#include <fc/time.hpp>
#include <fc/variant.hpp>
#include <boost/chrono/system_clocks.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <sstream>
#include <fc/string.hpp>
#include <fc/io/sstream.hpp>
#include <fc/exception/exception.hpp>

namespace fc {

  namespace bch = boost::chrono;

  time_point time_point::now()
  {
     return time_point( microseconds( bch::duration_cast<bch::microseconds>( bch::system_clock::now().time_since_epoch() ).count() ) );
  }

  fc::string time_point_sec::to_non_delimited_iso_string()const
  {
    const auto ptime = boost::posix_time::from_time_t( time_t( sec_since_epoch() ) );
    return boost::posix_time::to_iso_string( ptime );
  }

  fc::string time_point_sec::to_iso_string()const
  {
    const auto ptime = boost::posix_time::from_time_t( time_t( sec_since_epoch() ) );
    return boost::posix_time::to_iso_extended_string( ptime );
  }

  time_point_sec::operator fc::string()const
  {
      return this->to_iso_string();
  }

  time_point_sec time_point_sec::from_iso_string( const fc::string& s )
  { try {
      static boost::posix_time::ptime epoch = boost::posix_time::from_time_t( 0 );
      boost::posix_time::ptime pt;
      if( s.size() >= 5 && s.at( 4 ) == '-' ) // http://en.wikipedia.org/wiki/ISO_8601
          pt = boost::date_time::parse_delimited_time<boost::posix_time::ptime>( s, 'T' );
      else
          pt = boost::posix_time::from_iso_string( s );
      return fc::time_point_sec( (pt - epoch).total_seconds() );
  } FC_RETHROW_EXCEPTIONS( warn, "unable to convert ISO-formatted string to fc::time_point_sec" ) }

  time_point::operator fc::string()const
  {
      return fc::string( time_point_sec( *this ) );
  }

  time_point time_point::from_iso_string( const fc::string& s )
  { try {
      return time_point( time_point_sec::from_iso_string( s ) );
  } FC_RETHROW_EXCEPTIONS( warn, "unable to convert ISO-formatted string to fc::time_point" ) }

  void to_variant( const fc::time_point& t, variant& v ) {
    v = fc::string( t );
  }
  void from_variant( const fc::variant& v, fc::time_point& t ) {
    t = fc::time_point::from_iso_string( v.as_string() );
  }
  void to_variant( const fc::time_point_sec& t, variant& v ) {
    v = fc::string( t );
  }
  void from_variant( const fc::variant& v, fc::time_point_sec& t ) {
    t = fc::time_point_sec::from_iso_string( v.as_string() );
  }

  // inspired by show_date_relative() in git's date.c
  string get_approximate_relative_time_string(const time_point_sec& event_time,
                                              const time_point_sec& relative_to_time /* = fc::time_point::now() */,
                                              const std::string& default_ago /* = " ago" */) {


    string ago = default_ago;
    int32_t seconds_ago = relative_to_time.sec_since_epoch() - event_time.sec_since_epoch();
    if (seconds_ago < 0)
    {
       ago = " in the future";
       seconds_ago = -seconds_ago;
    }
    stringstream result;
    if (seconds_ago < 90)
    {
      result << seconds_ago << " second" << (seconds_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t minutes_ago = (seconds_ago + 30) / 60;
    if (minutes_ago < 90)
    {
      result << minutes_ago << " minute" << (minutes_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t hours_ago = (minutes_ago + 30) / 60;
    if (hours_ago < 90)
    {
      result << hours_ago << " hour" << (hours_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t days_ago = (hours_ago + 12) / 24;
    if (days_ago < 90)
    {
      result << days_ago << " day" << (days_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t weeks_ago = (days_ago + 3) / 7;
    if (weeks_ago < 70)
    {
      result << weeks_ago << " week" << (weeks_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t months_ago = (days_ago + 15) / 30;
    if (months_ago < 12)
    {
      result << months_ago << " month" << (months_ago > 1 ? "s" : "") << ago;
      return result.str();
    }
    uint32_t years_ago = days_ago / 365;
    result << years_ago << " year" << (months_ago > 1 ? "s" : "");
    if (months_ago < 12 * 5)
    {
      uint32_t leftover_days = days_ago - (years_ago * 365);
      uint32_t leftover_months = (leftover_days + 15) / 30;
      if (leftover_months)
        result << leftover_months <<  " month" << (months_ago > 1 ? "s" : "");
    }
    result << ago;
    return result.str();
  }
  string get_approximate_relative_time_string(const time_point& event_time,
                                              const time_point& relative_to_time /* = fc::time_point::now() */,
                                              const std::string& ago /* = " ago" */) {
    return get_approximate_relative_time_string(time_point_sec(event_time), time_point_sec(relative_to_time), ago);
  }

  void to_variant( const microseconds& input_microseconds,  variant& output_variant )
  {
    output_variant = input_microseconds.count();
  }
  void from_variant( const variant& input_variant,  microseconds& output_microseconds )
  {
    output_microseconds = microseconds(input_variant.as_int64());
  }

} //namespace fc