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#include "file.h"

#include "unicode.h"

#include <boost/algorithm/string/predicate.hpp>
#include <boost/endian/conversion.hpp>
#include <boost/version.hpp>

#include <algorithm>
#include <filesystem>
#include <functional>
#include <iostream>
#include <string>
#include <tuple>
#include <unordered_map>

namespace fs = std::filesystem;

using namespace std::string_literals;

namespace {

void usage()
{
 std::cout << "Usage: recode <from-format> <from-file> <to-format> <to-file>" << std::endl;
 std::cout << "Format:" << std::endl;
 std::cout << "    UTF-8       UTF-8" << std::endl;
 std::cout << "    UTF-16      UTF-16, native endian" << std::endl;
 std::cout << "    UTF-16LE    UTF-16, little endian" << std::endl;
 std::cout << "    UTF-16BE    UTF-16, big endian" << std::endl;
 std::cout << "    UTF-32      UTF-32, native endian" << std::endl;
 std::cout << "    UTF-32LE    UTF-32, little endian" << std::endl;
 std::cout << "    UTF-32BE    UTF-32, big endian" << std::endl;
 std::cout << "    ISO-8859-1  ISO-8859-1 (Latin-1)" << std::endl;
 std::cout << "    ISO-8859-15 ISO-8859-15 (Latin-9)" << std::endl;
 std::cout << "Exit code: 0 if valid, 1 otherwise." << std::endl;
}

std::unordered_map<std::string, std::string> typeid_name_map
{
 { "UTF-8", typeid(unicode::UTF_8).name() },
 { "UTF-16", typeid(unicode::UTF_16).name() },
 { "UTF-16LE", typeid(unicode::UTF_16).name() },
 { "UTF-16BE", typeid(unicode::UTF_16).name() },
 { "UTF-32", typeid(unicode::UTF_32).name() },
 { "UTF-32LE", typeid(unicode::UTF_32).name() },
 { "UTF-32BE", typeid(unicode::UTF_32).name() },
 { "ISO-8859-1", typeid(unicode::ISO_8859_1).name() },
 { "ISO-8859-15", typeid(unicode::ISO_8859_15).name() },
};

std::string get_id(const std::string& from, const std::string& to)
{
 return from + "," + to;
}

template<typename From, typename To>
std::string get_id()
{
 return get_id(std::string{typeid(From).name()}, typeid(To).name());
}

// workaround for broken boost::endian::endian_reverse_inplace for C++20 in boost 1.74
template<typename T>
void reverse_endian_inplace(T& c)
{
 size_t size{sizeof(T)};
 uint8_t* p{reinterpret_cast<uint8_t*>(&c)};
 for (int i = 0; i < size / 2; i++) {
  std::swap(p[i], p[size - 1 - i]);
 }
}

template<typename T>
void reverse_endian(std::basic_string<T>& s)
{
 std::for_each(s.begin(), s.end(), [](T& c){
#if BOOST_VERSION > 107400
  boost::endian::endian_reverse_inplace(c);
#else
  reverse_endian_inplace(c);
#endif
 });
}

std::unordered_map<std::string, std::function<std::string(const std::string&, bool, bool)>> convert_map {};

template<typename From, typename To>
void register_convert()
{
 std::string id{ get_id<From, To>() };

 std::function<std::string(const std::string&, bool, bool)> f([](const std::string& s, bool swap_from_endian, bool swap_to_endian) -> std::string
  {
   if (s.size() % sizeof(typename From::value_type) != 0)
    throw std::invalid_argument("Bad number of input bytes. Need multiple of "s + std::to_string(sizeof(typename From::value_type)) + ", got " + std::to_string(s.size()));

   std::basic_string<typename From::value_type> from_data(s.size(), static_cast<typename From::value_type>(0));

   std::memcpy(from_data.data(), s.data(), s.size());
  
   if (swap_from_endian) {
    reverse_endian(from_data);
   }

   std::basic_string<typename To::value_type> to_data {unicode::convert<From, To>(from_data)};
   
   if (swap_to_endian) {
    reverse_endian(to_data);
   }

   std::string result(to_data.size() * sizeof(typename To::value_type), '\0');
   
   std::memcpy(result.data(), to_data.data(), to_data.size() * sizeof(typename To::value_type));

   return result;
  });

 convert_map[id] = f;
}

template<int N, typename... Ts> using NthTypeOf =
 typename std::tuple_element<N, std::tuple<Ts...>>::type;

template<size_t i, size_t j, typename ...Ts>
void iterate_over()
{
 register_convert<NthTypeOf<i,Ts...>, NthTypeOf<j,Ts...>>();

 if constexpr (i + 1 < sizeof...(Ts)) {
  iterate_over<i + 1, j, Ts...>();
 } else if constexpr (j + 1 < sizeof...(Ts)) {
  iterate_over<0, j + 1, Ts...>();
 }
}

template<typename...Ts>
void build_map()
{
 iterate_over<0, 0, Ts...>();
}

}

int main(int argc, char* argv[])
{
 if (argc != 5) {
  usage();
  return 1;
 }

 try {
  build_map<unicode::UTF_8, unicode::UTF_16, unicode::UTF_32, unicode::ISO_8859_1, unicode::ISO_8859_15>();

  std::string from_format {argv[1]};
  fs::path from_path {argv[2]};
  std::string to_format {argv[3]};
  fs::path to_path {argv[4]};

  std::string data{unicode::File::getFile(from_path)};

  auto it_from{typeid_name_map.find(from_format)};
  if (it_from == typeid_name_map.end())
   throw std::invalid_argument("Bad input format: "s + from_format);

  auto it_to{typeid_name_map.find(to_format)};
  if (it_to == typeid_name_map.end())
   throw std::invalid_argument("Bad output format: "s + to_format);

  std::string id{get_id(it_from->second, it_to->second)};

  auto it { convert_map.find(id) };
  if (it == convert_map.end()) {
   std::cerr << "Error: Conversion ID " << id << " not supported." << std::endl;
   return 1;
  }

  bool swap_from_endian{(boost::algorithm::ends_with(from_format, "LE") && boost::endian::order::native != boost::endian::order::little) ||
                        (boost::algorithm::ends_with(from_format, "BE") && boost::endian::order::native != boost::endian::order::big)};
  bool swap_to_endian{(boost::algorithm::ends_with(to_format, "LE") && boost::endian::order::native != boost::endian::order::little) ||
                      (boost::algorithm::ends_with(to_format, "BE") && boost::endian::order::native != boost::endian::order::big)};

  // actual conversion
  std::string to_data{it->second(data, swap_from_endian, swap_to_endian)};

  unicode::File::setFile(to_path, to_data);

 } catch (const std::exception& ex) {
  std::cerr << "Error: " << ex.what() << std::endl;
  return 1;
 }
 return 0;
}