-warning {{implicit conversion loses floating-point precision: 'double' to 'float'}}
}
float double2float_test4(double a, float b) {
b -= a; // expected-warning {{implicit conversion when assigning computation result loses floating-point precision: 'double' to 'float'}}
return b;
}