src/clicache/src/impl/ManagedCacheableDelta.cpp - geode - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one or more
  * contributor license agreements.  See the NOTICE file distributed with
  * this work for additional information regarding copyright ownership.
  * The ASF licenses this file to You under the Apache License, Version 2.0
  * (the "License"); you may not use this file except in compliance with
  * the License.  You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 //#include "../gf_includes.hpp"
 #include "ManagedCacheableDelta.hpp"
 #include "../DataInput.hpp"
 #include "../DataOutput.hpp"
 #include "../CacheableString.hpp"
 #include <GeodeTypeIdsImpl.hpp>
 #include "../ExceptionTypes.hpp"
 #include "SafeConvert.hpp"


 using namespace System;

 namespace apache
 {
   namespace geode
   {
     namespace client
     {

       void ManagedCacheableDeltaGeneric::toData(DataOutput& output) const
       {
         try {
           uint32 pos = (int)output.getBufferLength();
           Apache::Geode::Client::DataOutput mg_output(&output, true);
           m_managedSerializableptr->ToData(%mg_output);
           //this will move the cursor in c++ layer
           mg_output.WriteBytesToUMDataOutput();
           ManagedCacheableDeltaGeneric* tmp = const_cast<ManagedCacheableDeltaGeneric*>(this);
           tmp->m_objectSize = (int)(output.getBufferLength() - pos);
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
       }

       Serializable* ManagedCacheableDeltaGeneric::fromData(DataInput& input)
       {
         try {
           int pos = input.getBytesRead();
           Apache::Geode::Client::DataInput mg_input(&input, true);
           m_managedSerializableptr->FromData(%mg_input);

           //this will move the cursor in c++ layer
           input.advanceCursor(mg_input.BytesReadInternally);

           m_objectSize = input.getBytesRead() - pos;

           if (m_hashcode == 0)
             m_hashcode = m_managedptr->GetHashCode();

         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return this;
       }

       uint32_t ManagedCacheableDeltaGeneric::objectSize() const
       {
         try {
           int ret = m_managedSerializableptr->ObjectSize;
           if (ret > m_objectSize)
             return ret;
           else
             return m_objectSize;
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return 0;
       }

       int32_t ManagedCacheableDeltaGeneric::classId() const
       {
         uint32_t classId;
         try {
           classId = m_managedSerializableptr->ClassId;
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return (classId >= 0x80000000 ? 0 : classId);
       }

       int8_t ManagedCacheableDeltaGeneric::typeId() const
       {
         try {
           uint32_t classId = m_classId;
           if (classId >= 0x80000000) {
             return (int8_t)((classId - 0x80000000) % 0x20000000);
           }
           else if (classId <= 0x7F) {
             return (int8_t)GeodeTypeIdsImpl::CacheableUserData;
           }
           else if (classId <= 0x7FFF) {
             return (int8_t)GeodeTypeIdsImpl::CacheableUserData2;
           }
           else {
             return (int8_t)GeodeTypeIdsImpl::CacheableUserData4;
           }
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return 0;
       }

       int8_t ManagedCacheableDeltaGeneric::DSFID() const
       {
         // convention that [0x8000000, 0xa0000000) is for FixedIDDefault,
         // [0xa000000, 0xc0000000) is for FixedIDByte,
         // [0xc0000000, 0xe0000000) is for FixedIDShort
         // and [0xe0000000, 0xffffffff] is for FixedIDInt
         // Note: depends on fact that FixedIDByte is 1, FixedIDShort is 2
         // and FixedIDInt is 3; if this changes then correct this accordingly
         uint32_t classId = m_managedSerializableptr->ClassId;
         if (classId >= 0x80000000) {
           return (int8_t)((classId - 0x80000000) / 0x20000000);
         }
         return 0;
       }

       bool ManagedCacheableDeltaGeneric::hasDelta()
       {
         return m_managedptr->HasDelta();
       }

       void ManagedCacheableDeltaGeneric::toDelta(DataOutput& output) const
       {
         try {
           Apache::Geode::Client::DataOutput mg_output(&output, true);
           m_managedptr->ToDelta(%mg_output);
           //this will move the cursor in c++ layer
           mg_output.WriteBytesToUMDataOutput();
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
       }

       void ManagedCacheableDeltaGeneric::fromDelta(DataInput& input)
       {
         try {
           Apache::Geode::Client::DataInput mg_input(&input, true);
           m_managedptr->FromDelta(%mg_input);

           //this will move the cursor in c++ layer
           input.advanceCursor(mg_input.BytesReadInternally);

           m_hashcode = m_managedptr->GetHashCode();
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
       }

       DeltaPtr ManagedCacheableDeltaGeneric::clone()
       {
         try {
           ICloneable^ cloneable = dynamic_cast<ICloneable^>((
             Apache::Geode::Client::IGFDelta^) m_managedptr);
           if (cloneable) {
             Apache::Geode::Client::IGFSerializable^ Mclone =
               dynamic_cast<Apache::Geode::Client::IGFSerializable^>(cloneable->Clone());
             return DeltaPtr(static_cast<ManagedCacheableDeltaGeneric*>(
               SafeMSerializableConvertGeneric(Mclone)));
           }
           else {
             return Delta::clone();
           }
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return NULLPTR;
       }

       bool ManagedCacheableDeltaGeneric::operator ==(const apache::geode::client::CacheableKey& other) const
       {
         try {
           // now checking classId(), typeId(), DSFID() etc. will be much more
           // expensive than just a dynamic_cast
           const ManagedCacheableDeltaGeneric* p_other =
             dynamic_cast<const ManagedCacheableDeltaGeneric*>(&other);
           if (p_other != NULL) {
             return m_managedptr->Equals(p_other->ptr());
           }
           return false;
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return false;
       }

       bool ManagedCacheableDeltaGeneric::operator == (const ManagedCacheableDeltaGeneric& other) const
       {
         try {
           return m_managedptr->Equals(other.ptr());
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return false;

       }

       uint32_t ManagedCacheableDeltaGeneric::hashcode() const
       {
         throw gcnew System::NotSupportedException;
       }

       size_t ManagedCacheableDeltaGeneric::logString(char* buffer, size_t maxLength) const
       {
         try {
           if (maxLength > 0) {
             String^ logstr = m_managedptr->GetType()->Name + '(' +
               m_managedptr->ToString() + ')';
             Apache::Geode::Client::ManagedString mg_str(logstr);
             return snprintf(buffer, maxLength, "%s", mg_str.CharPtr);
           }
         }
         catch (Apache::Geode::Client::GeodeException^ ex) {
           ex->ThrowNative();
         }
         catch (System::Exception^ ex) {
           Apache::Geode::Client::GeodeException::ThrowNative(ex);
         }
         return 0;
       }
     }  // namespace client
   }  // namespace geode
 }  // namespace apache
	/*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You under the Apache License, Version 2.0
	* (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	//#include "../gf_includes.hpp"
	#include "ManagedCacheableDelta.hpp"
	#include "../DataInput.hpp"
	#include "../DataOutput.hpp"
	#include "../CacheableString.hpp"
	#include <GeodeTypeIdsImpl.hpp>
	#include "../ExceptionTypes.hpp"
	#include "SafeConvert.hpp"


	using namespace System;

	namespace apache
	{
	namespace geode
	{
	namespace client
	{

	void ManagedCacheableDeltaGeneric::toData(DataOutput& output) const
	{
	try {
	uint32 pos = (int)output.getBufferLength();
	Apache::Geode::Client::DataOutput mg_output(&output, true);
	m_managedSerializableptr->ToData(%mg_output);
	//this will move the cursor in c++ layer
	mg_output.WriteBytesToUMDataOutput();
	ManagedCacheableDeltaGeneric* tmp = const_cast<ManagedCacheableDeltaGeneric*>(this);
	tmp->m_objectSize = (int)(output.getBufferLength() - pos);
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	}

	Serializable* ManagedCacheableDeltaGeneric::fromData(DataInput& input)
	{
	try {
	int pos = input.getBytesRead();
	Apache::Geode::Client::DataInput mg_input(&input, true);
	m_managedSerializableptr->FromData(%mg_input);

	//this will move the cursor in c++ layer
	input.advanceCursor(mg_input.BytesReadInternally);

	m_objectSize = input.getBytesRead() - pos;

	if (m_hashcode == 0)
	m_hashcode = m_managedptr->GetHashCode();

	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return this;
	}

	uint32_t ManagedCacheableDeltaGeneric::objectSize() const
	{
	try {
	int ret = m_managedSerializableptr->ObjectSize;
	if (ret > m_objectSize)
	return ret;
	else
	return m_objectSize;
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return 0;
	}

	int32_t ManagedCacheableDeltaGeneric::classId() const
	{
	uint32_t classId;
	try {
	classId = m_managedSerializableptr->ClassId;
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return (classId >= 0x80000000 ? 0 : classId);
	}

	int8_t ManagedCacheableDeltaGeneric::typeId() const
	{
	try {
	uint32_t classId = m_classId;
	if (classId >= 0x80000000) {
	return (int8_t)((classId - 0x80000000) % 0x20000000);
	}
	else if (classId <= 0x7F) {
	return (int8_t)GeodeTypeIdsImpl::CacheableUserData;
	}
	else if (classId <= 0x7FFF) {
	return (int8_t)GeodeTypeIdsImpl::CacheableUserData2;
	}
	else {
	return (int8_t)GeodeTypeIdsImpl::CacheableUserData4;
	}
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return 0;
	}

	int8_t ManagedCacheableDeltaGeneric::DSFID() const
	{
	// convention that [0x8000000, 0xa0000000) is for FixedIDDefault,
	// [0xa000000, 0xc0000000) is for FixedIDByte,
	// [0xc0000000, 0xe0000000) is for FixedIDShort
	// and [0xe0000000, 0xffffffff] is for FixedIDInt
	// Note: depends on fact that FixedIDByte is 1, FixedIDShort is 2
	// and FixedIDInt is 3; if this changes then correct this accordingly
	uint32_t classId = m_managedSerializableptr->ClassId;
	if (classId >= 0x80000000) {
	return (int8_t)((classId - 0x80000000) / 0x20000000);
	}
	return 0;
	}

	bool ManagedCacheableDeltaGeneric::hasDelta()
	{
	return m_managedptr->HasDelta();
	}

	void ManagedCacheableDeltaGeneric::toDelta(DataOutput& output) const
	{
	try {
	Apache::Geode::Client::DataOutput mg_output(&output, true);
	m_managedptr->ToDelta(%mg_output);
	//this will move the cursor in c++ layer
	mg_output.WriteBytesToUMDataOutput();
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	}

	void ManagedCacheableDeltaGeneric::fromDelta(DataInput& input)
	{
	try {
	Apache::Geode::Client::DataInput mg_input(&input, true);
	m_managedptr->FromDelta(%mg_input);

	//this will move the cursor in c++ layer
	input.advanceCursor(mg_input.BytesReadInternally);

	m_hashcode = m_managedptr->GetHashCode();
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	}

	DeltaPtr ManagedCacheableDeltaGeneric::clone()
	{
	try {
	ICloneable^ cloneable = dynamic_cast<ICloneable^>((
	Apache::Geode::Client::IGFDelta^) m_managedptr);
	if (cloneable) {
	Apache::Geode::Client::IGFSerializable^ Mclone =
	dynamic_cast<Apache::Geode::Client::IGFSerializable^>(cloneable->Clone());
	return DeltaPtr(static_cast<ManagedCacheableDeltaGeneric*>(
	SafeMSerializableConvertGeneric(Mclone)));
	}
	else {
	return Delta::clone();
	}
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return NULLPTR;
	}

	bool ManagedCacheableDeltaGeneric::operator ==(const apache::geode::client::CacheableKey& other) const
	{
	try {
	// now checking classId(), typeId(), DSFID() etc. will be much more
	// expensive than just a dynamic_cast
	const ManagedCacheableDeltaGeneric* p_other =
	dynamic_cast<const ManagedCacheableDeltaGeneric*>(&other);
	if (p_other != NULL) {
	return m_managedptr->Equals(p_other->ptr());
	}
	return false;
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return false;
	}

	bool ManagedCacheableDeltaGeneric::operator == (const ManagedCacheableDeltaGeneric& other) const
	{
	try {
	return m_managedptr->Equals(other.ptr());
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return false;

	}

	uint32_t ManagedCacheableDeltaGeneric::hashcode() const
	{
	throw gcnew System::NotSupportedException;
	}

	size_t ManagedCacheableDeltaGeneric::logString(char* buffer, size_t maxLength) const
	{
	try {
	if (maxLength > 0) {
	String^ logstr = m_managedptr->GetType()->Name + '(' +
	m_managedptr->ToString() + ')';
	Apache::Geode::Client::ManagedString mg_str(logstr);
	return snprintf(buffer, maxLength, "%s", mg_str.CharPtr);
	}
	}
	catch (Apache::Geode::Client::GeodeException^ ex) {
	ex->ThrowNative();
	}
	catch (System::Exception^ ex) {
	Apache::Geode::Client::GeodeException::ThrowNative(ex);
	}
	return 0;
	}
	} // namespace client
	} // namespace geode
	} // namespace apache