int main(int argc, char **argv) { Foo f = Foo(); A a = A(); f.bar(5); a.c(); return 0; }
int main() { Foo f ("maxi"); hi(std::move(f)); f.bar(); }
int main(int argc, char** argv) { Foo f; f.foo(); f.bar(); foo(); bar(); return 0; }
void operator()( const tbb::blocked_range<int>& range ) const { for( int i=range.begin(); i!=range.end(); ++i ) { if( i%3 ) { Foo& element = my_vector[my_vector.grow_by(1)]; element.bar() = i; } else { Foo f; f.bar() = i; size_t k = my_vector.push_back( f ); ASSERT( my_vector[k].bar()==i, NULL ); } } }
int main () { int i = 5; int * a = &i; Foo<int, &i> f; Foo<int, a> g; Foo<int, &j> h; cout << &i << " " << f.bar() << " " << g.bar() << " " << &j << " " << h.bar() << " " << j << " " << *(h.bar()) << " " << endl; // sample output: // yuanc@casqa1:~/testbed/C 1044> ./template // ffbef488 ffbef418 22028 22018 22018 6 6 // only works for the variable of namespace scope return 0; }
int main(){ Foo foo; cout << "Content-type: text/html" << endl << endl; cout << "<html>" << endl; cout << " <body>" << endl; cout << " <p>Hello World!</p>" << endl; cout << foo.bar(); foo.baz(10); cout << " </body>" << endl; cout << "</html>" << endl; return 0; }
int main () { int arr[3] = {1, 2, 3}; vector<int> vec (arr, arr+3); vector<int> vec2 (arr, arr+3); Foo foo; foo.bar(arr, 3); foo.bar2(&vec, 3); foo.bar3(vec); for (int i = 0; i < 3; i++) cout << arr[i] << " "; for (int i = 0; i < 3; i++) cout << vec[i] << " "; return 0; }
int main(void) { Foo foo; if (foo.bar() == 17) { while (true) { if (foo.x == 42) { break; } continue; } } int length = 0; int i; if (0) int a; // start: while (true) { if (0) { return -1; } else { length++; } } while (false) { return -1; } // for (i = 0; i < length; i++) { // switch (i) { // case 1: // break; // case 2: // return 1; // case 3: // goto start; // } // } if (i == length) printf("ok"); if (i != length) { printf("not ok"); printf("maybe"); printf("no"); } return 0; }
int main() { Foo foo; foo.bar(); }
int main() { Foo<double> foo = Foo<double>(); foo.bar(); return 0; }
void hi(Foo & f) { std::cout << "copy "; f.bar(); }
int main (int argc, const char * argv[]) { Foo<int> f; return f.bar(); }
void foo() { Foo a; auto b = a.bar().begin(); auto&& c = b->x; }
TEST(foobar_test, bar) { Foo f; EXPECT_EQ(true, f.bar(99)); }