TestIntfPrxPtr
allTests(const Ice::CommunicatorPtr& communicator)
{
string ref = "test:" + getTestEndpoint(communicator, 0);
Ice::ObjectPrxPtr obj = communicator->stringToProxy(ref);
test(obj);
TestIntfPrxPtr proxy = ICE_CHECKED_CAST(TestIntfPrx, obj);
test(proxy);
cout << "testing enum values... " << flush;
test(static_cast<int>(ICE_ENUM(ByteEnum, benum1)) == 0);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum2)) == 1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum3)) == ByteConst1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum4)) == ByteConst1 + 1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum5)) == ShortConst1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum6)) == ShortConst1 + 1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum7)) == IntConst1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum8)) == IntConst1 + 1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum9)) == LongConst1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum10)) == LongConst1 + 1);
test(static_cast<int>(ICE_ENUM(ByteEnum, benum11)) == ByteConst2);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum1)) == 3);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum2)) == 4);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum3)) == ByteConst1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum4)) == ByteConst1 + 1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum5)) == ShortConst1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum6)) == ShortConst1 + 1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum7)) == IntConst1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum8)) == IntConst1 + 1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum9)) == LongConst1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum10)) == LongConst1 + 1);
test(static_cast<int>(ICE_ENUM(ShortEnum, senum11)) == ShortConst2);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum1)) == 0);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum2)) == 1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum3)) == ByteConst1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum4)) == ByteConst1 + 1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum5)) == ShortConst1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum6)) == ShortConst1 + 1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum7)) == IntConst1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum8)) == IntConst1 + 1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum9)) == LongConst1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum10)) == LongConst1 + 1);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum11)) == IntConst2);
test(static_cast<int>(ICE_ENUM(IntEnum, ienum12)) == LongConst2);
test(static_cast<int>(ICE_ENUM(SimpleEnum, red)) == 0);
test(static_cast<int>(ICE_ENUM(SimpleEnum, green)) == 1);
test(static_cast<int>(ICE_ENUM(SimpleEnum, blue)) == 2);
cout << "ok" << endl;
#ifndef ICE_CPP11_MAPPING
cout << "testing enum streaming... " << flush;
Ice::ByteSeq bytes;
const bool encoding_1_0 = communicator->getProperties()->getProperty("Ice.Default.EncodingVersion") == "1.0";
{
Ice::OutputStream out(communicator);
out.write(ICE_ENUM(ByteEnum, benum11));
out.finished(bytes);
test(bytes.size() == 1); // ByteEnum should require one byte
}
{
Ice::OutputStream out(communicator);
out.write(ICE_ENUM(ShortEnum, senum11));
out.finished(bytes);
test(bytes.size() == (encoding_1_0 ? 2 : 5));
}
{
Ice::OutputStream out(communicator);
out.write(ICE_ENUM(IntEnum, ienum11));
out.finished(bytes);
test(bytes.size() == (encoding_1_0 ? 4 : 5));
}
{
Ice::OutputStream out(communicator);
out.write(ICE_ENUM(SimpleEnum, blue));
out.finished(bytes);
test(bytes.size() == 1); // SimpleEnum should require one byte
}
cout << "ok" << endl;
#endif
cout << "testing enum operations... " << flush;
ByteEnum byteEnum;
test(proxy->opByte(ICE_ENUM(ByteEnum, benum1), byteEnum) == ICE_ENUM(ByteEnum, benum1));
test(byteEnum == ICE_ENUM(ByteEnum, benum1));
test(proxy->opByte(ICE_ENUM(ByteEnum, benum11), byteEnum) == ICE_ENUM(ByteEnum, benum11));
test(byteEnum == ICE_ENUM(ByteEnum, benum11));
ShortEnum shortEnum;
test(proxy->opShort(ICE_ENUM(ShortEnum, senum1), shortEnum) == ICE_ENUM(ShortEnum, senum1));
test(shortEnum == ICE_ENUM(ShortEnum, senum1));
test(proxy->opShort(ICE_ENUM(ShortEnum, senum11), shortEnum) == ICE_ENUM(ShortEnum, senum11));
test(shortEnum == ICE_ENUM(ShortEnum, senum11));
IntEnum intEnum;
test(proxy->opInt(ICE_ENUM(IntEnum, ienum1), intEnum) == ICE_ENUM(IntEnum, ienum1));
test(intEnum == ICE_ENUM(IntEnum, ienum1));
test(proxy->opInt(ICE_ENUM(IntEnum, ienum11), intEnum) == ICE_ENUM(IntEnum, ienum11));
test(intEnum == ICE_ENUM(IntEnum, ienum11));
test(proxy->opInt(ICE_ENUM(IntEnum, ienum12), intEnum) == ICE_ENUM(IntEnum, ienum12));
test(intEnum == ICE_ENUM(IntEnum, ienum12));
SimpleEnum s;
test(proxy->opSimple(ICE_ENUM(SimpleEnum, green), s) == ICE_ENUM(SimpleEnum, green));
test(s == ICE_ENUM(SimpleEnum, green));
cout << "ok" << endl;
cout << "testing enum sequences operations... " << flush;
{
ByteEnum values[] =
{
ICE_ENUM(ByteEnum, benum1),
ICE_ENUM(ByteEnum, benum2),
ICE_ENUM(ByteEnum, benum3),
ICE_ENUM(ByteEnum, benum4),
ICE_ENUM(ByteEnum, benum5),
ICE_ENUM(ByteEnum, benum6),
ICE_ENUM(ByteEnum, benum7),
ICE_ENUM(ByteEnum, benum8),
ICE_ENUM(ByteEnum, benum9),
ICE_ENUM(ByteEnum, benum10),
ICE_ENUM(ByteEnum, benum11)
};
ByteEnumSeq b1(&values[0], &values[0] + sizeof(values) / sizeof(ByteEnum));
ByteEnumSeq b2;
ByteEnumSeq b3 = proxy->opByteSeq(b1, b2);
for(size_t i = 0; i < b1.size(); ++i)
{
test(b1[i] == b2[i]);
test(b1[i] == b3[i]);
}
}
{
ShortEnum values[] =
{
ICE_ENUM(ShortEnum, senum1),
ICE_ENUM(ShortEnum, senum2),
ICE_ENUM(ShortEnum, senum3),
ICE_ENUM(ShortEnum, senum4),
ICE_ENUM(ShortEnum, senum5),
ICE_ENUM(ShortEnum, senum6),
ICE_ENUM(ShortEnum, senum7),
ICE_ENUM(ShortEnum, senum8),
ICE_ENUM(ShortEnum, senum9),
ICE_ENUM(ShortEnum, senum10),
ICE_ENUM(ShortEnum, senum11)
};
ShortEnumSeq s1(&values[0], &values[0] + sizeof(values) / sizeof(ShortEnum));
ShortEnumSeq s2;
ShortEnumSeq s3 = proxy->opShortSeq(s1, s2);
for(size_t i = 0; i < s1.size(); ++i)
{
test(s1[i] == s2[i]);
test(s1[i] == s3[i]);
}
}
{
IntEnum values[] =
{
ICE_ENUM(IntEnum, ienum1),
ICE_ENUM(IntEnum, ienum2),
ICE_ENUM(IntEnum, ienum3),
ICE_ENUM(IntEnum, ienum4),
ICE_ENUM(IntEnum, ienum5),
ICE_ENUM(IntEnum, ienum6),
ICE_ENUM(IntEnum, ienum7),
ICE_ENUM(IntEnum, ienum8),
ICE_ENUM(IntEnum, ienum9),
ICE_ENUM(IntEnum, ienum10),
ICE_ENUM(IntEnum, ienum11)
};
IntEnumSeq i1(&values[0], &values[0] + sizeof(values) / sizeof(IntEnum));
IntEnumSeq i2;
IntEnumSeq i3 = proxy->opIntSeq(i1, i2);
for(size_t i = 0; i < i1.size(); ++i)
{
test(i1[i] == i2[i]);
test(i1[i] == i3[i]);
}
}
{
SimpleEnum values[] =
{
ICE_ENUM(SimpleEnum, red),
ICE_ENUM(SimpleEnum, green),
ICE_ENUM(SimpleEnum, blue)
};
SimpleEnumSeq s1(&values[0], &values[0] + sizeof(values) / sizeof(SimpleEnum));
SimpleEnumSeq s2;
SimpleEnumSeq s3 = proxy->opSimpleSeq(s1, s2);
for(size_t i = 0; i < s1.size(); ++i)
{
test(s1[i] == s2[i]);
test(s1[i] == s3[i]);
}
}
cout << "ok" << endl;
cout << "testing enum exceptions... " << flush;
try
{
proxy->opByte(static_cast<ByteEnum>(-1), byteEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opByte(static_cast<ByteEnum>(127), byteEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(-1), shortEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(0), shortEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(32767), shortEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opInt(static_cast<IntEnum>(-1), intEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
cout << "ok" << endl;
return proxy;
}
TestIntfPrx
allTests(const Ice::CommunicatorPtr& communicator)
{
string ref = "test:default -p 12010";
Ice::ObjectPrx obj = communicator->stringToProxy(ref);
test(obj);
TestIntfPrx proxy = TestIntfPrx::checkedCast(obj);
test(proxy);
cout << "testing enum values... " << flush;
test(static_cast<int>(benum1) == 0);
test(static_cast<int>(benum2) == 1);
test(static_cast<int>(benum3) == ByteConst1);
test(static_cast<int>(benum4) == ByteConst1 + 1);
test(static_cast<int>(benum5) == ShortConst1);
test(static_cast<int>(benum6) == ShortConst1 + 1);
test(static_cast<int>(benum7) == IntConst1);
test(static_cast<int>(benum8) == IntConst1 + 1);
test(static_cast<int>(benum9) == LongConst1);
test(static_cast<int>(benum10) == LongConst1 + 1);
test(static_cast<int>(benum11) == ByteConst2);
test(static_cast<int>(senum1) == 3);
test(static_cast<int>(senum2) == 4);
test(static_cast<int>(senum3) == ByteConst1);
test(static_cast<int>(senum4) == ByteConst1 + 1);
test(static_cast<int>(senum5) == ShortConst1);
test(static_cast<int>(senum6) == ShortConst1 + 1);
test(static_cast<int>(senum7) == IntConst1);
test(static_cast<int>(senum8) == IntConst1 + 1);
test(static_cast<int>(senum9) == LongConst1);
test(static_cast<int>(senum10) == LongConst1 + 1);
test(static_cast<int>(senum11) == ShortConst2);
test(static_cast<int>(ienum1) == 0);
test(static_cast<int>(ienum2) == 1);
test(static_cast<int>(ienum3) == ByteConst1);
test(static_cast<int>(ienum4) == ByteConst1 + 1);
test(static_cast<int>(ienum5) == ShortConst1);
test(static_cast<int>(ienum6) == ShortConst1 + 1);
test(static_cast<int>(ienum7) == IntConst1);
test(static_cast<int>(ienum8) == IntConst1 + 1);
test(static_cast<int>(ienum9) == LongConst1);
test(static_cast<int>(ienum10) == LongConst1 + 1);
test(static_cast<int>(ienum11) == IntConst2);
test(static_cast<int>(ienum12) == LongConst2);
test(static_cast<int>(red) == 0);
test(static_cast<int>(green) == 1);
test(static_cast<int>(blue) == 2);
cout << "ok" << endl;
cout << "testing enum streaming... " << flush;
Ice::OutputStreamPtr out;
Ice::ByteSeq bytes;
const bool encoding_1_0 = communicator->getProperties()->getProperty("Ice.Default.EncodingVersion") == "1.0";
out = Ice::createOutputStream(communicator);
out->write(benum11);
out->finished(bytes);
test(bytes.size() == 1); // ByteEnum should require one byte
out = Ice::createOutputStream(communicator);
out->write(senum11);
out->finished(bytes);
test(bytes.size() == (encoding_1_0 ? 2 : 5));
out = Ice::createOutputStream(communicator);
out->write(ienum11);
out->finished(bytes);
test(bytes.size() == (encoding_1_0 ? 4 : 5));
out = Ice::createOutputStream(communicator);
out->write(blue);
out->finished(bytes);
test(bytes.size() == 1); // SimpleEnum should require one byte
cout << "ok" << endl;
cout << "testing enum operations... " << flush;
ByteEnum byteEnum;
test(proxy->opByte(benum1, byteEnum) == benum1);
test(byteEnum == benum1);
test(proxy->opByte(benum11, byteEnum) == benum11);
test(byteEnum == benum11);
ShortEnum shortEnum;
test(proxy->opShort(senum1, shortEnum) == senum1);
test(shortEnum == senum1);
test(proxy->opShort(senum11, shortEnum) == senum11);
test(shortEnum == senum11);
IntEnum intEnum;
test(proxy->opInt(ienum1, intEnum) == ienum1);
test(intEnum == ienum1);
test(proxy->opInt(ienum11, intEnum) == ienum11);
test(intEnum == ienum11);
test(proxy->opInt(ienum12, intEnum) == ienum12);
test(intEnum == ienum12);
SimpleEnum s;
test(proxy->opSimple(green, s) == green);
test(s == green);
cout << "ok" << endl;
cout << "testing enum exceptions... " << flush;
try
{
proxy->opByte(static_cast<ByteEnum>(-1), byteEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opByte(static_cast<ByteEnum>(127), byteEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(-1), shortEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(0), shortEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opShort(static_cast<ShortEnum>(32767), shortEnum); // Invalid enumerator
test(false);
}
catch(const Ice::MarshalException&)
{
}
try
{
proxy->opInt(static_cast<IntEnum>(-1), intEnum); // Negative enumerators are not supported
test(false);
}
catch(const Ice::MarshalException&)
{
}
cout << "ok" << endl;
return proxy;
}