using std::cout;  using std::cerr;  using std::endl;
#ifndef __CPP__INCLUDED__RPerl__DataType__UnsignedInteger_cpp
#define __CPP__INCLUDED__RPerl__DataType__UnsignedInteger_cpp 0.007_000
// [[[ INCLUDES ]]]
#include <RPerl/DataType/UnsignedInteger.h>  // -> NULL (relies on native C type)
#include <RPerl/DataType/Boolean.cpp>  // -> Boolean.h
#include <RPerl/DataType/Integer.cpp>  // -> Integer.h
#include <RPerl/DataType/Number.cpp>  // -> Number.h
#include <RPerl/DataType/Character.cpp>  // -> Character.h
#include <RPerl/DataType/String.cpp>  // -> String.h
// [[[ TYPEMAP PACK/UNPACK FOR __CPP__TYPES ]]]
// [[[ TYPEMAP PACK/UNPACK FOR __CPP__TYPES ]]]
// [[[ TYPEMAP PACK/UNPACK FOR __CPP__TYPES ]]]
// DEV NOTE, CORRELATION #rp010: the pack/unpack subs (below) are called by *_to_string_CPPTYPES(), moved outside #ifdef blocks
//# ifdef __CPP__TYPES
// convert from (Perl SV containing unsigned_integer) to (C unsigned_integer)
unsigned_integer XS_unpack_unsigned_integer(SV* input_sv) {
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_unpack_unsigned_integer(), top of subroutine\n");
//      unsigned_integer_CHECK(input_sv);
        unsigned_integer_CHECKTRACE(input_sv, "input_sv", "XS_unpack_unsigned_integer()");
//      unsigned_integer output_unsigned_integer;
//      if (SvIOKp(input_sv)) { output_unsigned_integer = SvIV(input_sv); } else { croak("in CPPOPS_CPPTYPES XS_unpack_unsigned_integer(), input_sv was not an unsigned_integer"); }
//      output_unsigned_integer = SvIV(input_sv);
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_unpack_unsigned_integer(), bottom of subroutine\n");
        return((unsigned_integer)SvIV(input_sv));
//      return(output_unsigned_integer);
}
// convert from (C unsigned_integer) to (Perl SV containing unsigned_integer)
void XS_pack_unsigned_integer(SV* output_sv, unsigned_integer input_unsigned_integer) {
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_pack_unsigned_integer(), top of subroutine\n");
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_pack_unsigned_integer(), received input_unsigned_integer = %"INTEGER"\n", input_unsigned_integer);
        sv_setsv(output_sv, sv_2mortal(newSViv(input_unsigned_integer)));
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_pack_unsigned_integer(), have output_sv = '%s'\n", SvPV_nolen(output_sv));
//fprintf(stderr, "in CPPOPS_CPPTYPES XS_pack_unsigned_integer(), bottom of subroutine\n");
}
//# endif
// [[[ BOOLEANIFY ]]]
// [[[ BOOLEANIFY ]]]
// [[[ BOOLEANIFY ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer_to_boolean(SV* input_unsigned_integer) {
//  unsigned_integer_CHECK(input_unsigned_integer);
    unsigned_integer_CHECKTRACE(input_unsigned_integer, "input_unsigned_integer", "unsigned_integer_to_boolean()");
    if (SvIV(input_unsigned_integer) == 0) { return input_unsigned_integer; }
    else { return newSViv(1); }
}
# elif defined __CPP__TYPES
boolean unsigned_integer_to_boolean(unsigned_integer input_unsigned_integer) {
    if (input_unsigned_integer == 0) { return (boolean) input_unsigned_integer; }
    else { return 1; }
}
# endif
// [[[ UNSIGNED INTEGERIFY ]]]
// [[[ UNSIGNED INTEGERIFY ]]]
// [[[ UNSIGNED INTEGERIFY ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer_to_integer(SV* input_unsigned_integer) {
//  unsigned_integer_CHECK(input_unsigned_integer);
    unsigned_integer_CHECKTRACE(input_unsigned_integer, "input_unsigned_integer", "unsigned_integer_to_integer()");
    if (SvIV(input_unsigned_integer) < 0) { return newSViv(SvIV(input_unsigned_integer) * -1); }
    else { return input_unsigned_integer; }
}
# elif defined __CPP__TYPES
integer unsigned_integer_to_integer(unsigned_integer input_unsigned_integer) {
    if (input_unsigned_integer < 0) { return (integer) (input_unsigned_integer * -1); }
    else { return (integer) input_unsigned_integer; }
}
# endif
// [[[ NUMBERIFY ]]]
// [[[ NUMBERIFY ]]]
// [[[ NUMBERIFY ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer_to_number(SV* input_unsigned_integer) {
//  unsigned_integer_CHECK(input_unsigned_integer);
    unsigned_integer_CHECKTRACE(input_unsigned_integer, "input_unsigned_integer", "unsigned_integer_to_number()");
    return input_unsigned_integer;
}
# elif defined __CPP__TYPES
number unsigned_integer_to_number(unsigned_integer input_unsigned_integer) {
    return (number) input_unsigned_integer;
}
# endif
// [[[ CHARACTERIFY ]]]
// [[[ CHARACTERIFY ]]]
// [[[ CHARACTERIFY ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer_to_character(SV* input_unsigned_integer) {
//  unsigned_integer_CHECK(input_unsigned_integer);
    unsigned_integer_CHECKTRACE(input_unsigned_integer, "input_unsigned_integer", "unsigned_integer_to_character()");
    // NEED ADD CODE
}
# elif defined __CPP__TYPES
character unsigned_integer_to_character(unsigned_integer input_unsigned_integer) {
    // NEED OPTIMIZE: remove call to unsigned_integer_to_string_CPPTYPES()
    return (character) unsigned_integer_to_string_CPPTYPES(input_unsigned_integer).at(0);
}
# endif
// [[[ STRINGIFY ]]]
// [[[ STRINGIFY ]]]
// [[[ STRINGIFY ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer_to_string(SV* input_unsigned_integer) {
//      unsigned_integer_CHECK(input_unsigned_integer);
        unsigned_integer_CHECKTRACE(input_unsigned_integer, "input_unsigned_integer", "unsigned_integer_to_string()");
//      fprintf(stderr, "in CPPOPS_PERLTYPES unsigned_integer_to_string(), top of subroutine, received unformatted input_unsigned_integer = %"INTEGER"\n", (unsigned_integer)SvIV(input_unsigned_integer));
//      fprintf(stderr, "in CPPOPS_PERLTYPES unsigned_integer_to_string()...\n");
    // DEV NOTE: disable old stringify w/out underscores
//      return(newSVpvf("%"INTEGER"", (unsigned_integer)SvIV(input_unsigned_integer)));
    return(newSVpv((const char *)((unsigned_integer_to_string_CPPTYPES((unsigned_integer)SvIV(input_unsigned_integer))).c_str()), 0));
}
# elif defined __CPP__TYPES
// DEV NOTE, CORRELATION #rp010: shim CPPTYPES sub
string unsigned_integer_to_string(unsigned_integer input_unsigned_integer) {
    return(unsigned_integer_to_string_CPPTYPES(input_unsigned_integer));
}
# endif
// DEV NOTE, CORRELATION #rp009: must use return type 'string' instead of 'std::string' for proper typemap pack/unpack function name alignment;
// can cause silent failure, falling back to __PERL__TYPES implementation and NOT failure of tests!
// DEV NOTE, CORRELATION #rp010: the real CPPTYPES sub (below) is called by the wrapper PERLTYPES sub and shim CPPTYPES subs (above), moved outside #ifdef blocks
string unsigned_integer_to_string_CPPTYPES(unsigned_integer input_unsigned_integer)
{
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), top of subroutine, received unformatted input_unsigned_integer = %"INTEGER"\n", input_unsigned_integer);
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES()...\n");
    std::ostringstream output_stream;
    output_stream.precision(std::numeric_limits<double>::digits10);
    output_stream << input_unsigned_integer;
    // DEV NOTE: disable old stringify w/out underscores
//  return(output_stream.str());
    string output_string = output_stream.str();
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), have output_string = %s\n", output_string.c_str());
    boolean is_negative = 0;
    if (input_unsigned_integer < 0) { is_negative = 1; }
    std::reverse(output_string.begin(), output_string.end());
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), have reversed output_string = %s\n", output_string.c_str());
    if (is_negative) { output_string.pop_back(); }  // remove negative sign
    string output_string_underscores = "";
    for(std::string::size_type i = 0; i < output_string.size(); ++i) {
//        fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), inside output_string underscore loop, have i = %"INTEGER", output_string[i] = %c\n", (int)i, output_string[i]);
        output_string_underscores += output_string[i];
        if (((i % 3) == 2) && (i > 0) && (i != (output_string.size() - 1))) {
//            fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), AND UNDERSCORE \n");
            output_string_underscores += '_';
        }
    }
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), have reversed output_string_underscores = %s\n", output_string_underscores.c_str());
    std::reverse(output_string_underscores.begin(), output_string_underscores.end());
    if (output_string_underscores == "") {
        output_string_underscores = "0";
    }
//    fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer_to_string_CPPTYPES(), have unreversed output_string_underscores = %s\n", output_string_underscores.c_str());
    if (is_negative) { output_string_underscores = '-' + output_string_underscores; }
    return output_string_underscores;
}
// [[[ TYPE TESTING ]]]
// [[[ TYPE TESTING ]]]
// [[[ TYPE TESTING ]]]
# ifdef __PERL__TYPES
SV* unsigned_integer__typetest0() {
        SV* retval = newSViv((21 / 7) + SvIV(RPerl__DataType__UnsignedInteger__MODE_ID()));
//fprintf(stderr, "in CPPOPS_PERLTYPES unsigned_integer__typetest0(), have retval = %"INTEGER"\n", (unsigned_integer)SvIV(retval));
        return retval;
}
SV* unsigned_integer__typetest1(SV* lucky_unsigned_integer) {
//      unsigned_integer_CHECK(lucky_unsigned_integer);
        unsigned_integer_CHECKTRACE(lucky_unsigned_integer, "lucky_unsigned_integer", "unsigned_integer__typetest1()");
//fprintf(stderr, "in CPPOPS_PERLTYPES unsigned_integer__typetest1(), received lucky_unsigned_integer = %"INTEGER"\n", (unsigned_integer)SvIV(lucky_unsigned_integer));
        return newSViv((SvIV(lucky_unsigned_integer) * 2) + SvIV(RPerl__DataType__UnsignedInteger__MODE_ID()));
}
# elif defined __CPP__TYPES
unsigned_integer unsigned_integer__typetest0() {
        unsigned_integer retval = (21 / 7) + RPerl__DataType__UnsignedInteger__MODE_ID();
//fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer__typetest0(), have retval = %"INTEGER"\n", retval);
        return retval;
}
unsigned_integer unsigned_integer__typetest1(unsigned_integer lucky_unsigned_integer) {
//fprintf(stderr, "in CPPOPS_CPPTYPES unsigned_integer__typetest1(), received lucky_unsigned_integer = %"INTEGER"\n", lucky_unsigned_integer);
        return (lucky_unsigned_integer * 2) + RPerl__DataType__UnsignedInteger__MODE_ID();
}
# endif
#endif