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// **********************************************************************
//
// Copyright (c) 2003-2009 ZeroC, Inc. All rights reserved.
//
// This copy of Ice is licensed to you under the terms described in the
// ICE_LICENSE file included in this distribution.
//
// **********************************************************************
#include <Ice/Ice.h>
#include <TestAMDI.h>
#include <TestCommon.h>
#include <functional>
#ifdef __BCPLUSPLUS__
# include <iterator>
#endif
class Thread_opVoid : public IceUtil::Thread
{
public:
Thread_opVoid(const Test::AMD_MyClass_opVoidPtr& cb) :
_cb(cb)
{
}
virtual void run()
{
_cb->ice_response();
}
private:
const Test::AMD_MyClass_opVoidPtr _cb;
};
void
MyDerivedClassI::shutdown_async(const Test::AMD_MyClass_shutdownPtr& cb, const Ice::Current& current)
{
{
IceUtil::Mutex::Lock sync(_opVoidMutex);
if(_opVoidThread)
{
_opVoidThread->getThreadControl().join();
_opVoidThread = 0;
}
}
current.adapter->getCommunicator()->shutdown();
cb->ice_response();
}
void
MyDerivedClassI::opVoid_async(const Test::AMD_MyClass_opVoidPtr& cb, const Ice::Current&)
{
IceUtil::Mutex::Lock sync(_opVoidMutex);
if(_opVoidThread)
{
_opVoidThread->getThreadControl().join();
_opVoidThread = 0;
}
_opVoidThread = new Thread_opVoid(cb);
_opVoidThread->start();
}
void
MyDerivedClassI::opByte_async(const Test::AMD_MyClass_opBytePtr& cb,
Ice::Byte p1,
Ice::Byte p2,
const Ice::Current&)
{
cb->ice_response(p1, p1 ^ p2);
}
void
MyDerivedClassI::opBool_async(const Test::AMD_MyClass_opBoolPtr& cb,
bool p1,
bool p2,
const Ice::Current&)
{
cb->ice_response(p2, p1);
}
void
MyDerivedClassI::opShortIntLong_async(const Test::AMD_MyClass_opShortIntLongPtr& cb,
Ice::Short p1,
Ice::Int p2,
Ice::Long p3,
const Ice::Current&)
{
cb->ice_response(p3, p1, p2, p3);
}
void
MyDerivedClassI::opFloatDouble_async(const Test::AMD_MyClass_opFloatDoublePtr& cb,
Ice::Float p1,
Ice::Double p2,
const Ice::Current&)
{
cb->ice_response(p2, p1, p2);
}
void
MyDerivedClassI::opString_async(const Test::AMD_MyClass_opStringPtr& cb,
const std::string& p1,
const std::string& p2,
const Ice::Current&)
{
cb->ice_response(p1 + " " + p2, p2 + " " + p1);
}
void
MyDerivedClassI::opMyEnum_async(const Test::AMD_MyClass_opMyEnumPtr& cb,
Test::MyEnum p1,
const Ice::Current&)
{
cb->ice_response(Test::enum3, p1);
}
void
MyDerivedClassI::opMyClass_async(const Test::AMD_MyClass_opMyClassPtr& cb,
const Test::MyClassPrx& p1,
const Ice::Current& current)
{
Test::MyClassPrx p2 = p1;
Test::MyClassPrx p3 = Test::MyClassPrx::uncheckedCast(current.adapter->createProxy(
current.adapter->getCommunicator()->stringToIdentity("noSuchIdentity")));
cb->ice_response(Test::MyClassPrx::uncheckedCast(current.adapter->createProxy(current.id)), p2, p3);
}
void
MyDerivedClassI::opStruct_async(const Test::AMD_MyClass_opStructPtr& cb,
const Test::Structure& p1,
const Test::Structure& p2,
const Ice::Current&)
{
Test::Structure p3 = p1;
p3.s.s = "a new string";
cb->ice_response(p2, p3);
}
void
MyDerivedClassI::opByteS_async(const Test::AMD_MyClass_opByteSPtr& cb,
const Test::ByteS& p1,
const Test::ByteS& p2,
const Ice::Current&)
{
Test::ByteS p3;
p3.resize(p1.size());
std::reverse_copy(p1.begin(), p1.end(), p3.begin());
Test::ByteS r = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(r));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opBoolS_async(const Test::AMD_MyClass_opBoolSPtr& cb,
const Test::BoolS& p1,
const Test::BoolS& p2,
const Ice::Current&)
{
Test::BoolS p3 = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(p3));
Test::BoolS r;
r.resize(p1.size());
std::reverse_copy(p1.begin(), p1.end(), r.begin());
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opShortIntLongS_async(const Test::AMD_MyClass_opShortIntLongSPtr& cb,
const Test::ShortS& p1,
const Test::IntS& p2,
const Test::LongS& p3,
const Ice::Current&)
{
Test::ShortS p4 = p1;
Test::IntS p5;
p5.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), p5.begin());
Test::LongS p6 = p3;
std::copy(p3.begin(), p3.end(), std::back_inserter(p6));
cb->ice_response(p3, p4, p5, p6);
}
void
MyDerivedClassI::opFloatDoubleS_async(const Test::AMD_MyClass_opFloatDoubleSPtr& cb,
const Test::FloatS& p1,
const Test::DoubleS& p2,
const Ice::Current&)
{
Test::FloatS p3 = p1;
Test::DoubleS p4;
p4.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), p4.begin());
Test::DoubleS r = p2;
std::copy(p1.begin(), p1.end(), std::back_inserter(r));
cb->ice_response(r, p3, p4);
}
void
MyDerivedClassI::opStringS_async(const Test::AMD_MyClass_opStringSPtr& cb,
const Test::StringS& p1,
const Test::StringS& p2,
const Ice::Current&)
{
Test::StringS p3 = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(p3));
Test::StringS r;
r.resize(p1.size());
std::reverse_copy(p1.begin(), p1.end(), r.begin());
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opByteSS_async(const Test::AMD_MyClass_opByteSSPtr& cb,
const Test::ByteSS& p1,
const Test::ByteSS& p2,
const Ice::Current&)
{
Test::ByteSS p3;
p3.resize(p1.size());
std::reverse_copy(p1.begin(), p1.end(), p3.begin());
Test::ByteSS r = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(r));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opBoolSS_async(const Test::AMD_MyClass_opBoolSSPtr& cb,
const Test::BoolSS& p1,
const Test::BoolSS& p2,
const Ice::Current&)
{
Test::BoolSS p3 = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(p3));
Test::BoolSS r;
r.resize(p1.size());
std::reverse_copy(p1.begin(), p1.end(), r.begin());
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opShortIntLongSS_async(const Test::AMD_MyClass_opShortIntLongSSPtr& cb,
const Test::ShortSS& p1,
const Test::IntSS& p2,
const Test::LongSS& p3,
const Ice::Current&)
{
Test::ShortSS p4 = p1;
Test::IntSS p5;
p5.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), p5.begin());
Test::LongSS p6 = p3;
std::copy(p3.begin(), p3.end(), std::back_inserter(p6));
cb->ice_response(p3, p4, p5, p6);
}
void
MyDerivedClassI::opFloatDoubleSS_async(const Test::AMD_MyClass_opFloatDoubleSSPtr& cb,
const Test::FloatSS& p1,
const Test::DoubleSS& p2,
const Ice::Current&)
{
Test::FloatSS p3 = p1;
Test::DoubleSS p4;
p4.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), p4.begin());
Test::DoubleSS r = p2;
std::copy(p2.begin(), p2.end(), std::back_inserter(r));
cb->ice_response(r, p3, p4);
}
void
MyDerivedClassI::opStringSS_async(const Test::AMD_MyClass_opStringSSPtr& cb,
const Test::StringSS& p1,
const Test::StringSS& p2,
const Ice::Current&)
{
Test::StringSS p3 = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(p3));
Test::StringSS r;
r.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), r.begin());
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opStringSSS_async(const Test::AMD_MyClass_opStringSSSPtr& cb,
const Test::StringSSS& p1,
const Test::StringSSS& p2,
const Ice::Current&)
{
Test::StringSSS p3 = p1;
std::copy(p2.begin(), p2.end(), std::back_inserter(p3));
Test::StringSSS r;
r.resize(p2.size());
std::reverse_copy(p2.begin(), p2.end(), r.begin());
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opByteBoolD_async(const Test::AMD_MyClass_opByteBoolDPtr& cb,
const Test::ByteBoolD& p1,
const Test::ByteBoolD& p2,
const Ice::Current&)
{
Test::ByteBoolD p3 = p1;
Test::ByteBoolD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opShortIntD_async(const Test::AMD_MyClass_opShortIntDPtr& cb,
const Test::ShortIntD& p1,
const Test::ShortIntD& p2,
const Ice::Current&)
{
Test::ShortIntD p3 = p1;
Test::ShortIntD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opLongFloatD_async(const Test::AMD_MyClass_opLongFloatDPtr& cb,
const Test::LongFloatD& p1,
const Test::LongFloatD& p2,
const Ice::Current&)
{
Test::LongFloatD p3 = p1;
Test::LongFloatD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opStringStringD_async(const Test::AMD_MyClass_opStringStringDPtr& cb,
const Test::StringStringD& p1,
const Test::StringStringD& p2,
const Ice::Current&)
{
Test::StringStringD p3 = p1;
Test::StringStringD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opStringMyEnumD_async(const Test::AMD_MyClass_opStringMyEnumDPtr& cb,
const Test::StringMyEnumD& p1,
const Test::StringMyEnumD& p2,
const Ice::Current&)
{
Test::StringMyEnumD p3 = p1;
Test::StringMyEnumD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opMyStructMyEnumD_async(const Test::AMD_MyClass_opMyStructMyEnumDPtr& cb,
const Test::MyStructMyEnumD& p1,
const Test::MyStructMyEnumD& p2,
const Ice::Current&)
{
Test::MyStructMyEnumD p3 = p1;
Test::MyStructMyEnumD r = p1;
std::set_union(p1.begin(), p1.end(), p2.begin(), p2.end(), std::inserter(r, r.end()));
cb->ice_response(r, p3);
}
void
MyDerivedClassI::opIntS_async(const Test::AMD_MyClass_opIntSPtr& cb, const Test::IntS& s, const Ice::Current&)
{
Test::IntS r;
std::transform(s.begin(), s.end(), std::back_inserter(r), std::negate<int>());
cb->ice_response(r);
}
void
MyDerivedClassI::opByteSOneway_async(const Test::AMD_MyClass_opByteSOnewayPtr& cb, const Test::ByteS& s,
const Ice::Current&)
{
cb->ice_response();
}
void
MyDerivedClassI::opContext_async(const Test::AMD_MyClass_opContextPtr& cb, const Ice::Current& c)
{
Test::StringStringD r = c.ctx;
cb->ice_response(r);
}
void
MyDerivedClassI::opDoubleMarshaling_async(const Test::AMD_MyClass_opDoubleMarshalingPtr& cb,
Ice::Double p1, const Test::DoubleS& p2, const Ice::Current&)
{
Ice::Double d = 1278312346.0 / 13.0;
test(p1 == d);
for(unsigned int i = 0; i < p2.size(); ++i)
{
test(p2[i] == d);
}
cb->ice_response();
}
void
MyDerivedClassI::opDerived_async(const Test::AMD_MyDerivedClass_opDerivedPtr& cb, const Ice::Current&)
{
cb->ice_response();
}
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