Mercurial > pub > Impl
view Lib/Schema.pm @ 89:3d1f584aea60
small fix in the activator and secure cookie
author | wizard |
---|---|
date | Wed, 21 Apr 2010 17:39:45 +0400 |
parents | 16ada169ca75 |
children |
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package Schema; package Schema::TypeName; package Schema::Type; package Schema::Template; package Schema::TemplateSpec; package Schema::Member; package Schema::Property; package Schema::TypeName; use Common; #our @ISA = qw(Object); # можно оптимизировать производительность, создавая объект скалаяр для простых # имен и обхект хеш для специализаций # сделано sub new { my $class = shift; my $this; my $name = shift; my @list = map { ref $_ eq 'Schema::TypeName' ? $_ : new Schema::TypeName($_) } @_; die new Exception('TypeName soud be a simple identifier',$name) if not $name =~ /^\w+$/; if (@list) { $this = bless {}, $class; $this->{Name} = $name; $this->{TemplateList} = \@list if @list; } else { $this = bless \$name, $class; } return $this; } sub Name { my $this = shift; return (UNIVERSAL::isa($this,'HASH') ? $this->{Name} : $$this); } sub Simple { return $_[0]->Name; } # список параметров типа sub TemplateList { my $this = shift; return (UNIVERSAL::isa($this,'HASH') ? (wantarray ? @{$this->{TemplateList}} : $this->{TemplateList} ) : (wantarray ? return () : undef)); } # имя типа является именем шаблона sub isTemplateSpec { my $this = shift; return( UNIVERSAL::isa($this,'HASH') ? 1 : 0 ); } sub CanonicalName { my $this = shift; if (UNIVERSAL::isa($this,'HASH')) { if (my $result = $this->{SavedCanonicalName}) { $result; } else { $result = $this->{Name}; $result .= '@'. join('#',map {ref $_ eq __PACKAGE__ ? $_->CanonicalName : $_} @{$this->{TemplateList}}) . '@@'; $this->{SavedCanonicalName} = $result; } } else { $$this; } } sub Canonical { return $_[0]->CanonicalName; } # Не регистрирует вновь созданных типов в таблице # Это из-за случая, когда: # MyClass { Hash<int> my_map; }, тоесть полученный тип Hahs<int> уже специализирован и он будет сразу инстантинорован # DoNotCreate для специализации шаблона только существующими типами sub Resolve { my ($this,$TypeTable,$DoNotCreate) = @_; if (my $type = $TypeTable->ResolveType($this,$DoNotCreate)) { # предполагается, что схема автоматически создает ссылки вперед на неопределенные простые типы return $type; } else { if ($this->isTemplateSpec) { return new Schema::TemplateSpec($this->Name,map {ref $_ eq __PACKAGE__ ? $_->Resolve($TypeTable,$DoNotCreate) : Schema::TypeName->new($_)->Resolve($TypeTable,$DoNotCreate)} @{$this->{TemplateList}} ); } else { die new Exception("Simple type not found", $this->Name); } } } package Schema::TypeTable; use Common; our @ISA = qw(Object); BEGIN { DeclareProperty(Table => ACCESS_NONE); DeclareProperty(NextTable => ACCESS_NONE); } sub CTOR { my ($this,$nextTable) = @_; $this->{$NextTable} = $nextTable; } sub ResolveType { my ($this,$TypeName,@args) = @_; if (my $Type = $this->{$Table}->{$TypeName->CanonicalName}) { return $Type; } elsif($this->{$NextTable}) { return $this->{$NextTable}->ResolveType($TypeName,@args); } else { return undef; } } sub RegisterType { my ($this,$Type) = @_; if (not $this->{$Table}->{$Type->Name->CanonicalName}) { $this->{$Table}->{$Type->Name->CanonicalName} = $Type; } else { die new Exception("A type already registered",$Type->Name->CanonicalName); } } sub _ListTypes { my $this = shift; return values %{$this->{$Table}}; } sub Dispose { my $this = shift; $_->Dispose foreach values %{$this->{$Table} ? $this->{$Table} : {} }; delete $this->{$Table}; $this->SUPER::Dispose; } # Специализация шаблона - это имя специализируемого шаблона и параметры, которые будут ему переданы (важен порядок параметров) # Специализация шаблона параметрами пораждает частично специализированный шаблон, который по сути также является шаблоном # Если специализация полная, то можно создать экземпляр шаблона, тоесть полноценный тип package Schema::TemplateSpec; use Common; our @ISA = qw(Object); BEGIN { DeclareProperty(Name => ACCESS_READ); DeclareProperty(Parameters => ACCESS_READ); DeclareProperty(TemplateList => ACCESS_READ); } sub CTOR { my ($this,$templateName,@typeList) = @_; my %Params; $this->{$TemplateList} = \@typeList; # вычисляем параметры данной специализации my @nameList; foreach $typeItem (@typeList) { map { $Params{$_->Name} = $_ } @{$typeItem->Parameters} if $typeItem->isTemplate; push @nameList, $typeItem->Name; } $this->{$Parameters} = [ values %Params ]; $this->{$Name} = new Schema::TypeName($templateName,@nameList); } sub isTemplate { 1; } sub canInstantinate { my ($this) = @_; if (@{$this->{$Parameters}}) { 0; } else { 1; } } sub Specialize { my ($this,$refParams,$TypeTable) = @_; my @specializedList = map {$_->isTemplate && !$_->canInstantinate ? $_->Specialize($refParams,$TypeTable) : $_ } @{$this->{$TemplateList}}; if ($TypeTable) { my $TypeName = new Schema::TypeName($this->Name->Name,map {$_->Name} @specializedList); my $templateSpec = $TypeTable->ResolveType($TypeName); if (not $templateSpec) { $templateSpec = new Schema::TemplateSpec($this->Name->Name,@specializedList); $TypeTable->RegisterType($templateSpec); } return $templateSpec; } else { return new Schema::TemplateSpec($this->Name->Name,@specializedList); } } # Параметр шаблона # По сути является шаблоном типа Param_Name<T> -> T; package Schema::Parameter; sub new { my $TypeName = new Schema::TypeName($_[1]); bless \$TypeName,$_[0]; } sub Name { ${shift()}; } sub Specialize { my ($this,$refArgs) = @_; return $refArgs->{$$this->Name}; } sub isTemplate { 1; } sub canInstantinate { 0; } sub Parameters { if (wantarray) { shift; } else { [shift]; } } # Член класса package Schema::Member; use Common; our @ISA = qw(Object); our $Abstract = 1; BEGIN { DeclareProperty(Name => ACCESS_READ); } sub CTOR { my($this,$name) = @_; $this->{$Name} = $name; } # Член класса - свойство. # Свойство может быть шаблоном, если шаблоном является его тип package Schema::Property; use Common; our @ISA = qw(Schema::Member); BEGIN { DeclareProperty(Type => ACCESS_READ); } sub CTOR { my ($this,$name,$type) = @_; $this->SUPER::CTOR($name); $this->{$Type} = $type or die new Exception("A type for the property must be specified",$name); } sub isTemplate { my $this = shift; return $this->{$Type}->isTemplate; } sub canInstantinate { my $this = shift; return $this->{$Type}->canInstantinate; } sub Instantinate { my ($this,$Schema) = @_; return new Schema::Property($this->Name,$Schema->Instantinate($this->{$Type})); } sub Specialize { my ($this,$refParams,$TypeTable) = @_; return new Schema::Property($this->Name,$this->{$Type}->Specialize($refParams,$TypeTable)); } # Тип, описывает тип объекта package Schema::Type; use Common; our @ISA = qw(Object); BEGIN { DeclareProperty(Name => ACCESS_READ); DeclareProperty(Schema => ACCESS_READ); DeclareProperty(Members => ACCESS_READ); DeclareProperty(BaseList => ACCESS_READ); DeclareProperty(Attributes => ACCESS_READ); #hash of attributes } sub CTOR { my ($this,$argSchema,$name) = @_; $this->{$Name} = ref $name eq 'Schema::TypeName' ? $name : new Schema::TypeName($name); $this->{$Schema} = $argSchema; } sub isTemplate { 0; } sub Equals { my ($this,$other) = @_; if (UNIVERSAL::isa($other,'Schema::Type')) { return ($this->Name->CanonicalName eq $other->Name->CanonicalName); } else { return 1; } } sub CreateProperty { my ($this,$PropName,$TypeName) = @_; $PropType = $this->_ResolveType($TypeName); return new Schema::Property($PropName,$PropType); } sub AddBase { my ($this,$type) = @_; $type = $this->_ResolveType($type); not $type->isType($this) or die new Exception('Cant derive from the class which is derived from self', $this->Name->CanonicalName, $type->Name->CanonicalName); push @{$this->{$BaseList}},$type; } sub isType { my ($this,$type,$maxlevel) = @_; return 0 if defined $maxlevel and $maxlevel < 0; my $typeName = UNIVERSAL::isa($type,'Schema::Type') ? $type->Name : $type ; return ( $this->{$Name}->CanonicalName eq $typeName->CanonicalName ? 1 : scalar (grep {$_->isType($typeName,defined $maxlevel ? $maxlevel - 1 : undef)} $this->BaseList) ); } sub ValidateType { my ($this,$type) = @_; die new Exception('Can\'t use an unspecialized template',$type->Name->CanonicalName) if ($type->isa('Schema::TypeTemplate')); if ($type->isTemplate and not $type->canInstantinate) { die new Exception('Cant use a not fully specialized template in a simple type',$type->Name->CanonicalName, $this->Name->Name) if not $this->isTemplate; my %Params = map {$_->Name->Name() , 1} @{$this->Parameters}; my @Unresolved = grep {not $Params{$_->Name->Name}} @{$type->Parameters()}; die new Exception('Not all parameters can be rsolved',map {$_->Name->Name} @Unresolved) if @Unresolved; } } sub InsertProperty { my ($this,$PropName,$PropType) = @_; $PropType = $this->_ResolveType($PropType); my $prop = new Schema::Property($PropName,$PropType); push @{$this->{$Members}}, $prop; return $prop; } sub AddMember { my ($this,$member) = @_; push @{$this->{$Members}},$member; } sub GetTypeTable { my $this = shift; return $this->{$Schema}; } sub _ResolveType { my ($this,$type) = @_; if ($type->isa('Schema::TypeName')) { $type = $type->Resolve($this->GetTypeTable()); } elsif ($type->isa('Schema::Type') or $type->isa('Schema::TemplateSpec')) { $this->ValidateType($type); } else { die new Exception('Invalid type',$type); } $type = $this->{$Schema}->Instantinate($type) if ($type->isTemplate and $type->canInstantinate and not $this->isTemplate); return $type; } sub ListMembers { my ($this,%options) = @_; my @members; if ($options{'foreign'}) { push @members, $_->isa('Schema::Type') ? $_->ListMembers(%options) : () foreach @{$this->{$BaseList} ? $this->{$BaseList} : []}; } push @members, @{$this->{$Members} ? $this->{$Members} : []}; return @members; } sub FindMembers { my ($this,$memberName,%options) = @_; my @members = grep { $_->Name eq $memberName} @{$this->{$Members} ? $this->{$Members} : []}; if ($options{'deep'}) { push @members,$_->ListMembers(%options) foreach @{$this->{$BaseList} ? $this->{$BaseList} : []}; } if(wantarray) { return @members; } else { return shift @members; } } sub SetAttributes { my ($this,%attributes) = @_; while (my ($key,$value) = each %attributes) { $this->{$Attributes}{$key} = $value; } } sub GetAttribute { my ($this,$name) = @_; return $this->{$Attributes}{$name}; } sub _dump { my ($this) = @_; return $this->Name->CanonicalName; } sub Dispose { my ($this) = @_; undef %{$this}; $this->SUPER::Dispose; } # Шаблон - праметризованный тип package Schema::Template; use Common; our @ISA = qw(Schema::Type); BEGIN { DeclareProperty(Parameters => ACCESS_READ); DeclareProperty(LocalTypes => ACCESS_NONE); } sub CTOR { my ($this,$Schema,$name,@args) = @_; # параметры не являются чачтью имени $this->SUPER::CTOR($Schema,$name); $this->{$Parameters} = [ map {new Schema::Parameter($_) } @args ]; my $TypeTable = new Schema::TypeTable($Schema); $TypeTable->RegisterType($_) foreach @{$this->{$Parameters} }; $this->{$LocalTypes} = $TypeTable; } sub GetTypeTable { my ($this) = @_; return $this->{$LocalTypes}; } sub isTemplate { 1; } sub Specialize { my ($this,$refArgs,$TypeTable) = @_; my @specializedList = map {$_->Specialize($refArgs)} @{$this->{$Parameters}}; # создаем специализацию шаблона my $specializedType; if ($TypeTable) { my $TypeName = new Schema::TypeName($this->Name->Name,map {$_->Name} @specializedList); if(my $specializedType = $TypeTable->ResolveType($TypeName)) { return $specializedType; } else { $specializedType = new Schema::TemplateSpec($this->Name->Name, @specializedList ); $TypeTable->RegisterType($specializedType); return $specializedType; } } else { return new Schema::TemplateSpec($this->Name->Name, @specializedList ); } } sub canInstantinate { 0; } # создание экземпляра шаблона. # Создать шаблон = полностью его специализировать # Принимает набор параметров шаблона и создает новый тип или возвращает из схемы sub Instantinate { my ($this,$refArgs,$instance) = @_; my %ParamInstances; my @TemplateListNames; foreach my $param (@{$this->{$Parameters}}) { my $type = $refArgs->{$param->Name->Name}; die new Exception("Parameter not specified",$param->Name->Name) if not $type; if ($type->isTemplate) { if ($type->canInstantinate) { $type = $this->Schema->Instantinate($type); } else { die new Exception("Parameter must be a fully speciazlied type",$param->Name->Name); } } $ParamInstances{$param->Name->Name} = $type; push @TemplateListNames, $type->Name; } # параметры представляют собой реальные типы, переходим к созданию типа # данная функция беусловно создает новый тип, эту функцию использует схем $instance = $this->Schema->CreateType( new Schema::TypeName($this->Name->Name,@TemplateListNames) ) if not $instance; $instance->SetAttributes(%{$this->Attributes}) if $this->Attributes; $instance->SetAttributes( TemplateInstance => { Template => $this, Parameters => \%ParamInstances } ); foreach my $Ancestor ($this->BaseList) { $instance->AddBase( $Ancestor->isTemplate ? ( $Ancestor->canInstantinate ? $this->Schema->Instantinate($Ancestor) : $this->Schema->Instantinate($Ancestor->Specialize(\%ParamInstances,$this->GetTypeTable)) ) : $Ancestor ); } foreach my $Member ($this->Members) { $instance->AddMember( $Member->isTemplate ? ($Member->canInstantinate ? $Member->Instantinate($this->Schema) : $Member->Specialize(\%ParamInstances,$this->GetTypeTable)->Instantinate($this->Schema) ) : $Member ); } return $instance; } sub _ResolveType { my ($this,$type) = @_; if ($type->isa('Schema::TypeName')) { $type = $type->Resolve($this->GetTypeTable()); if (not $this->{$LocalTypes}->ResolveType($type->Name)) { $this->{$LocalTypes}->RegisterType($type); } } elsif ($type->isa('Schema::Type') or $type->isa('Schema::TemplateSpec')) { $this->ValidateType($type); } else { die new Exception('Invalid type',$type); } return $type; } package Schema; use strict; use Common; our @ISA = qw(Schema::TypeTable); BEGIN { DeclareProperty(PendingInstances => ACCESS_NONE); DeclareProperty(UnresolvedTypes => ACCESS_NONE); } sub CTOR { } # Схема автоматически создает ссылки вперед на несуществующие простые типы sub ResolveType { my ($this,$TypeName,$DoNotCreate) = @_; if (my $type = $this->SUPER::ResolveType($TypeName)) { return $type; } else { if (not $TypeName->isTemplateSpec and not $DoNotCreate) { $type = new Schema::Type($this,$TypeName); $this->RegisterType($type); $this->{$UnresolvedTypes}->{$TypeName->CanonicalName} = $TypeName; return $type; } else { return undef; } } } sub CreateType { my ($this,$TypeName) = @_; $TypeName = new Schema::TypeName($TypeName) if ref $TypeName ne 'Schema::TypeName'; if (my $type = $this->SUPER::ResolveType($TypeName)) { if ($this->{$UnresolvedTypes}->{$TypeName->CanonicalName}) { delete $this->{$UnresolvedTypes}->{$TypeName->CanonicalName}; return $type; } else { die new Exception("Type already exists",$TypeName->CanonicalName); } } else { $type = new Schema::Type($this,$TypeName); $this->SUPER::RegisterType($type); return $type; } } sub CreateTemplate { my ($this,$TemplateName,@ParamNames) = @_; die new Exception("Parameters required for the template") if not @ParamNames; if (ref $TemplateName eq 'Schema::TypeName') { die new Exception('Template specialization is not valid name for a new template',$TemplateName->CanonicalName) if $TemplateName->isTemplateSpec; } else { $TemplateName = new Schema::TypeName($TemplateName); } if (my $type = $this->SUPER::ResolveType($TemplateName)) { die new Exception('Type already exists'); } else { $type = new Schema::Template($this,$TemplateName,@ParamNames); $this->SUPER::RegisterType($type); return $type; } } # создание экземпляра шаблона # создается новый пустой тип, добавляется в PendingInstances sub Instantinate { my ($this,$TemplateSpec) = @_; # при специализации напрмер этого: T m_var; получим для инстантиниции real_type m_var; и не проверяя отдадим его на специализацию, # вот и обработка return $TemplateSpec if not $TemplateSpec->isTemplate; die new Exception('Only a template specialization can be instantinated') if ref $TemplateSpec ne 'Schema::TemplateSpec'; die new Exception('Only fully specialized template can be instantinated') if not $TemplateSpec->canInstantinate; my $TypeName = $TemplateSpec->Name; if (my $type = $this->SUPER::ResolveType($TypeName)) { return $type; } else { $type = new Schema::Type($this,$TypeName); $this->SUPER::RegisterType($type); push @{$this->{$PendingInstances}},[$TemplateSpec,$type]; return $type; } } sub Close { my ($this) = @_; if (keys %{$this->{$UnresolvedTypes}}) { die new Exception('Some type definitions are absent',keys %{$this->{$UnresolvedTypes}}); } if ($this->{$PendingInstances}) { while( my $ref = shift @{$this->{$PendingInstances}} ) { my ($spec,$instance) = @$ref; if (my $typeTemplate = $this->SUPER::ResolveType( new Schema::TypeName($spec->Name->Name) )) { die new Exception('Can\'t instantinate a specialization of the simple type',$instance->Name->CanonicalName) if not $typeTemplate->isTemplate; if (scalar(@{$typeTemplate->Parameters}) == scalar(@{$spec->TemplateList})) { my @Params = @{$typeTemplate->Parameters}; $typeTemplate->Instantinate({map { (shift @Params)->Name->Name, $_ } @{$spec->TemplateList}},$instance); } else { die new Exception('A template parameters doesn\'t match to the specialization list',$instance->Name->CanonicalName); } } else { die new Exception('Can\'t instantinate a specialization, the specified template isn\'t found', $instance->Name->CanonicalName); } } delete $this->{$PendingInstances}; } } sub EnumTypes { my ($this,%options) = @_; return grep { ($_->isTemplate and not $options{'skip_templates'}) or (not $_->isTemplate and not $options{'skip_classes'}) } $this->_ListTypes; } sub Dispose { my ($this) = @_; delete $this->{$UnresolvedTypes}; $this->SUPER::Dispose; } 1;