################################################### # create C header files for an IDL structure # Copyright tridge@samba.org 2000 # Copyright jelmer@samba.org 2005 # released under the GNU GPL package Parse::Pidl::Samba4::Header; use strict; use Parse::Pidl::Typelist qw(mapType); use Parse::Pidl::Util qw(has_property is_constant); use Parse::Pidl::NDR qw(GetNextLevel GetPrevLevel); use Parse::Pidl::Samba4 qw(is_intree); use vars qw($VERSION); $VERSION = '0.01'; my($res); my($tab_depth); sub pidl($) { $res .= shift; } sub tabs() { my $res = ""; $res .="\t" foreach (1..$tab_depth); return $res; } ##################################################################### # parse a properties list sub HeaderProperties($$) { my($props,$ignores) = @_; my $ret = ""; foreach my $d (keys %{$props}) { next if (grep(/^$d$/, @$ignores)); if($props->{$d} ne "1") { $ret.= "$d($props->{$d}),"; } else { $ret.="$d,"; } } if ($ret) { pidl "/* [" . substr($ret, 0, -1) . "] */"; } } ##################################################################### # parse a structure element sub HeaderElement($) { my($element) = shift; pidl tabs(); HeaderType($element, $element->{TYPE}, ""); pidl " "; my $numstar = $element->{POINTERS}; if ($numstar >= 1) { $numstar-- if Parse::Pidl::Typelist::scalar_is_reference($element->{TYPE}); } foreach (@{$element->{ARRAY_LEN}}) { next if is_constant($_) and not has_property($element, "charset"); $numstar++; } pidl "*" foreach (1..$numstar); pidl $element->{NAME}; foreach (@{$element->{ARRAY_LEN}}) { next unless (is_constant($_) and not has_property($element, "charset")); pidl "[$_]"; } pidl ";"; if (defined $element->{PROPERTIES}) { HeaderProperties($element->{PROPERTIES}, ["in", "out"]); } pidl "\n"; } ##################################################################### # parse a struct sub HeaderStruct($$) { my($struct,$name) = @_; pidl "struct $name {\n"; $tab_depth++; my $el_count=0; if (defined $struct->{ELEMENTS}) { foreach my $e (@{$struct->{ELEMENTS}}) { HeaderElement($e); $el_count++; } } if ($el_count == 0) { # some compilers can't handle empty structures pidl tabs()."char _empty_;\n"; } $tab_depth--; pidl tabs()."}"; if (defined $struct->{PROPERTIES}) { HeaderProperties($struct->{PROPERTIES}, []); } } ##################################################################### # parse a enum sub HeaderEnum($$) { my($enum,$name) = @_; my $first = 1; if (not Parse::Pidl::Util::useUintEnums()) { pidl "enum $name {\n"; $tab_depth++; foreach my $e (@{$enum->{ELEMENTS}}) { unless ($first) { pidl ",\n"; } $first = 0; pidl tabs(); pidl $e; } pidl "\n"; $tab_depth--; pidl "}"; } else { my $count = 0; pidl "enum $name { __donnot_use_enum_$name=0x7FFFFFFF};\n"; my $with_val = 0; my $without_val = 0; foreach my $e (@{$enum->{ELEMENTS}}) { my $t = "$e"; my $name; my $value; if ($t =~ /(.*)=(.*)/) { $name = $1; $value = $2; $with_val = 1; die ("you can't mix enum member with values and without values when using --uint-enums!") unless ($without_val == 0); } else { $name = $t; $value = $count++; $without_val = 1; die ("you can't mix enum member with values and without values when using --uint-enums!") unless ($with_val == 0); } pidl "#define $name ( $value )\n"; } pidl "\n"; } } ##################################################################### # parse a bitmap sub HeaderBitmap($$) { my($bitmap,$name) = @_; pidl "/* bitmap $name */\n"; pidl "#define $_\n" foreach (@{$bitmap->{ELEMENTS}}); pidl "\n"; } ##################################################################### # parse a union sub HeaderUnion($$) { my($union,$name) = @_; my %done = (); pidl "union $name {\n"; $tab_depth++; foreach my $e (@{$union->{ELEMENTS}}) { if ($e->{TYPE} ne "EMPTY") { if (! defined $done{$e->{NAME}}) { HeaderElement($e); } $done{$e->{NAME}} = 1; } } $tab_depth--; pidl "}"; if (defined $union->{PROPERTIES}) { HeaderProperties($union->{PROPERTIES}, []); } } ##################################################################### # parse a type sub HeaderType($$$) { my($e,$data,$name) = @_; if (ref($data) eq "HASH") { ($data->{TYPE} eq "ENUM") && HeaderEnum($data, $name); ($data->{TYPE} eq "BITMAP") && HeaderBitmap($data, $name); ($data->{TYPE} eq "STRUCT") && HeaderStruct($data, $name); ($data->{TYPE} eq "UNION") && HeaderUnion($data, $name); return; } if (has_property($e, "charset")) { pidl "const char"; } else { pidl mapType($e->{TYPE}); } } ##################################################################### # parse a typedef sub HeaderTypedef($) { my($typedef) = shift; HeaderType($typedef, $typedef->{DATA}, $typedef->{NAME}); pidl ";\n\n" unless ($typedef->{DATA}->{TYPE} eq "BITMAP"); } ##################################################################### # parse a const sub HeaderConst($) { my($const) = shift; if (!defined($const->{ARRAY_LEN}[0])) { pidl "#define $const->{NAME}\t( $const->{VALUE} )\n"; } else { pidl "#define $const->{NAME}\t $const->{VALUE}\n"; } } ##################################################################### # parse a function sub HeaderFunctionInOut($$) { my($fn,$prop) = @_; foreach my $e (@{$fn->{ELEMENTS}}) { if (has_property($e, $prop)) { HeaderElement($e); } } } ##################################################################### # determine if we need an "in" or "out" section sub HeaderFunctionInOut_needed($$) { my($fn,$prop) = @_; return 1 if ($prop eq "out" && $fn->{RETURN_TYPE} ne "void"); foreach (@{$fn->{ELEMENTS}}) { return 1 if (has_property($_, $prop)); } return undef; } my %headerstructs; ##################################################################### # parse a function sub HeaderFunction($) { my($fn) = shift; return if ($headerstructs{$fn->{NAME}}); $headerstructs{$fn->{NAME}} = 1; pidl "\nstruct $fn->{NAME} {\n"; $tab_depth++; my $needed = 0; if (HeaderFunctionInOut_needed($fn, "in")) { pidl tabs()."struct {\n"; $tab_depth++; HeaderFunctionInOut($fn, "in"); $tab_depth--; pidl tabs()."} in;\n\n"; $needed++; } if (HeaderFunctionInOut_needed($fn, "out")) { pidl tabs()."struct {\n"; $tab_depth++; HeaderFunctionInOut($fn, "out"); if ($fn->{RETURN_TYPE} ne "void") { pidl tabs().mapType($fn->{RETURN_TYPE}) . " result;\n"; } $tab_depth--; pidl tabs()."} out;\n\n"; $needed++; } if (! $needed) { # sigh - some compilers don't like empty structures pidl tabs()."int _dummy_element;\n"; } $tab_depth--; pidl "};\n\n"; } ##################################################################### # parse the interface definitions sub HeaderInterface($) { my($interface) = shift; pidl "#ifndef _HEADER_$interface->{NAME}\n"; pidl "#define _HEADER_$interface->{NAME}\n\n"; if (defined $interface->{PROPERTIES}->{depends}) { my @d = split / /, $interface->{PROPERTIES}->{depends}; foreach my $i (@d) { pidl "#include \"librpc/gen_ndr/$i\.h\"\n"; } } foreach my $d (@{$interface->{DATA}}) { next if ($d->{TYPE} ne "CONST"); HeaderConst($d); } foreach my $d (@{$interface->{DATA}}) { next if ($d->{TYPE} ne "TYPEDEF"); HeaderTypedef($d); } foreach my $d (@{$interface->{DATA}}) { next if ($d->{TYPE} ne "FUNCTION"); HeaderFunction($d); } pidl "#endif /* _HEADER_$interface->{NAME} */\n"; } ##################################################################### # parse a parsed IDL into a C header sub Parse($) { my($idl) = shift; $tab_depth = 0; $res = ""; %headerstructs = (); pidl "/* header auto-generated by pidl */\n\n"; if (!is_intree()) { pidl "#include "; } foreach (@{$idl}) { ($_->{TYPE} eq "INTERFACE") && HeaderInterface($_); } return $res; } 1;