cppcache/include/geode/WritablePdxInstance.hpp - geode-native - 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.
  */

 #pragma once

 #ifndef GEODE_WRITABLEPDXINSTANCE_H_
 #define GEODE_WRITABLEPDXINSTANCE_H_

 #include <memory>

 #include "PdxInstance.hpp"
 #include "Serializable.hpp"

 namespace apache {
 namespace geode {
 namespace client {

 class CacheableObjectArray;

 /**
  * WritablePdxInstance is a {@link PdxInstance} that also supports field
  * modification
  * using the {@link #setField} method.
  * To get a WritablePdxInstance call {@link PdxInstance#createWriter}.
  */
 class APACHE_GEODE_EXPORT WritablePdxInstance : public PdxInstance {
  public:
   /**
    * @brief destructor
    */
   virtual ~WritablePdxInstance() = default;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * std::shared_ptr<Cacheable> type is corresponding to java object type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type
    * std::shared_ptr<Cacheable>
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         std::shared_ptr<Cacheable> value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * bool type is corresponding to java boolean type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type bool
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, bool value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * signed char type is corresponding to java byte type.
    * For C++ on Windows and Linux, signed char type is corresponding to int8_t
    * type.
    * However C++ users on Solaris should always use this api after casting
    * int8_t to signed char.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type signed char
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, signed char value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * unsigned char type is corresponding to java byte type.
    * For C++ on Windows and Linux, unsigned char type is corresponding to int8_t
    * type.
    * However C++ users on Solaris should always use this api after casting
    * int8_t to unsigned char.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type unsigned char
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, unsigned char value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int16_t type is corresponding to java short type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int16_t
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, int16_t value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int32_t type is corresponding to java int type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int32_t
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, int32_t value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int64_t type is corresponding to java long type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int64_t
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, int64_t value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * float type is corresponding to java float type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type float
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, float value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * double type is corresponding to java double type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type double
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, double value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * char type is corresponding to java char type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type char
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, char16_t value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * std::shared_ptr<CacheableDate> type is corresponding to java Java.util.date
    * type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type
    * std::shared_ptr<CacheableDate>
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         std::shared_ptr<CacheableDate> value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * bool* type is corresponding to java boolean[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type bool array
    * @param length
    *          The number of elements in bool array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<bool>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int8_t* type is corresponding to java byte[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int8_t array
    * @param length
    *          The number of elements in int8_t array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<int8_t>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int16_t* type is corresponding to java short[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int16_t array
    * @param length
    *          The number of elements in int16_t array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<int16_t>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int32_t* type is corresponding to java int[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int32_t array
    * @param length
    *          The number of elements in int32_t array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<int32_t>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int64_t* type is corresponding to java long[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type int64_t array
    * @param length
    *          The number of elements in int64_t array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<int64_t>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * float* type is corresponding to java float[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type float array
    * @param length
    *          The number of elements in float array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<float>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * double* type is corresponding to java double[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type double array
    * @param length
    *          The number of elements in double array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<double>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * char* type is corresponding to java String type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type char*
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::string& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * char16_t* type is corresponding to java char[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type char16_t array
    * @param length
    *          The number of elements in char16_t array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         const std::vector<char16_t>& value) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * char** type is corresponding to java String[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type char* array
    * @param length
    *          The number of elements in CString array type.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, std::string* value,
                         int32_t length) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * int8_t** type is corresponding to java byte[][] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type array of byte arrays
    * @param arrayLength
    *          The number of byte arrays.
    * @param elementLength
    *          The lengths of individual byte arrays.
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName, int8_t** value,
                         int32_t arrayLength, int32_t* elementLength) = 0;

   /**
    * Set the existing named field to the given value.
    * The setField method has copy-on-write semantics.
    * So for the modifications to be stored in the cache the WritablePdxInstance
    * must be put into a region after setField has been called one or more times.
    * std::shared_ptr<CacheableObjectArray> type is corresponding to java
    * Object[] type.
    * @param fieldName
    *          name of the field whose value will be set
    * @param value
    *          value that will be set to the field of type
    * std::shared_ptr<CacheableObjectArray>
    * @throws IllegalStateException if the named field does not exist
    * or if the type of the value is not compatible with the field.
    */
   virtual void setField(const std::string& fieldName,
                         std::shared_ptr<CacheableObjectArray> value) = 0;

  protected:
   /**
    * @brief constructors
    */
   WritablePdxInstance() = default;

  private:
   WritablePdxInstance(const WritablePdxInstance& other) = delete;
   void operator=(const WritablePdxInstance& other) = delete;
 };
 }  // namespace client
 }  // namespace geode
 }  // namespace apache

 #endif  // GEODE_WRITABLEPDXINSTANCE_H_
	/*
	* 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.
	*/

	#pragma once

	#ifndef GEODE_WRITABLEPDXINSTANCE_H_
	#define GEODE_WRITABLEPDXINSTANCE_H_

	#include <memory>

	#include "PdxInstance.hpp"
	#include "Serializable.hpp"

	namespace apache {
	namespace geode {
	namespace client {

	class CacheableObjectArray;

	/**
	* WritablePdxInstance is a {@link PdxInstance} that also supports field
	* modification
	* using the {@link #setField} method.
	* To get a WritablePdxInstance call {@link PdxInstance#createWriter}.
	*/
	class APACHE_GEODE_EXPORT WritablePdxInstance : public PdxInstance {
	public:
	/**
	* @brief destructor
	*/
	virtual ~WritablePdxInstance() = default;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* std::shared_ptr<Cacheable> type is corresponding to java object type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type
	* std::shared_ptr<Cacheable>
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	std::shared_ptr<Cacheable> value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* bool type is corresponding to java boolean type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type bool
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, bool value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* signed char type is corresponding to java byte type.
	* For C++ on Windows and Linux, signed char type is corresponding to int8_t
	* type.
	* However C++ users on Solaris should always use this api after casting
	* int8_t to signed char.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type signed char
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, signed char value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* unsigned char type is corresponding to java byte type.
	* For C++ on Windows and Linux, unsigned char type is corresponding to int8_t
	* type.
	* However C++ users on Solaris should always use this api after casting
	* int8_t to unsigned char.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type unsigned char
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, unsigned char value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int16_t type is corresponding to java short type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int16_t
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, int16_t value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int32_t type is corresponding to java int type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int32_t
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, int32_t value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int64_t type is corresponding to java long type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int64_t
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, int64_t value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* float type is corresponding to java float type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type float
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, float value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* double type is corresponding to java double type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type double
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, double value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* char type is corresponding to java char type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type char
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, char16_t value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* std::shared_ptr<CacheableDate> type is corresponding to java Java.util.date
	* type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type
	* std::shared_ptr<CacheableDate>
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	std::shared_ptr<CacheableDate> value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* bool* type is corresponding to java boolean[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type bool array
	* @param length
	* The number of elements in bool array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<bool>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int8_t* type is corresponding to java byte[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int8_t array
	* @param length
	* The number of elements in int8_t array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<int8_t>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int16_t* type is corresponding to java short[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int16_t array
	* @param length
	* The number of elements in int16_t array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<int16_t>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int32_t* type is corresponding to java int[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int32_t array
	* @param length
	* The number of elements in int32_t array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<int32_t>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int64_t* type is corresponding to java long[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type int64_t array
	* @param length
	* The number of elements in int64_t array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<int64_t>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* float* type is corresponding to java float[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type float array
	* @param length
	* The number of elements in float array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<float>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* double* type is corresponding to java double[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type double array
	* @param length
	* The number of elements in double array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<double>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* char* type is corresponding to java String type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type char*
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::string& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* char16_t* type is corresponding to java char[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type char16_t array
	* @param length
	* The number of elements in char16_t array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	const std::vector<char16_t>& value) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* char** type is corresponding to java String[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type char* array
	* @param length
	* The number of elements in CString array type.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, std::string* value,
	int32_t length) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* int8_t** type is corresponding to java byte[][] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type array of byte arrays
	* @param arrayLength
	* The number of byte arrays.
	* @param elementLength
	* The lengths of individual byte arrays.
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName, int8_t** value,
	int32_t arrayLength, int32_t* elementLength) = 0;

	/**
	* Set the existing named field to the given value.
	* The setField method has copy-on-write semantics.
	* So for the modifications to be stored in the cache the WritablePdxInstance
	* must be put into a region after setField has been called one or more times.
	* std::shared_ptr<CacheableObjectArray> type is corresponding to java
	* Object[] type.
	* @param fieldName
	* name of the field whose value will be set
	* @param value
	* value that will be set to the field of type
	* std::shared_ptr<CacheableObjectArray>
	* @throws IllegalStateException if the named field does not exist
	* or if the type of the value is not compatible with the field.
	*/
	virtual void setField(const std::string& fieldName,
	std::shared_ptr<CacheableObjectArray> value) = 0;

	protected:
	/**
	* @brief constructors
	*/
	WritablePdxInstance() = default;

	private:
	WritablePdxInstance(const WritablePdxInstance& other) = delete;
	void operator=(const WritablePdxInstance& other) = delete;
	};
	} // namespace client
	} // namespace geode
	} // namespace apache

	#endif // GEODE_WRITABLEPDXINSTANCE_H_