// RUN: %clang_cc1 -triple x86_64-apple-darwin -fsyntax-only -Wconversion -std=c++11 -verify %s // RUN: %clang_cc1 -triple x86_64-apple-darwin -fsyntax-only -Wconversion -std=c++11 %s 2>&1 | FileCheck %s #include <stddef.h> typedef signed char int8_t; typedef signed short int16_t; typedef signed int int32_t; typedef signed long int64_t; typedef unsigned char uint8_t; typedef unsigned short uint16_t; typedef unsigned int uint32_t; typedef unsigned long uint64_t; // <rdar://problem/7909130> namespace test0 { int32_t test1_positive(char *I, char *E) { return (E - I); // expected-warning {{implicit conversion loses integer precision}} } int32_t test1_negative(char *I, char *E) { return static_cast<int32_t>(E - I); } uint32_t test2_positive(uint64_t x) { return x; // expected-warning {{implicit conversion loses integer precision}} } uint32_t test2_negative(uint64_t x) { return (uint32_t) x; } } namespace test1 { uint64_t test1(int x, unsigned y) { return sizeof(x == y); } uint64_t test2(int x, unsigned y) { return __alignof(x == y); } void * const foo(); bool test2(void *p) { return p == foo(); } } namespace test2 { struct A { unsigned int x : 2; A() : x(10) {} // expected-warning {{implicit truncation from 'int' to bitfield changes value from 10 to 2}} }; } // This file tests -Wnull-conversion, a subcategory of -Wconversion // which is on by default. void test3() { int a = NULL; // expected-warning {{implicit conversion of NULL constant to 'int'}} int b; b = NULL; // expected-warning {{implicit conversion of NULL constant to 'int'}} long l = NULL; // FIXME: this should also warn, but currently does not if sizeof(NULL)==sizeof(inttype) int c = ((((NULL)))); // expected-warning {{implicit conversion of NULL constant to 'int'}} int d; d = ((((NULL)))); // expected-warning {{implicit conversion of NULL constant to 'int'}} bool bl = NULL; // expected-warning {{implicit conversion of NULL constant to 'bool'}} char ch = NULL; // expected-warning {{implicit conversion of NULL constant to 'char'}} unsigned char uch = NULL; // expected-warning {{implicit conversion of NULL constant to 'unsigned char'}} short sh = NULL; // expected-warning {{implicit conversion of NULL constant to 'short'}} double dbl = NULL; // expected-warning {{implicit conversion of NULL constant to 'double'}} // Use FileCheck to ensure we don't get any unnecessary macro-expansion notes // (that don't appear as 'real' notes & can't be seen/tested by -verify) // CHECK-NOT: note: // CHECK: note: expanded from macro 'FINIT' #define FINIT int a3 = NULL; FINIT // expected-warning {{implicit conversion of NULL constant to 'int'}} // we don't catch the case of #define FOO NULL ... int i = FOO; but that seems a bit narrow anyway // and avoiding that helps us skip these cases: #define NULL_COND(cond) ((cond) ? &a : NULL) bool bl2 = NULL_COND(true); // don't warn on NULL conversion through the conditional operator across a macro boundary if (NULL_COND(true)) ; while (NULL_COND(true)) ; for (; NULL_COND(true); ) ; do ; while(NULL_COND(true)); int *ip = NULL; int (*fp)() = NULL; struct foo { int n; void func(); }; int foo::*datamem = NULL; int (foo::*funmem)() = NULL; } namespace test4 { // FIXME: We should warn for non-dependent args (only when the param type is also non-dependent) only once // not once for the template + once for every instantiation template<typename T> void tmpl(char c = NULL, // expected-warning 4 {{implicit conversion of NULL constant to 'char'}} T a = NULL, // expected-warning {{implicit conversion of NULL constant to 'char'}} \ expected-warning 2 {{implicit conversion of NULL constant to 'int'}} T b = 1024) { // expected-warning {{implicit conversion from 'int' to 'char' changes value from 1024 to 0}} } template<typename T> void tmpl2(T t = NULL) { } void func() { tmpl<char>(); // expected-note 2 {{in instantiation of default function argument expression for 'tmpl<char>' required here}} tmpl<int>(); // expected-note 2 {{in instantiation of default function argument expression for 'tmpl<int>' required here}} // FIXME: We should warn only once for each template instantiation - not once for each call tmpl<int>(); // expected-note 2 {{in instantiation of default function argument expression for 'tmpl<int>' required here}} tmpl2<int*>(); } } namespace test5 { template<int I> void func() { bool b = I; } template void func<3>(); } namespace test6 { decltype(nullptr) func() { return NULL; } }