activemq-cpp/src/main/decaf/internal/nio/ShortArrayBuffer.cpp - activemq-cpp - 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 "ShortArrayBuffer.h"

 using namespace decaf;
 using namespace decaf::lang;
 using namespace decaf::lang::exceptions;
 using namespace decaf::internal;
 using namespace decaf::internal::nio;
 using namespace decaf::internal::util;
 using namespace decaf::nio;

 ///////////////////////////////////////////////////////////////////////////////
 ShortArrayBuffer::ShortArrayBuffer( int size, bool readOnly ) :
     ShortBuffer(size), _array(), offset(0), length(size), readOnly(readOnly) {

     // Allocate using the ByteArray, not read-only initially.  Take a reference to it.
     // The capacity is the given capacity times the size of the stored datatype
     this->_array.reset( new ByteArrayAdapter( size * (int)sizeof(short) ) );
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortArrayBuffer::ShortArrayBuffer( short* array, int size, int offset, int length, bool readOnly ) :
     ShortBuffer(length), _array(), offset(offset), length(length), readOnly(readOnly) {

     try{

         if( offset < 0 || offset > size ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__, "Offset parameter if out of bounds, %d", offset );
         }

         if( length < 0 || offset + length > size ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__, "length parameter if out of bounds, %d", length );
         }

         // Allocate using the ByteArray, not read-only initially.
         this->_array.reset( new ByteArrayAdapter( array, length, false ) );
     }
     DECAF_CATCH_RETHROW( NullPointerException )
     DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, NullPointerException )
     DECAF_CATCHALL_THROW( NullPointerException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortArrayBuffer::ShortArrayBuffer( const Pointer<ByteArrayAdapter>& array, int offset, int length, bool readOnly ) :
     ShortBuffer(length), _array(array), offset(offset), length(length), readOnly(readOnly) {

     try{

         if( offset < 0 || offset > array->getCapacity() ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__, "Offset parameter if out of bounds, %d", offset );
         }

         if( length < 0 || offset + length > array->getCapacity() ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__, "length parameter if out of bounds, %d", length );
         }
     }
     DECAF_CATCH_RETHROW( NullPointerException )
     DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, NullPointerException )
     DECAF_CATCHALL_THROW( NullPointerException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortArrayBuffer::ShortArrayBuffer( const ShortArrayBuffer& other ) :
     ShortBuffer(other), _array(other._array), offset(other.offset), length(other.length), readOnly(other.readOnly) {
 }

 ////////////////////////////////////////////////////////////////////////////////
 ShortArrayBuffer::~ShortArrayBuffer() {
 }

 ///////////////////////////////////////////////////////////////////////////////
 short* ShortArrayBuffer::array() {

     try{

         if( !this->hasArray() ) {
             throw UnsupportedOperationException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::arrayOffset() - This Buffer has no backing array." );
         }

         if( this->isReadOnly() ) {
             throw ReadOnlyBufferException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::array - Buffer is Read-Only" );
         }

         return this->_array->getShortArray();
     }
     DECAF_CATCH_RETHROW( ReadOnlyBufferException )
     DECAF_CATCH_RETHROW( UnsupportedOperationException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, UnsupportedOperationException )
     DECAF_CATCHALL_THROW( UnsupportedOperationException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 int ShortArrayBuffer::arrayOffset() {

     try{

         if( !this->hasArray() ) {
             throw UnsupportedOperationException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::arrayOffset() - This Buffer has no backing array." );
         }

         if( this->isReadOnly() ) {
             throw decaf::nio::ReadOnlyBufferException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::arrayOffset() - Buffer is Read Only." );
         }

         return this->offset;
     }
     DECAF_CATCH_RETHROW( ReadOnlyBufferException )
     DECAF_CATCH_RETHROW( UnsupportedOperationException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, UnsupportedOperationException )
     DECAF_CATCHALL_THROW( UnsupportedOperationException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortBuffer* ShortArrayBuffer::asReadOnlyBuffer() const {

     try{

         ShortArrayBuffer* buffer = new ShortArrayBuffer( *this );
         buffer->setReadOnly( true );

         return buffer;
     }
     DECAF_CATCH_RETHROW( Exception )
     DECAF_CATCHALL_THROW( Exception )
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortBuffer& ShortArrayBuffer::compact() {

     try{

         if( this->isReadOnly() ) {
             throw decaf::nio::ReadOnlyBufferException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::compact() - Buffer is Read Only." );
         }

         // copy from the current pos to the beginning all the remaining bytes
         // the set pos to the
         for( int ix = 0; ix < this->remaining(); ++ix ) {
             this->put( ix, this->get( this->position() + ix ) );
         }

         this->position( this->limit() - this->position() );
         this->limit( this->capacity() );
         this->_markSet = false;

         return *this;
     }
     DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, decaf::nio::ReadOnlyBufferException )
     DECAF_CATCHALL_THROW( decaf::nio::ReadOnlyBufferException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 ShortBuffer* ShortArrayBuffer::duplicate() {

     try{
         return new ShortArrayBuffer( *this );
     }
     DECAF_CATCH_RETHROW( Exception )
     DECAF_CATCHALL_THROW( Exception )
 }

 ///////////////////////////////////////////////////////////////////////////////
 short ShortArrayBuffer::get() {

     try{
         return this->get( this->_position++ );
     }
     DECAF_CATCH_RETHROW( BufferUnderflowException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, BufferUnderflowException )
     DECAF_CATCHALL_THROW( BufferUnderflowException )
 }

 ///////////////////////////////////////////////////////////////////////////////
 short ShortArrayBuffer::get( int index ) const {

     try{

         if( index >= this->limit() ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::get - Not enough data to fill request." );
         }

         return this->_array->getShort( offset + index );
     }
     DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, IndexOutOfBoundsException )
     DECAF_CATCHALL_THROW( IndexOutOfBoundsException )
 }

 ////////////////////////////////////////////////////////////////////////////////
 ShortBuffer& ShortArrayBuffer::put( short value ) {

     try{

         this->put( this->_position++, value );
         return *this;
     }
     DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
     DECAF_CATCH_RETHROW( decaf::nio::BufferOverflowException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, decaf::nio::BufferOverflowException )
     DECAF_CATCHALL_THROW( decaf::nio::BufferOverflowException )
 }

 ////////////////////////////////////////////////////////////////////////////////
 ShortBuffer& ShortArrayBuffer::put( int index, short value ) {

     try{

         if( this->isReadOnly() ) {
             throw decaf::nio::ReadOnlyBufferException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::put(i,i) - Buffer is Read Only." );
         }

         if( index >= this->limit() ) {
             throw IndexOutOfBoundsException(
                 __FILE__, __LINE__,
                 "ShortArrayBuffer::put(i,i) - Not enough data to fill request." );
         }

         this->_array->putShort( index + offset, value );

         return *this;
     }
     DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
     DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
     DECAF_CATCH_EXCEPTION_CONVERT( Exception, IndexOutOfBoundsException )
     DECAF_CATCHALL_THROW( IndexOutOfBoundsException )
 }

 ////////////////////////////////////////////////////////////////////////////////
 ShortBuffer* ShortArrayBuffer::slice() const {

     try{

         return new ShortArrayBuffer( this->_array,
                                      this->offset + this->position(),
                                      this->remaining(),
                                      this->isReadOnly() );
     }
     DECAF_CATCH_RETHROW( Exception )
     DECAF_CATCHALL_THROW( Exception )
 }
	/*
	* 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 "ShortArrayBuffer.h"

	using namespace decaf;
	using namespace decaf::lang;
	using namespace decaf::lang::exceptions;
	using namespace decaf::internal;
	using namespace decaf::internal::nio;
	using namespace decaf::internal::util;
	using namespace decaf::nio;

	///////////////////////////////////////////////////////////////////////////////
	ShortArrayBuffer::ShortArrayBuffer( int size, bool readOnly ) :
	ShortBuffer(size), _array(), offset(0), length(size), readOnly(readOnly) {

	// Allocate using the ByteArray, not read-only initially. Take a reference to it.
	// The capacity is the given capacity times the size of the stored datatype
	this->_array.reset( new ByteArrayAdapter( size * (int)sizeof(short) ) );
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortArrayBuffer::ShortArrayBuffer( short* array, int size, int offset, int length, bool readOnly ) :
	ShortBuffer(length), _array(), offset(offset), length(length), readOnly(readOnly) {

	try{

	if( offset < 0 \|\| offset > size ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__, "Offset parameter if out of bounds, %d", offset );
	}

	if( length < 0 \|\| offset + length > size ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__, "length parameter if out of bounds, %d", length );
	}

	// Allocate using the ByteArray, not read-only initially.
	this->_array.reset( new ByteArrayAdapter( array, length, false ) );
	}
	DECAF_CATCH_RETHROW( NullPointerException )
	DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, NullPointerException )
	DECAF_CATCHALL_THROW( NullPointerException )
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortArrayBuffer::ShortArrayBuffer( const Pointer<ByteArrayAdapter>& array, int offset, int length, bool readOnly ) :
	ShortBuffer(length), _array(array), offset(offset), length(length), readOnly(readOnly) {

	try{

	if( offset < 0 \|\| offset > array->getCapacity() ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__, "Offset parameter if out of bounds, %d", offset );
	}

	if( length < 0 \|\| offset + length > array->getCapacity() ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__, "length parameter if out of bounds, %d", length );
	}
	}
	DECAF_CATCH_RETHROW( NullPointerException )
	DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, NullPointerException )
	DECAF_CATCHALL_THROW( NullPointerException )
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortArrayBuffer::ShortArrayBuffer( const ShortArrayBuffer& other ) :
	ShortBuffer(other), _array(other._array), offset(other.offset), length(other.length), readOnly(other.readOnly) {
	}

	////////////////////////////////////////////////////////////////////////////////
	ShortArrayBuffer::~ShortArrayBuffer() {
	}

	///////////////////////////////////////////////////////////////////////////////
	short* ShortArrayBuffer::array() {

	try{

	if( !this->hasArray() ) {
	throw UnsupportedOperationException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::arrayOffset() - This Buffer has no backing array." );
	}

	if( this->isReadOnly() ) {
	throw ReadOnlyBufferException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::array - Buffer is Read-Only" );
	}

	return this->_array->getShortArray();
	}
	DECAF_CATCH_RETHROW( ReadOnlyBufferException )
	DECAF_CATCH_RETHROW( UnsupportedOperationException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, UnsupportedOperationException )
	DECAF_CATCHALL_THROW( UnsupportedOperationException )
	}

	///////////////////////////////////////////////////////////////////////////////
	int ShortArrayBuffer::arrayOffset() {

	try{

	if( !this->hasArray() ) {
	throw UnsupportedOperationException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::arrayOffset() - This Buffer has no backing array." );
	}

	if( this->isReadOnly() ) {
	throw decaf::nio::ReadOnlyBufferException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::arrayOffset() - Buffer is Read Only." );
	}

	return this->offset;
	}
	DECAF_CATCH_RETHROW( ReadOnlyBufferException )
	DECAF_CATCH_RETHROW( UnsupportedOperationException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, UnsupportedOperationException )
	DECAF_CATCHALL_THROW( UnsupportedOperationException )
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortBuffer* ShortArrayBuffer::asReadOnlyBuffer() const {

	try{

	ShortArrayBuffer* buffer = new ShortArrayBuffer( *this );
	buffer->setReadOnly( true );

	return buffer;
	}
	DECAF_CATCH_RETHROW( Exception )
	DECAF_CATCHALL_THROW( Exception )
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortBuffer& ShortArrayBuffer::compact() {

	try{

	if( this->isReadOnly() ) {
	throw decaf::nio::ReadOnlyBufferException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::compact() - Buffer is Read Only." );
	}

	// copy from the current pos to the beginning all the remaining bytes
	// the set pos to the
	for( int ix = 0; ix < this->remaining(); ++ix ) {
	this->put( ix, this->get( this->position() + ix ) );
	}

	this->position( this->limit() - this->position() );
	this->limit( this->capacity() );
	this->_markSet = false;

	return *this;
	}
	DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, decaf::nio::ReadOnlyBufferException )
	DECAF_CATCHALL_THROW( decaf::nio::ReadOnlyBufferException )
	}

	///////////////////////////////////////////////////////////////////////////////
	ShortBuffer* ShortArrayBuffer::duplicate() {

	try{
	return new ShortArrayBuffer( *this );
	}
	DECAF_CATCH_RETHROW( Exception )
	DECAF_CATCHALL_THROW( Exception )
	}

	///////////////////////////////////////////////////////////////////////////////
	short ShortArrayBuffer::get() {

	try{
	return this->get( this->_position++ );
	}
	DECAF_CATCH_RETHROW( BufferUnderflowException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, BufferUnderflowException )
	DECAF_CATCHALL_THROW( BufferUnderflowException )
	}

	///////////////////////////////////////////////////////////////////////////////
	short ShortArrayBuffer::get( int index ) const {

	try{

	if( index >= this->limit() ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::get - Not enough data to fill request." );
	}

	return this->_array->getShort( offset + index );
	}
	DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, IndexOutOfBoundsException )
	DECAF_CATCHALL_THROW( IndexOutOfBoundsException )
	}

	////////////////////////////////////////////////////////////////////////////////
	ShortBuffer& ShortArrayBuffer::put( short value ) {

	try{

	this->put( this->_position++, value );
	return *this;
	}
	DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
	DECAF_CATCH_RETHROW( decaf::nio::BufferOverflowException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, decaf::nio::BufferOverflowException )
	DECAF_CATCHALL_THROW( decaf::nio::BufferOverflowException )
	}

	////////////////////////////////////////////////////////////////////////////////
	ShortBuffer& ShortArrayBuffer::put( int index, short value ) {

	try{

	if( this->isReadOnly() ) {
	throw decaf::nio::ReadOnlyBufferException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::put(i,i) - Buffer is Read Only." );
	}

	if( index >= this->limit() ) {
	throw IndexOutOfBoundsException(
	__FILE__, __LINE__,
	"ShortArrayBuffer::put(i,i) - Not enough data to fill request." );
	}

	this->_array->putShort( index + offset, value );

	return *this;
	}
	DECAF_CATCH_RETHROW( decaf::nio::ReadOnlyBufferException )
	DECAF_CATCH_RETHROW( IndexOutOfBoundsException )
	DECAF_CATCH_EXCEPTION_CONVERT( Exception, IndexOutOfBoundsException )
	DECAF_CATCHALL_THROW( IndexOutOfBoundsException )
	}

	////////////////////////////////////////////////////////////////////////////////
	ShortBuffer* ShortArrayBuffer::slice() const {

	try{

	return new ShortArrayBuffer( this->_array,
	this->offset + this->position(),
	this->remaining(),
	this->isReadOnly() );
	}
	DECAF_CATCH_RETHROW( Exception )
	DECAF_CATCHALL_THROW( Exception )
	}