Beispiel #1
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
    Test::MyClassPrxPtr allTests(const Ice::CommunicatorPtr&);
    Test::MyClassPrxPtr myClass = allTests(communicator);

    myClass->shutdown();

    return EXIT_SUCCESS;
}
Beispiel #2
0
void
oneways(const Ice::CommunicatorPtr&, const Test::MyClassPrxPtr& proxy)
{
    Test::MyClassPrxPtr p = ICE_UNCHECKED_CAST(Test::MyClassPrx, proxy->ice_oneway());
    
    {
        p->ice_ping();
    }

    {
        try
        {
            p->ice_isA("dummy");
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

    {
        try
        {
            p->ice_id();
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

    {
        try
        {
            p->ice_ids();
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }    

    {
        p->opVoid();
    }

    {
        p->opIdempotent();
    }

    {
        p->opNonmutating();
    }

    {
        Ice::Byte b;

        try
        {
            p->opByte(Ice::Byte(0xff), Ice::Byte(0x0f), b);
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

}
Beispiel #3
0
void
twoways(const Ice::CommunicatorPtr& communicator, const Test::MyClassPrxPtr& p)
{
    {
        p->ice_ping();
    }

    {
#ifdef ICE_CPP11_MAPPING
        test(Test::MyClassPrx::ice_staticId() == Test::MyClassDisp::ice_staticId());
#else
        test(Test::MyClassPrx::ice_staticId() == Test::MyClass::ice_staticId());
#endif
        test(Ice::ObjectPrx::ice_staticId() == Ice::Object::ice_staticId());
    }

    {
        test(p->ice_isA(Test::MyClass::ice_staticId()));
    }

    {
        test(p->ice_id() == Test::MyDerivedClass::ice_staticId());
    }

    {
        Ice::StringSeq ids = p->ice_ids();
        test(ids.size() == 3);
        test(ids[0] == "::Ice::Object");
        test(ids[1] == "::Test::MyClass");
        test(ids[2] == "::Test::MyDerivedClass");
    }

    {
        p->opVoid();
    }

    {
        Ice::Byte b;
        Ice::Byte r;

        r = p->opByte(Ice::Byte(0xff), Ice::Byte(0x0f), b);
        test(b == Ice::Byte(0xf0));
        test(r == Ice::Byte(0xff));
    }

    {
        bool b;
        bool r;

        r = p->opBool(true, false, b);
        test(b);
        test(!r);
    }

    {
        Ice::Short s;
        Ice::Int i;
        Ice::Long l;
        Ice::Long r;

        r = p->opShortIntLong(10, 11, 12, s, i, l);
        test(s == 10);
        test(i == 11);
        test(l == 12);
        test(r == 12);

        r = p->opShortIntLong(numeric_limits<Ice::Short>::min(), numeric_limits<Ice::Int>::min(),
                              numeric_limits<Ice::Long>::min(), s, i, l);
        test(s == numeric_limits<Ice::Short>::min());
        test(i == numeric_limits<Ice::Int>::min());
        test(l == numeric_limits<Ice::Long>::min());
        test(r == numeric_limits<Ice::Long>::min());

        r = p->opShortIntLong(numeric_limits<Ice::Short>::max(), numeric_limits<Ice::Int>::max(),
                              numeric_limits<Ice::Long>::max(), s, i, l);
        test(s == numeric_limits<Ice::Short>::max());
        test(i == numeric_limits<Ice::Int>::max());
        test(l == numeric_limits<Ice::Long>::max());
        test(r == numeric_limits<Ice::Long>::max());
    }

    {
        Ice::Float f;
        Ice::Double d;
        Ice::Double r;

        r = p->opFloatDouble(Ice::Float(3.14), Ice::Double(1.1E10), f, d);
        test(f == Ice::Float(3.14));
        test(d == Ice::Double(1.1E10));
        test(r == Ice::Double(1.1E10));

        r = p->opFloatDouble(numeric_limits<Ice::Float>::min(), numeric_limits<Ice::Double>::min(), f, d);
        test(f == numeric_limits<Ice::Float>::min());
        test(d == numeric_limits<Ice::Double>::min());
        test(r == numeric_limits<Ice::Double>::min());

        r = p->opFloatDouble(numeric_limits<Ice::Float>::max(), numeric_limits<Ice::Double>::max(), f, d);
        test(f == numeric_limits<Ice::Float>::max());
        test(d == numeric_limits<Ice::Double>::max());
        test(r == numeric_limits<Ice::Double>::max());
    }

    {
        string s;
        string r;

        r = p->opString("hello", "world", s);
        test(s == "world hello");
        test(r == "hello world");
    }

    {
        Test::MyEnum e;
        Test::MyEnum r;

        r = p->opMyEnum(ICE_ENUM(MyEnum, enum2), e);
        test(e == ICE_ENUM(MyEnum, enum2));
        test(r == ICE_ENUM(MyEnum, enum3));
    }

    {
        Test::MyClassPrxPtr c1;
        Test::MyClassPrxPtr c2;
        Test::MyClassPrxPtr r;

        r = p->opMyClass(p, c1, c2);
        test(Ice::proxyIdentityAndFacetEqual(c1, p));
        test(!Ice::proxyIdentityAndFacetEqual(c2, p));
        test(Ice::proxyIdentityAndFacetEqual(r, p));
        test(c1->ice_getIdentity() == communicator->stringToIdentity("test"));
        test(c2->ice_getIdentity() == communicator->stringToIdentity("noSuchIdentity"));
        test(r->ice_getIdentity() == communicator->stringToIdentity("test"));
        r->opVoid();
        c1->opVoid();
        try
        {
            c2->opVoid();
            test(false);
        }
        catch(const Ice::ObjectNotExistException&)
        {
        }

        r = p->opMyClass(0, c1, c2);
        test(c1 == 0);
        test(c2 != 0);
        test(Ice::proxyIdentityAndFacetEqual(r, p));
        r->opVoid();
    }


    {
        Test::Structure si1;
        si1.p = p;
        si1.e = ICE_ENUM(MyEnum, enum3);
        si1.s.s = "abc";
        Test::Structure si2;
        si2.p = 0;
        si2.e = ICE_ENUM(MyEnum, enum2);
        si2.s.s = "def";

        Test::Structure so;
        Test::Structure rso = p->opStruct(si1, si2, so);
        test(rso.p == 0);
        test(rso.e == ICE_ENUM(MyEnum, enum2));
        test(rso.s.s == "def");
#ifdef ICE_CPP11_MAPPING
        test(Ice::targetEquals(so.p, p));
#else
        test(so.p == p);
#endif
        test(so.e == ICE_ENUM(MyEnum, enum3));
        test(so.s.s == "a new string");
        so.p->opVoid();
    }

    {
        Test::ByteS bsi1;
        Test::ByteS bsi2;

        bsi1.push_back(Ice::Byte(0x01));
        bsi1.push_back(Ice::Byte(0x11));
        bsi1.push_back(Ice::Byte(0x12));
        bsi1.push_back(Ice::Byte(0x22));

        bsi2.push_back(Ice::Byte(0xf1));
        bsi2.push_back(Ice::Byte(0xf2));
        bsi2.push_back(Ice::Byte(0xf3));
        bsi2.push_back(Ice::Byte(0xf4));

        Test::ByteS bso;
        Test::ByteS rso;

        rso = p->opByteS(bsi1, bsi2, bso);
        test(bso.size() == 4);
        test(bso[0] == Ice::Byte(0x22));
        test(bso[1] == Ice::Byte(0x12));
        test(bso[2] == Ice::Byte(0x11));
        test(bso[3] == Ice::Byte(0x01));
        test(rso.size() == 8);
        test(rso[0] == Ice::Byte(0x01));
        test(rso[1] == Ice::Byte(0x11));
        test(rso[2] == Ice::Byte(0x12));
        test(rso[3] == Ice::Byte(0x22));
        test(rso[4] == Ice::Byte(0xf1));
        test(rso[5] == Ice::Byte(0xf2));
        test(rso[6] == Ice::Byte(0xf3));
        test(rso[7] == Ice::Byte(0xf4));
    }

    {
        Test::BoolS bsi1;
        Test::BoolS bsi2;

        bsi1.push_back(true);
        bsi1.push_back(true);
        bsi1.push_back(false);

        bsi2.push_back(false);

        Test::BoolS bso;
        Test::BoolS rso;

        rso = p->opBoolS(bsi1, bsi2, bso);
        test(bso.size() == 4);
        test(bso[0]);
        test(bso[1]);
        test(!bso[2]);
        test(!bso[3]);
        test(rso.size() == 3);
        test(!rso[0]);
        test(rso[1]);
        test(rso[2]);
    }

    {
        Test::ShortS ssi;
        Test::IntS isi;
        Test::LongS lsi;

        ssi.push_back(1);
        ssi.push_back(2);
        ssi.push_back(3);

        isi.push_back(5);
        isi.push_back(6);
        isi.push_back(7);
        isi.push_back(8);

        lsi.push_back(10);
        lsi.push_back(30);
        lsi.push_back(20);

        Test::ShortS sso;
        Test::IntS iso;
        Test::LongS lso;
        Test::LongS rso;

        rso = p->opShortIntLongS(ssi, isi, lsi, sso, iso, lso);
        test(sso.size() == 3);
        test(sso[0] == 1);
        test(sso[1] == 2);
        test(sso[2] == 3);
        test(iso.size() == 4);
        test(iso[0] == 8);
        test(iso[1] == 7);
        test(iso[2] == 6);
        test(iso[3] == 5);
        test(lso.size() == 6);
        test(lso[0] == 10);
        test(lso[1] == 30);
        test(lso[2] == 20);
        test(lso[3] == 10);
        test(lso[4] == 30);
        test(lso[5] == 20);
        test(rso.size() == 3);
        test(rso[0] == 10);
        test(rso[1] == 30);
        test(rso[2] == 20);
    }

    {
        Test::FloatS fsi;
        Test::DoubleS dsi;

        fsi.push_back(Ice::Float(3.14));
        fsi.push_back(Ice::Float(1.11));

        dsi.push_back(Ice::Double(1.1E10));
        dsi.push_back(Ice::Double(1.2E10));
        dsi.push_back(Ice::Double(1.3E10));

        Test::FloatS fso;
        Test::DoubleS dso;
        Test::DoubleS rso;

        rso = p->opFloatDoubleS(fsi, dsi, fso, dso);
        test(fso.size() == 2);
        test(fso[0] == ::Ice::Float(3.14));
        test(fso[1] == ::Ice::Float(1.11));
        test(dso.size() == 3);
        test(dso[0] == ::Ice::Double(1.3E10));
        test(dso[1] == ::Ice::Double(1.2E10));
        test(dso[2] == ::Ice::Double(1.1E10));
        test(rso.size() == 5);
        test(rso[0] == ::Ice::Double(1.1E10));
        test(rso[1] == ::Ice::Double(1.2E10));
        test(rso[2] == ::Ice::Double(1.3E10));
        test(::Ice::Float(rso[3]) == ::Ice::Float(3.14));
        test(::Ice::Float(rso[4]) == ::Ice::Float(1.11));
    }

    {
        Test::StringS ssi1;
        Test::StringS ssi2;

        ssi1.push_back("abc");
        ssi1.push_back("de");
        ssi1.push_back("fghi");

        ssi2.push_back("xyz");

        Test::StringS sso;
        Test::StringS rso;

        rso = p->opStringS(ssi1, ssi2, sso);
        test(sso.size() == 4);
        test(sso[0] == "abc");
        test(sso[1] == "de");
        test(sso[2] == "fghi");
        test(sso[3] == "xyz");
        test(rso.size() == 3);
        test(rso[0] == "fghi");
        test(rso[1] == "de");
        test(rso[2] == "abc");
    }

    {
        Test::ByteSS bsi1;
        bsi1.resize(2);
        Test::ByteSS bsi2;
        bsi2.resize(2);

        bsi1[0].push_back(Ice::Byte(0x01));
        bsi1[0].push_back(Ice::Byte(0x11));
        bsi1[0].push_back(Ice::Byte(0x12));
        bsi1[1].push_back(Ice::Byte(0xff));

        bsi2[0].push_back(Ice::Byte(0x0e));
        bsi2[1].push_back(Ice::Byte(0xf2));
        bsi2[1].push_back(Ice::Byte(0xf1));

        Test::ByteSS bso;
        Test::ByteSS rso;

        rso = p->opByteSS(bsi1, bsi2, bso);
        test(bso.size() == 2);
        test(bso[0].size() == 1);
        test(bso[0][0] == Ice::Byte(0xff));
        test(bso[1].size() == 3);
        test(bso[1][0] == Ice::Byte(0x01));
        test(bso[1][1] == Ice::Byte(0x11));
        test(bso[1][2] == Ice::Byte(0x12));
        test(rso.size() == 4);
        test(rso[0].size() == 3);
        test(rso[0][0] == Ice::Byte(0x01));
        test(rso[0][1] == Ice::Byte(0x11));
        test(rso[0][2] == Ice::Byte(0x12));
        test(rso[1].size() == 1);
        test(rso[1][0] == Ice::Byte(0xff));
        test(rso[2].size() == 1);
        test(rso[2][0] == Ice::Byte(0x0e));
        test(rso[3].size() == 2);
        test(rso[3][0] == Ice::Byte(0xf2));
        test(rso[3][1] == Ice::Byte(0xf1));
    }

    {
        Test::BoolSS bsi1;
        bsi1.resize(3);
        Test::BoolSS bsi2;
        bsi2.resize(1);

        bsi1[0].push_back(true);
        bsi1[1].push_back(false);
        bsi1[2].push_back(true);
        bsi1[2].push_back(true);

        bsi2[0].push_back(false);
        bsi2[0].push_back(false);
        bsi2[0].push_back(true);

        Test::BoolSS bso;
        Test::BoolSS rso;

        rso = p->opBoolSS(bsi1, bsi2, bso);
        test(bso.size() == 4);
        test(bso[0].size() == 1);
        test(bso[0][0]);
        test(bso[1].size() == 1);
        test(!bso[1][0]);
        test(bso[2].size() == 2);
        test(bso[2][0]);
        test(bso[2][1]);
        test(bso[3].size() == 3);
        test(!bso[3][0]);
        test(!bso[3][1]);
        test(bso[3][2]);
        test(rso.size() == 3);
        test(rso[0].size() == 2);
        test(rso[0][0]);
        test(rso[0][1]);
        test(rso[1].size() == 1);
        test(!rso[1][0]);
        test(rso[2].size() == 1);
        test(rso[2][0]);
    }

    {
        Test::ShortSS ssi;
        ssi.resize(3);
        Test::IntSS isi;
        isi.resize(2);
        Test::LongSS lsi;
        lsi.resize(1);
        ssi[0].push_back(1);
        ssi[0].push_back(2);
        ssi[0].push_back(5);
        ssi[1].push_back(13);
        isi[0].push_back(24);
        isi[0].push_back(98);
        isi[1].push_back(42);
        lsi[0].push_back(496);
        lsi[0].push_back(1729);

        Test::LongSS rso;
        Test::ShortSS sso;
        Test::IntSS iso;
        Test::LongSS lso;

        rso = p->opShortIntLongSS(ssi, isi, lsi, sso, iso, lso);
        test(rso.size() == 1);
        test(rso[0].size() == 2);
        test(rso[0][0] == 496);
        test(rso[0][1] == 1729);
        test(sso.size() == 3);
        test(sso[0].size() == 3);
        test(sso[0][0] == 1);
        test(sso[0][1] == 2);
        test(sso[0][2] == 5);
        test(sso[1].size() == 1);
        test(sso[1][0] == 13);
        test(sso[2].size() == 0);
        test(iso.size() == 2);
        test(iso[0].size() == 1);
        test(iso[0][0] == 42);
        test(iso[1].size() == 2);
        test(iso[1][0] == 24);
        test(iso[1][1] == 98);
        test(lso.size() == 2);
        test(lso[0].size() == 2);
        test(lso[0][0] == 496);
        test(lso[0][1] == 1729);
        test(lso[1].size() == 2);
        test(lso[1][0] == 496);
        test(lso[1][1] == 1729);
    }

    {
        Test::FloatSS fsi;
        fsi.resize(3);
        Test::DoubleSS dsi;
        dsi.resize(1);

        fsi[0].push_back(Ice::Float(3.14));
        fsi[1].push_back(Ice::Float(1.11));

        dsi[0].push_back(Ice::Double(1.1E10));
        dsi[0].push_back(Ice::Double(1.2E10));
        dsi[0].push_back(Ice::Double(1.3E10));

        Test::FloatSS fso;
        Test::DoubleSS dso;
        Test::DoubleSS rso;

        rso = p->opFloatDoubleSS(fsi, dsi, fso, dso);
        test(fso.size() == 3);
        test(fso[0].size() == 1);
        test(fso[0][0] == ::Ice::Float(3.14));
        test(fso[1].size() == 1);
        test(fso[1][0] == ::Ice::Float(1.11));
        test(fso[2].size() == 0);
        test(dso.size() == 1);
        test(dso[0].size() == 3);
        test(dso[0][0] == ::Ice::Double(1.1E10));
        test(dso[0][1] == ::Ice::Double(1.2E10));
        test(dso[0][2] == ::Ice::Double(1.3E10));
        test(rso.size() == 2);
        test(rso[0].size() == 3);
        test(rso[0][0] == ::Ice::Double(1.1E10));
        test(rso[0][1] == ::Ice::Double(1.2E10));
        test(rso[0][2] == ::Ice::Double(1.3E10));
        test(rso[1].size() == 3);
        test(rso[1][0] == ::Ice::Double(1.1E10));
        test(rso[1][1] == ::Ice::Double(1.2E10));
        test(rso[1][2] == ::Ice::Double(1.3E10));
    }

    {
        Test::StringSS ssi1;
        ssi1.resize(2);
        Test::StringSS ssi2;
        ssi2.resize(3);

        ssi1[0].push_back("abc");
        ssi1[1].push_back("de");
        ssi1[1].push_back("fghi");

        ssi2[2].push_back("xyz");

        Test::StringSS sso;
        Test::StringSS rso;

        rso = p->opStringSS(ssi1, ssi2, sso);
        test(sso.size() == 5);
        test(sso[0].size() == 1);
        test(sso[0][0] == "abc");
        test(sso[1].size() == 2);
        test(sso[1][0] == "de");
        test(sso[1][1] == "fghi");
        test(sso[2].size() == 0);
        test(sso[3].size() == 0);
        test(sso[4].size() == 1);
        test(sso[4][0] == "xyz");
        test(rso.size() == 3);
        test(rso[0].size() == 1);
        test(rso[0][0] == "xyz");
        test(rso[1].size() == 0);
        test(rso[2].size() == 0);
    }

    {
        Test::StringSSS sssi1;
        sssi1.resize(2);
        sssi1[0].resize(2);
        sssi1[0][0].push_back("abc");
        sssi1[0][0].push_back("de");
        sssi1[0][1].push_back("xyz");
        sssi1[1].resize(1);
        sssi1[1][0].push_back("hello");

        Test::StringSSS sssi2;
        sssi2.resize(3);
        sssi2[0].resize(2);
        sssi2[0][0].push_back("");
        sssi2[0][0].push_back("");
        sssi2[0][1].push_back("abcd");
        sssi2[1].resize(1);
        sssi2[1][0].push_back("");

        Test::StringSSS ssso;
        Test::StringSSS rsso;

        rsso = p->opStringSSS(sssi1, sssi2, ssso);
        test(ssso.size() == 5);
        test(ssso[0].size() == 2);
        test(ssso[0][0].size() == 2);
        test(ssso[0][1].size() == 1);
        test(ssso[1].size() == 1);
        test(ssso[1][0].size() == 1);
        test(ssso[2].size() == 2);
        test(ssso[2][0].size() == 2);
        test(ssso[2][1].size() == 1);
        test(ssso[3].size() == 1);
        test(ssso[3][0].size() == 1);
        test(ssso[4].size() == 0);
        test(ssso[0][0][0] == "abc");
        test(ssso[0][0][1] == "de");
        test(ssso[0][1][0] == "xyz");
        test(ssso[1][0][0] == "hello");
        test(ssso[2][0][0] == "");
        test(ssso[2][0][1] == "");
        test(ssso[2][1][0] == "abcd");
        test(ssso[3][0][0] == "");

        test(rsso.size() == 3);
        test(rsso[0].size() == 0);
        test(rsso[1].size() == 1);
        test(rsso[1][0].size() == 1);
        test(rsso[2].size() == 2);
        test(rsso[2][0].size() == 2);
        test(rsso[2][1].size() == 1);
        test(rsso[1][0][0] == "");
        test(rsso[2][0][0] == "");
        test(rsso[2][0][1] == "");
        test(rsso[2][1][0] == "abcd");
    }

    {
        Test::ByteBoolD di1;
        di1[10] = true;
        di1[100] = false;
        Test::ByteBoolD di2;
        di2[10] = true;
        di2[11] = false;
        di2[101] = true;

        Test::ByteBoolD _do;
        Test::ByteBoolD ro = p->opByteBoolD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro[10] == true);
        test(ro[11] == false);
        test(ro[100] == false);
        test(ro[101] == true);
    }

    {
        Test::ShortIntD di1;
        di1[110] = -1;
        di1[1100] = 123123;
        Test::ShortIntD di2;
        di2[110] = -1;
        di2[111] = -100;
        di2[1101] = 0;

        Test::ShortIntD _do;
        Test::ShortIntD ro = p->opShortIntD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro[110] == -1);
        test(ro[111] == -100);
        test(ro[1100] == 123123);
        test(ro[1101] == 0);
    }

    {
        Test::LongFloatD di1;
        di1[999999110] = Ice::Float(-1.1);
        di1[999999111] = Ice::Float(123123.2);
        Test::LongFloatD di2;
        di2[999999110] = Ice::Float(-1.1);
        di2[999999120] = Ice::Float(-100.4);
        di2[999999130] = Ice::Float(0.5);

        Test::LongFloatD _do;
        Test::LongFloatD ro = p->opLongFloatD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro[999999110] == Ice::Float(-1.1));
        test(ro[999999120] == Ice::Float(-100.4));
        test(ro[999999111] == Ice::Float(123123.2));
        test(ro[999999130] == Ice::Float(0.5));
    }

    {
        Test::StringStringD di1;
        di1["foo"] = "abc -1.1";
        di1["bar"] = "abc 123123.2";
        Test::StringStringD di2;
        di2["foo"] = "abc -1.1";
        di2["FOO"] = "abc -100.4";
        di2["BAR"] = "abc 0.5";

        Test::StringStringD _do;
        Test::StringStringD ro = p->opStringStringD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro["foo"] == "abc -1.1");
        test(ro["FOO"] == "abc -100.4");
        test(ro["bar"] == "abc 123123.2");
        test(ro["BAR"] == "abc 0.5");
    }

    {
        Test::StringMyEnumD di1;
        di1["abc"] = ICE_ENUM(MyEnum, enum1);
        di1[""] = ICE_ENUM(MyEnum, enum2);
        Test::StringMyEnumD di2;
        di2["abc"] = ICE_ENUM(MyEnum, enum1);
        di2["qwerty"] = ICE_ENUM(MyEnum, enum3);
        di2["Hello!!"] = ICE_ENUM(MyEnum, enum2);

        Test::StringMyEnumD _do;
        Test::StringMyEnumD ro = p->opStringMyEnumD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro["abc"] == ICE_ENUM(MyEnum, enum1));
        test(ro["qwerty"] == ICE_ENUM(MyEnum, enum3));
        test(ro[""] == ICE_ENUM(MyEnum, enum2));
        test(ro["Hello!!"] == ICE_ENUM(MyEnum, enum2));
    }

    {
        Test::MyEnumStringD di1;
        di1[ICE_ENUM(MyEnum, enum1)] = "abc";
        Test::MyEnumStringD di2;
        di2[ICE_ENUM(MyEnum, enum2)] = "Hello!!";
        di2[ICE_ENUM(MyEnum, enum3)] = "qwerty";

        Test::MyEnumStringD _do;
        Test::MyEnumStringD ro = p->opMyEnumStringD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 3);
        test(ro[ICE_ENUM(MyEnum, enum1)] == "abc");
        test(ro[ICE_ENUM(MyEnum, enum2)] == "Hello!!");
        test(ro[ICE_ENUM(MyEnum, enum3)] == "qwerty");
    }

    {
        Test::MyStruct s11 = { 1, 1 };
        Test::MyStruct s12 = { 1, 2 };
        Test::MyStructMyEnumD di1;
        di1[s11] = ICE_ENUM(MyEnum, enum1);
        di1[s12] = ICE_ENUM(MyEnum, enum2);

        Test::MyStruct s22 = { 2, 2 };
        Test::MyStruct s23 = { 2, 3 };
        Test::MyStructMyEnumD di2;
        di2[s11] = ICE_ENUM(MyEnum, enum1);
        di2[s22] = ICE_ENUM(MyEnum, enum3);
        di2[s23] = ICE_ENUM(MyEnum, enum2);

        Test::MyStructMyEnumD _do;
        Test::MyStructMyEnumD ro = p->opMyStructMyEnumD(di1, di2, _do);

        test(_do == di1);
        test(ro.size() == 4);
        test(ro[s11] == ICE_ENUM(MyEnum, enum1));
        test(ro[s12] == ICE_ENUM(MyEnum, enum2));
        test(ro[s22] == ICE_ENUM(MyEnum, enum3));
        test(ro[s23] == ICE_ENUM(MyEnum, enum2));
    }

    {
        Test::ByteBoolDS dsi1;
        dsi1.resize(2);
        Test::ByteBoolDS dsi2;
        dsi2.resize(1);

        Test::ByteBoolD di1;
        di1[10] = true;
        di1[100] = false;
        Test::ByteBoolD di2;
        di2[10] = true;
        di2[11] = false;
        di2[101] = true;
        Test::ByteBoolD di3;
        di3[100] = false;
        di3[101] = false;

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try {
            Test::ByteBoolDS _do;
            Test::ByteBoolDS ro = p->opByteBoolDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0][10] == true);
            test(ro[0][11] == false);
            test(ro[0][101] == true);
            test(ro[1].size() == 2);
            test(ro[1][10] == true);
            test(ro[1][100] == false);

            test(_do.size() == 3);
            test(_do[0].size() == 2);
            test(_do[0][100] == false);
            test(_do[0][101] == false);
            test(_do[1].size() == 2);
            test(_do[1][10] == true);
            test(_do[1][100] == false);
            test(_do[2].size() == 3);
            test(_do[2][10] == true);
            test(_do[2][11] == false);
            test(_do[2][101] == true);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::ShortIntDS dsi1;
        dsi1.resize(2);
        Test::ShortIntDS dsi2;
        dsi2.resize(1);

        Test::ShortIntD di1;
        di1[110] = -1;
        di1[1100] = 123123;
        Test::ShortIntD di2;
        di2[110] = -1;
        di2[111] = -100;
        di2[1101] = 0;
        Test::ShortIntD di3;
        di3[100] = -1001;

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::ShortIntDS _do;
            Test::ShortIntDS ro = p->opShortIntDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0][110] == -1);
            test(ro[0][111] == -100);
            test(ro[0][1101] == 0);
            test(ro[1].size() == 2);
            test(ro[1][110] == -1);
            test(ro[1][1100] == 123123);

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0][100] == -1001);
            test(_do[1].size() == 2);
            test(_do[1][110] == -1);
            test(_do[1][1100] == 123123);
            test(_do[2].size() == 3);
            test(_do[2][110] == -1);
            test(_do[2][111] == -100);
            test(_do[2][1101] == 0);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::LongFloatDS dsi1;
        dsi1.resize(2);
        Test::LongFloatDS dsi2;
        dsi2.resize(1);

        Test::LongFloatD di1;
        di1[999999110] = Ice::Float(-1.1);
        di1[999999111] = Ice::Float(123123.2);
        Test::LongFloatD di2;
        di2[999999110] = Ice::Float(-1.1);
        di2[999999120] = Ice::Float(-100.4);
        di2[999999130] = Ice::Float(0.5);
        Test::LongFloatD di3;
        di3[999999140] = Ice::Float(3.14);

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::LongFloatDS _do;
            Test::LongFloatDS ro = p->opLongFloatDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0][999999110] == Ice::Float(-1.1));
            test(ro[0][999999120] == Ice::Float(-100.4));
            test(ro[0][999999130] == Ice::Float(0.5));
            test(ro[1].size() == 2);
            test(ro[1][999999110] == Ice::Float(-1.1));
            test(ro[1][999999111] == Ice::Float(123123.2));

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0][999999140] == Ice::Float(3.14));
            test(_do[1].size() == 2);
            test(_do[1][999999110] == Ice::Float(-1.1));
            test(_do[1][999999111] == Ice::Float(123123.2));
            test(_do[2].size() == 3);
            test(_do[2][999999110] == Ice::Float(-1.1));
            test(_do[2][999999120] == Ice::Float(-100.4));
            test(_do[2][999999130] == Ice::Float(0.5));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::StringStringDS dsi1;
        dsi1.resize(2);
        Test::StringStringDS dsi2;
        dsi2.resize(1);

        Test::StringStringD di1;
        di1["foo"] = "abc -1.1";
        di1["bar"] = "abc 123123.2";
        Test::StringStringD di2;
        di2["foo"] = "abc -1.1";
        di2["FOO"] = "abc -100.4";
        di2["BAR"] = "abc 0.5";
        Test::StringStringD di3;
        di3["f00"] = "ABC -3.14";

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::StringStringDS _do;
            Test::StringStringDS ro = p->opStringStringDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0]["foo"] == "abc -1.1");
            test(ro[0]["FOO"] == "abc -100.4");
            test(ro[0]["BAR"] == "abc 0.5");
            test(ro[1].size() == 2);
            test(ro[1]["foo"] == "abc -1.1");
            test(ro[1]["bar"] == "abc 123123.2");

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0]["f00"] == "ABC -3.14");
            test(_do[1].size() == 2);
            test(_do[1]["foo"] == "abc -1.1");
            test(_do[1]["bar"] == "abc 123123.2");
            test(_do[2].size() == 3);
            test(_do[2]["foo"] == "abc -1.1");
            test(_do[2]["FOO"] == "abc -100.4");
            test(_do[2]["BAR"] == "abc 0.5");
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::StringMyEnumDS dsi1;
        dsi1.resize(2);
        Test::StringMyEnumDS dsi2;
        dsi2.resize(1);

        Test::StringMyEnumD di1;
        di1["abc"] = ICE_ENUM(MyEnum, enum1);
        di1[""] = ICE_ENUM(MyEnum, enum2);
        Test::StringMyEnumD di2;
        di2["abc"] = ICE_ENUM(MyEnum, enum1);
        di2["qwerty"] = ICE_ENUM(MyEnum, enum3);
        di2["Hello!!"] = ICE_ENUM(MyEnum, enum2);
        Test::StringMyEnumD di3;
        di3["Goodbye"] = ICE_ENUM(MyEnum, enum1);

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::StringMyEnumDS _do;
            Test::StringMyEnumDS ro = p->opStringMyEnumDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0]["abc"] == ICE_ENUM(MyEnum, enum1));
            test(ro[0]["qwerty"] == ICE_ENUM(MyEnum, enum3));
            test(ro[0]["Hello!!"] == ICE_ENUM(MyEnum, enum2));
            test(ro[1].size() == 2);
            test(ro[1]["abc"] == ICE_ENUM(MyEnum, enum1));
            test(ro[1][""] == ICE_ENUM(MyEnum, enum2));

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0]["Goodbye"] == ICE_ENUM(MyEnum, enum1));
            test(_do[1].size() == 2);
            test(_do[1]["abc"] == ICE_ENUM(MyEnum, enum1));
            test(_do[1][""] == ICE_ENUM(MyEnum, enum2));
            test(_do[2].size() == 3);
            test(_do[2]["abc"] == ICE_ENUM(MyEnum, enum1));
            test(_do[2]["qwerty"] == ICE_ENUM(MyEnum, enum3));
            test(_do[2]["Hello!!"] == ICE_ENUM(MyEnum, enum2));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::MyEnumStringDS dsi1;
        dsi1.resize(2);
        Test::MyEnumStringDS dsi2;
        dsi2.resize(1);

        Test::MyEnumStringD di1;
        di1[ICE_ENUM(MyEnum, enum1)] = "abc";
        Test::MyEnumStringD di2;
        di2[ICE_ENUM(MyEnum, enum2)] = "Hello!!";
        di2[ICE_ENUM(MyEnum, enum3)] = "qwerty";
        Test::MyEnumStringD di3;
        di3[ICE_ENUM(MyEnum, enum1)] = "Goodbye";

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::MyEnumStringDS _do;
            Test::MyEnumStringDS ro = p->opMyEnumStringDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 2);
            test(ro[0][ICE_ENUM(MyEnum, enum2)] == "Hello!!");
            test(ro[0][ICE_ENUM(MyEnum, enum3)] == "qwerty");
            test(ro[1].size() == 1);
            test(ro[1][ICE_ENUM(MyEnum, enum1)] == "abc");

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0][ICE_ENUM(MyEnum, enum1)] == "Goodbye");
            test(_do[1].size() == 1);
            test(_do[1][ICE_ENUM(MyEnum, enum1)] == "abc");
            test(_do[2].size() == 2);
            test(_do[2][ICE_ENUM(MyEnum, enum2)] == "Hello!!");
            test(_do[2][ICE_ENUM(MyEnum, enum3)] == "qwerty");
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::MyStructMyEnumDS dsi1;
        dsi1.resize(2);
        Test::MyStructMyEnumDS dsi2;
        dsi2.resize(1);

        Test::MyStruct s11 = { 1, 1 };
        Test::MyStruct s12 = { 1, 2 };
        Test::MyStructMyEnumD di1;
        di1[s11] = ICE_ENUM(MyEnum, enum1);
        di1[s12] = ICE_ENUM(MyEnum, enum2);

        Test::MyStruct s22 = { 2, 2 };
        Test::MyStruct s23 = { 2, 3 };
        Test::MyStructMyEnumD di2;
        di2[s11] = ICE_ENUM(MyEnum, enum1);
        di2[s22] = ICE_ENUM(MyEnum, enum3);
        di2[s23] = ICE_ENUM(MyEnum, enum2);

        Test::MyStructMyEnumD di3;
        di3[s23] = ICE_ENUM(MyEnum, enum3);

        dsi1[0] = di1;
        dsi1[1] = di2;
        dsi2[0] = di3;

        try
        {
            Test::MyStructMyEnumDS _do;
            Test::MyStructMyEnumDS ro = p->opMyStructMyEnumDS(dsi1, dsi2, _do);

            test(ro.size() == 2);
            test(ro[0].size() == 3);
            test(ro[0][s11] == ICE_ENUM(MyEnum, enum1));
            test(ro[0][s22] == ICE_ENUM(MyEnum, enum3));
            test(ro[0][s23] == ICE_ENUM(MyEnum, enum2));
            test(ro[1].size() == 2);
            test(ro[1][s11] == ICE_ENUM(MyEnum, enum1));
            test(ro[1][s12] == ICE_ENUM(MyEnum, enum2));

            test(_do.size() == 3);
            test(_do[0].size() == 1);
            test(_do[0][s23] == ICE_ENUM(MyEnum, enum3));
            test(_do[1].size() == 2);
            test(_do[1][s11] == ICE_ENUM(MyEnum, enum1));
            test(_do[1][s12] == ICE_ENUM(MyEnum, enum2));
            test(_do[2].size() == 3);
            test(_do[2][s11] == ICE_ENUM(MyEnum, enum1));
            test(_do[2][s22] == ICE_ENUM(MyEnum, enum3));
            test(_do[2][s23] == ICE_ENUM(MyEnum, enum2));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::ByteByteSD sdi1;
        Test::ByteByteSD sdi2;

        Test::ByteS si1;
        Test::ByteS si2;
        Test::ByteS si3;

        si1.push_back(Ice::Byte(0x01));
        si1.push_back(Ice::Byte(0x11));
        si2.push_back(Ice::Byte(0x12));
        si3.push_back(Ice::Byte(0xf2));
        si3.push_back(Ice::Byte(0xf3));

        sdi1[Ice::Byte(0x01)] = si1;
        sdi1[Ice::Byte(0x22)] = si2;
        sdi2[Ice::Byte(0xf1)] = si3;

        try
        {
            Test::ByteByteSD _do;
            Test::ByteByteSD ro = p->opByteByteSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro[Ice::Byte(0x01)].size() == 2);
            test(ro[Ice::Byte(0x01)][0] == Ice::Byte(0x01));
            test(ro[Ice::Byte(0x01)][1] == Ice::Byte(0x11));
            test(ro[Ice::Byte(0x22)].size() == 1);
            test(ro[Ice::Byte(0x22)][0] == Ice::Byte(0x12));
            test(ro[Ice::Byte(0xf1)].size() == 2);
            test(ro[Ice::Byte(0xf1)][0] == Ice::Byte(0xf2));
            test(ro[Ice::Byte(0xf1)][1] == Ice::Byte(0xf3));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::BoolBoolSD sdi1;
        Test::BoolBoolSD sdi2;

        Test::BoolS si1;
        Test::BoolS si2;

        si1.push_back(true);
        si1.push_back(false);
        si2.push_back(false);
        si2.push_back(true);
        si2.push_back(true);

        sdi1[false] = si1;
        sdi1[true] = si2;
        sdi2[false] = si1;

        try
        {
            Test::BoolBoolSD _do;
            Test::BoolBoolSD ro = p->opBoolBoolSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 2);
            test(ro[false].size() == 2);
            test(ro[false][0] == true);
            test(ro[false][1] == false);
            test(ro[true].size() == 3);
            test(ro[true][0] == false);
            test(ro[true][1] == true);
            test(ro[true][2] == true);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::ShortShortSD sdi1;
        Test::ShortShortSD sdi2;

        Test::ShortS si1;
        Test::ShortS si2;
        Test::ShortS si3;

        si1.push_back(1);
        si1.push_back(2);
        si1.push_back(3);
        si2.push_back(4);
        si2.push_back(5);
        si3.push_back(6);
        si3.push_back(7);

        sdi1[1] = si1;
        sdi1[2] = si2;
        sdi2[4] = si3;

        try
        {
            Test::ShortShortSD _do;
            Test::ShortShortSD ro = p->opShortShortSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro[1].size() == 3);
            test(ro[1][0] == 1);
            test(ro[1][1] == 2);
            test(ro[1][2] == 3);
            test(ro[2].size() == 2);
            test(ro[2][0] == 4);
            test(ro[2][1] == 5);
            test(ro[4].size() == 2);
            test(ro[4][0] == 6);
            test(ro[4][1] == 7);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::IntIntSD sdi1;
        Test::IntIntSD sdi2;

        Test::IntS si1;
        Test::IntS si2;
        Test::IntS si3;

        si1.push_back(100);
        si1.push_back(200);
        si1.push_back(300);
        si2.push_back(400);
        si2.push_back(500);
        si3.push_back(600);
        si3.push_back(700);

        sdi1[100] = si1;
        sdi1[200] = si2;
        sdi2[400] = si3;

        try
        {
            Test::IntIntSD _do;
            Test::IntIntSD ro = p->opIntIntSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro[100].size() == 3);
            test(ro[100][0] == 100);
            test(ro[100][1] == 200);
            test(ro[100][2] == 300);
            test(ro[200].size() == 2);
            test(ro[200][0] == 400);
            test(ro[200][1] == 500);
            test(ro[400].size() == 2);
            test(ro[400][0] == 600);
            test(ro[400][1] == 700);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::LongLongSD sdi1;
        Test::LongLongSD sdi2;

        Test::LongS si1;
        Test::LongS si2;
        Test::LongS si3;

        si1.push_back(999999110);
        si1.push_back(999999111);
        si1.push_back(999999110);
        si2.push_back(999999120);
        si2.push_back(999999130);
        si3.push_back(999999110);
        si3.push_back(999999120);

        sdi1[999999990] = si1;
        sdi1[999999991] = si2;
        sdi2[999999992] = si3;

        try
        {
            Test::LongLongSD _do;
            Test::LongLongSD ro = p->opLongLongSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro[999999990].size() == 3);
            test(ro[999999990][0] == 999999110);
            test(ro[999999990][1] == 999999111);
            test(ro[999999990][2] == 999999110);
            test(ro[999999991].size() == 2);
            test(ro[999999991][0] == 999999120);
            test(ro[999999991][1] == 999999130);
            test(ro[999999992].size() == 2);
            test(ro[999999992][0] == 999999110);
            test(ro[999999992][1] == 999999120);
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::StringFloatSD sdi1;
        Test::StringFloatSD sdi2;

        Test::FloatS si1;
        Test::FloatS si2;
        Test::FloatS si3;

        si1.push_back(Ice::Float(-1.1));
        si1.push_back(Ice::Float(123123.2));
        si1.push_back(Ice::Float(100.0));
        si2.push_back(Ice::Float(42.24));
        si2.push_back(Ice::Float(-1.61));
        si3.push_back(Ice::Float(-3.14));
        si3.push_back(Ice::Float(3.14));

        sdi1["abc"] = si1;
        sdi1["ABC"] = si2;
        sdi2["aBc"] = si3;

        try
        {
            Test::StringFloatSD _do;
            Test::StringFloatSD ro = p->opStringFloatSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro["abc"].size() == 3);
            test(ro["abc"][0] == Ice::Float(-1.1));
            test(ro["abc"][1] == Ice::Float(123123.2));
            test(ro["abc"][2] == Ice::Float(100.0));
            test(ro["ABC"].size() == 2);
            test(ro["ABC"][0] == Ice::Float(42.24));
            test(ro["ABC"][1] == Ice::Float(-1.61));
            test(ro["aBc"].size() == 2);
            test(ro["aBc"][0] == Ice::Float(-3.14));
            test(ro["aBc"][1] == Ice::Float(3.14));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::StringDoubleSD sdi1;
        Test::StringDoubleSD sdi2;

        Test::DoubleS si1;
        Test::DoubleS si2;
        Test::DoubleS si3;

        si1.push_back(Ice::Double(1.1E10));
        si1.push_back(Ice::Double(1.2E10));
        si1.push_back(Ice::Double(1.3E10));
        si2.push_back(Ice::Double(1.4E10));
        si2.push_back(Ice::Double(1.5E10));
        si3.push_back(Ice::Double(1.6E10));
        si3.push_back(Ice::Double(1.7E10));

        sdi1["Hello!!"] = si1;
        sdi1["Goodbye"] = si2;
        sdi2[""] = si3;

        try
        {
            Test::StringDoubleSD _do;
            Test::StringDoubleSD ro = p->opStringDoubleSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro["Hello!!"].size() == 3);
            test(ro["Hello!!"][0] == Ice::Double(1.1E10));
            test(ro["Hello!!"][1] == Ice::Double(1.2E10));
            test(ro["Hello!!"][2] == Ice::Double(1.3E10));
            test(ro["Goodbye"].size() == 2);
            test(ro["Goodbye"][0] == Ice::Double(1.4E10));
            test(ro["Goodbye"][1] == Ice::Double(1.5E10));
            test(ro[""].size() == 2);
            test(ro[""][0] == Ice::Double(1.6E10));
            test(ro[""][1] == Ice::Double(1.7E10));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::StringStringSD sdi1;
        Test::StringStringSD sdi2;

        Test::StringS si1;
        Test::StringS si2;
        Test::StringS si3;

        si1.push_back("abc");
        si1.push_back("de");
        si1.push_back("fghi");

        si2.push_back("xyz");
        si2.push_back("or");

        si3.push_back("and");
        si3.push_back("xor");

        sdi1["abc"] = si1;
        sdi1["def"] = si2;
        sdi2["ghi"] = si3;

        try
        {
            Test::StringStringSD _do;
            Test::StringStringSD ro = p->opStringStringSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro["abc"].size() == 3);
            test(ro["abc"][0] == "abc");
            test(ro["abc"][1] == "de");
            test(ro["abc"][2] == "fghi");
            test(ro["def"].size() == 2);
            test(ro["def"][0] == "xyz");
            test(ro["def"][1] == "or");
            test(ro["ghi"].size() == 2);
            test(ro["ghi"][0] == "and");
            test(ro["ghi"][1] == "xor");
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        Test::MyEnumMyEnumSD sdi1;
        Test::MyEnumMyEnumSD sdi2;

        Test::MyEnumS si1;
        Test::MyEnumS si2;
        Test::MyEnumS si3;

        si1.push_back(ICE_ENUM(MyEnum, enum1));
        si1.push_back(ICE_ENUM(MyEnum, enum1));
        si1.push_back(ICE_ENUM(MyEnum, enum2));
        si2.push_back(ICE_ENUM(MyEnum, enum1));
        si2.push_back(ICE_ENUM(MyEnum, enum2));
        si3.push_back(ICE_ENUM(MyEnum, enum3));
        si3.push_back(ICE_ENUM(MyEnum, enum3));

        sdi1[ICE_ENUM(MyEnum, enum3)] = si1;
        sdi1[ICE_ENUM(MyEnum, enum2)] = si2;
        sdi2[ICE_ENUM(MyEnum, enum1)] = si3;

        try
        {
            Test::MyEnumMyEnumSD _do;
            Test::MyEnumMyEnumSD ro = p->opMyEnumMyEnumSD(sdi1, sdi2, _do);

            test(_do == sdi2);
            test(ro.size() == 3);
            test(ro[ICE_ENUM(MyEnum, enum3)].size() == 3);
            test(ro[ICE_ENUM(MyEnum, enum3)][0] == ICE_ENUM(MyEnum, enum1));
            test(ro[ICE_ENUM(MyEnum, enum3)][1] == ICE_ENUM(MyEnum, enum1));
            test(ro[ICE_ENUM(MyEnum, enum3)][2] == ICE_ENUM(MyEnum, enum2));
            test(ro[ICE_ENUM(MyEnum, enum2)].size() == 2);
            test(ro[ICE_ENUM(MyEnum, enum2)][0] == ICE_ENUM(MyEnum, enum1));
            test(ro[ICE_ENUM(MyEnum, enum2)][1] == ICE_ENUM(MyEnum, enum2));
            test(ro[ICE_ENUM(MyEnum, enum1)].size() == 2);
            test(ro[ICE_ENUM(MyEnum, enum1)][0] == ICE_ENUM(MyEnum, enum3));
            test(ro[ICE_ENUM(MyEnum, enum1)][1] == ICE_ENUM(MyEnum, enum3));
        }
        catch(const Ice::OperationNotExistException&)
        {
        }
    }

    {
        const int lengths[] = { 0, 1, 2, 126, 127, 128, 129, 253, 254, 255, 256, 257, 1000 };

        for(unsigned int l = 0; l != sizeof(lengths) / sizeof(*lengths); ++l)
        {
            Test::IntS s;
            for(int i = 0; i < lengths[l]; ++i)
            {
                s.push_back(i);
            }
            Test::IntS r = p->opIntS(s);
            test(r.size() == static_cast<size_t>(lengths[l]));
            for(int j = 0; j < static_cast<int>(r.size()); ++j)
            {
                test(r[j] == -j);
            }
        }
    }

    {
        Ice::Context ctx;
        ctx["one"] = "ONE";
        ctx["two"] = "TWO";
        ctx["three"] = "THREE";
        {
            Test::StringStringD r = p->opContext();
            test(p->ice_getContext().empty());
            test(r != ctx);
        }
        {
            Test::StringStringD r = p->opContext(ctx);
            test(p->ice_getContext().empty());
            test(r == ctx);
        }
        {
            Test::MyClassPrxPtr p2 = ICE_CHECKED_CAST(Test::MyClassPrx, p->ice_context(ctx));
            test(p2->ice_getContext() == ctx);
            Test::StringStringD r = p2->opContext();
            test(r == ctx);
            r = p2->opContext(ctx);
            test(r == ctx);
        }

#ifndef ICE_OS_WINRT
        if(p->ice_getConnection() && communicator->getProperties()->getProperty("Ice.Default.Protocol") != "bt")
        {
            //
            // Test implicit context propagation
            //

            string impls[] = {"Shared", "PerThread"};
            for(int i = 0; i < 2; i++)
            {
                Ice::InitializationData initData;
                initData.properties = communicator->getProperties()->clone();
                initData.properties->setProperty("Ice.ImplicitContext", impls[i]);

                Ice::CommunicatorPtr ic = Ice::initialize(initData);

                Ice::Context ctx;
                ctx["one"] = "ONE";
                ctx["two"] = "TWO";
                ctx["three"] = "THREE";

                Test::MyClassPrxPtr p = ICE_UNCHECKED_CAST(Test::MyClassPrx,
                                                           ic->stringToProxy("test:" + getTestEndpoint(ic, 0)));

                ic->getImplicitContext()->setContext(ctx);
                test(ic->getImplicitContext()->getContext() == ctx);
                test(p->opContext() == ctx);

                test(ic->getImplicitContext()->containsKey("zero") == false);
                string r = ic->getImplicitContext()->put("zero", "ZERO");
                test(r == "");
                test(ic->getImplicitContext()->containsKey("zero") == true);
                test(ic->getImplicitContext()->get("zero") == "ZERO");

                ctx = ic->getImplicitContext()->getContext();
                test(p->opContext() == ctx);
                Ice::Context prxContext;
                prxContext["one"] = "UN";
                prxContext["four"] = "QUATRE";

                Ice::Context combined = prxContext;
                combined.insert(ctx.begin(), ctx.end());
                test(combined["one"] == "UN");

                p = ICE_UNCHECKED_CAST(Test::MyClassPrx, p->ice_context(prxContext));

                ic->getImplicitContext()->setContext(Ice::Context());
                test(p->opContext() == prxContext);

                ic->getImplicitContext()->setContext(ctx);
                test(p->opContext() == combined);

                test(ic->getImplicitContext()->remove("one") == "ONE");

                if(impls[i] == "PerThread")
                {
                    IceUtil::ThreadPtr thread = new PerThreadContextInvokeThread(p->ice_context(Ice::Context()));
                    thread->start();
                    thread->getThreadControl().join();
                }

                ic->getImplicitContext()->setContext(Ice::Context()); // Clear the context to avoid leak report.
                ic->destroy();
            }
        }
#endif
        }

    {
        Ice::Double d = 1278312346.0 / 13.0;
        Test::DoubleS ds(5, d);
        p->opDoubleMarshaling(d, ds);
    }

    p->opIdempotent();

    p->opNonmutating();

    test(p->opByte1(0xFF) == 0xFF);
    test(p->opShort1(0x7FFF) == 0x7FFF);
    test(p->opInt1(0x7FFFFFFF) == 0x7FFFFFFF);
    test(p->opLong1(0x7FFFFFFFFFFFFFFFLL) == 0x7FFFFFFFFFFFFFFFLL);
    test(p->opFloat1(1.0) == 1.0);
    test(p->opDouble1(1.0) == 1.0);
    test(p->opString1("opString1") == "opString1");

    Test::MyDerivedClassPrxPtr d = ICE_UNCHECKED_CAST(Test::MyDerivedClassPrx, p);

    Test::MyStruct1 s;
    s.tesT = "Test::MyStruct1::s";
    s.myClass = 0;
    s.myStruct1 = "Test::MyStruct1::myStruct1";
    s = d->opMyStruct1(s);
    test(s.tesT == "Test::MyStruct1::s");
    test(s.myClass == 0);
    test(s.myStruct1 == "Test::MyStruct1::myStruct1");

    Test::MyClass1Ptr c = ICE_MAKE_SHARED(Test::MyClass1);
    c->tesT = "Test::MyClass1::testT";
    c->myClass = 0;
    c->myClass1 = "Test::MyClass1::myClass1";
    c = d->opMyClass1(c);
    test(c->tesT == "Test::MyClass1::testT");
    test(c->myClass == 0);
    test(c->myClass1 == "Test::MyClass1::myClass1");

    Test::StringS seq;
    p->opStringS1(seq);

    Test::ByteBoolD dict;
    p->opByteBoolD1(dict);


}
Beispiel #4
0
void
batchOneways(const Test::MyClassPrxPtr& p)
{
    const Test::ByteS bs1(10  * 1024);

    Test::MyClassPrxPtr batch = ICE_UNCHECKED_CAST(Test::MyClassPrx, p->ice_batchOneway());

    batch->ice_flushBatchRequests(); // Empty flush
    if(batch->ice_getConnection())
    {
        batch->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, BasedOnProxy));
    }
    batch->ice_getCommunicator()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, BasedOnProxy));

    int i;
    p->opByteSOnewayCallCount(); // Reset the call count
    for(i = 0 ; i < 30 ; ++i)
    {
        try
        {
            batch->opByteSOneway(bs1);
        }
        catch(const Ice::LocalException& ex)
        {
            cerr << ex << endl;
            test(false);
        }
    }

    int count = 0;
    while(count < 27) // 3 * 9 requests auto-flushed.
    {
        count += p->opByteSOnewayCallCount();
        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(10));
    }

    if(batch->ice_getConnection() &&
       p->ice_getCommunicator()->getProperties()->getProperty("Ice.Default.Protocol") != "bt")
    {
        Test::MyClassPrxPtr batch1 = ICE_UNCHECKED_CAST(Test::MyClassPrx, p->ice_batchOneway());
        Test::MyClassPrxPtr batch2 = ICE_UNCHECKED_CAST(Test::MyClassPrx, p->ice_batchOneway());

        batch1->ice_ping();
        batch2->ice_ping();
        batch1->ice_flushBatchRequests();
        batch1->ice_getConnection()->close(Ice::ICE_SCOPED_ENUM(ConnectionClose, GracefullyWithWait));
        batch1->ice_ping();
        batch2->ice_ping();

        batch1->ice_getConnection();
        batch2->ice_getConnection();

        batch1->ice_ping();
        batch1->ice_getConnection()->close(Ice::ICE_SCOPED_ENUM(ConnectionClose, GracefullyWithWait));
        batch1->ice_ping();
        batch2->ice_ping();
    }

    Ice::Identity identity;
    identity.name = "invalid";
    Ice::ObjectPrxPtr batch3 = batch->ice_identity(identity);
    batch3->ice_ping();
    batch3->ice_flushBatchRequests();

    // Make sure that a bogus batch request doesn't cause troubles to other ones.
    batch3->ice_ping();
    batch->ice_ping();
    batch->ice_flushBatchRequests();
    batch->ice_ping();

    if(batch->ice_getConnection() &&
       p->ice_getCommunicator()->getProperties()->getProperty("Ice.Default.Protocol") != "bt")
    {
        Ice::InitializationData initData;
        initData.properties = p->ice_getCommunicator()->getProperties()->clone();
        BatchRequestInterceptorIPtr interceptor = ICE_MAKE_SHARED(BatchRequestInterceptorI);

#if defined(ICE_CPP11_MAPPING)
        initData.batchRequestInterceptor = [=](const Ice::BatchRequest& request, int count, int size)
        {
            interceptor->enqueue(request, count, size);
        };
#else
        initData.batchRequestInterceptor = interceptor;
#endif
        Ice::CommunicatorPtr ic = Ice::initialize(initData);

        Test::MyClassPrxPtr batch =
            ICE_UNCHECKED_CAST(Test::MyClassPrx, ic->stringToProxy(p->ice_toString()))->ice_batchOneway();

        test(interceptor->count() == 0);
        batch->ice_ping();
        batch->ice_ping();
        batch->ice_ping();
        test(interceptor->count() == 0);

        interceptor->enqueue(true);
        batch->ice_ping();
        batch->ice_ping();
        batch->ice_ping();
        test(interceptor->count() == 3);

        batch->ice_flushBatchRequests();
        batch->ice_ping();
        test(interceptor->count() == 1);

        batch->opByteSOneway(bs1);
        test(interceptor->count() == 2);
        batch->opByteSOneway(bs1);
        test(interceptor->count() == 3);

        batch->opByteSOneway(bs1); // This should trigger the flush
        batch->ice_ping();
        test(interceptor->count() == 2);

        ic->destroy();
    }

    bool supportsCompress = true;
    try
    {
        supportsCompress = p->supportsCompress();
    }
    catch(const Ice::OperationNotExistException&)
    {
    }

    if(supportsCompress && batch->ice_getConnection() &&
       p->ice_getCommunicator()->getProperties()->getProperty("Ice.Override.Compress") == "")
    {
        Ice::ObjectPrxPtr prx = batch->ice_getConnection()->createProxy(batch->ice_getIdentity())->ice_batchOneway();

        Test::MyClassPrxPtr batch1 = ICE_UNCHECKED_CAST(Test::MyClassPrx, prx->ice_compress(false));
        Test::MyClassPrxPtr batch2 = ICE_UNCHECKED_CAST(Test::MyClassPrx, prx->ice_compress(true));
        Test::MyClassPrxPtr batch3 = ICE_UNCHECKED_CAST(Test::MyClassPrx, prx->ice_identity(identity));

        batch1->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, Yes));

        batch2->opByteSOneway(bs1);
        batch2->opByteSOneway(bs1);
        batch2->opByteSOneway(bs1);
        batch1->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, No));

        batch1->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, BasedOnProxy));

        batch1->opByteSOneway(bs1);
        batch2->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, BasedOnProxy));

        batch1->opByteSOneway(bs1);
        batch3->opByteSOneway(bs1);
        batch1->opByteSOneway(bs1);
        batch1->ice_getConnection()->flushBatchRequests(Ice::ICE_SCOPED_ENUM(CompressBatch, BasedOnProxy));
    }
}
Beispiel #5
0
Test::MyClassPrxPtr
allTests(const Ice::CommunicatorPtr& communicator)
{
    string ref = "test:" + getTestEndpoint(communicator, 0);
    Ice::ObjectPrxPtr base = communicator->stringToProxy(ref);
    test(base);

    Test::MyClassPrxPtr cl = ICE_CHECKED_CAST(Test::MyClassPrx, base);
    test(cl);

    Test::MyClassPrxPtr oneway = cl->ice_oneway();
    Test::MyClassPrxPtr batchOneway = cl->ice_batchOneway();

    cout << "testing ice_invoke... " << flush;

    {
        Ice::ByteSeq inEncaps, outEncaps;
        if(!oneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps))
        {
            test(false);
        }

        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        batchOneway->ice_flushBatchRequests();

        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        // ice_invoke
        if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // ice_invoke with array mapping
        pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size());
        if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inPair, outEncaps))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }
    }

    for(int i = 0; i < 2; ++i)
    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::Context ctx;
        if(i == 1)
        {
            ctx["raise"] = "";
        }
        if(cl->ice_invoke("opException", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps, ctx))
        {
            test(false);
        }
        else
        {
            Ice::InputStream in(communicator, cl->ice_getEncodingVersion(), outEncaps);
            in.startEncapsulation();
            try
            {
                in.throwException();
            }
            catch(const Test::MyException&)
            {
            }
            catch(...)
            {
                test(false);
            }
            in.endEncapsulation();
        }
    }

    cout << "ok" << endl;

    cout << "testing asynchronous ice_invoke... " << flush;
#ifdef ICE_CPP11_MAPPING

    {
        Ice::ByteSeq inEncaps;
        batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps,
            [](bool, const vector<Ice::Byte>)
            {
                test(false);
            },
            [](exception_ptr)
            {
                test(false);
            },
            [](bool)
            {
                test(false);
            });
        batchOneway->ice_flushBatchRequests();
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps;
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        batchOneway->ice_flushBatchRequests();
    }

    {
        promise<bool> completed;
        Ice::ByteSeq inEncaps, outEncaps;
        oneway->ice_invokeAsync(
            "opOneway",
            OperationMode::Normal,
            inEncaps,
            nullptr,
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                completed.set_value(true);
            });

        test(completed.get_future().get());
    }

    //
    // repeat with the future API.
    //

    {
        Ice::ByteSeq inEncaps, outEncaps;
        auto completed = oneway->ice_invokeAsync("opOneway", OperationMode::Normal, inEncaps);
        test(completed.get().returnValue);
    }

    {
        promise<bool> completed;
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        cl->ice_invokeAsync("opString", OperationMode::Normal, inEncaps,
            [&](bool ok, vector<Ice::Byte> outParams)
            {
                outEncaps = move(outParams);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            });
        test(completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto result = cl->ice_invokeAsync("opString", OperationMode::Normal, inEncaps).get();
        test(result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }

    {
        promise<bool> completed;
        promise<void> sent;
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto inPair = make_pair(inEncaps.data(), inEncaps.data() + inEncaps.size());

        cl->ice_invokeAsync("opString", OperationMode::Normal, inPair,
            [&](bool ok, pair<const Ice::Byte*, const Ice::Byte*> outParams)
            {
                vector<Ice::Byte>(outParams.first, outParams.second).swap(outEncaps);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                sent.set_value();
            });
        sent.get_future().get(); // Ensure sent callback was called
        test(completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }
    //
    // repeat with the future API.
    //

    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto inPair = make_pair(inEncaps.data(), inEncaps.data() + inEncaps.size());

        auto result = cl->ice_invokeAsync("opString", OperationMode::Normal, inPair).get();
        test(result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }

    {
        promise<bool> completed;
        promise<void> sent;
        Ice::ByteSeq inEncaps, outEncaps;

        cl->ice_invokeAsync("opException", OperationMode::Normal, inEncaps,
            [&](bool ok, vector<Ice::Byte> outParams)
            {
                outEncaps = move(outParams);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                sent.set_value();
            });
        sent.get_future().get(); // Ensure sent callback was called
        test(!completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        try
        {
            in.throwException();
            test(false);
        }
        catch(const Test::MyException&)
        {
        }
        catch(...)
        {
            test(false);
        }
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps;
        auto result = cl->ice_invokeAsync("opException", OperationMode::Normal, inEncaps).get();
        test(!result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        try
        {
            in.throwException();
            test(false);
        }
        catch(const Test::MyException&)
        {
        }
        catch(...)
        {
            test(false);
        }
    }

#else
    void (::Callback::*nullEx)(const Ice::Exception&) = 0;
    void (::Callback::*nullExWC)(const Ice::Exception&, const CookiePtr&) = 0;

    {
        Ice::ByteSeq inEncaps, outEncaps;
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        batchOneway->ice_flushBatchRequests();
    }

    {
        CookiePtr cookie = new Cookie();

        Ice::ByteSeq inEncaps, outEncaps;
        Ice::AsyncResultPtr result = oneway->begin_ice_invoke("opOneway", Ice::Normal, inEncaps);
        if(!oneway->end_ice_invoke(outEncaps, result))
        {
            test(false);
        }

        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        // begin_ice_invoke with no callback
        result = cl->begin_ice_invoke("opString", Ice::Normal, inEncaps);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // begin_ice_invoke with no callback and array mapping
        pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size());
        result = cl->begin_ice_invoke("opString", Ice::Normal, inPair);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // begin_ice_invoke with Callback
        ::CallbackPtr cb = new ::Callback(communicator, false);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString));
        cb->check();

        // begin_ice_invoke with Callback and Cookie
        cb = new ::Callback(communicator, true);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString), cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke
        cb = new ::Callback(communicator, false);
        Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d, cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke and array mapping
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx);
        cl->begin_ice_invoke("opString", Ice::Normal, inPair, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke and array mapping with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC);
        cl->begin_ice_invoke("opString", Ice::Normal, inPair, d, cookie);
        cb->check();
    }

    {
        CookiePtr cookie = new Cookie();
        Ice::ByteSeq inEncaps, outEncaps;

        // begin_ice_invoke with no callback
        Ice::AsyncResultPtr result = cl->begin_ice_invoke("opException", Ice::Normal, inEncaps);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            test(false);
        }
        else
        {
            Ice::InputStream in(communicator, cl->ice_getEncodingVersion(), outEncaps);
            in.startEncapsulation();
            try
            {
                in.throwException();
            }
            catch(const Test::MyException&)
            {
            }
            catch(...)
            {
                test(false);
            }
            in.endEncapsulation();
        }

        // begin_ice_invoke with Callback
        ::CallbackPtr cb = new ::Callback(communicator, false);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException));
        cb->check();

        // begin_ice_invoke with Callback and Cookie
        cb = new ::Callback(communicator, true);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException),
                             cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke
        cb = new ::Callback(communicator, false);
        Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionNC, nullEx);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionWC, nullExWC);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d, cookie);
        cb->check();
    }
#endif
    cout << "ok" << endl;
    return cl;
}
Beispiel #6
0
void
batchOnewaysAMI(const Test::MyClassPrxPtr& p)
{
    const Test::ByteS bs1(10 * 1024);
    Test::MyClassPrxPtr batch = ICE_UNCHECKED_CAST(Test::MyClassPrx, p->ice_batchOneway());
#ifdef ICE_CPP11_MAPPING

    promise<void> prom;
    batch->ice_flushBatchRequestsAsync(nullptr,
        [&](bool sentSynchronously)
        {
            test(sentSynchronously);
            prom.set_value();
        }); // Empty flush
    prom.get_future().get();

    for(int i = 0; i < 30; ++i)
    {
        batch->opByteSOnewayAsync(bs1, nullptr, [](exception_ptr){ test(false); });
    }

    int count = 0;
    while(count < 27) // 3 * 9 requests auto-flushed.
    {
        count += p->opByteSOnewayCallCount();
        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(10));
    }

    if(batch->ice_getConnection() &&
       p->ice_getCommunicator()->getProperties()->getProperty("Ice.Default.Protocol") != "bt")
    {
        shared_ptr<Test::MyClassPrx> batch1 = Ice::uncheckedCast<Test::MyClassPrx>(p->ice_batchOneway());
        shared_ptr<Test::MyClassPrx> batch2 = Ice::uncheckedCast<Test::MyClassPrx>(p->ice_batchOneway());

        batch1->ice_pingAsync().get();
        batch2->ice_pingAsync().get();
        batch1->ice_flushBatchRequestsAsync().get();
        batch1->ice_getConnection()->close(false);
        batch1->ice_pingAsync().get();
        batch2->ice_pingAsync().get();

        batch1->ice_getConnection();
        batch2->ice_getConnection();

        batch1->ice_pingAsync().get();
        batch1->ice_getConnection()->close(false);

        batch1->ice_pingAsync().get();
        batch2->ice_pingAsync().get();
    }

    Ice::Identity identity;
    identity.name = "invalid";
    auto batch3 = batch->ice_identity(identity);
    batch3->ice_pingAsync();
    batch3->ice_flushBatchRequestsAsync().get();

    // Make sure that a bogus batch request doesn't cause troubles to other ones.
    batch3->ice_pingAsync();
    batch->ice_pingAsync();
    batch->ice_flushBatchRequestsAsync().get();
    batch->ice_pingAsync();
#else
    batch->end_ice_flushBatchRequests(batch->begin_ice_flushBatchRequests()); // Empty flush

    test(batch->begin_ice_flushBatchRequests()->isSent()); // Empty flush
    test(batch->begin_ice_flushBatchRequests()->isCompleted()); // Empty flush
    test(batch->begin_ice_flushBatchRequests()->sentSynchronously()); // Empty flush

    for(int i = 0; i < 30; ++i)
    {
        batch->begin_opByteSOneway(bs1, Test::newCallback_MyClass_opByteSOneway(new Callback_ByteSOneway(),
                                                                                &Callback_ByteSOneway::response,
                                                                                &Callback_ByteSOneway::exception));
    }

    int count = 0;
    while(count < 27) // 3 * 9 requests auto-flushed.
    {
        count += p->opByteSOnewayCallCount();
        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(10));
    }

    if(batch->ice_getConnection() &&
       p->ice_getCommunicator()->getProperties()->getProperty("Ice.Default.Protocol") != "bt")
    {
        Test::MyClassPrx batch1 = Test::MyClassPrx::uncheckedCast(p->ice_batchOneway());
        Test::MyClassPrx batch2 = Test::MyClassPrx::uncheckedCast(p->ice_batchOneway());

        batch1->end_ice_ping(batch1->begin_ice_ping());
        batch2->end_ice_ping(batch2->begin_ice_ping());
        batch1->end_ice_flushBatchRequests(batch1->begin_ice_flushBatchRequests());
        batch1->ice_getConnection()->close(false);
        batch1->end_ice_ping(batch1->begin_ice_ping());
        batch2->end_ice_ping(batch2->begin_ice_ping());

        batch1->ice_getConnection();
        batch2->ice_getConnection();

        batch1->end_ice_ping(batch1->begin_ice_ping());
        batch1->ice_getConnection()->close(false);

        batch1->end_ice_ping(batch1->begin_ice_ping());
        batch2->end_ice_ping(batch2->begin_ice_ping());
    }

    Ice::Identity identity;
    identity.name = "invalid";
    Ice::ObjectPrx batch3 = batch->ice_identity(identity);
    batch3->begin_ice_ping();
    batch3->end_ice_flushBatchRequests(batch3->begin_ice_flushBatchRequests());

    // Make sure that a bogus batch request doesn't cause troubles to other ones.
    batch3->begin_ice_ping();
    batch->begin_ice_ping();
    batch->end_ice_flushBatchRequests(batch->begin_ice_flushBatchRequests());
    batch->begin_ice_ping();
#endif
}