#!/usr/bin/perl use strict; use warnings; use XML::LibXML; our @lines_rb; my $os; if ($^O =~ /linux/i or $^O =~ /darwin/i) { $os = 'linux'; } else { $os = 'windows'; } $os = $ARGV[2] if ($ARGV[2]); sub indent_rb(&) { my ($sub) = @_; my @lines; { local @lines_rb; $sub->(); @lines = map { " " . $_ } @lines_rb; } push @lines_rb, @lines } sub rb_ucase { my ($name) = @_; return $name if ($name eq uc($name)); return join("", map { ucfirst $_ } (split('_', $name))); } my %item_renderer = ( 'global' => \&render_item_global, 'number' => \&render_item_number, 'container' => \&render_item_container, 'compound' => \&render_item_compound, 'pointer' => \&render_item_pointer, 'static-array' => \&render_item_staticarray, 'primitive' => \&render_item_primitive, 'bytes' => \&render_item_bytes, ); my %global_types; our $current_typename; sub render_global_enum { my ($name, $type) = @_; my $rbname = rb_ucase($name); push @lines_rb, "class $rbname < MemHack::Enum"; indent_rb { render_enum_fields($type); }; push @lines_rb, "end\n"; } sub render_enum_fields { my ($type) = @_; push @lines_rb, "ENUM = Hash.new"; push @lines_rb, "NUME = Hash.new"; my %attr_type; my %attr_list; render_enum_initattrs($type, \%attr_type, \%attr_list); my $value = -1; for my $item ($type->findnodes('child::enum-item')) { $value = $item->getAttribute('value') || ($value+1); my $elemname = $item->getAttribute('name'); # || "unk_$value"; if ($elemname) { my $rbelemname = rb_ucase($elemname); push @lines_rb, "ENUM[$value] = :$rbelemname ; NUME[:$rbelemname] = $value"; for my $iattr ($item->findnodes('child::item-attr')) { my $attr = render_enum_attr($rbelemname, $iattr, \%attr_type, \%attr_list); $lines_rb[$#lines_rb] .= ' ; ' . $attr; } } } } sub render_enum_initattrs { my ($type, $attr_type, $attr_list) = @_; for my $attr ($type->findnodes('child::enum-attr')) { my $rbattr = rb_ucase($attr->getAttribute('name')); my $typeattr = $attr->getAttribute('type-name'); # find how we need to encode the attribute values: string, symbol (for enums), raw (number, bool) if ($typeattr) { if ($global_types{$typeattr}) { $attr_type->{$rbattr} = 'symbol'; } else { $attr_type->{$rbattr} = 'naked'; } } else { $attr_type->{$rbattr} = 'quote'; } my $def = $attr->getAttribute('default-value'); if ($attr->getAttribute('is-list')) { push @lines_rb, "$rbattr = Hash.new { |h, k| h[k] = [] }"; $attr_list->{$rbattr} = 1; } elsif ($def) { $def = ":$def" if ($attr_type->{$rbattr} eq 'symbol'); $def =~ s/'/\\'/g if ($attr_type->{$rbattr} eq 'quote'); $def = "'$def'" if ($attr_type->{$rbattr} eq 'quote'); push @lines_rb, "$rbattr = Hash.new($def)"; } else { push @lines_rb, "$rbattr = Hash.new"; } } } sub render_enum_attr { my ($rbelemname, $iattr, $attr_type, $attr_list) = @_; my $ian = $iattr->getAttribute('name'); my $iav = $iattr->getAttribute('value'); my $rbattr = rb_ucase($ian); my $op = ($attr_list->{$rbattr} ? '<<' : '='); $iav = ":$iav" if ($attr_type->{$rbattr} eq 'symbol'); $iav =~ s/'/\\'/g if ($attr_type->{$rbattr} eq 'quote'); $iav = "'$iav'" if ($attr_type->{$rbattr} eq 'quote'); return "${rbattr}[:$rbelemname] $op $iav"; } sub render_global_bitfield { my ($name, $type) = @_; my $rbname = rb_ucase($name); push @lines_rb, "class $rbname < MemHack::Compound"; indent_rb { render_bitfield_fields($type); }; push @lines_rb, "end\n"; } sub render_bitfield_fields { my ($type) = @_; push @lines_rb, "field(:_whole, 0) {"; indent_rb { render_item_number($type); }; push @lines_rb, "}"; my $shift = 0; for my $field ($type->findnodes('child::ld:field')) { my $count = $field->getAttribute('count') || 1; my $name = $field->getAttribute('name'); my $type = $field->getAttribute('type-name'); my $enum = rb_ucase($type) if ($type and $global_types{$type}); $name = $field->getAttribute('ld:anon-name') if (!$name); print "bitfield $name !number\n" if (!($field->getAttribute('ld:meta') eq 'number')); if ($name) { if ($count == 1) { push @lines_rb, "field(:$name, 0) { bit $shift }"; } elsif ($enum) { push @lines_rb, "field(:$name, 0) { bits $shift, $count, $enum }"; } else { push @lines_rb, "field(:$name, 0) { bits $shift, $count }"; } } $shift += $count; } } my %seen_class; our $compound_off; our $compound_pointer; sub render_global_class { my ($name, $type) = @_; my $meta = $type->getAttribute('ld:meta'); my $rbname = rb_ucase($name); # ensure pre-definition of ancestors my $parent = $type->getAttribute('inherits-from'); render_global_class($parent, $global_types{$parent}) if ($parent and !$seen_class{$parent}); return if $seen_class{$name}; $seen_class{$name}++; local $compound_off = 0; $compound_off = 4 if ($meta eq 'class-type'); $compound_off = sizeof($global_types{$parent}) if $parent; local $current_typename = $rbname; my $rtti_name; if ($meta eq 'class-type') { $rtti_name = $type->getAttribute('original-name') || $type->getAttribute('type-name') || $name; } my $rbparent = ($parent ? rb_ucase($parent) : 'MemHack::Compound'); push @lines_rb, "class $rbname < $rbparent"; indent_rb { my $sz = sizeof($type); # see comment is sub sizeof ; but gcc has sizeof(cls) aligned $sz = align_field($sz, 4) if $os eq 'linux' and $meta eq 'class-type'; push @lines_rb, "sizeof $sz\n"; push @lines_rb, "rtti_classname :$rtti_name\n" if $rtti_name; render_struct_fields($type); my $vms = $type->findnodes('child::virtual-methods')->[0]; render_class_vmethods($vms) if $vms; }; push @lines_rb, "end\n"; } sub render_struct_fields { my ($type) = @_; my $isunion = $type->getAttribute('is-union'); for my $field ($type->findnodes('child::ld:field')) { my $name = $field->getAttribute('name'); $name = $field->getAttribute('ld:anon-name') if (!$name); if (!$name and $field->getAttribute('ld:anon-compound')) { render_struct_fields($field); } else { $compound_off = align_field($compound_off, get_field_align($field)); if ($name) { push @lines_rb, "field(:$name, $compound_off) {"; indent_rb { render_item($field); }; push @lines_rb, "}"; render_struct_field_refs($type, $field, $name); } } $compound_off += sizeof($field) if (!$isunion); } } # handle generating accessor for xml attributes ref-target, refers-to etc sub render_struct_field_refs { my ($parent, $field, $name) = @_; my $reftg = $field->getAttribute('ref-target'); render_field_reftarget($parent, $field, $name, $reftg) if ($reftg); my $refto = $field->getAttribute('refers-to'); render_field_refto($parent, $name, $refto) if ($refto); my $meta = $field->getAttribute('ld:meta'); my $item = $field->findnodes('child::ld:item')->[0]; if ($meta and $meta eq 'container' and $item) { my $itemreftg = $item->getAttribute('ref-target'); render_container_reftarget($parent, $item, $name, $itemreftg) if $itemreftg; } } sub render_field_reftarget { my ($parent, $field, $name, $reftg) = @_; my $aux = $field->getAttribute('aux-value'); return if ($aux); # TODO my $tg = $global_types{$reftg}; return if (!$tg); my $tgvec = $tg->getAttribute('instance-vector'); return if (!$tgvec); my $idx = $tg->getAttribute('key-field'); $tgvec =~ s/^\$global/df/; return if $tgvec !~ /^[\w\.]+$/; my $tgname = "${name}_tg"; $tgname =~ s/_id(.?.?)_tg/_tg$1/; for my $othername (map { $_->getAttribute('name') } $parent->findnodes('child::ld:field')) { $tgname .= '_' if ($othername and $tgname eq $othername); } if ($idx) { my $fidx = ''; $fidx = ', :' . $idx if ($idx ne 'id'); push @lines_rb, "def $tgname ; ${tgvec}.binsearch($name$fidx) ; end"; } else { push @lines_rb, "def $tgname ; ${tgvec}[$name] ; end"; } } sub render_field_refto { my ($parent, $name, $tgvec) = @_; $tgvec =~ s/^\$global/df/; $tgvec =~ s/\[\$\]$//; return if $tgvec !~ /^[\w\.]+$/; my $tgname = "${name}_tg"; $tgname =~ s/_id(.?.?)_tg/_tg$1/; for my $othername (map { $_->getAttribute('name') } $parent->findnodes('child::ld:field')) { $tgname .= '_' if ($othername and $tgname eq $othername); } push @lines_rb, "def $tgname ; ${tgvec}[$name] ; end"; } sub render_container_reftarget { my ($parent, $item, $name, $reftg) = @_; my $aux = $item->getAttribute('aux-value'); return if ($aux); # TODO my $tg = $global_types{$reftg}; return if (!$tg); my $tgvec = $tg->getAttribute('instance-vector'); return if (!$tgvec); my $idx = $tg->getAttribute('key-field'); $tgvec =~ s/^\$global/df/; return if $tgvec !~ /^[\w\.]+$/; my $tgname = "${name}_tg"; $tgname =~ s/_id(.?.?)_tg/_tg$1/; for my $othername (map { $_->getAttribute('name') } $parent->findnodes('child::ld:field')) { $tgname .= '_' if ($othername and $tgname eq $othername); } if ($idx) { my $fidx = ''; $fidx = ', :' . $idx if ($idx ne 'id'); push @lines_rb, "def $tgname ; $name.map { |i| $tgvec.binsearch(i$fidx) } ; end"; } else { push @lines_rb, "def $tgname ; $name.map { |i| ${tgvec}[i] } ; end"; } } sub render_class_vmethods { my ($vms) = @_; my $voff = 0; for my $meth ($vms->findnodes('child::vmethod')) { my $name = $meth->getAttribute('name'); if ($name) { my @argnames; my @argargs; # check if arguments need special treatment (eg auto-convert from symbol to enum value) for my $arg ($meth->findnodes('child::ld:field')) { my $nr = $#argnames + 1; my $argname = lcfirst($arg->getAttribute('name') || "arg$nr"); push @argnames, $argname; if ($arg->getAttribute('ld:meta') eq 'global' and $arg->getAttribute('ld:subtype') eq 'enum') { push @argargs, rb_ucase($arg->getAttribute('type-name')) . ".int($argname)"; } else { push @argargs, $argname; } } # write vmethod ruby wrapper push @lines_rb, "def $name(" . join(', ', @argnames) . ')'; indent_rb { my $args = join('', map { ", $_" } @argargs); my $call = "DFHack.vmethod_call(self, $voff$args)"; my $ret = $meth->findnodes('child::ret-type')->[0]; render_class_vmethod_ret($call, $ret); }; push @lines_rb, 'end'; } # on linux, the destructor uses 2 entries $voff += 4 if $meth->getAttribute('is-destructor') and $os eq 'linux'; $voff += 4; } } sub render_class_vmethod_ret { my ($call, $ret) = @_; if (!$ret) { # method returns void, hide return value push @lines_rb, "$call ; nil"; return; } my $retmeta = $ret->getAttribute('ld:meta') || ''; if ($retmeta eq 'global') { # method returns an enum value: auto-convert to symbol my $retname = $ret->getAttribute('type-name'); if ($retname and $global_types{$retname} and $global_types{$retname}->getAttribute('ld:meta') eq 'enum-type') { push @lines_rb, rb_ucase($retname) . ".sym($call)"; } else { print "vmethod global nonenum $call\n"; push @lines_rb, $call; } } elsif ($retmeta eq 'number') { # raw method call returns an int32, mask according to actual return type my $retsubtype = $ret->getAttribute('ld:subtype'); my $retbits = $ret->getAttribute('ld:bits'); push @lines_rb, "val = $call"; if ($retsubtype eq 'bool') { push @lines_rb, "(val & 1) != 0"; } elsif ($ret->getAttribute('ld:unsigned')) { push @lines_rb, "val & ((1 << $retbits) - 1)"; } elsif ($retbits != 32) { # manual sign extension push @lines_rb, "val &= ((1 << $retbits) - 1)"; push @lines_rb, "((val >> ($retbits-1)) & 1) == 0 ? val : val - (1 << $retbits)"; } } elsif ($retmeta eq 'pointer') { # method returns a pointer to some struct, create the correct ruby wrapper push @lines_rb, "ptr = $call"; push @lines_rb, "class << self"; indent_rb { render_item($ret->findnodes('child::ld:item')->[0]); }; push @lines_rb, "end._at(ptr) if ptr != 0"; } else { print "vmethod unkret $call\n"; push @lines_rb, $call; } } sub render_global_objects { my (@objects) = @_; my @global_objects; local $compound_off = 0; local $current_typename = 'Global'; # define all globals as 'fields' of a virtual globalobject wrapping the whole address space push @lines_rb, 'class GlobalObjects < MemHack::Compound'; indent_rb { for my $obj (@objects) { my $oname = $obj->getAttribute('name'); # check if the symbol is defined in xml to avoid NULL deref my $addr = "DFHack.get_global_address('$oname')"; push @lines_rb, "addr = $addr"; push @lines_rb, "if addr != 0"; indent_rb { push @lines_rb, "field(:$oname, addr) {"; my $item = $obj->findnodes('child::ld:item')->[0]; indent_rb { render_item($item); }; push @lines_rb, "}"; }; push @lines_rb, "end"; push @global_objects, $oname; } }; push @lines_rb, "end"; # define friendlier accessors, eg df.world -> DFHack::GlobalObjects.new._at(0).world indent_rb { push @lines_rb, "Global = GlobalObjects.new._at(0)"; for my $obj (@global_objects) { push @lines_rb, "def self.$obj ; Global.$obj ; end"; push @lines_rb, "def self.$obj=(v) ; Global.$obj = v ; end"; } }; } my %align_cache; my %sizeof_cache; sub align_field { my ($off, $fldalign) = @_; my $dt = $off % $fldalign; $off += $fldalign - $dt if $dt > 0; return $off; } sub get_field_align { my ($field) = @_; my $al = 4; my $meta = $field->getAttribute('ld:meta'); if ($meta eq 'number') { $al = $field->getAttribute('ld:bits')/8; # linux aligns int64_t to 4, windows to 8 # floats are 4 bytes so no pb $al = 4 if ($al > 4 and ($os eq 'linux' or $al != 8)); } elsif ($meta eq 'global') { $al = get_global_align($field); } elsif ($meta eq 'compound') { $al = get_compound_align($field); } elsif ($meta eq 'static-array') { my $tg = $field->findnodes('child::ld:item')->[0]; $al = get_field_align($tg); } elsif ($meta eq 'bytes') { $al = $field->getAttribute('alignment') || 1; } return $al; } sub get_global_align { my ($field) = @_; my $typename = $field->getAttribute('type-name'); return $align_cache{$typename} if $align_cache{$typename}; my $g = $global_types{$typename}; my $st = $field->getAttribute('ld:subtype') || ''; if ($st eq 'bitfield' or $st eq 'enum' or $g->getAttribute('ld:meta') eq 'bitfield-type') { my $base = $field->getAttribute('base-type') || $g->getAttribute('base-type') || 'uint32_t'; print "$st type $base\n" if $base !~ /int(\d+)_t/; # dont cache, field->base-type may differ return $1/8; } my $al = 1; for my $gf ($g->findnodes('child::ld:field')) { my $fld_al = get_field_align($gf); $al = $fld_al if $fld_al > $al; } $align_cache{$typename} = $al; return $al; } sub get_compound_align { my ($field) = @_; my $st = $field->getAttribute('ld:subtype') || ''; if ($st eq 'bitfield' or $st eq 'enum') { my $base = $field->getAttribute('base-type') || 'uint32_t'; print "$st type $base\n" if $base !~ /int(\d+)_t/; return $1/8; } my $al = 1; for my $f ($field->findnodes('child::ld:field')) { my $fal = get_field_align($f); $al = $fal if $fal > $al; } return $al; } sub sizeof { my ($field) = @_; my $meta = $field->getAttribute('ld:meta'); if ($meta eq 'number') { return $field->getAttribute('ld:bits')/8; } elsif ($meta eq 'pointer') { return 4; } elsif ($meta eq 'static-array') { my $count = $field->getAttribute('count'); my $tg = $field->findnodes('child::ld:item')->[0]; return $count * sizeof($tg); } elsif ($meta eq 'bitfield-type' or $meta eq 'enum-type') { my $base = $field->getAttribute('base-type') || 'uint32_t'; print "$meta type $base\n" if $base !~ /int(\d+)_t/; return $1/8; } elsif ($meta eq 'global') { my $typename = $field->getAttribute('type-name'); return $sizeof_cache{$typename} if $sizeof_cache{$typename}; my $g = $global_types{$typename}; my $st = $field->getAttribute('ld:subtype') || ''; if ($st eq 'bitfield' or $st eq 'enum' or $g->getAttribute('ld:meta') eq 'bitfield-type') { my $base = $field->getAttribute('base-type') || $g->getAttribute('base-type') || 'uint32_t'; print "$st type $base\n" if $base !~ /int(\d+)_t/; return $1/8; } return sizeof($g); } elsif ($meta eq 'class-type' or $meta eq 'struct-type' or $meta eq 'compound') { return sizeof_compound($field); } elsif ($meta eq 'container') { my $subtype = $field->getAttribute('ld:subtype'); if ($subtype eq 'stl-vector') { if ($os eq 'linux') { return 12; } elsif ($os eq 'windows') { return 16; } else { print "sizeof stl-vector on $os\n"; } } elsif ($subtype eq 'stl-bit-vector') { if ($os eq 'linux') { return 20; } elsif ($os eq 'windows') { return 20; } else { print "sizeof stl-bit-vector on $os\n"; } } elsif ($subtype eq 'stl-deque') { if ($os eq 'linux') { return 40; } elsif ($os eq 'windows') { return 24; } else { print "sizeof stl-deque on $os\n"; } } elsif ($subtype eq 'df-linked-list') { return 12; } elsif ($subtype eq 'df-flagarray') { return 8; } elsif ($subtype eq 'df-array') { return 8; # XXX 6 ? } else { print "sizeof container $subtype\n"; } } elsif ($meta eq 'primitive') { my $subtype = $field->getAttribute('ld:subtype'); if ($subtype eq 'stl-string') { if ($os eq 'linux') { return 4; } elsif ($os eq 'windows') { return 28; } else { print "sizeof stl-string on $os\n"; } print "sizeof stl-string\n"; } else { print "sizeof primitive $subtype\n"; } } elsif ($meta eq 'bytes') { return $field->getAttribute('size'); } else { print "sizeof $meta\n"; } } sub sizeof_compound { my ($field) = @_; my $typename = $field->getAttribute('type-name'); return $sizeof_cache{$typename} if $typename and $sizeof_cache{$typename}; my $meta = $field->getAttribute('ld:meta'); my $st = $field->getAttribute('ld:subtype') || ''; if ($st eq 'bitfield' or $st eq 'enum') { my $base = $field->getAttribute('base-type') || 'uint32_t'; print "$st type $base\n" if $base !~ /int(\d+)_t/; $sizeof_cache{$typename} = $1/8 if $typename; return $1/8; } if ($field->getAttribute('is-union')) { my $sz = 0; for my $f ($field->findnodes('child::ld:field')) { my $fsz = sizeof($f); $sz = $fsz if $fsz > $sz; } return $sz; } my $parent = $field->getAttribute('inherits-from'); my $off = 0; $off = 4 if ($meta eq 'class-type'); $off = sizeof($global_types{$parent}) if ($parent); my $al = 1; $al = 4 if ($meta eq 'class-type'); for my $f ($field->findnodes('child::ld:field')) { my $fa = get_field_align($f); $al = $fa if $fa > $al; $off = align_field($off, $fa); $off += sizeof($f); } # GCC: class a { vtable; char; } ; class b:a { char c2; } -> c2 has offset 5 (Windows MSVC: offset 8) $al = 1 if ($meta eq 'class-type' and $os eq 'linux'); $off = align_field($off, $al); $sizeof_cache{$typename} = $off if $typename; return $off; } sub render_item { my ($item) = @_; return if (!$item); my $meta = $item->getAttribute('ld:meta'); my $renderer = $item_renderer{$meta}; if ($renderer) { $renderer->($item); } else { print "no render item $meta\n"; } } sub render_item_global { my ($item) = @_; my $typename = $item->getAttribute('type-name'); my $subtype = $item->getAttribute('ld:subtype'); if ($subtype and $subtype eq 'enum') { render_item_number($item); } else { my $rbname = rb_ucase($typename); push @lines_rb, "global :$rbname"; } } sub render_item_number { my ($item, $classname) = @_; my $subtype = $item->getAttribute('ld:subtype'); my $meta = $item->getAttribute('ld:meta'); my $initvalue = $item->getAttribute('init-value'); my $typename = $item->getAttribute('type-name'); undef $typename if ($meta and $meta eq 'bitfield-type'); my $g = $global_types{$typename} if ($typename); $typename = rb_ucase($typename) if $typename; $typename = $classname if (!$typename and $subtype and $subtype eq 'enum'); # compound enum $initvalue = 1 if ($initvalue and $initvalue eq 'true'); $initvalue = ":$initvalue" if ($initvalue and $typename and $initvalue =~ /[a-zA-Z]/); $initvalue ||= 'nil' if $typename; $subtype = $item->getAttribute('base-type') if (!$subtype or $subtype eq 'bitfield' or $subtype eq 'enum'); $subtype ||= $g->getAttribute('base-type') if ($g); $subtype = 'int32_t' if (!$subtype); if ($subtype eq 'int64_t') { push @lines_rb, 'number 64, true'; } elsif ($subtype eq 'uint32_t') { push @lines_rb, 'number 32, false'; } elsif ($subtype eq 'int32_t') { push @lines_rb, 'number 32, true'; } elsif ($subtype eq 'uint16_t') { push @lines_rb, 'number 16, false'; } elsif ($subtype eq 'int16_t') { push @lines_rb, 'number 16, true'; } elsif ($subtype eq 'uint8_t') { push @lines_rb, 'number 8, false'; } elsif ($subtype eq 'int8_t') { push @lines_rb, 'number 8, false'; } elsif ($subtype eq 'bool') { push @lines_rb, 'number 8, true'; $initvalue ||= 'nil'; $typename ||= 'BooleanEnum'; } elsif ($subtype eq 's-float') { push @lines_rb, 'float'; return; } else { print "no render number $subtype\n"; return; } $lines_rb[$#lines_rb] .= ", $initvalue" if ($initvalue); $lines_rb[$#lines_rb] .= ", $typename" if ($typename); } sub render_item_compound { my ($item) = @_; my $subtype = $item->getAttribute('ld:subtype'); local $compound_off = 0; my $classname = $current_typename . '_' . rb_ucase($item->getAttribute('ld:typedef-name')); local $current_typename = $classname; if (!$subtype || $subtype eq 'bitfield') { push @lines_rb, "compound(:$classname) {"; indent_rb { # declare sizeof() only for useful compound, eg the one behind pointers # that the user may want to allocate my $sz = sizeof($item); push @lines_rb, "sizeof $sz\n" if $compound_pointer; if (!$subtype) { local $compound_pointer = 0; render_struct_fields($item); } else { render_bitfield_fields($item); } }; push @lines_rb, "}" } elsif ($subtype eq 'enum') { push @lines_rb, "class ::DFHack::$classname < MemHack::Enum"; indent_rb { # declare constants render_enum_fields($item); }; push @lines_rb, "end\n"; # actual field render_item_number($item, $classname); } else { print "no render compound $subtype\n"; } } sub render_item_container { my ($item) = @_; my $subtype = $item->getAttribute('ld:subtype'); my $rbmethod = join('_', split('-', $subtype)); my $tg = $item->findnodes('child::ld:item')->[0]; my $indexenum = $item->getAttribute('index-enum'); if ($tg) { if ($rbmethod eq 'df_linked_list') { push @lines_rb, "$rbmethod {"; } else { my $tglen = sizeof($tg) if $tg; push @lines_rb, "$rbmethod($tglen) {"; } indent_rb { render_item($tg); }; push @lines_rb, "}"; } elsif ($indexenum) { $indexenum = rb_ucase($indexenum); push @lines_rb, "$rbmethod($indexenum)"; } else { push @lines_rb, "$rbmethod"; } } sub render_item_pointer { my ($item) = @_; my $tg = $item->findnodes('child::ld:item')->[0]; my $ary = $item->getAttribute('is-array') || ''; if ($ary eq 'true') { my $tglen = sizeof($tg) if $tg; push @lines_rb, "pointer_ary($tglen) {"; } else { push @lines_rb, "pointer {"; } indent_rb { local $compound_pointer = 1; render_item($tg); }; push @lines_rb, "}"; } sub render_item_staticarray { my ($item) = @_; my $count = $item->getAttribute('count'); my $tg = $item->findnodes('child::ld:item')->[0]; my $tglen = sizeof($tg) if $tg; my $indexenum = $item->getAttribute('index-enum'); if ($indexenum) { $indexenum = rb_ucase($indexenum); push @lines_rb, "static_array($count, $tglen, $indexenum) {"; } else { push @lines_rb, "static_array($count, $tglen) {"; } indent_rb { render_item($tg); }; push @lines_rb, "}"; } sub render_item_primitive { my ($item) = @_; my $subtype = $item->getAttribute('ld:subtype'); if ($subtype eq 'stl-string') { push @lines_rb, "stl_string"; } else { print "no render primitive $subtype\n"; } } sub render_item_bytes { my ($item) = @_; my $subtype = $item->getAttribute('ld:subtype'); if ($subtype eq 'padding') { } elsif ($subtype eq 'static-string') { my $size = $item->getAttribute('size'); push @lines_rb, "static_string($size)"; } else { print "no render bytes $subtype\n"; } } my $input = $ARGV[0] or die "need input xml"; my $output = $ARGV[1] or die "need output file"; my $doc = XML::LibXML->new()->parse_file($input); $global_types{$_->getAttribute('type-name')} = $_ foreach $doc->findnodes('/ld:data-definition/ld:global-type'); # render enums first, this allows later code to refer to them directly my @nonenums; for my $name (sort { $a cmp $b } keys %global_types) { my $type = $global_types{$name}; my $meta = $type->getAttribute('ld:meta'); if ($meta eq 'enum-type') { render_global_enum($name, $type); } else { push @nonenums, $name; } } # render other structs/bitfields/classes for my $name (@nonenums) { my $type = $global_types{$name}; my $meta = $type->getAttribute('ld:meta'); if ($meta eq 'struct-type' or $meta eq 'class-type') { render_global_class($name, $type); } elsif ($meta eq 'bitfield-type') { render_global_bitfield($name, $type); } else { print "no render global type $meta\n"; } } # render globals render_global_objects($doc->findnodes('/ld:data-definition/ld:global-object')); open FH, ">$output"; print FH "module DFHack\n"; print FH "$_\n" for @lines_rb; print FH "end\n"; close FH;