### Class GateAROS: Create an AROS gatestub file ##############################

BEGIN {
    package GateAROS;
    use vars qw(@ISA);
    @ISA = qw( Gate );

    sub new {
      my $proto  = shift;
      my $class  = ref($proto) || $proto;
      my $self   = $class->SUPER::new( @_ );
      bless ($self, $class);
      return $self;
    }

    sub header {
      my $self = shift;
      my $sfd  = $self->{SFD};
      $self->SUPER::header (@_);

      print "#include <aros/libcall.h>\n";
      print "\n";
    }

    sub function {
      my $self     = shift;
      my %params    = @_;
      my $prototype = $params{'prototype'};
      my $sfd       = $self->{SFD};

      if ($prototype->{type} eq 'cfunction') {
          print "#define $gateprefix$prototype->{funcname} " .
            "AROS_SLIB_ENTRY(" .
            "$gateprefix$prototype->{funcname},$sfd->{Basename})\n\n";
      }

      $self->SUPER::function (@_);
    }
    sub function_start {
      my $self      = shift;
      my %params    = @_;
      my $prototype = $params{'prototype'};
      my $sfd       = $self->{SFD};
      my $nb        = $prototype->{nb} || $libarg eq 'none';

      # AROS macros cannot handle function pointer arguments :-(

      for my $i (0 .. $prototype->{numargs} - 1) {
          if ($prototype->{argtypes}[$i] =~ /\(\*\)/) {
            my $typedef  = $prototype->{argtypes}[$i];
            my $typename = "$sfd->{Basename}_$prototype->{funcname}_fp$i";

            $typedef =~ s/\(\*\)/(*_$typename)/;
            print "typedef $typedef;\n";
          }
      }

      if ($self->{PROTO}) {
          printf "AROS_LD%d%s(", $prototype->{numargs}, $nb ? "I" : "";
      }
      else {
          printf "AROS_LH%d%s(", $prototype->{numargs}, $nb ? "I" : "";
      }
      print "$prototype->{return}, $gateprefix$prototype->{funcname},\n";
    }

    sub function_arg {
      my $self      = shift;
      my %params    = @_;
      my $prototype = $params{'prototype'};
      my $argtype   = $params{'argtype'};
      my $argname   = $params{'argname'};
      my $argreg    = $params{'argreg'};
      my $argnum    = $params{'argnum'};
      my $sfd       = $self->{SFD};

      if ($argtype =~ /\(\*\)/) {
          $argtype = "_$sfd->{Basename}_$prototype->{funcname}_fp$argnum";
      }

      if ($self->{PROTO}) {
          print " AROS_LDA($argtype, $argname, " . (uc $argreg) . "),\n";
      }
      else {
          print " AROS_LHA($argtype, $argname, " . (uc $argreg) . "),\n";
      }
    }
    sub function_end {
      my $self      = shift;
      my %params    = @_;
      my $prototype = $params{'prototype'};
      my $sfd       = $self->{SFD};

      my $bt = "/* bt */";
      my $bn = "/* bn */";

      if ($prototype->{nb}) {
          for my $i (0 .. $#{$prototype->{regs}}) {
            if ($prototype->{regs}[$i] eq 'a6') {
                $bt = $prototype->{argtypes}[$i];
                $bn  =$prototype->{___argnames}[$i];
                last;
            }
          }
      }
      else {
          $bt = $sfd->{basetype};
          $bn = "_base";
      }

      printf "    $bt, $bn, %d, $sfd->{Basename})",
      $prototype->{bias} / 6;

      if ($self->{PROTO}) {
          print ";\n";
          print "#define $gateprefix$prototype->{funcname} " .
            "AROS_SLIB_ENTRY(" .
            "$gateprefix$prototype->{funcname},$sfd->{Basename})\n";
      }
      else {
          print "\n";
          print "{\n";
          print "  AROS_LIBFUNC_INIT\n";
          print "  return $libprefix$prototype->{funcname}(";

          if ($libarg eq 'first' && !$prototype->{nb}) {
            print "_base";
            print $prototype->{numargs} > 0 ? ", " : "";
          }

          print join (', ', @{$prototype->{___argnames}});
          if ($libarg eq 'last' && !$prototype->{nb}) {
            print $prototype->{numargs} > 0 ? ", " : "";
            print "_base";
          }
          print ");\n";
          print "  AROS_LIBFUNC_EXIT\n";
          print "}\n";
      }
    }
}