package winapi; use strict; sub new { my $proto = shift; my $class = ref($proto) || $proto; my $self = {}; bless ($self, $class); my $output = \${$self->{OUTPUT}}; my $name = \${$self->{NAME}}; $$output = shift; $$name = shift; my $file = shift; my $path = shift; $file =~ s/^.\/(.*)$/$1/; $self->parse_api_file($file); my @files = map { s/^.\/(.*)$/$1/; $_; } split(/\n/, `find $path -name \\*.api`); foreach my $file (@files) { my $module = $file; $module =~ s/.*?\/([^\/]*?)\.api$/$1/; $self->parse_api_file($file,$module); } return $self; } sub parse_api_file { my $self = shift; my $output = \${$self->{OUTPUT}}; my $allowed_kind = \%{$self->{ALLOWED_KIND}}; my $allowed_modules = \%{$self->{ALLOWED_MODULES}}; my $allowed_modules_limited = \%{$self->{ALLOWED_MODULES_LIMITED}}; my $allowed_modules_unlimited = \%{$self->{ALLOWED_MODULES_UNLIMITED}}; my $translate_argument = \%{$self->{TRANSLATE_ARGUMENT}}; my $file = shift; my $module = shift; my $kind; my $extension = 0; my $forbidden = 0; $$output->progress("$file"); open(IN, "< $file") || die "$file: $!\n"; $/ = "\n"; while() { s/^\s*?(.*?)\s*$/$1/; # remove whitespace at begin and end of line s/^(.*?)\s*#.*$/$1/; # remove comments /^$/ && next; # skip empty lines if(s/^%(\S+)\s*//) { $kind = $1; $forbidden = 0; $extension = 0; $$allowed_kind{$kind} = 1; if(/^--forbidden/) { $forbidden = 1; } elsif(/^--extension/) { $extension = 1; } } elsif(defined($kind)) { my $type = $_; if(!$forbidden) { if(defined($module)) { if($$allowed_modules_unlimited{$type}) { $$output->write("$file: type ($type) already specificed as an unlimited type\n"); } elsif(!$$allowed_modules{$type}{$module}) { $$allowed_modules{$type}{$module} = 1; $$allowed_modules_limited{$type} = 1; } else { $$output->write("$file: type ($type) already specificed\n"); } } else { $$allowed_modules_unlimited{$type} = 1; } } else { $$allowed_modules_limited{$type} = 1; } if(defined($$translate_argument{$type}) && $$translate_argument{$type} ne $kind) { $$output->write("$file: type ($type) respecified as different kind ($kind != $$translate_argument{$type})\n"); } else { $$translate_argument{$type} = $kind; } } else { $$output->write("$file: file must begin with % statement\n"); exit 1; } } close(IN); } sub get_spec_file_type { my $proto = shift; my $class = ref($proto) || $proto; my $file = shift; my $type; open(IN, "< $file") || die "$file: $!\n"; $/ = "\n"; while() { if(/^type\s*(\w+)/) { $type = $1; last; } } close(IN); return $type; } sub read_spec_files { my $proto = shift; my $class = ref($proto) || $proto; my $path = shift; my $win16api = shift; my $win32api = shift; my @files = map { s/^.\/(.*)$/$1/; $_; } split(/\n/, `find $path -name \\*.spec`); foreach my $file (@files) { my $type = 'winapi'->get_spec_file_type($file); if($type eq "win16") { $win16api->parse_spec_file($file); } elsif($type eq "win32") { $win32api->parse_spec_file($file); } } } sub parse_spec_file { my $self = shift; my $output = \${$self->{OUTPUT}}; my $function_arguments = \%{$self->{FUNCTION_ARGUMENTS}}; my $function_calling_convention = \%{$self->{FUNCTION_CALLING_CONVENTION}}; my $function_stub = \%{$self->{FUNCTION_STUB}}; my $function_module = \%{$self->{FUNCTION_MODULE}}; my $file = shift; my %ordinals; my $type; my $module; $$output->progress("$file"); open(IN, "< $file") || die "$file: $!\n"; $/ = "\n"; my $header = 1; my $lookahead = 0; while($lookahead || defined($_ = )) { $lookahead = 0; s/^\s*(.*?)\s*$/$1/; s/^(.*?)\s*#.*$/$1/; /^$/ && next; if($header) { if(/^name\s*(\S*)/) { $module = $1; } if(/^type\s*(\w+)/) { $type = $1; } if(/^\d+|@/) { $header = 0 }; next; } my $ordinal; if(/^(\d+|@)\s+(pascal|pascal16|stdcall|cdecl|register|interrupt|varargs)\s+(\S+)\s*\(\s*(.*?)\s*\)\s*(\S+)$/) { my $calling_convention = $2; my $external_name = $3; my $arguments = $4; my $internal_name = $5; $ordinal = $1; # FIXME: Internal name existing more than once not handled properly $$function_arguments{$internal_name} = $arguments; $$function_calling_convention{$internal_name} = $calling_convention; if(!$$function_module{$internal_name}) { $$function_module{$internal_name} = "$module"; } elsif($$function_module{$internal_name} !~ /$module/) { $$function_module{$internal_name} .= " & $module"; } } elsif(/^(\d+|@)\s+stub\s+(\S+)$/) { my $external_name = $2; $ordinal = $1; my $internal_name; if($type eq "win16") { $internal_name = $external_name . "16"; } else { $internal_name = $external_name; } # FIXME: Internal name existing more than once not handled properly $$function_stub{$internal_name} = 1; if(!$$function_module{$internal_name}) { $$function_module{$internal_name} = "$module"; } elsif($$function_module{$internal_name} !~ /$module/) { $$function_module{$internal_name} .= " & $module"; } } elsif(/^(\d+|@)\s+(equate|long|word|extern|forward)/) { # ignore } else { my $next_line = ; if($next_line =~ /^\d|@/) { die "$file: $.: syntax error: '$_'\n"; } else { $_ .= $next_line; $lookahead = 1; } } if(defined($ordinal)) { if($ordinal ne "@" && $ordinals{$ordinal}) { $$output->write("$file: ordinal redefined: $_\n"); } $ordinals{$ordinal}++; } } close(IN); } sub name { my $self = shift; my $name = \${$self->{NAME}}; return $$name; } sub is_allowed_kind { my $self = shift; my $allowed_kind = \%{$self->{ALLOWED_KIND}}; my $kind = shift; if(defined($kind)) { return $$allowed_kind{$kind}; } else { return 0; } } sub is_limited_type { my $self = shift; my $allowed_modules_limited = \%{$self->{ALLOWED_MODULES_LIMITED}}; my $type = shift; return $$allowed_modules_limited{$type}; } sub allowed_type_in_module { my $self = shift; my $allowed_modules = \%{$self->{ALLOWED_MODULES}}; my $allowed_modules_limited = \%{$self->{ALLOWED_MODULES_LIMITED}}; my $type = shift; my $module = shift; return !$$allowed_modules_limited{$type} || $$allowed_modules{$type}{$module}; } sub type_used_in_module { my $self = shift; my $used_modules = \%{$self->{USED_MODULES}}; my $type = shift; my $module = shift; $$used_modules{$type}{$module} = 1; return (); } sub types_not_used { my $self = shift; my $used_modules = \%{$self->{USED_MODULES}}; my $allowed_modules = \%{$self->{ALLOWED_MODULES}}; my $not_used; foreach my $type (sort(keys(%$allowed_modules))) { foreach my $module (sort(keys(%{$$allowed_modules{$type}}))) { if(!$$used_modules{$type}{$module}) { $$not_used{$module}{$type} = 1; } } } return $not_used; } sub translate_argument { my $self = shift; my $translate_argument = \%{$self->{TRANSLATE_ARGUMENT}}; my $argument = shift; return $$translate_argument{$argument}; } sub all_declared_types { my $self = shift; my $translate_argument = \%{$self->{TRANSLATE_ARGUMENT}}; return sort(keys(%$translate_argument)); } sub found_type { my $self = shift; my $type_found = \%{$self->{TYPE_FOUND}}; my $name = shift; $$type_found{$name}++; } sub type_found { my $self = shift; my $type_found= \%{$self->{TYPE_FOUND}}; my $name = shift; return $$type_found{$name}; } sub all_functions { my $self = shift; my $function_calling_convention = \%{$self->{FUNCTION_CALLING_CONVENTION}}; return sort(keys(%$function_calling_convention)); } sub all_functions_found { my $self = shift; my $function_found = \%{$self->{FUNCTION_FOUND}}; return sort(keys(%$function_found)); } sub function_calling_convention { my $self = shift; my $function_calling_convention = \%{$self->{FUNCTION_CALLING_CONVENTION}}; my $name = shift; return $$function_calling_convention{$name}; } sub is_function { my $self = shift; my $function_calling_convention = \%{$self->{FUNCTION_CALLING_CONVENTION}}; my $name = shift; return $$function_calling_convention{$name}; } sub is_shared_function { my $self = shift; my $function_shared = \%{$self->{FUNCTION_SHARED}}; my $name = shift; return $$function_shared{$name}; } sub found_shared_function { my $self = shift; my $function_shared = \%{$self->{FUNCTION_SHARED}}; my $name = shift; $$function_shared{$name} = 1; } sub function_arguments { my $self = shift; my $function_arguments = \%{$self->{FUNCTION_ARGUMENTS}}; my $name = shift; return $$function_arguments{$name}; } sub function_module { my $self = shift; my $function_module = \%{$self->{FUNCTION_MODULE}}; my $name = shift; return $$function_module{$name}; } sub function_stub { my $self = shift; my $function_stub = \%{$self->{FUNCTION_STUB}}; my $name = shift; return $$function_stub{$name}; } sub found_function { my $self = shift; my $function_found = \%{$self->{FUNCTION_FOUND}}; my $name = shift; $$function_found{$name}++; } sub function_found { my $self = shift; my $function_found = \%{$self->{FUNCTION_FOUND}}; my $name = shift; return $$function_found{$name}; } 1;