auto f1(int n) {
std::cout << "===== f1 start =====" << std::endl;
if (n < 1) {
////////////////////////////////////////
// version 1, NRVO
//
// auto tmp = MyClass(n);
//
////////////////////////////////////////
// version 2, NRVO for const local
const auto tmp = MyClass(n);
////////////////////////////////////////
std::cout << "===== f1 end =====" << std::endl;
return tmp;
} else {
////////////////////////////////////////
// version 1, default ctor
//
// auto tmp = MyClass(n) + f1(n-1); // will call "default ctor" here, and "dtor" later
//
////////////////////////////////////////
// version 2, NRVO
auto tmp = MyClass(n);
tmp += f1(n-1);
////////////////////////////////////////
std::cout << "===== f1 end =====" << std::endl;
return tmp;
}
}
int main(int argc, char* argv[])
{
MyClass m;
m.DoThing();
MyClass().DoThing();
const MyClass& crm = m;
crm.DoThing();
auto returnMyClass = []() -> const MyClass
{
return MyClass();
};
returnMyClass().DoThing();
}
void tst_QMap::clear()
{
{
MyMap map;
map.clear();
QVERIFY( map.isEmpty() );
map.insert( "key", MyClass( "value" ) );
map.clear();
QVERIFY( map.isEmpty() );
map.insert( "key0", MyClass( "value0" ) );
map.insert( "key0", MyClass( "value1" ) );
map.insert( "key1", MyClass( "value2" ) );
map.clear();
QVERIFY( map.isEmpty() );
}
QCOMPARE( MyClass::count, int(0) );
}
void object_global() {
int aux = 0;
for (int k = 0; k < repetetions; ++k) {
global_obj = MyClass(true,12345);
if (global_obj.a) {
aux += 1;
}
}
}
void object_outside_function(MyClass obj) {
int aux = 0;
for (int k = 0; k < repetetions; ++k) {
obj = MyClass(true,12345);
if (obj.a) {
aux += 1;
}
}
}
void tst_QExplicitlySharedDataPointer::pointerOperatorOnMutable() const
{
/* Pointer itself is const. */
{
const QExplicitlySharedDataPointer<MyClass> pointer(new MyClass());
pointer->notMutating();
pointer->mutating();
*pointer = MyClass();
}
/* Pointer itself is mutable. */
{
const QExplicitlySharedDataPointer<MyClass> pointer(new MyClass());
pointer->notMutating();
pointer->mutating();
*pointer = MyClass();
}
}
int main()
{
const MyClass myConstClass = MyClass();
myConstClass.getI();
MyClass myNonConstClass;
myNonConstClass.getI();
return 0;
}
int main()
{
const std::vector<std::any> anyVec{true, 2017, std::string("test"), 3.14, MyClass()};
std::cout << std::any_cast<bool>(anyVec[0]) << std::endl; // true
std::cout << std::any_cast<int>(anyVec[1]) << std::endl; // 2017
std::cout << anyVec[0].type().name() << std::endl; // b
std::cout << anyVec[1].type().name() << std::endl; // i
}
int main(int argc, char *argv[]){
// instancia na stack
MyClass myc_stack = MyClass();
// instancia na heap
MyClass *myc_heap = new MyClass();
delete myc_heap;
return 0;
}
int main()
{
std::set<MyClass,std::function<bool(MyClass,MyClass)>> s(
[](const MyClass& lhs, const MyClass& rhs)
{
return lhs.m_x < rhs.m_x;
}
);
//Insert ordered by s
s.insert(MyClass("five",5));
s.insert(MyClass("four",4));
s.insert(MyClass("one",1));
s.insert(MyClass("six",6));
s.insert(MyClass("three",3));
s.insert(MyClass("two",2));
//Show that the set orders by MyClass their x
std::copy(s.begin(),s.end(),std::ostream_iterator<MyClass>(std::cout,"\n"));
}
int main(){
printf("Hello there dolly\n");
MyClass me;
MyClass you;
printf("My age is %d\n",me.getAge());
you = me + you;
printf("The new age is %d\n", you.getAge());
MyClass oldDude(100);
MyClass youngDude(13);
MyClass olderDude = oldDude + youngDude;
printf("The older dude age is %d\n", olderDude.getAge());
me = MyClass(113);
bool res = (olderDude == me);
printf("The two are equal = %d\n", res);
MyClass* classp = new MyClass(500);
printf("class pointer age is %d\n",classp->getAge());
printf("the addr of it is %p\n", classp);
delete classp;
return 0;
}
MyClass getClass()
{
return MyClass();
}
int main()
{
MyClass objectA;
MyClass objectB(MyClass());
return 0;
}
int main()
{
MyClass mc_a;
MyClass mc_b = MyClass();
}
void tst_QMap::count()
{
{
MyMap map;
MyMap map2( map );
QCOMPARE( map.count(), 0 );
QCOMPARE( map2.count(), 0 );
QCOMPARE( MyClass::count, int(0) );
// detach
map2["Hallo"] = MyClass( "Fritz" );
QCOMPARE( map.count(), 0 );
QCOMPARE( map2.count(), 1 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 1 );
#endif
}
QCOMPARE( MyClass::count, int(0) );
{
typedef QMap<QString, MyClass> Map;
Map map;
QCOMPARE( map.count(), 0);
map.insert( "Torben", MyClass("Weis") );
QCOMPARE( map.count(), 1 );
map.insert( "Claudia", MyClass("Sorg") );
QCOMPARE( map.count(), 2 );
map.insert( "Lars", MyClass("Linzbach") );
map.insert( "Matthias", MyClass("Ettrich") );
map.insert( "Sue", MyClass("Paludo") );
map.insert( "Eirik", MyClass("Eng") );
map.insert( "Haavard", MyClass("Nord") );
map.insert( "Arnt", MyClass("Gulbrandsen") );
map.insert( "Paul", MyClass("Tvete") );
QCOMPARE( map.count(), 9 );
map.insert( "Paul", MyClass("Tvete 1") );
map.insert( "Paul", MyClass("Tvete 2") );
map.insert( "Paul", MyClass("Tvete 3") );
map.insert( "Paul", MyClass("Tvete 4") );
map.insert( "Paul", MyClass("Tvete 5") );
map.insert( "Paul", MyClass("Tvete 6") );
QCOMPARE( map.count(), 9 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
Map map2( map );
QVERIFY( map2.count() == 9 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
map2.insert( "Kay", MyClass("Roemer") );
QVERIFY( map2.count() == 10 );
QVERIFY( map.count() == 9 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 19 );
#endif
map2 = map;
QVERIFY( map.count() == 9 );
QVERIFY( map2.count() == 9 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
map2.insert( "Kay", MyClass("Roemer") );
QVERIFY( map2.count() == 10 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 19 );
#endif
map2.clear();
QVERIFY( map.count() == 9 );
QVERIFY( map2.count() == 0 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
map2 = map;
QVERIFY( map.count() == 9 );
QVERIFY( map2.count() == 9 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
map2.clear();
QVERIFY( map.count() == 9 );
QVERIFY( map2.count() == 0 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 9 );
#endif
map.remove( "Lars" );
QVERIFY( map.count() == 8 );
QVERIFY( map2.count() == 0 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 8 );
#endif
map.remove( "Mist" );
QVERIFY( map.count() == 8 );
QVERIFY( map2.count() == 0 );
#ifndef Q_CC_SUN
QCOMPARE( MyClass::count, 8 );
#endif
}
QVERIFY( MyClass::count == 0 );
{
typedef QMap<QString,MyClass> Map;
Map map;
map["Torben"] = MyClass("Weis");
#ifndef Q_CC_SUN
QVERIFY( MyClass::count == 1 );
#endif
QVERIFY( map.count() == 1 );
(void)map["Torben"].str;
(void)map["Lars"].str;
#ifndef Q_CC_SUN
QVERIFY( MyClass::count == 2 );
#endif
QVERIFY( map.count() == 2 );
const Map& cmap = map;
(void)cmap["Depp"].str;
#ifndef Q_CC_SUN
QVERIFY( MyClass::count == 2 );
#endif
QVERIFY( map.count() == 2 );
QVERIFY( cmap.count() == 2 );
}
QCOMPARE( MyClass::count, 0 );
{
for ( int i = 0; i < 100; ++i )
{
QMap<int, MyClass> map;
for (int j = 0; j < i; ++j)
map.insert(j, MyClass(QString::number(j)));
}
QCOMPARE( MyClass::count, 0 );
}
QCOMPARE( MyClass::count, 0 );
}
void wxAnyTestCase::wxVariantConversions()
{
#if wxUSE_VARIANT
//
// Test various conversions to and from wxVariant
//
bool res;
// Prepare wxVariants
wxVariant vLong(123L);
wxVariant vString("ABC");
wxVariant vDouble(TEST_FLOAT_CONST);
wxVariant vBool((bool)true);
wxVariant vChar('A');
#ifdef wxLongLong_t
wxVariant vLongLong(wxLongLong(wxLL(0xAABBBBCCCC)));
wxVariant vULongLong(wxULongLong(wxULL(123456)));
#endif
wxArrayString arrstr;
arrstr.push_back("test string");
wxVariant vArrayString(arrstr);
wxVariant vDateTime(m_testDateTime);
wxVariant vVoidPtr(dummyVoidPointer);
wxVariant vCustomType(new wxMyVariantData(MyClass(101)));
wxVariant vList;
vList.NullList();
vList.Append(15);
vList.Append("abc");
// Convert to wxAnys, and then back to wxVariants
wxVariant variant;
wxAny any(vLong);
CPPUNIT_ASSERT(any == 123L);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant == 123L);
// Make sure integer variant has correct type information
CPPUNIT_ASSERT(variant.GetLong() == 123);
CPPUNIT_ASSERT(variant.GetType() == "long");
// Unsigned long wxAny should convert to "ulonglong" wxVariant
any = 1000UL;
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "ulonglong");
CPPUNIT_ASSERT(variant.GetLong() == 1000);
any = vString;
CPPUNIT_ASSERT(any == "ABC");
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetString() == "ABC");
// Must be able to build string wxVariant from wxAny built from
// string literal
any = "ABC";
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "string");
CPPUNIT_ASSERT(variant.GetString() == "ABC");
any = L"ABC";
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "string");
#if wxUSE_UNICODE
CPPUNIT_ASSERT(variant.GetString() == L"ABC");
#endif
any = vDouble;
double d = wxANY_AS(any, double);
CPPUNIT_ASSERT_DOUBLES_EQUAL(d, TEST_FLOAT_CONST, FEQ_DELTA);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT_DOUBLES_EQUAL(variant.GetDouble(),
TEST_FLOAT_CONST,
FEQ_DELTA);
any = vBool;
CPPUNIT_ASSERT(wxANY_AS(any, bool) == true);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetBool() == true);
any = wxAny(vChar);
//CPPUNIT_ASSERT(wxANY_AS(any, wxUniChar) == 'A');
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetChar() == 'A');
#ifdef wxLongLong_t
any = wxAny(vLongLong);
CPPUNIT_ASSERT(any == wxLL(0xAABBBBCCCC));
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "longlong");
CPPUNIT_ASSERT(variant.GetLongLong() == wxLongLong(wxLL(0xAABBBBCCCC)));
#if LONG_MAX == wxINT64_MAX
// As a sanity check, test that wxVariant of type 'long' converts
// seamlessly to 'longlong' (on some 64-bit systems)
any = 0xAABBBBCCCCL;
res = any.GetAs(&variant);
CPPUNIT_ASSERT(variant.GetLongLong() == wxLongLong(wxLL(0xAABBBBCCCC)));
#endif
any = wxAny(vULongLong);
CPPUNIT_ASSERT(any == wxLL(123456));
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "ulonglong");
CPPUNIT_ASSERT(variant.GetULongLong() == wxULongLong(wxULL(123456)));
#endif
// Cannot test equality for the rest, just test that they convert
// back correctly.
any = wxAny(vArrayString);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
wxArrayString arrstr2 = variant.GetArrayString();
CPPUNIT_ASSERT(arrstr2 == arrstr);
any = m_testDateTime;
CPPUNIT_ASSERT(wxANY_AS(any, wxDateTime) == m_testDateTime);
any = wxAny(vDateTime);
CPPUNIT_ASSERT(wxANY_AS(any, wxDateTime) == m_testDateTime);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant == m_testDateTime);
any = wxAny(vVoidPtr);
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetVoidPtr() == dummyVoidPointer);
any = wxAny(vList);
CPPUNIT_ASSERT(wxANY_CHECK_TYPE(any, wxAnyList));
wxAnyList anyList = wxANY_AS(any, wxAnyList);
CPPUNIT_ASSERT(anyList.GetCount() == 2);
CPPUNIT_ASSERT(wxANY_AS((*anyList[0]), int) == 15);
CPPUNIT_ASSERT(wxANY_AS((*anyList[1]), wxString) == "abc");
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "list");
CPPUNIT_ASSERT(variant.GetCount() == 2);
CPPUNIT_ASSERT(variant[0].GetLong() == 15);
CPPUNIT_ASSERT(variant[1].GetString() == "abc");
any = wxAny(vCustomType);
CPPUNIT_ASSERT(wxANY_CHECK_TYPE(any, wxVariantData*));
res = any.GetAs(&variant);
CPPUNIT_ASSERT(res);
CPPUNIT_ASSERT(variant.GetType() == "MyClass");
#endif // wxUSE_VARIANT
}
MyClass operator+(MyClass& p1, MyClass& p2){
return MyClass(p1.age + p2.age);
}
int add2(int x) {
return MyClass().add<2>(x);
}
class MyClass {};
const MyClass myObject = MyClass();
int main() {return 0;}
int main()
{
std::set<MyClass> container;
container.insert(MyClass(3));
return 0;
}
inline int add3(int x) {
return MyClass().add<3>(x); // even though add<3> is ODR used, don't emit it since we don't codegen it
}
int main(int argc,char**argv){
MyClass x=MyClass();
x.public_method();
//x.private_method();
}
