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schifra_reed_solomon_product_code.hpp
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/*
(**************************************************************************)
(* *)
(* Schifra *)
(* Reed-Solomon Error Correcting Code Library *)
(* *)
(* Release Version 0.0.1 *)
(* http://www.schifra.com *)
(* Copyright (c) 2000-2020 Arash Partow, All Rights Reserved. *)
(* *)
(* The Schifra Reed-Solomon error correcting code library and all its *)
(* components are supplied under the terms of the General Schifra License *)
(* agreement. The contents of the Schifra Reed-Solomon error correcting *)
(* code library and all its components may not be copied or disclosed *)
(* except in accordance with the terms of that agreement. *)
(* *)
(* URL: http://www.schifra.com/license.html *)
(* *)
(**************************************************************************)
*/
#ifndef INCLUDE_SCHIFRA_REED_SOLOMON_PRODUCT_CODE_HPP
#define INCLUDE_SCHIFRA_REED_SOLOMON_PRODUCT_CODE_HPP
#include <cstddef>
#include <iostream>
#include <fstream>
#include "schifra_reed_solomon_block.hpp"
#include "schifra_reed_solomon_encoder.hpp"
#include "schifra_reed_solomon_decoder.hpp"
#include "schifra_reed_solomon_interleaving.hpp"
#include "schifra_reed_solomon_bitio.hpp"
#include "schifra_ecc_traits.hpp"
namespace schifra
{
namespace reed_solomon
{
template <std::size_t code_length, std::size_t fec_length, std::size_t data_length = code_length - fec_length>
class square_product_code_encoder
{
public:
typedef encoder<code_length,fec_length> encoder_type;
typedef block<code_length,fec_length> block_type;
typedef traits::reed_solomon_triat<code_length,fec_length,data_length> trait;
typedef unsigned char data_type;
typedef data_type* data_ptr_type;
enum { data_size = data_length * data_length };
enum { total_size = code_length * code_length };
square_product_code_encoder(const encoder_type& enc)
: encoder_(enc)
{}
bool encode(data_ptr_type data)
{
data_ptr_type curr_data_ptr = data;
for (std::size_t row = 0; row < data_length; ++row, curr_data_ptr += data_length)
{
copy(curr_data_ptr, data_length, block_stack_[row]);
if (!encoder_.encode(block_stack_[row]))
{
return false;
}
}
block_type vertical_block;
for (std::size_t col = 0; col < code_length; ++col)
{
for (std::size_t row = 0; row < data_length; ++row)
{
vertical_block[row] = block_stack_[row][col];
}
if (!encoder_.encode(vertical_block))
{
return false;
}
for (std::size_t fec_index = 0; fec_index < fec_length; ++fec_index)
{
block_stack_[data_length + fec_index].fec(fec_index) = vertical_block.fec(fec_index);
}
}
return true;
}
bool encode_and_interleave(data_ptr_type data)
{
if (!encode(data))
{
return false;
}
interleave<code_length,fec_length>(block_stack_);
return true;
}
void output(data_ptr_type output_data)
{
for (std::size_t row = 0; row < code_length; ++row, output_data += code_length)
{
bitio::convert_symbol_to_data<traits::symbol<code_length>::size>(block_stack_[row].data,output_data,code_length);
}
}
void clear()
{
for (std::size_t i = 0; i < code_length; ++i)
{
block_stack_[i].clear();
}
}
private:
square_product_code_encoder(const square_product_code_encoder& spce);
square_product_code_encoder& operator=(const square_product_code_encoder& spce);
block_type block_stack_[code_length];
const encoder_type& encoder_;
};
template <std::size_t code_length, std::size_t fec_length, std::size_t data_length = code_length - fec_length>
class square_product_code_decoder
{
public:
typedef decoder<code_length,fec_length> decoder_type;
typedef block<code_length,fec_length> block_type;
typedef traits::reed_solomon_triat<code_length,fec_length,data_length> trait;
typedef unsigned char data_type;
typedef data_type* data_ptr_type;
enum { data_size = data_length * data_length };
enum { total_size = code_length * code_length };
square_product_code_decoder(const decoder_type& decoder)
: decoder_(decoder)
{}
void decode(data_ptr_type data)
{
copy_proxy(data);
decode_proxy();
}
void deinterleave_and_decode(data_ptr_type data)
{
copy_proxy(data);
interleave<code_length,fec_length>(block_stack_);
decode_proxy();
}
void output(data_ptr_type output_data)
{
for (std::size_t row = 0; row < data_length; ++row, output_data += data_length)
{
bitio::convert_symbol_to_data<traits::symbol<code_length>::size>(block_stack_[row].data,output_data,data_length);
}
}
void clear()
{
for (std::size_t i = 0; i < code_length; ++i)
{
block_stack_[i].clear();
}
}
private:
square_product_code_decoder(const square_product_code_decoder& spcd);
square_product_code_decoder& operator=(const square_product_code_decoder& spcd);
void copy_proxy(data_ptr_type data)
{
for (std::size_t row = 0; row < code_length; ++row, data += code_length)
{
bitio::convert_data_to_symbol<traits::symbol<code_length>::size>(data,code_length,block_stack_[row].data);
}
}
void decode_proxy()
{
bool first_iteration_failure = false;
for (std::size_t row = 0; row < data_length; ++row)
{
if (!decoder_.decode(block_stack_[row]))
{
first_iteration_failure = true;
}
}
if (!first_iteration_failure)
{
/*
Either no errors detected or all errors have
been detected and corrected.
*/
return;
}
block_type vertical_block;
for (std::size_t col = 0; col < code_length; ++col)
{
for (std::size_t row = 0; row < data_length; ++row)
{
vertical_block[row] = block_stack_[row][col];
}
decoder_.decode(vertical_block);
}
}
block_type block_stack_[code_length];
const decoder_type& decoder_;
};
} // namespace reed_solomon
} // namespace schifra
#endif