############################################################################### Class::Prototyped - Fast prototype-based OO programming in Perl## Author: Ned Konz and Toby Ovod-Everett############################################################################## Copyright 2001-2024 Ned Konz and Toby Ovod-Everett. All rights reserved.## This program is free software; you can redistribute it and/or modify it# under the same terms as Perl itself.## For comments, questions, bugs or general interest, feel free to# contact Toby Ovod-Everett at toby@ovod-everett.org############################################################################## Class::Prototyped - Fast prototype-based OO programming in PerlpackageClass::Prototyped::Mirror;subPREFIX() {'PKG0x'}subPREFIX_LENGTH() { 5 }packageClass::Prototyped;usestrict;useCarp();$Class::Prototyped::VERSION='1.16';subimport{while(my$symbol=shift) {if($symboleq':OVERLOAD') {unless(scalarkeys%Class::Prototyped::overloadable_symbols) {eval"use overload";@Class::Prototyped::overloadable_symbols{map{split}values%overload::ops} =undef;}}elsif($symboleq':REFLECT') {*UNIVERSAL::reflect=sub{ Class::Prototyped::Mirror->new($_[0]) };}elsif($symboleq':EZACCESS') {nostrict'refs';foreachmy$call(qw(addSlot addSlots deleteSlot deleteSlots getSlot getSlots super)) {*{$call} =sub{my$obj=shift->reflect;UNIVERSAL::can($obj,$call)->($obj,@_);};}}elsif($symboleq':SUPER_FAST') {*Class::Prototyped::Mirror::super=\&Class::Prototyped::Mirror::super_fast;}elsif($symboleq':NEW_MAIN') {*main::new=sub{ Class::Prototyped->new(@_) };}}}# Constructor. Pass in field definitions.subnew {my$class=shift;Carp::croak("odd number of slot parameters to new\n")ifscalar(@_) % 2;$class->newCore('new',undef,@_);}subnewPackage {my$class=shift;my$package=shift;Carp::croak("odd number of slot parameters to newPackage\n")ifscalar(@_) % 2;$class->newCore('newPackage',$package,@_);}# Creates a copy of an objectsubclone {my$original=shift;Carp::croak("odd number of slot parameters to clone\n")ifscalar(@_) % 2;$original->newCore('clone',undef,@_);}subclonePackage {my$original=shift;my$package=shift;Carp::croak("odd number of slot parameters to clonePackage\n")ifscalar(@_) % 2;$original->newCore('clonePackage',$package,@_);}subnewCore {my$class=shift;my$caller=shift;my$package=shift;my$isPackage=substr($caller, -7) eq'Package';my$isNew=substr($caller, 0, 3) eq'new';my$isClone=substr($caller, 0, 5) eq'clone';Carp::croak("odd number of slot parameters to $caller\n")ifscalar(@_) % 2;my$class_mirror=$class->reflect;my($self,$tied);{nostrict'refs';if($isPackage) {if(scalar(keys%{"$package\::"})) {Carp::croak("attempt to use newPackage with already existing package\n"."package: $package");}my%self;tie%self,$class_mirror->tiedInterfacePackage();$tied=tied%self;$Class::Prototyped::Mirror::objects{$package} =$self= \%self;}else{$self= {};$package= Class::Prototyped::Mirror::PREFIX .substr("$self", 7, -1);# HASH($package)tie%$self,$class->reflect->tiedInterfacePackage();$tied=tied%$self;*{"$package\::DESTROY"} = \&Class::Prototyped::DESTROY;}}$tied->package($package);@{$tied->{isa} } =qw(Class::Prototyped);$tied->{vivified_parents} = 1;$tied->{vivified_methods} = 1;$tied->{defaults} =$class_mirror->_defaults;bless$self,$package;# in my own packagemy$parsedSlots=scalar@_||$isClone?$self->reflect->addSlotsParser( ($isClone?$class->reflect->getSlots() : () ),@_) :[];if($isNew) {my$classstar= (ref($class) &&substr(ref($class), 0, Class::Prototyped::Mirror::PREFIX_LENGTH) neClass::Prototyped::Mirror::PREFIX) ?ref($class) :$class;# allow object for named class to provide a class nameif(!(grep{$_->[0] eq'class*'}@$parsedSlots) &&$classstarne'Class::Prototyped'){unshift(@$parsedSlots, @{$self->reflect->addSlotsParser('class*'=>$classstar)});}}$self->reflect->addParsedSlots($parsedSlots)ifscalar(@$parsedSlots);return$self;}subreflect {return$Class::Prototyped::Mirror::mirrors{$_[0] } || Class::Prototyped::Mirror->new($_[0]);}subdestroy {my$self=shift;my$mirror=$self->reflect;my(@otherOrder) = @{$mirror->_otherOrder};$mirror->deleteSlots(@otherOrder);}# Remove my symbol tablesubDESTROY {my$self=shift;my$package=ref($self);if((substr($package, 0, Class::Prototyped::Mirror::PREFIX_LENGTH) eqClass::Prototyped::Mirror::PREFIX)&& ($packagene'Class::Prototyped')){nostrict'refs';my$tied=tied(%$self) orreturn;my$parentOrder=$tied->{parentOrder};my$isa=$tied->{isa};my$slots=$tied->{slots};my(@deadIndices);foreachmy$i(0 ..$#$parentOrder) {my$parent=$slots->{$parentOrder->[$i] };my$parentPackage=ref($parent) ||$parent;push(@deadIndices,$i)unlessscalar(keys%{"$parentPackage\::"});}foreachmy$i(@deadIndices) {delete($slots->{$parentOrder->[$i] });splice(@$parentOrder,$i, 1);splice(@$isa,$i, 1);}# this is required to re-cache @ISAdelete${"$package\::"}{'::ISA::CACHE::'};@$isa=@$isa;my$parent_DESTROY;my(@isa_queue) = @{"$package\::ISA"};my(%isa_cache);while(my$pkg=shift@isa_queue) {exists$isa_cache{$pkg} andnext;my$code= *{"$pkg\::DESTROY"}{CODE};if(defined$code&&$code!= \&Class::Prototyped::DESTROY) {$parent_DESTROY=$code;last;}unshift(@isa_queue, @{"$pkg\::ISA"});$isa_cache{$pkg} =undef;}$self->destroy;# call the user destroy function$parent_DESTROY->($self)ifdefined$parent_DESTROY;$self->reflect->deleteSlots($self->reflect->slotNames('PARENT'));foreachmy$key(keys%{"$package\::"}) {delete${"$package\::"}{$key};}# this only works because we're not a multi-level package:delete($main::{"$package\::"});delete($Class::Prototyped::Mirror::parents{$package});}}$Class::Prototyped::Mirror::ending= 0;subEND {$Class::Prototyped::Mirror::ending= 1 }packageClass::Prototyped::Tied;$Class::Prototyped::Tied::VERSION='1.16';@Class::Prototyped::Tied::DONT_LIE_FOR=qw(Data::Dumper);subTIEHASH {bless$_[1] || {package=>undef,isa=>undef,parentOrder=> [],otherOrder=> [],slots=> {},types=> {},attribs=> {},defaults=>undef,vivified_parents=> 0,vivified_methods=> 0,},$_[0];}subFIRSTKEY {$_[0]->{dont_lie} = 0;my$caller= (caller(0))[0];foreachmy$i(@Class::Prototyped::Tied::DONT_LIE_FOR) {$_[0]->{dont_lie} =$callereq$iandlast;}$_[0]->{iter} = 1;$_[0]->{cachedOrder} = [@{$_[0]->{parentOrder} }, @{$_[0]->{otherOrder} }];unless($_[0]->{dont_lie}) {my$slots=$_[0]->{slots};@{$_[0]->{cachedOrder} } =grep{ !UNIVERSAL::isa($slots->{$_},'CODE') }@{$_[0]->{cachedOrder} };}return$_[0]->{cachedOrder}->[0];}subNEXTKEY {return$_[0]->{cachedOrder}->[$_[0]->{iter}++ ];}subEXISTS {exists$_[0]->{slots}->{$_[1] } orreturn0;UNIVERSAL::isa($_[0]->{slots}->{$_[1] },'CODE') orreturn1;my$dont_lie= 0;my$caller= (caller(0))[0];foreachmy$i(@Class::Prototyped::Tied::DONT_LIE_FOR) {$dont_lie=$callereq$iandlast;}return$dont_lie? 1 : 0;}subCLEAR {Carp::croak("attempt to call CLEAR on the hash interface"." of a Class::Prototyped object\n");}subpackage{return$_[0]->{package}unless@_> 1;nostrict'refs';$_[0]->{isa} = \@{"$_[1]\::ISA"};$_[0]->{package} =$_[1];}#### Default Tied implementationpackageClass::Prototyped::Tied::Default;$Class::Prototyped::Tied::Default::VERSION='1.16';@Class::Prototyped::Tied::Default::ISA=qw(Class::Prototyped::Tied);subSTORE {my$slots=$_[0]->{slots};Carp::croak("attempt to access non-existent slot through tied hash object interface")unlessexists$slots->{$_[1] };Carp::croak("attempt to access METHOD slot through tied hash object interface")ifUNIVERSAL::isa($slots->{$_[1] },'CODE');Carp::croak("attempt to modify parent slot through the tied hash object interface")ifsubstr($_[1], -1) eq'*';$slots->{$_[1] } =$_[2];}subFETCH {my$slots=$_[0]->{slots};Carp::croak("attempt to access non-existent slot through tied hash object interface:\n"."$_[1]")unlessexists$slots->{$_[1] };if(UNIVERSAL::isa($slots->{$_[1] },'CODE')) {my$dont_lie= 0;my$caller= (caller(0))[0];foreachmy$i(@Class::Prototyped::Tied::DONT_LIE_FOR) {$dont_lie=$callereq$iandlast;}Carp::croak("attempt to access METHOD slot through tied hash object interface")unless$dont_lie;}$slots->{$_[1] };}subDELETE {Carp::croak"attempt to delete a slot through tied hash object interface";}#### AutoVivifying Tied implementationpackageClass::Prototyped::Tied::AutoVivify;$Class::Prototyped::Tied::AutoVivify::VERSION='1.16';@Class::Prototyped::Tied::AutoVivify::ISA=qw(Class::Prototyped::Tied);subSTORE {my$slots=$_[0]->{slots};Carp::croak("attempt to modify parent slot through the tied hash object interface")ifsubstr($_[1], -1) eq'*';if(exists$slots->{$_[1] }) {Carp::croak("attempt to access METHOD slot through tied hash object interface")ifUNIVERSAL::isa($slots->{$_[1] },'CODE');}else{my$slot=$_[1];$slots->{$_[1] } =$_[2];my$implementation=blesssub{@_> 1 ?$slots->{$slot} =$_[1] :$slots->{$slot};},'Class::Prototyped::FieldAccessor';nostrict'refs';local$^W = 0;# suppress redefining messages.*{$_[0]->package."::$slot"} =$implementation;push(@{$_[0]->{otherOrder} },$slot);$_[0]->{types}->{$slot} ='FIELD';}Carp::croak("attempt to access non-existent slot through tied hash object interface")unlessexists$slots->{$_[1] };$slots->{$_[1] } =$_[2];}subFETCH {my$slots=$_[0]->{slots};if(exists$slots->{$_[1] }and UNIVERSAL::isa($slots->{$_[1] },'CODE')){my$dont_lie= 0;my$caller= (caller(0))[0];foreachmy$i(@Class::Prototyped::Tied::DONT_LIE_FOR) {$dont_lie=$callereq$iandlast;}Carp::croak("attempt to access METHOD slot through tied hash object interface")unless$dont_lie;}$slots->{$_[1] };}subEXISTS {exists$_[0]->{slots}->{$_[1] };}subDELETE {my$slots=$_[0]->{slots};if(UNIVERSAL::isa($slots->{$_[1] },'CODE')&& (caller(0))[0] ne'Data::Dumper'){Carp::croak"attempt to delete METHOD slot through tied hash object interface";}my$package=$_[0]->package;my$slot=$_[1];{nostrict'refs';my$name="$package\::$slot";# save the glob...local*old= *{$name};# and restore everything elselocal*new;foreachmy$type(qw(HASH IO FORMAT SCALAR ARRAY)) {my$elem=*old{$type};nextif!defined($elem);*new=$elem;}*{$name} =*new;}my$otherOrder=$_[0]->{otherOrder};@$otherOrder=grep{$_ne$slot}@$otherOrder;delete$slots->{$slot};# and delete the data/sub refdelete$_[0]->{types}->{$slot};}# Everything that deals with modifying or inspecting the form# of an object is done through a reflector.packageClass::Prototyped::Mirror;$Class::Prototyped::Mirror::VERSION='1.16';$Class::Prototyped::Mirror::PROFILE::VERSION='1.16';$Class::Prototyped::Mirror::SUPER::VERSION='1.16';subnew {my$class=shift;my($entity) =@_;if(ref($entity) ) {if(substr(ref($entity), 0, Class::Prototyped::Mirror::PREFIX_LENGTH) eqClass::Prototyped::Mirror::PREFIX){returnbless\$entity,'Class::Prototyped::Mirror';}elsif($Class::Prototyped::Mirror::objects{ref($entity) } ==$entity) {return$Class::Prototyped::Mirror::mirrors{$entity} ||=bless\$entity,'Class::Prototyped::Mirror';}else{returnClass::Prototyped::Mirror::Normal->new($entity);}}my$object;unless($object=$Class::Prototyped::Mirror::objects{$entity}) {my(%self);my$tiepkg;if($entityeq'Class::Prototyped') {$tiepkg='Class::Prototyped::Tied::Default';}else{nostrict'refs';$tiepkg=eval{ ${"$entity\::ISA"}[0]->reflect->tiedInterfacePackage() };$tiepkg= Class::Prototyped->reflect->tiedInterfacePackage()if$@;}tie%self,$tiepkg;$object=$Class::Prototyped::Mirror::objects{$entity} = \%self;tied(%self)->package($entity);my$defaults;if($entityeq'Class::Prototyped') {$defaults= {FIELD=>undef,METHOD=>undef,PARENT=>undef};}else{nostrict'refs';$defaults=eval{ ${"$entity\::ISA"}[0]->reflect->_defaults() };$defaults= Class::Prototyped->reflect->_defaults()if$@;}tied(%self)->{defaults} =$defaults;bless$object,$entity;}return$Class::Prototyped::Mirror::mirrors{$entity} ||=bless\$object,'Class::Prototyped::Mirror';}#This code exists to support calling ->reflect->super on a "normal" object that#is blessed into a C::P class.packageClass::Prototyped::Mirror::Normal;$Class::Prototyped::Mirror::Normal::VERSION='1.16';@Class::Prototyped::Mirror::Normal::ISA=qw(Class::Prototyped::Mirror);subnew {my$class=shift;my($entity) =@_;my$temp= Class::Prototyped::Mirror->new(ref($entity));my$self=bless\(my$o= ${$temp}),$class;$Class::Prototyped::Mirror::Normal::superselfs->{$self} =$entity;return$self;}subsuper {my$mirror=shift;(bless\$Class::Prototyped::Mirror::Normal::superselfs->{$mirror},'Class::Prototyped::Mirror')->super(@_);}subDESTROY {delete$Class::Prototyped::Mirror::Normal::superselfs->{$_[0]};}packageClass::Prototyped::Mirror;#### Interface to tied objectsubautoloadCall {my$mirror=shift;my$package=$mirror->package();nostrict'refs';my$call= ${"$package\::AUTOLOAD"};$call=~ s/.*:://;return$call;}subpackage{ref(${$_[0] });}subtiedInterfacePackage {my$self=shift;if($_[0]) {my$package= {'default'=>'Class::Prototyped::Tied::Default','autovivify'=>'Class::Prototyped::Tied::AutoVivify',}->{$_[0]} ||$_[0];if($packageeq$_[0] &&scalar(keys%{"$package\::"}) == 0) {eval"use $package";Carp::croak"attempt to import package for :TIED_INTERFACE failed:\n$package"if$@;}tie%{ ${$self} },$package,tied(%{ ${$self} });return$package;}else{returnref(tied(%{ ${$self} }));}}subdefaultAttributes {my$mirror=shift;tied(%{ ${$mirror} })->{defaults} =$_[0]ifscalar(@_);my$defaults=$mirror->_defaults;my$retval= {};$retval->{FIELD} =defined$defaults->{FIELD} ? {%{$defaults->{FIELD}}} :undef;$retval->{METHOD} =defined$defaults->{METHOD} ? {%{$defaults->{METHOD}}} :undef;$retval->{PARENT} =defined$defaults->{PARENT} ? {%{$defaults->{PARENT}}} :undef;return$retval;}sub_isa {tied(%{ ${$_[0] } })->isa;}sub_parentOrder {my$tied=tied(%{ ${$_[0] } });$_[0]->_autovivify_parentsunless$tied->{vivified_parents};$tied->{parentOrder};}sub_otherOrder {my$tied=tied(%{ ${$_[0] } });$_[0]->_autovivify_methodsunless$tied->{vivified_methods};$tied->{otherOrder};}sub_slotOrder {my$tied=tied(%{ ${$_[0] } });$_[0]->_autovivify_parentsunless$tied->{vivified_parents};$_[0]->_autovivify_methodsunless$tied->{vivified_methods};[@{$tied->{parentOrder} }, @{$tied->{otherOrder} }];}sub_slots {my$tied=tied(%{ ${$_[0] } });$_[0]->_autovivify_parentsunless$tied->{vivified_parents};$_[0]->_autovivify_methodsunless$tied->{vivified_methods};$tied->{slots};}sub_types {tied(%{ ${$_[0] } })->{types};}sub_attribs {tied(%{ ${$_[0] } })->{attribs};}sub_defaults {tied(%{ ${$_[0] } })->{defaults};}sub_vivified_parents {@_> 1 ?tied(%{ ${$_[0] } })->{vivified_parents} =$_[1] :tied(%{ ${$_[0] } })->{vivified_parents};}sub_vivified_methods {@_> 1 ?tied(%{ ${$_[0] } })->{vivified_methods} =$_[1] :tied(%{ ${$_[0] } })->{vivified_methods};}#The following returns package, _isa, _parentOrder, _otherOrder,#_slots, _types, _attribs, and _defaults;sub_everything {my$tied=tied(%{ ${$_[0] } });$_[0]->_autovivify_parentsunless$tied->{vivified_parents};$_[0]->_autovivify_methodsunless$tied->{vivified_methods};return(ref(${$_[0] }),$tied->{isa},$tied->{parentOrder},$tied->{otherOrder},$tied->{slots},$tied->{types},$tied->{attribs},$tied->{defaults},);}#### Autovivifivation supportsub_autovivify_parents {my$tied=tied(%{ ${$_[0] } });returnif$tied->{vivified_parents};my$mirror=shift;$tied->{vivified_parents} = 1;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;if(scalar(grep{ UNIVERSAL::isa($_,'Class::Prototyped') }@$isa)&&$isa->[-1] ne'Class::Prototyped'){push(@$isa,'Class::Prototyped');nostrict'refs';delete${"$package\::"}{'::ISA::CACHE::'};# re-cache @ISA@$isa=@$isa;}if(@{$parentOrder}) {Carp::croak("attempt to autovivify in the "."presence of an existing parentOrder\n"."package: $package");}my@isa=@$isa;pop(@isa)ifscalar(@isa) &&$isa[-1] eq'Class::Prototyped';foreachmy$parentPackage(@isa) {my$count='';my$slot="$parentPackage$count*";while(exists$slots->{$slot} ||$sloteq'self*') {$slot=$parentPackage. (++$count) .'*';}push(@$parentOrder,$slot);$slots->{$slot} =$parentPackage;$types->{$slot} ='PARENT';}}sub_autovivify_methods {my$tied=tied(%{ ${$_[0] } });returnif$tied->{vivified_methods};my$mirror=shift;$tied->{vivified_methods} = 1;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;nostrict'refs';foreachmy$slot(grep{$_ne'DESTROY'}keys%{"$package\::"}) {my$code= *{"$package\::$slot"}{CODE} ornext;ref($code) =~ /^Class::Prototyped::FieldAccessor/ andnext;Carp::croak("the slot self* is inviolable")if$sloteq'self*';if(exists$slots->{$slot}) {Carp::croak("you overwrote a slot via an include $slot")if!UNIVERSAL::isa($slots->{$slot},'CODE')||$slots->{$slot} !=$code;}else{push(@$otherOrder,$slot);$slots->{$slot} =$code;$types->{$slot} ='METHOD';}}}subobject {$_[0]->_autovivify_parents;$_[0]->_autovivify_methods;${$_[0] };}subclass {return$_[0]->_slots->{'class*'};}subdump{eval"package main; use Data::Dumper;"unless(scalarkeys(%Data::Dumper::));Data::Dumper->Dump([$_[0]->object ], [$_[0]->package]);}subslotStruct_name () {0};subslotStruct_value () {1};subslotStruct_type () {2};subslotStruct_attribs () {3};subslotStruct_implementor () {4};subslotStruct_filters () {5};subslotStruct_advisories () {6};#### The support for attribute rationalization is not very fancy$Class::Prototyped::Mirror::attributes= {FIELD=> {constant=> {type=>'implementor',code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;$slotAttribs->{constant} = 1;returnblesssub{$slots->{$slotName};},'Class::Prototyped::FieldAccessor::Constant';}},autoload=> {type=>'filter',rank=> 50,code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;if($slotAttribs->{autoload} =$slotAttribs->{autoload} ? 1 :undef) {my$self=$mirror->object;$implementation=blesssub{my$retval=&$slotValue;my$attribs=$self->reflect->_attribs->{$slotName};delete($attribs->{autoload});$self->reflect->addSlot([$slotName,%$attribs] =>$retval);return$retval;},'Class::Prototyped::FieldAccessor::Autoload';}return$implementation;}},profile=> {type=>'filter',rank=> 80,code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;my$profileLevel=$slotAttribs->{profile};if($profileLevel) {my$old_implementation=$implementation;my$package=ref( ${$mirror} );$implementation=sub{my$caller='';if($profileLevel== 2) {my($pack,$file,$line) =caller;$caller="$file ($line)";$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName}->{$caller}++;}else{$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName}++;}goto&$old_implementation;};}return$implementation;},},'wantarray'=> {type=>'filter',rank=> 90,code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;if($slotAttribs->{'wantarray'} =$slotAttribs->{'wantarray'} ? 1 :undef) {my$old_implementation=$implementation;$implementation=blesssub{my$retval=&$old_implementation;if(ref($retval) eq'ARRAY'&&wantarray) {return(@$retval);}else{return$retval;}},'Class::Prototyped::FieldAccessor::Wantarray';}return$implementation;}},description=> {type=>'advisory',},},METHOD=> {superable=> {type=>'filter',rank=> 10,code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;if($slotAttribs->{superable} =$slotAttribs->{superable} ? 1 :undef) {my$old_implementation=$implementation;my$package=ref( ${$mirror} );$implementation=sub{local$Class::Prototyped::Mirror::SUPER::package=$package;&$old_implementation;};}return$implementation;}},profile=> {type=>'filter',rank=> 90,code=>sub{my($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots) =@_;my$profileLevel=$slotAttribs->{profile};if($profileLevel) {my$old_implementation=$implementation;my$package=ref( ${$mirror} );$implementation=sub{my$caller='';if($profileLevel== 2) {my($pack,$file,$line) =caller;$caller="$file ($line)";$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName}->{$caller}++;}else{$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName}++;}goto&$old_implementation;};}return$implementation;},},overload=> {type=>'advisory',},description=> {type=>'advisory',},},PARENT=> {description=> {type=>'advisory',},promote=> {type=>'advisory',},},};subaddSlotsParser {my$mirror=shift;Carp::croak("odd number of arguments to addSlotsParser\n")ifscalar(@_) % 2;my($package,undef,undef,undef,$slots,undef,undef,$defaults) =$mirror->_everything();my(@retvals);while(my($slotThing,$slotValue) =splice(@_, 0, 2)) {my($slotName,$slotType,$slotAttribs,$slotImplementor,$slotFilters,$slotAdvisories);my$isCode= UNIVERSAL::isa($slotValue,'CODE');if(ref($slotThing) eq'ARRAY') {$slotName=$slotThing->[0];my$temp=$slotThing->[1] ||'';if($tempeq'METHOD'||$tempeq'FIELD'||$tempeq'PARENT') {$slotType=$temp;$temp= 2;}else{$slotType=$isCode?'METHOD':(substr($slotName, -1) eq'*'?'PARENT':'FIELD');$temp= 1;}if($#{$slotThing} >= $temp) {if($#{$slotThing} == $temp) {$slotAttribs=defined$defaults->{$slotType}? { %{$defaults->{$slotType}},$slotThing->[$temp] => 1 }: {$slotThing->[$temp] => 1 };}else{$slotAttribs=defined$defaults->{$slotType}? { %{$defaults->{$slotType}}, @{$slotThing}[$temp..$#{$slotThing}] }: { @{$slotThing}[$temp..$#{$slotThing}] };}}elsif(defined$defaults->{$slotType}) {$slotAttribs= { %{$defaults->{$slotType}} };}if($slotTypeeq'METHOD') {Carp::croak("it is not permitted to use '!' notation in conjunction with slot attributes")ifsubstr($slotName, -1) eq'!';Carp::croak("method slots have to have CODE refs as values")if!$isCode;}elsif($slotTypeeq'PARENT') {Carp::croak("it is not permitted to use '**' notation in conjunction with slot attributes")ifsubstr($slotName, -2, 1) eq'*';}}else{$slotName=$slotThing;$slotType=$isCode?'METHOD':(substr($slotName, -1) eq'*'?'PARENT':'FIELD');if(defined$defaults->{$slotType}) {$slotAttribs= { %{$defaults->{$slotType}} };}# Slots that end in '!' mean that the method is superableif($slotTypeeq'METHOD'&&substr($slotName, -1) eq'!') {$slotName=substr($slotName, 0, -1);$slotAttribs->{superable} = 1;}# Temporary support for &if($slotTypeeq'FIELD'&&substr($slotName, -1) eq'&') {$slotName=substr($slotName, 0, -1);$slotAttribs->{constant} = 1;}# Slots that end in '**' mean to push the slot# to the front of the parents list.if($slotTypeeq'PARENT'&&substr($slotName, -2) eq'**') {$slotName=substr($slotName, 0, -1);# xyz** => xyz*$slotAttribs->{promote} = 1;}}if($slotTypeeq'METHOD'&&exists($Class::Prototyped::overloadable_symbols{$slotName})) {$slotAttribs->{overload} = 1;}else{Carp::croak("can't use slot attribute overload for slots that aren't overloadable")if($slotAttribs->{overload} && !exists($Class::Prototyped::overloadable_symbols{$slotName}));}Carp::croak("slots should end in * if and only if the type is parent")if( (substr($slotName, -1) eq'*') != ($slotTypeeq'PARENT') && !$slotAttribs->{overload} );if($slotNameeq'*') {$slotName= (ref($slotValue) ||$slotValue) .$slotName;}if(scalar(keys(%{$slotAttribs}))) {my$attributes=$Class::Prototyped::Mirror::attributes->{$slotType};foreachmy$attrib(keys%{$slotAttribs}) {Carp::croak("$slotType slots cannot have the '$attrib' attribute.")unlessexists$attributes->{$attrib};my$atype=$attributes->{$attrib}->{type};if($atypeeq'filter') {push(@{$slotFilters},$attrib);}elsif($atypeeq'advisory') {push(@{$slotAdvisories},$attrib);}elsif($atypeeq'implementor') {Carp::croak("slots cannot have more than one implementor.")ifdefined($slotImplementor);$slotImplementor=$attributes->{$attrib}->{code}if$slotAttribs->{$attrib};}else{Carp::croak("unknown attribute type '$atype' for '$attrib'.");}}if(defined$slotFilters) {@{$slotFilters} =map{$attributes->{$_}->{code} }sort{$attributes->{$a}->{rank} <=>$attributes->{$b}->{rank} ||$acmp$b} @{$slotFilters};}if(defined$slotAdvisories) {@{$slotAdvisories} =grep{defined}map{$attributes->{$_}->{code} }sort@{$slotAdvisories};}}Carp::croak("the slot self* is inviolable")if$slotNameeq'self*';Carp::croak("Can only use operator names for method slots\nslot: $slotName")if(exists($Class::Prototyped::overloadable_symbols{$slotName}) &&$slotTypene'METHOD');if($slotTypeeq'PARENT') {Carp::croak("parent slots cannot be code blocks")if($isCode);unless(UNIVERSAL::isa($slotValue,'Class::Prototyped')|| (ref(\$slotValue) eq'SCALAR'&&defined$slotValue)){Carp::croak("attempt to add parent that isn't a "."Class::Prototyped or package name\n"."package: $package slot: $slotName parent: $slotValue");}if(UNIVERSAL::isa($slotValue,$package)) {Carp::croak("attempt at recursive inheritance\n"."parent $slotValue is a package $package");}}elsif($slotTypeeq'METHOD') {Carp::croak("cannot replace DESTROY method for unnamed objects")if($slotNameeq'DESTROY'&&substr($package, 0, PREFIX_LENGTH) eq PREFIX);}push(@retvals, [$slotName,$slotValue,$slotType,$slotAttribs,$slotImplementor,$slotFilters,$slotAdvisories]);}return\@retvals;}subaddParsedSlots {my$mirror=shift;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything();while(@{$_[0]}) {my($slotName,$slotValue,$slotType,$slotAttribs,$slotImplementor,$slotFilters,$slotAdvisories) = @{shift@{$_[0]} };&deleteSlots($mirror,$slotName)ifexists($slots->{$slotName});$slots->{$slotName} =$slotValue;#everything goes into the slots!!!!!if($slotTypeeq'PARENT') {my$parentPackage=ref($slotValue) ||$slotValue;if(substr($parentPackage, 0, PREFIX_LENGTH) eq PREFIX) {$Class::Prototyped::Mirror::parents{$package}->{$slotName} =$slotValue;}else{Carp::carp("it is recommended to use ->reflect->include for mixing in named files.")if$parentPackage=~ /\.p[lm]$/i;nostrict'refs';if(!ref($slotValue)&& !(scalarkeys(%{"$parentPackage\::"}))){$mirror->include($parentPackage);}}my$splice_point=$slotAttribs->{promote} ? 0 :@$parentOrder;delete$slotAttribs->{promote};splice(@$isa,$splice_point, 0,$parentPackage);{#Defends against ISA caching problemsnostrict'refs';delete${"$package\::"}{'::ISA::CACHE::'};@$isa=@$isa;}splice(@$parentOrder,$splice_point, 0,$slotName);}else{my$implementation=defined$slotImplementor?$slotImplementor->($mirror,$slotName,$slotValue,$slotAttribs,undef,$slots): ($slotTypeeq'METHOD'?$slotValue:blesssub{@_> 1 ?$slots->{$slotName} =$_[1] :$slots->{$slotName};},'Class::Prototyped::FieldAccessor');if(defined$slotFilters) {foreachmy$filter(@{$slotFilters}) {$implementation=$filter->($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots);}}if(defined$slotAdvisories) {foreachmy$advisory(@{$slotAdvisories}) {$advisory->($mirror,$slotName,$slotValue,$slotAttribs,$implementation,$slots);}}if($slotAttribs->{overload}) {eval"package$package;bless\$object, \$package;";Carp::croak("Eval failed while defining overload\n"."operation: \"$slotName\" error: $@")if$@;}else{nostrict'refs';local$^W = 0;# suppress redefining messages.*{"$package\::$slotName"} =$implementation;}push(@$otherOrder,$slotName);}$attribs->{$slotName} =$slotAttribs;$types->{$slotName} =$slotType;}return$mirror;}subaddSlots {my$mirror=shift;$mirror->addParsedSlots($mirror->addSlotsParser(@_) );}*addSlot= \&addSlots;# alias addSlot to addSlots# $obj->reflect->deleteSlots( name [, name [...]] );subdeleteSlots {my$mirror=shift;my(@deleteSlots) =@_;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;foreachmy$slot(@deleteSlots) {$slot=substr($slot, 0, -1)ifsubstr($slot, -2) eq'**';$slot=substr($slot, 0, -1)ifsubstr($slot, -1) eq'!';nextif!exists($slots->{$slot});my$value=$slots->{$slot};if(substr($slot, -1) eq'*') {# parent slotmy$index= 0;1while($parentOrder->[$index] ne$slotand$index++ <@$parentOrder);if($index<@$parentOrder) {splice(@$parentOrder,$index, 1);splice(@$isa,$index, 1);{#Defends against ISA caching problemsnostrict'refs';delete${"$package\::"}{'::ISA::CACHE::'};@$isa=@$isa;}}else{# not foundif(!$Class::Prototyped::Mirror::ending) {Carp::cluck"couldn't find $slot in $package\n";$DB::single= 1;}}if(defined($value)) {my$parentPackage=ref($value);if(substr($parentPackage, 0, PREFIX_LENGTH) eq PREFIX) {delete($Class::Prototyped::Mirror::parents{$package}->{$slot});}}else{if(!$Class::Prototyped::Mirror::ending) {Carp::cluck"slot undef for $slot in $package\n";$DB::single= 1;}}}else{if(exists($Class::Prototyped::overloadable_symbols{$slot})) {Carp::croak("Perl segfaults when the last overload is removed. Boom!\n")if(1 ==grep{exists($Class::Prototyped::overloadable_symbols{$_});}keys(%$slots));eval"package$package;nooverload'$slot';bless{}, \$package;";# dummy bless so that overloading works.Carp::croak("Eval failed while removing overload\n"."operation: \"$slot\" error: $@")if$@;}else{# we have a method by that name; delete itnostrict'refs';my$name="$package\::$slot";# save the glob...local*old= *{$name};# and restore everything elselocal*new;foreachmy$type(qw(HASH IO FORMAT SCALAR ARRAY)) {my$elem=*old{$type};nextif!defined($elem);*new=$elem;}*{$name} =*new;}@$otherOrder=grep{$_ne$slot}@$otherOrder;}delete$slots->{$slot};# and delete the data/sub refdelete$types->{$slot};delete$attribs->{$slot};}return$mirror;}*deleteSlot= \&deleteSlots;# alias deleteSlot to deleteSlotssubsuper_slow {returnshift->super_fast(@_)if((caller(1))[0] eq'Class::Prototyped::Mirror::SUPER');returnshift->super_fast(@_)if((caller(2))[0] eq'Class::Prototyped::Mirror::SUPER');Carp::croak("attempt to call super on a method that was defined without !\n"."method: ".$_[1]);}*super= \&super_slowunlessdefined(*super{CODE});subsuper_fast {my$mirror=shift;my$message=shift;$messageor Carp::croak("you have to pass the method name to super");my$object= ${$mirror};my(@isa);{nostrict'refs';@isa= @{$Class::Prototyped::Mirror::SUPER::package.'::ISA'};}my$method;foreachmy$parentPackage(@isa) {$method= UNIVERSAL::can($parentPackage,$message);lastif$method;}$methodor Carp::croak("could not find super in parents\nmessage: $message");$method->($object,@_);}subslotNames {my$mirror=shift;my$type=shift;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;my@slotNames= (@$parentOrder,@$otherOrder);if($type) {@slotNames=grep{$types->{$_} eq$type}@slotNames;}returnwantarray?@slotNames: \@slotNames;}subslotType {my$mirror=shift;my$slotName=shift;my$types=$mirror->_types;Carp::croak("attempt to determine slotType for unknown slot\nslot: $slotName")unlessexists$types->{$slotName};return$types->{$slotName};}# may return dupssuballSlotNames {my$mirror=shift;my$type=shift;my@slotNames;foreachmy$parent($mirror->withAllParents()) {my$mirror= Class::Prototyped::Mirror->new($parent);push(@slotNames,$mirror->slotNames($type));}returnwantarray?@slotNames: \@slotNames;}subparents {my$mirror=shift;my$object=$mirror->object;my$slots=$mirror->_slots;returnmap{$slots->{$_} }$mirror->slotNames('PARENT');}suballParents {my$mirror=shift;my$retval=shift|| [];my$seen=shift|| {};foreachmy$parent($mirror->parents) {nextif$seen->{$parent}++;push@$retval,$parent;my$mirror= Class::Prototyped::Mirror->new($parent);$mirror->allParents($retval,$seen);}returnwantarray?@$retval:$retval;}subwithAllParents {my$mirror=shift;my$object=$mirror->object;my$retval= [$object];my$seen= {$object=> 1 };$mirror->allParents($retval,$seen);}# getSlot returns both the slotName and the slot in array context# so that it can append !'s to superable methods, so that getSlots does the# right thing, so that clone does the right thing.# However, in scalar context, it just returns the value.subgetSlot {my$mirror=shift;my$slot=shift;my$format=shift;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;my$value= ($slotne'self*') ?$slots->{$slot} :$mirror->object;return$valueunlesswantarray;$slot= [$slot,$types->{$slot}, %{$attribs->{$slot} || {}}];if(!defined$format||$formateq'default') {return($slot,$value);}elsif($formateq'simple') {return($slot->[0],$value);}elsif($formateq'rotated') {return($slot->[0], {attribs=> { @{$slot}[2..$#{$slot}] },type=>$slot->[1],value=>$value});}}subgetSlots {my$mirror=shift;my$type=shift;my$format=shift;my@retval;if(defined$type||defined$format) {@retval=map{$mirror->getSlot($_,$format) }$mirror->slotNames($type);}else{my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;@retval=map{([$_,$types->{$_}, %{$attribs->{$_} || {}}] =>$slots->{$_})} (@$parentOrder,@$otherOrder);}returnwantarray?@retval: \@retval;}subpromoteParents {my$mirror=shift;my(@newOrder) =@_;my($package,$isa,$parentOrder,$otherOrder,$slots,$types,$attribs,undef) =$mirror->_everything;my%seen;foreachmy$slot(@newOrder) {$seen{$slot}++;if($seen{$slot} > 1 || !exists($slots->{$slot})) {Carp::croak("promoteParents called with bad order list\nlist: @_");}else{@{$parentOrder} =grep{$_ne$slot} @{$parentOrder};}}@{$parentOrder} = (@newOrder, @{$parentOrder});@$isa=((map{ref($slots->{$_}) ?ref($slots->{$_}) :$slots->{$_} }@{$parentOrder}),'Class::Prototype');# this is required to re-cache @ISAnostrict'refs';delete${"$package\::"}{'::ISA::CACHE::'};@$isa=@$isa;}subwrap {my$mirror=shift;my$class=$mirror->class ||'Class::Prototyped';my$wrapped=$class->new;my$wrappedMirror=$wrapped->reflect;# add all the slots from the original object$wrappedMirror->addSlots($mirror->getSlots);# delete all my original slots# so that the wrapped gets called$mirror->deleteSlots($mirror->slotNames);$mirror->addSlots(@_, [qw(wrapped* promote)] =>$wrapped);$mirror;}subunwrap {my$mirror=shift;my$wrapped=$mirror->getSlot('wrapped*')or Carp::croak"unwrapping without a wrapped\n";my$wrappedMirror=$wrapped->reflect;$mirror->deleteSlots($mirror->slotNames);$mirror->addSlots($wrappedMirror->getSlots);# $wrappedMirror->deleteSlots( $wrappedMirror->slotNames );$mirror;}subdelegate {my$mirror=shift;while(my($name,$value) =splice(@_, 0, 2)) {my@names= (UNIVERSAL::isa($name,'ARRAY') ?@$name:$name);my@conflicts;foreachmy$slotName(@names) {push(@conflicts,grep{$_eq$slotName}$mirror->slotNames);}Carp::croak("delegate would cause conflict with existing slots\n"."pattern: ".join('|',@names) ." , conflicting slots: ".join(', ',@conflicts))if@conflicts;my$delegateMethod;if(UNIVERSAL::isa($value,'ARRAY')) {$delegateMethod=$value->[1];$value=$value->[0];}my$delegate=$mirror->getSlot($value) ||$value;Carp::croak("Can't delegate to a subroutine\nslot: $name")if(UNIVERSAL::isa($delegate,'CODE'));foreachmy$slotName(@names) {my$method=defined($delegateMethod) ?$delegateMethod:$slotName;$mirror->addSlot($slotName=>sub{shift;# discard original recipient$delegate->$method(@_);});}}}subfindImplementation {my$mirror=shift;my$slotName=shift;my$object=$mirror->object;UNIVERSAL::can($object,$slotName) orreturn;my$slots=$mirror->_slots;exists$slots->{$slotName} andreturnwantarray?'self*':$object;foreachmy$parentName($mirror->slotNames('PARENT')) {my$mirror=Class::Prototyped::Mirror->new(scalar($mirror->getSlot($parentName)));if(wantarray) {my(@retval) =$mirror->findImplementation($slotName);scalar(@retval) andreturn($parentName,@retval);}else{my$retval=$mirror->findImplementation($slotName);$retvalandreturn$retval;}}Carp::croak("fatal error in findImplementation");}# load the given file or package in the receiver's namespace# Note that no import is done.# Croaks on an eval error## $mirror->include('Package');# $mirror->include('File.pl');## $mirror->include('File.pl', 'thisObject');# makes thisObject() return the object into which the include# is happening (as long as you don't change packages in the# included code)subinclude {my$mirror=shift;my$name=shift;my$accessorName=shift;$name="'$name'"if$name=~ /\.p[lm]$/i;my$object=$mirror->object;my$package=$mirror->package;my$text="package $package;\n";$text.="*$package\::$accessorName = sub { \$object };\n"ifdefined($accessorName);# $text .= "sub $accessorName { \$object };\n" if defined($accessorName);$text.="require $name;\n";my$retval=eval$text;Carp::croak("include failed\npackage: $package include: $name error: $@")if$@;if(substr($name, -1) eq"'") {$mirror->_vivified_methods(0);$mirror->_autovivify_methods;}$mirror->deleteSlots($accessorName)ifdefined($accessorName);}1;__END__=head1 NAMEC<Class::Prototyped> - Fast prototype-based OO programming in Perl=head1 SYNOPSISuse strict;use Class::Prototyped ':EZACCESS';$, = ' '; $\ = "\n";my $p = Class::Prototyped->new(field1 => 123,sub1 => sub { print "this is sub1 in p" },sub2 => sub { print "this is sub2 in p" });$p->sub1;print $p->field1;$p->field1('something new');print $p->field1;my $p2 = Class::Prototyped->new('parent*' => $p,field2 => 234,sub2 => sub { print "this is sub2 in p2" });$p2->sub1;$p2->sub2;print ref($p2), $p2->field1, $p2->field2;$p2->field1('and now for something different');print ref($p2), $p2->field1;$p2->addSlots( sub1 => sub { print "this is sub1 in p2" } );$p2->sub1;print ref($p2), "has slots", $p2->reflect->slotNames;$p2->reflect->include( 'xx.pl' ); # includes xx.pl in $p2's packageprint ref($p2), "has slots", $p2->reflect->slotNames;$p2->aa(); # calls aa from included file xx.pl$p2->deleteSlots('sub1');$p2->sub1;=head1 DESCRIPTIONThis package provides for efficient and simple prototype-based programmingin Perl. You can provide different subroutines for each object, and alsohave objects inherit their behavior and state from another object.The structure of an object is inspected and modified through I<mirrors>, whichare created by calling C<reflect> on an object or class that inherits fromC<Class::Prototyped>.=head2 Installation instructionsThis module requires C<Module::Build 0.24> to use the automated installationprocedures. With C<Module::Build> installed:Build.PLperl build testperl build installIt can be installed under ActivePerl for Win32 by downloading the PPM from CPAN(the file has the extension C<.ppm.zip>). To install, download the C<.ppm.zip>file, uncompress it, and execute:ppm install Class-Prototyped.ppdThe module can also be installed manually by copying C<lib/Class/Prototyped.pm>to C<perl/site/lib/Class/Prototyped.pm> (along with C<Graph.pm> if you want it).=head1 WHEN TO USE THIS MODULEWhen I reach for C<Class::Prototyped>, it's generally because I really need it.When the cleanest way of solving a problem is for the code that uses a module tosubclass from it, that is generally a sign that C<Class::Prototyped> would be ofuse. If you find yourself avoiding the problem by passing anonymous subroutinesas parameters to the C<new> method, that's another good sign that you should beusing prototype based programming. If you find yourself storing anonymoussubroutines in databases, configuration files, or text files, and then writinginfrastructure to handle calling those anonymous subroutines, that's yet anothersign. When you expect the people using your module to want to change thebehavior, override subroutines, and so forth, that's a sign.=head1 CONCEPTS=head2 SlotsC<Class::Prototyped> borrows very strongly from the language Self (seehttp://www.sun.com/research/self for more information). The core concept inSelf is the concept of a slot. Think of slots as being entries in a hash,except that instead of just pointing to data, they can point to objects, code,or parent objects.So what happens when you send a message to an object (that is to say, you make amethod call on the object)? First, Perl looks for that slot in the object. If itcan't find that slot in the object, it searches for that slot in one of theobject's parents (which we'll come back to later). Once it finds the slot, ifthe slot is a block of code, it evaluates the code and returns the returnvalue. If the slot references data, it returns that data. If you assign to adata slot (through a method call), it modifies the data.Distinguishing data slots and method slots is easy - the latter are referencesto code blocks, the former are not. Distinguishing parent slots is not soeasy, so instead a simple naming convention is used. If the name of the slotends in an asterisk, the slot is a parent slot. If you have programmed inSelf, this naming convention will feel very familiar.=head2 ReflectingIn Self, to examine the structure of an object, you use a mirror. Just likeusing his shield as a mirror enabled Perseus to slay Medusa, holding up amirror enables us to look upon an object's structure without name spacecollisions.Once you have a mirror, you can add and delete slots like so:my $cp = Class::Prototyped->new();my $mirror = $cp->reflect();$mirror->addSlots(field1 => 'foo',sub1 => sub {print "this is sub1 printing field1: '".$_[0]->field1."'\n";},);$mirror->deleteSlot('sub1');In addition, there is a more verbose syntax for C<addSlots> where the slot nameis replaced by an anonymous array - this is most commonly used to control theslot attributes.$cp->reflect->addSlot([qw(field1 FIELD)] => 'foo',[qw(sub1 METHOD)] => sub { print "hi there.\n"; },);Because the mirror methods C<super>, C<addSlot>(C<s>), C<deleteSlot>(C<s>), andC<getSlot>(C<s>) are called frequently on objects, there is an import keywordC<:EZACCESS> that adds methods to the object space that call the appropriatereflected variants.=head2 Slot AttributesSlot attributes allow the user to specify additional information and behaviorrelating to a specific slot in an extensible manner. For instance, one mightwant to mark a specific field slot as constant or to attach a description to agiven slot.Slot attributes are divided up in two ways. The first is by the type of slot -C<FIELD>, C<METHOD>, or C<PARENT>. Some slot attributes apply to all three,some to just two, and some to only one. The second division is on the type ofslot attribute:=over 4=item implementorThese are responsible for implementing the behavior of a slot. An example is aC<FIELD> slot with the attribute C<constant>. A slot is only allowed oneimplementor. All slot types have a default implementor. For C<FIELD> slots, itis a read-write scalar. For C<METHOD> slots, it is the passed anonymoussubroutine. For C<PARENT> slots, C<implementor> and C<filter> slot attributesdon't really make sense.=item filterThese filter access to the C<implementor>. The quintessential example is theC<profile> attribute. When set, this increments a counter inC<$Class::Prototyped::Mirror::PROFILE::counts> every time the underlying C<FIELD>or C<METHOD> is accessed. Filter attributes can be stacked, so each attributeis assigned a rank with lower values being closer to the C<implementor> andhigher values being closer to the caller.=item advisoryThese slot attributes serve one of two purposes. They can be used to storeinformation about the slot (i.e. C<description> attributes), and they can beused to pass information to the C<addSlots> method (i.e. the C<promote>attribute, which can be used to promote a new C<PARENT> slot ahead of all theexisting C<PARENT> slots).=backThere is currently no formal interface for creating your own attributes - if youfeel the need for new attributes, please contact the maintainer first to see ifit might make sense to add the new attribute to C<Class::Prototyped>. If not,the contact might provide enough impetus to define a formal interface. Theattributes are currently defined in C<$Class::Prototyped::Mirror::attributes>.Finally, see the C<defaultAttributes> method for information about settingdefault attributes. This can be used, for instance, to turn on profilingeverywhere.=head2 Classes vs. ObjectsIn Self, everything is an object and there are no classes at all. Perl, forbetter or worse, has a class system based on packages. We decided that itwould be better not to throw out the conventional way of structuringinheritance hierarchies, so in C<Class::Prototyped>, classes are first-classobjects.However, objects are not first-class classes. To understand this dichotomy, weneed to understand that there is a difference between the way "classes" and theway "objects" are expected to behave. The central difference is that "classes"are expected to persist whether or not that are any references to them. If youcreate a class, the class exists whether or not it appears in anyone's C<@ISA>and whether or not there are any objects in it. Once a class is created, itpersists until the program terminates.Objects, on the other hand, should follow the normal behaviors ofreference-counted destruction - once the number of references to them drops tozero, they should miraculously disappear - the memory they used needs to bereturned to Perl, their C<DESTROY> methods need to be called, and so forth.Since we don't require this behavior of classes, it's easy to have a way to getfrom a package name to an object - we simply stash the object that implementsthe class in C<$Class::Prototyped::Mirror::objects{$package}>. But we can't dothis for objects, because if we do the object will persist forever because thatreference will always exist.Weak references would solve this problem, but weak references are stillconsidered alpha and unsupported (C<$WeakRef::VERSION = 0.01>), and we didn'twant to make C<Class::Prototyped> dependent on such a module.So instead, we differentiate between classes and objects. In a nutshell, if anobject has an explicit package name (I<i.e.> something other than theauto-generated one), it is considered to be a class, which means it persistseven if the object goes out of scope.To create such an object, use the C<newPackage> method, like so (theencapsulating block exists solely to demonstrate that classes are not scoped):{my $object = Class::Prototyped->newPackage('MyClass',field => 1,double => sub {$_[0]->field*2});}print MyClass->double,"\n";Notice that the class persists even though C<$object> goes out of scope. IfC<$object> were created with an auto-generated package, that would not be true.Thus, for instance, it would be a B<very, very, very> bad idea to add thepackage name of an object as a parent to another object - when the first objectgoes out of scope, the package will disappear, but the second object will stillhave it in it's C<@ISA>.Except for the crucial difference that you should B<never, ever, ever> make useof the package name for an object for any purpose other than printing it to thescreen, objects and classes are simply different ways of inspecting the sameentity.To go from an object to a package, you can do one of the following:$package = ref($object);$package = $object->reflect->package;The two are equivalent, although the first is much faster. Just remember, ifC<$object> is in an auto-generated package, don't do anything with thatC<$package> but print it.To go from a package to an object, you do this:$object = $package->reflect->object;Note that C<$package> is simple the name of the package - the following codeworks perfectly:$object = MyClass->reflect->object;But keep in mind that C<$package> has to be a class, not an auto-generatedpackage name for an object.=head2 Class ManipulationThis lets us have tons of fun manipulating classes at run time. For instance,if you wanted to add, at run-time, a new method to the C<MyClass> class?Assuming that the C<MyClass> inherits from C<Class::Prototyped> or that youhave specified C<:REFLECT> on the C<use Class::Prototyped> call, you simplywrite:MyClass->reflect->addSlot(myMethod => sub {print "Hi there\n"});If you want to access a class that doesn't inherit from C<Class::Prototyped>,and you want to avoid specifying C<:REFLECT> (which adds C<reflect> to theC<UNIVERSAL> package), you can make the call like so:my $mirror = Class::Prototyped::Mirror->new('MyClass');$mirror->addSlot(myMethod => sub {print "Hi there\n"});Just as you can C<clone> objects, you can C<clone> classes that are derived fromC<Class::Prototyped>. This creates a new object that has a copy of all of theslots that were defined in the class. Note that if you simply want to be ableto use C<Data::Dumper> on a class, calling C<< MyClass->reflect->object >> isthe preferred approach. Even easier would be to use the C<dump> mirror method.The code that implements reflection on classes automatically creates slotnames for package methods as well as parent slots for the entries in C<@ISA>.This means that you can code classes like you normally do - bydoing the inheritance in C<@ISA> and writing package methods.If you manually add subroutines to a package at run-time and want the slotinformation updated properly (although this really should be done via theC<addSlots> mechanism, but maybe you're twisted:), you should do something like:$package->reflect->_vivified_methods(0);$package->reflect->_autovivify_methods;=head2 Parent SlotsAdding parent slots is no different than adding normal slots - the namingscheme takes care of differentiating.Thus, to add C<$foo> as a parent to C<$bar>, you write:$bar->reflect->addSlot('fooParent*' => $foo);However, keeping with our concept of classes as first class objects, you canalso write the following:$bar->reflect->addSlot('mixIn*' => 'MyMix::Class');It will automatically require the module in the namespace of C<$bar> andmake the module a parent of the object.This can load a module from disk if needed.If you're lazy, you can add parents without names like so:$bar->reflect->addSlot('*' => $foo);The slots will be automatically named for the package passed in - in the caseof C<Class::Prototyped> objects, the package is of the form C<PKG0x12345678>.In the following example, the parent slot will be named C<MyMix::Class*>.$bar->reflect->addSlot('*' => 'MyMix::Class');Parent slots are added to the inheritance hierarchy in the order that theywere added. Thus, in the following code, slots that don't exist in C<$foo>are looked up in C<$fred> (and all of its parent slots) before being looked upin C<$jill>.$foo->reflect->addSlots('fred*' => $fred, 'jill*' => $jill);Note that C<addSlot> and C<addSlots> are identical - the variants exist onlybecause it looks ugly to add a single slot by calling C<addSlots>.If you need to reorder the parent slots on an object, look atC<promoteParents>. That said, there's a shortcut for prepending a slot tothe inheritance hierarchy. Simply define C<'promote'> as a slot attributeusing the extended slot syntax.Finally, in keeping with our principle that classes are first-class object,the inheritance hierarchy of classes can be modified through C<addSlots> andC<deleteSlots>, just like it can for objects. The following code adds theC<$foo> object as a parent of the C<MyClass> class, prepending it to theinheritance hierarchy:MyClass->reflect->addSlots([qw(foo* promote)] => $foo);=head2 Operator OverloadingIn C<Class::Prototyped>, you do operator overloading by adding slots with theright name. First, when you do the C<use> on C<Class::Prototyped>, make sureto pass in C<:OVERLOAD> so that the operator overloading support is enabled.Then simply pass the desired methods in as part of the object creation likeso:$foo = Class::Prototyped->new(value => 3,'""' => sub { my $self = shift; $self->value( $self->value + 1 ) },);This creates an object that increments its field C<value> by one and returnsthat incremented value whenever it is stringified.Since there is no way to find out which operators are overloaded, if you addoverloading to a I<class> through the use of C<use overload>, that behaviorwill not show up as slots when reflecting on the class. However, C<addSlots>B<does> work for adding operator overloading to classes. Thus, the followingcode does what is expected:Class::Prototyped->newPackage('MyClass');MyClass->reflect->addSlots('""' => sub { my $self = shift; $self->value( $self->value + 1 ) },);$foo = MyClass->new( value => 2 );print $foo, "\n";=head2 Object ClassThe special parent slot C<class*> is used to indicate object class. When youcreate C<Class::Prototyped> objects by calling C<< Class::Prototyped->new() >>,the C<class*> slot is B<not> set. If, however, you create objects by callingC<new> on a class or object that inherits from C<Class::Prototyped>, the slotC<class*> points to the package name if C<new> was called on a named class, orthe object if C<new> was called on an object.The value of this slot can be returned quite easily like so:$foo->reflect->class;=head2 Calling Inherited MethodsMethods (and fields) inherited from prototypes or classes are I<not>generally available using the usual Perl C<< $self->SUPER::something() >>mechanism.The reason for this is that C<SUPER::something> is hardcoded to the package inwhich the subroutine (anonymous or otherwise) was defined. For the vastmajority of programs, this will be C<main::>, and thus C<SUPER::> will look inC<@main::ISA> (not a very useful place to look).To get around this, a very clever wrapper can be automatically placed aroundyour subroutine that will automatically stash away the package to which thesubroutine is attached. From within the subroutine, you can use the C<super>mirror method to make an inherited call. However, because we'd rather notwrite code that attempts to guess as to whether or not the subroutine uses theC<super> construct, you have to tell C<addSlots> that the subroutine needs tohave this wrapper placed around it. To do this, simply use the extendedC<addSlots> syntax (see the method description for more information) and passin the slot attribute C<'superable'>. The following examples use the minimalistform of the extended syntax.For instance, the following code will work:use Class::Prototyped;my $p1 = Class::Prototyped->new(method => sub { print "this is method in p1\n" },);my $p2 = Class::Prototyped->new('*' => $p1,[qw(method superable)]' => sub {print "this is method in p2 calling method in p1: ";$_[0]->reflect->super('method');},);To make things easier, if you specify C<:EZACCESS> during the import, C<super>can be called directly on an object rather than through its mirror.The other thing of which you need to be aware is copying methods from oneobject to another. The proper way to do this is like so:$foo->reflect->addSlot($bar->reflect->getSlot('method'));When the C<getSlot> method is called in an array context, it returns both thecomplete format for the slot identifier and the slot. This ensures that slotattributes are passed along, including the C<superable> attribute.Finally, to help protect the code, the C<super> method is smart enough todetermine whether it was called within a wrapped subroutine. If it wasn't, itcroaks indicating that the method should have had the C<superable> attribute setwhen it was added. If you wish to disable this checking (which will improve theperformance of your code, of course, but could result in B<very> hard to tracebugs if you haven't been careful), see the import option C<:SUPER_FAST>.=head1 PERFORMANCE NOTESIt is important to be aware of where the boundaries of prototyped basedprogramming lie, especially in a language like Perl that is not optimized forit. For instance, it might make sense to implement every field in a database asan object. Those field objects would in turn be attached to a record class. Allof those might be implemented using C<Class::Prototyped>. However, it would bevery inefficient if every record that got read from the database was stored in aC<Class::Prototyped> based object (unless, of course, you are storing code inthe database). In that situation, it is generally good to choke off theprototype-based behavior for the individual record objects. For bestperformance, it is important to confine C<Class::Prototyped> to those portionsof the code where behavior is mutable from outside of the module. See thedocumentation for the C<new> method of C<Class::Prototyped> for more informationabout choking off C<Class::Prototyped> behavior.There are a number of performance hits when using C<Class::Prototyped>, relativeto using more traditional OO code. B<It is important to note> that thesegenerally lie in the instantiation and creation of classes and objects and notin the actual use of them. The scripts in the C<perf> directory were designedfor benchmarking some of this material.=head2 Class InstantiationThe normal way of creating a class is like this:package Pack_123;sub a {"hi";}sub b {"hi";}sub c {"hi";}sub d {"hi";}sub e {"hi";}The most efficient way of doing that using "proper" C<Class::Prototyped> methodology looks like this:Class::Prototyped->newPackage("Pack_123");push(@P_123::slots, a => sub {"hi";});push(@P_123::slots, b => sub {"hi";});push(@P_123::slots, c => sub {"hi";});push(@P_123::slots, d => sub {"hi";});push(@P_123::slots, e => sub {"hi";});Pack_123->reflect->addSlots(@P_123::slots);This approach ensures that the new package gets the proper default attributesand that the slots are created through C<addSlots>, thus ensuring that defaultattributes are properly implemented. It avoids multiple calls to C<<->reflect->addSlot >>, though, which improves performance. The idea behindpushing the slots onto an array is that it enables one to intersperse code withPOD, since POD is not permitted inside of a single Perl statement.On a Pent 4 1.8GHz machine, the normal code runs in 120 usec, whereas theC<Class::Prototyped> code runs in around 640 usec, or over 5 times slower. Astraight call to C<addSlots> with all five methods runs in around 510 usec.Code that creates the package and the mirror without adding slots runs in around135 usec, so we're looking at an overhead of less than 100 usec per slot. In asituation where the "compile" time dominates the "execution" time (I'm usingthose terms loosely as much of what happens in C<Class::Prototyped> istechnically execution time, but it is activity that traditionally would happenat compile time), C<Class::Prototyped> might prove to be too much overhead. Onthe otherhand, you may find that demand loading can cut much of that overheadand can be implemented less painfully than might otherwise be thought.=head2 Object InstantiationThere is no need to even compare here. Blessing a hash into a class takes lessthan 2 usec. Creating a new C<Class::Prototyped> object takes at least 60 or 70times longer. The trick is to avoid creating unnecessary C<Class::Prototyped>objects. If you know that all 10,000 database records are going to inherit allof their behavior from the parent class, there is no point in creating 10,000packages and all the attendant overhead. The C<new> method forC<Class::Prototyped> demonstrates how to ensure that those state objects arecreated as normal Perl objects.=head2 Method CallsThe good news is that method calls are just as fast as normal Perl method calls,inherited or not. This is because the existing Perl OO machinery has beenhijacked in C<Class::Prototyped>. The exception to this is if C<filter> slotattributes have been used, including C<wantarray>, C<superable>, and C<profile>.In that situation, the added overhead is that for a normal Perl subroutine call(which is faster than a method call because it is a static binding)=head2 Instance Variable AccessThe hash interface is not particularly fast, and neither is it good programmingpractice. Using the method interface to access fields is just as fast, however,as using normal getter/setter methods.=head1 IMPORT OPTIONS=over 4=item C<:OVERLOAD>This configures the support in C<Class::Prototyped> for using operatoroverloading.=item C<:REFLECT>This defines C<UNIVERSAL::reflect> to return a mirror for any class.With a mirror, you can manipulate the class, adding or deleting methods,changing its inheritance hierarchy, etc.=item C<:EZACCESS>This adds the methods C<addSlot>, C<addSlots>, C<deleteSlot>, C<deleteSlots>,C<getSlot>, C<getSlots>, and C<super> to C<Class::Prototyped>.This lets you write:$foo->addSlot(myMethod => sub {print "Hi there\n"});instead of having to write:$foo->reflect->addSlot(myMethod => sub {print "Hi there\n"});The other methods in C<Class::Prototyped::Mirror> should be accessed through amirror (otherwise you'll end up with way too much name space pollution foryour objects:).Note that it is bad form for published modules to use C<:EZACCESS> as you arepolluting everyone else's namespace as well. If you B<really> want C<:EZACCESS>for code you plan to publish, contact the maintainer and we'll see what we canabout creating a variant of C<:EZACCESS> that adds the shortcut methods to asingle class. Note that using C<:EZACCESS> to do C<< $obj->addSlot() >> isactually slower than doing C<< $obj->reflect->addSlot() >>.=item C<:SUPER_FAST>Switches over to the fast version of C<super> that doesn't check to seewhether slots that use inherited calls were defined as superable.=item C<:NEW_MAIN>Creates a C<new> function in C<main::> that creates new C<Class::Prototyped>objects. Thus, you can write code like:use Class::Prototyped qw(:NEW_MAIN :EZACCESS);my $foo = new(say_hi => sub {print "Hi!\n";});$foo->say_hi;=item C<:TIED_INTERFACE>This is no longer supported. Sorry for the very short notice - if you havea specific need, please let me know and I will discuss your needs with youand determine whether they can be addressed in a manner that doesn't requireyou to rewrite your code, but still allows others to make use of less globalcontrol over the tied interfaces used. SeeC<Class::Prototyped::Mirror::tiedInterfacePackage> for the preferred way ofdoing this.=back=head1 C<Class::Prototyped> Methods=head2 new() - Construct a new C<Class::Prototyped> object.A new object is created. If this is called on a class or object that inheritsfrom C<Class::Prototyped>, and C<class*> is not being passed as a slot in theargument list, the slot C<class*> will be the first element in the inheritancelist.When called on named classes, either via the package name or via the object(i.e. C<< MyPackage->reflect->object() >>), C<class*> is set to the packagename. When called on an object, C<class*> is set to the object on which C<new>was called.The passed arguments are handed off to C<addSlots>.Note that C<new> calls C<newCore>, so if you want to override C<new>, but wantto ensure that your changes are applicable to C<newPackage>, C<clone>, andC<clonePackage>, you may wish to override C<newCore>.For instance, the following will define a new C<Class::Prototyped> object withtwo method slots and one field slot:my $foo = Class::Prototyped->new(field1 => 123,sub1 => sub { print "this is sub1 in foo" },sub2 => sub { print "this is sub2 in foo" },);The following will create a new C<MyClass> object with one field slot and withthe parent object C<$bar> at the beginning of the inheritance hierarchy (justbefore C<class*>, which points to C<MyClass>):my $foo = MyClass->new(field1 => 123,[qw(bar* promote)] => $bar,);The following will create a new object that inherits behavior from C<$bar> withone field slot, C<field1>, and one parent slot, C<class*>, that points toC<$bar>.my $foo = $bar->new(field1 => 123,);If you want to create normal Perl objects as child objects of aC<Class::Prototyped> class in order to improve performance, implement your ownstandard Perl C<new> method:Class::Prototyped->newPackage('MyClass');MyClass->reflect->addSlot(new => sub {my $class = shift;my $self = {};bless $self, $class;return $self;});It is still safe to use C<< $obj->reflect->super() >> in code that runs on suchan object. All other reflection will automatically return the same results asinspecting the class to which the object belongs.=head2 newPackage() - Construct a new C<Class::Prototyped> object in aspecific package.Just like C<new>, but instead of creating the new object with an arbitrarypackage name (actually, not entirely arbitrary - it's generally based on thehash memory address), the first argument is used as the name of the package.This creates a named class. The same behavioral rules for C<class*> describedabove for C<new> apply to C<newPackage> (in fact, C<new> calls C<newPackage>).If the package name is already in use, this method will croak.=head2 clone() - Duplicate meDuplicates an existing object or class and allows you to add or overrideslots. The slot definition is the same as in B<new()>.my $p2 = $p1->clone(sub1 => sub { print "this is sub1 in p2" },);It calls C<newCore> to create the new object*, so if you have overridden C<new>,you should contemplate overriding C<clone> in order to ensure that behavioralchanges made to C<new> that would be applicable to C<clone> are implemented. Orsimply override C<newCore>.=head2 clonePackage()Just like C<clone>, but instead of creating the new object with an arbitrarypackage name (actually, not entirely arbitrary - it's generally based on thehash memory address), the first argument is used as the name of the package.This creates a named class.If the package name is already in use, this method will croak.=head2 newCore()This implements the core functionality involved in creating a new object. Thefirst passed parameter will be the name of the caller - either C<new>,C<newPackage>, C<clone>, or C<clonePackage>. The second parameter is the nameof the package if applicable (i.e. for C<newPackage> and C<clonePackage>) calls,C<undef> if inapplicable. The remainder of the parameters are any slots to beadded to the newly created object/package.If called with C<new> or C<newPackage>, the C<class*> slot will be prepended tothe slot list if applicable. If called with C<clone> or C<clonePackage>, allslots on the receiver will be prepended to the slot list.If you wish to add behavior to object instantiation that needs to be present inall four of the instantiators (i.e. instance tracking), it may make sense tooverride C<newCore> so that you implement the code in only one place.=head2 reflect() - Return a mirror for the object or classThe structure of an object is modified by using a mirror. This is theequivalent of calling:Class::Prototyped::Mirror->new($foo);=head2 destroy() - The destroy method for an objectYou should never need to call this method. However, you may want to overrideit. Because we had to directly specify C<DESTROY> for every object in orderto allow safe destruction during global destruction time when objects mayhave already destroyed packages in their C<@ISA>, we had to hook C<DESTROY>for every object. To allow the C<destroy> behavior to be overridden, usersshould specify a C<destroy> method for their objects (by adding the slot),which will automatically be called by the C<Class::Prototyped::DESTROY>method after the C<@ISA> has been cleaned up.This method should be defined to allow inherited method calls (I<i.e.> shoulduse "C<[qw(destroy superable)]>" to define the method) and should callC<< $self->reflect->super('destroy'); >> at some point in the code.Here is a quick overview of the default destruction behavior for objects:=over 4=item *C<Class::Prototyped::DESTROY> is called because it is linked into the packagefor all objects at instantiation time=item *All no longer existent entries are stripped from C<@ISA>=item *The inheritance hierarchy is searched for a C<DESTROY> method that is notC<Class::Prototyped::DESTROY>. This C<DESTROY> method is stashed away fora later call.=item *The inheritance hierarchy is searched for a C<destroy> method and it iscalled. Note that the C<Class::Prototyped::destroy> method, which willeither be called directly because it shows up in the inheritance hierarchy orwill be called indirectly through calls toC<< $self->reflect->super('destroy'); >>, will delete all non-parent slots fromthe object. It leaves parent slots alone because the destructors for theparent slots should not be called until such time as the destruction of theobject in question is complete (otherwise inherited destructors might stillbe executing, even though the object to which they belong has already beendestroyed). This means that the destructors for objects referenced innon-parent slots may be called, temporarily interrupting the executionsequence in C<Class::Prototyped::destroy>.=item *The previously stashed C<DESTROY> method is called.=item *The parent slots for the object are finally removed, thus enabling thedestructors for any objects referenced in those parent slots to run.=item *Final C<Class::Prototyped> specific cleanup is run.=back=head1 C<Class::Prototyped::Mirror> MethodsThese are the methods you can call on the mirror returned from a C<reflect>call. If you specify C<:EZACCESS> in the C<use Class::Prototyped> line,C<addSlot>, C<addSlots>, C<deleteSlot>, C<deleteSlots>, C<getSlot>, C<getSlots>,and C<super> will be callable on C<Class::Prototyped> objects as well.=head2 new() - Creates a new C<Class::Prototyped::Mirror> objectNormally called via the C<reflect> method, this can be called directly to avoidusing the C<:REFLECT> import option for reflecting on non C<Class::Prototyped>based classes.=head2 autoloadCall()If you add an C<AUTOLOAD> slot to an object, you will need to get the name ofthe subroutine being called. C<autoloadCall()> returns the name of thesubroutine, with the package name stripped off.=head2 package() - Returns the name of the package for the object=head2 object() - Returns the object itself=head2 class() - Returns the C<class*> slot for the underlying object=head2 dump() - Returns a Data::Dumper string representing the object=head2 addSlot() - An alias for C<addSlots>=head2 addSlots() - Add or replace slot definitionsAllows you to add or replace slot definitions in the receiver.$p->reflect->addSlots(fred => 'this is fred',doSomething => sub { print 'doing something with ' . $_[1] },);$p->doSomething( $p->fred );In addition to the simple form, there is an extended syntax for specifying theslot. In place of the slotname, pass an array reference composed like so:C<< addSlots( [$slotName, $slotType, %slotAttributes] => $slotValue ); >>C<$slotName> is simply the name of the slot, including the trailing C<*> if itis a parent slot. C<$slotType> should be C<'FIELD'>, C<'METHOD'>, orC<'PARENT'>. C<%slotAttributes> should be a list of attribute/value pairs. Itis common to use qw() to reduce the amount of typing:$p->reflect->addSlot([qw(bar FIELD)] => "this is a field",);$p->reflect->addSlot([qw(bar FIELD constant 1)] => "this is a constant field",);$p->reflect->addSlot([qw(foo METHOD)] => sub { print "normal method.\n"; },);$p->reflect->addSlot([qw(foo METHOD superable 1)] => sub { print "superable method.\n"; },);$p->reflect->addSlot([qw(parent* PARENT)] => $parent,);$p->reflect->addSlot([qw(parent2* PARENT promote 1)] => $parent2,);To make using the extended syntax a bit less cumbersome, however, the followingshortcuts are allowed:=over 4=item *C<$slotType> can be omitted. In this case, the slot's type will be determinedby inspecting the slot's name (to determine if it is a parent slot) and theslot's value (to determine whether it is a field or method slot). TheC<$slotType> value can, however, be used to supply a reference to a code objectas the value for a field slot. Note that this means that C<FIELD>, C<METHOD>,and C<PARENT> are not legal attribute names (since this would make parsingdifficult).=item *If there is only one attribute and if the value is C<1>, then the value can beomitted.=backUsing both of the above contractions, the following are valid short forms forthe extended syntax:$p->reflect->addSlot([qw(bar constant)] => "this is a constant field",);$p->reflect->addSlot([qw(foo superable)] => sub { print "superable method.\n"; },);$p->reflect->addSlot([qw(parent2* promote)] => $parent2,);The currently defined slot attributes are as follows:=over=item C<FIELD> Slots=over=item C<constant> (C<implementor>)When true, this defines the field slot as constant, disabling the ability tomodify it using the C<< $object->field($newValue) >> syntax. The value maystill be modified using the hash syntax (i.e. C<< $object->{field} =$newValue >>). This is mostly useful if you have an object method call that takesparameters, but you wish to replace it on a given object with a hard-coded valueby using a field (which makes inspecting the value of the slot throughC<Data::Dumper> much easier than if you use a C<METHOD> slot to return theconstant, since code objects are opaque).=item C<autoload> (C<filter>, rank 50)The passed value for the C<FIELD> slot should be a subroutine that returns thedesired value. Upon the first access, the subroutine will be called, the returnvalue hard-coded into the object by adding the slot (including all otherwisespecified attributes), and the value then returned. Useful for implementingconstant slots that are costly to initialize, especially those that return listsof C<Class::Prototyped> objects!=item C<profile> (C<filter>, rank 80)If C<profile> is set to 1, increments C<<$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName} >>everytime the slot is accessed. If C<profile> is set to 2, increments C<<$Class::Prototyped::Mirror::PROFILE::counts->{$package}->{$slotName}->{$caller} >>everytime the slot is accessed, where C<$caller> is C<"$file ($line)">.=item C<wantarray> (C<filter>, rank 90)If the field specifies a reference to an array and the call is in list context,dereferences the array and returns a list of values.=item C<description> (C<advisory>)Can be used to specify a description. No real support for this yet beyond that!=back=item C<METHOD> Slots=over=item C<superable> (C<filter>, rank 10)When true, this enables the C<< $self->reflect->super( . . . ) >> calls for thismethod slot.=item C<profile> (C<filter>, rank 90)See C<FIELD> slots for explanation.=item C<overload> (C<advisory>)Set automatically for methods that implement operator overloading.=item C<description> (C<advisory>)See C<FIELD> slots for explanation.=back=item C<PARENT> Slots=over=item C<promote> (C<advisory>)When true, this parent slot is promoted ahead of any other parent slots on theobject. This attribute is ephemeral - it is not returned by calls toC<getSlot>.=item C<description> (C<advisory>)See C<FIELD> slots for explanation.=back=back=head2 deleteSlot() - An alias for deleteSlots=head2 deleteSlots() - Delete one or more of the receiver's slots by nameThis will let you delete existing slots in the receiver. If those slots weredefined in the receiver's inheritance hierarchy, those inherited definitionswill now be available.my $p1 = Class::Prototyped->new(field1 => 123,sub1 => sub { print "this is sub1 in p1" },sub2 => sub { print "this is sub2 in p1" });my $p2 = Class::Prototyped->new('parent*' => $p1,sub1 => sub { print "this is sub1 in p2" },);$p2->sub1; # calls $p2.sub1$p2->reflect->deleteSlots('sub1');$p2->sub1; # calls $p1.sub1$p2->reflect->deleteSlots('sub1');$p2->sub1; # still calls $p1.sub1=head2 super() - Call a method defined in a parentThe call to a method defined on a parent that is obscured by the current onelooks like so:$self->reflect->super('method_name', @params);=head2 slotNames() - Returns a list of all the slot namesThis is passed an optional type parameter. If specified, it should be one ofC<'FIELD'>, C<'METHOD'>, or C<'PARENT'>. For instance, the following will printout a list of all slots of an object:print join(', ', $obj->reflect->slotNames)."\n";The following would print out a list of all field slots:print join(', ', $obj->reflect->slotNames('FIELD')."\n";The parent slot names are returned in the same order for which inheritance isdone.=head2 slotType() - Given a slot name, determines the typeThis returns C<'FIELD'>, C<'METHOD'>, or C<'PARENT'>.It croaks if the slot is not defined for that object.=head2 parents() - Returns a list of all parentsReturns a list of all parent object (or package names) for this object.=head2 allParents() - Returns a list of all parents in the hierarchyReturns a list of all parent objects (or package names) in the object'shierarchy.=head2 withAllParents() - Same as above, but includes self in the list=head2 allSlotNames() - Returns a list of all slot namesdefined for the entire inheritance hierarchyNote that this will return duplicate slot names if inherited slots areobscured.=head2 getSlot() - Returns the requested slotWhen called in scalar context, this returns the thing in the slot. When calledin list context, it returns both the complete form of the extended syntax forspecifying a slot name and the thing in the slot. There is an optionalparameter that can be used to modify the format of the return value in listcontext. The allowable values are:=over=item *C<'default'> - the extended slot syntax and the slot value are returned=item *C<'simple'> - the slot name and the slot value are returned. Note that in thismode, there is no access to any attributes the slot may have=item *C<'rotated'> - the slot name and the following hash are returned like so:$slotName => {attribs => %slotAttribs,type => $slotType,value => $slotValue},=backThe latter two options are quite useful when used in conjunction with theC<getSlots> method.=head2 getSlots() - Returns a list of all the slotsThis returns a list of extended syntax slot specifiers and their values readyfor sending to C<addSlots>. It takes first the optional parameter passed toC<slotNames> which specifies the type of slot (C<'FIELD'>, C<'METHOD'>,C<'PARENT'>, or C<undef>) and then the optional parameter passed to C<getSlot>,which specifies the format for the return value. If the latter is C<'simple'>,the returned values can be passed to C<addSlots>, but any non-default slotattributes (i.e. C<superable> or C<constant>) will be lost. If the latter isC<'rotated'>, the returned values are completely inappropriate for passing toC<addSlots>. Both C<'simple'> and C<'rotated'> are appropriate for assigningthe return values into a hash.For instance, to add all of the field slots in C<$bar> to C<$foo>:$foo->reflect->addSlots($bar->reflect->getSlots('FIELD'));To get a list of all of the slots in the C<'simple'> format:my %barSlots = $bar->reflect->getSlots(undef, 'simple');To get a list of all of the superable method slots in the C<'rotated'> format:my %barMethods = $bar->reflect->getSlots('METHOD', 'rotated');foreach my $slotName (%barMethods) {delete $barMethods{$slotName}unless $barMethods{$slotName}->{attribs}->{superable};}=head2 promoteParents() - This changes the ordering of the parent slotsThis expects a list of parent slot names. There should be no duplicates andall of the parent slot names should be already existing parent slots on theobject. These parent slots will be moved forward in the hierarchy in the orderthat they are passed. Unspecified parent slots will retain their currentpositions relative to other unspecified parent slots, but as a group they willbe moved to the end of the hierarchy.=head2 tiedInterfacePackage() - This specifies the tied interface packageThis allows you to specify the sort of tied interface you wish to offer whencode accesses the object as a hash reference. If no parameter is passed,this will return the current tied interface package active for the object.If a parameter is passed, it should specify either the package name or analias. The currently known aliases are:=over 4=item defaultThis specifies C<Class::Prototyped::Tied::Default> as the tie class. Thedefault behavior is to allow access to existing fields, but attempts to createfields, access methods, or delete slots will croak. This is the tie classused by C<Class::Prototyped> (unless you do something very naughty and callC<< Class::Prototyped->reflect->tiedInterfacePackage($not_default) >>), andas such is the fallback behavior for classes and objects if they don't get adifferent value from their inheritance.=item autovivifyThis specifies C<Class::Prototyped::Tied::AutoVivify> as the tie class. Thebehavior of this package allows access to existing fields, will automaticallycreate field slots if they don't exist, and will allow deletion of field slots.Attempts to access or delete method or parent slots will croak.=backCalls to C<new> and C<clone> will use the tied interface in use on theexisting object/package. When C<reflect> is called for the first time on aclass package, it will use the tied interface of its first parent class (i.e.C<$ISA[0]>). If that package has not yet had C<reflect> called on it, itwill check its parent, and so on and so forth. If none of the packages inthe primary inheritance fork have been reflected upon, the value forC<Class::Prototyped> will be used, which should be C<default>.=head2 defaultAttributes() - get and set default attributesThis isn't particularly pretty. The general syntax looks something like:my $temp = MyClass->reflect->defaultAttributes;$temp->{METHOD}->{superable} = 1;MyClass->reflect->defaultAttributes($temp);The return value from C<defaultAttributes> is a hash with the keys C<'FIELD'>,C<'METHOD'>, and C<'PARENT'>. The values are either C<undef> or hash referencesconsisting of the attributes and their default values. Modify the datastructure as desired and pass it back to C<defaultAttributes> to change thedefault attributes for that object or class. Note that default attributes arenot inherited dynamically - the inheritance occurs when a new object is created,but from that point on changes to a parent object are not inherited by thechild. Global changes can be effected by modifying the C<defaultAttributes> forC<Class::Prototyped> in a sufficiently early C<BEGIN> block. Note that makingglobal changes like this is C<not> recommended for production modules as it mayinterfere with other modules that rely upon C<Class::Prototyped>.=head2 wrap()=head2 unwrap()=head2 delegate()delegate name => slotname can be string, regex, or array of same.slot can be slot name, or object, or 2-element arraywith slot name or object and method name.You can delegate to a parent.=head2 include() - include a package or external fileYou can C<require> an arbitrary file in the namespace of an objector class without adding to the parents using C<include()> :$foo->include( 'xx.pl' );will include whatever is in xx.pl. Likewise for modules:$foo->include( 'MyModule' );will search along your C<@INC> path for C<MyModule.pm> and include it.You can specify a second parameter that will be the name of a subroutinethat you can use in your included code to refer to the object intowhich the code is being included (as long as you don't change packages in theincluded code). The subroutine will be removed after the include, sodon't call it from any subroutines defined in the included code.If you have the following in C<File.pl>:sub b {'xxx.b'}sub c { return thisObject(); } # DON'T DO THIS!thisObject()->reflect->addSlots('parent*' => 'A',d => 'added.d',e => sub {'xxx.e'},);And you include it using:$mirror->include('File.pl', 'thisObject');Then the C<addSlots> will work fine, but if sub C<c> is called, it won't findC<thisObject()>.=head1 AUTHORWritten by Ned Konz, perl@bike-nomad.com and Toby Ovod-Everett, toby@ovod-everett.org. 5.005_03 porting by chromatic.Toby Ovod-Everett is currently maintaining the package.=head1 LICENSECopyright 2001-2004 Ned Konz and Toby Ovod-Everett. All rights reserved. Thisprogram is free software; you can redistribute it and/or modify it under thesame terms as Perl itself.=head1 SEE ALSOL<Class::SelfMethods>L<Class::Object>L<Class::Classless>=cut