7

This is my attempt to solve Challenge #2 of the weekly.

The challenge is very vague, so I decided to try to implement a scalar value with a memory. It's possible my understanding of how containers should work is flawed, but what I really don't understand, is, why say self.VAR.WHAT is a Proxy and not a HistoryProxy, even when I explicitly say so.

class HistoryProxy is Proxy
{
    has @!history;
    method HISTORY() { @!history };
    method SAVE( $value ) { @!history.push($value) }
}

sub historic(::T $type, $value) {
    my T $c-value = $value;
    return-rw HistoryProxy.new(
        FETCH => method () { $c-value },
        STORE => method (T $new-value) {
            say self.VAR.WHAT;         # Why is this "Proxy" and not "HistoryProxy"?
            self.VAR.SAVE( $c-value ); # Why does this not work?
            $c-value = $new-value;
        }
    );
}

my $a := historic(Int, 10);
$a = 12;
$a = 14;
say $a.VAR.HISTORY; #should print [10, 12]
6

This does not help you get the functionality you want, but it does answer your specific questions for now:

say self.VAR.WHAT; # Why is this "Proxy" and not "HistoryProxy"?

I think this is because the Proxy class is currently not set up to be subclassed. Its new method basically does a Proxy.new instead of a self.new, so it misses the subclassing. Looking into that now.

self.VAR.SAVE( $c-value ); # Why does this not work?

self is always decontainerized. So you're always seeing the underlying value. If you want to have the actual object, you will need to change the signature of the method, e.g.:

STORE => method (\SELF: T $new-value) {

and then use:

 SELF.VAR

But since the object isn't actually blessed as the subclass, this won't help you much anyway.

UPDATE: https://github.com/rakudo/rakudo/pull/3196 should allow subclassing of Proxy objects in the future.

UPDATE: with https://github.com/rakudo/rakudo/commit/d00674b31c this Pull Request got merged. It should become available in the 2019.10 Rakudo compiler release.

0

Thanks again Liz for adressing this so quickly. However, as i wrote on Github, while the subclassing works now, it seems to be impossible to initialize attributes of the subclass. This is fine for know, I can solve this with the get-position method.

Is this because Proxy is not a "proper" class, or am I overlooking something?

use Test;

class Scalar::History::Proxy is Proxy
{
    has @!history;
    has $!position = 0; # The assignment gets ignored ...

    # ... so do these

    submethod TWEAK( *@args )
    {
        say "Why oh why?";
    }

    submethod BUILD( *@args )
    {
        say "Do we never get called";
    }

    method get-position( \SELF: )
    {
        $!position // @!history.elems
    }

    method current-value( \SELF: )
    {
        @!history[ SELF.get-position ]
    }

    method get-history( \SELF: Bool :$all = False )
    {
        my $to-index = $all ?? @!history.elems - 1 !! SELF.get-position;
        @!history[ ^$to-index ].Array
    }

    method reset-history( \SELF: )
    {
        @!history = ();
        $!position = 0;
    }

    method forward-history( \SELF: $steps )
    {
        $!position = SELF.get-position + $steps;
        $!position = @!history.elems - 1
            if $!position >= @!history.elems;
        $!position;
    }

    method rewind-history( \SELF: $steps )
    {
        $!position = SELF.get-position - $steps;
        $!position = 0
            if $!position < 0;
        $!position;
    }

    method store-value( \SELF: $new-value, $register-duplicates )
    {
        # Forget stuff after rewind
        if @!history.elems > SELF.get-position + 1
        {
            @!history.splice( SELF.get-position + 1 );
        }

        if !($new-value eqv SELF.current-value) || $register-duplicates
        {
            @!history.push( $new-value );
            $!position = @!history.elems - 1;
        }
    }
}

class Scalar::History
{
    method create( $value, ::T $type = Any, Bool :$register-duplicates = False )
    {
        return-rw Scalar::History::Proxy.new(
            FETCH => method ( \SELF: ) {
                SELF.current-value() },
            STORE => method ( \SELF: T $new-value ) {
                SELF.store-value( $new-value, $register-duplicates ); }
        ) = $value;
    }
}

This passes all the tests I have

use Scalar::History;

use Test;

subtest 'untyped' =>
{
    plan 2;

    my $untyped := Scalar::History.create("a");
    my $sub = sub foo() { * };
    my $rx  = rx/x/;

    $untyped = $sub;
    $untyped = $rx;
    $untyped = 42;

    ok( $untyped == 42, "Current value is correct" );
    is-deeply( $untyped.VAR.get-history, ["a", $sub, $rx], "History is correct" );
}

subtest 'typed' =>
{
    plan 3;

    my $typed := Scalar::History.create("a", Str);
    $typed = "b";
    $typed = "42";

    ok( $typed == "42", "Current value is correct" );
    is-deeply( $typed.VAR.get-history, ["a", "b"], "History is correct" );
    dies-ok( { $typed = 2; }, "Cannot assign invalid type" );
}

subtest 'duplicates' =>
{
    plan 2;

    my $with-duplicates := Scalar::History.create( "a", Str, :register-duplicates(True) );
    $with-duplicates = "a";
    $with-duplicates = "a";
    is-deeply( $with-duplicates.VAR.get-history, ["a", "a"], "duplicates get registered" );

    my $no-duplicates := Scalar::History.create( "a", Str );
    $no-duplicates = "a";
    $no-duplicates = "a";
    is-deeply( $no-duplicates.VAR.get-history, [], "duplicates get ignored" );
}

subtest 'position/forward/backward' =>
{
    plan 8;
    my Int $int := Scalar::History.create(10, Int);
    #say $int.VAR.get-position;
    $int = 100 ;
    $int = 1000 ;
    ok( $int.VAR.get-position == 2, "current position is 2 after 3 assignments" );
    $int.VAR.rewind-history(2);
    ok( $int == 10, "current value is correct after rewind" );
    $int.VAR.forward-history(1);
    ok( $int == 100, "current value is correct after forward" );
    $int.VAR.rewind-history(Inf);
    ok( $int == 10, "current value equals start value after rewind to infinity" );
    $int.VAR.forward-history(Inf);
    ok( $int == 1000, "current value equals last known value after forward to infinity" );

    $int.VAR.rewind-history(2);
    is-deeply( $int.VAR.get-history, [], "history empty after rewind" );
    is-deeply( $int.VAR.get-history(:all), [10, 100], "but still there if needed" );
    $int = 101;
    $int = 1001;
    is-deeply( $int.VAR.get-history, [10, 101], "history gets truncated after rewind and assign" );
}

subtest 'behaviour' =>
{
    plan 2;

    sub add-one( Int $v ) { return $v + 1 }

    my Int $int := Scalar::History.create(1, Int);
    $int++;
    $int = $int + 1;
    $int = add-one( $int );
    $int = 42;

    is-deeply( $int.VAR.get-history, [1,2,3,4], "historic Int behaves like normal Int" ); # probably testing the language here, but  meh
    $int.VAR.reset-history();
    is-deeply( $int.VAR.get-history(:all), [], "history can be reset" );
}

done-testing;
  • I've been trying to make Proxy a "normal" class, but the results have been not so good. Somewhere, this introduces an infinite recursion that eats memory at 1+ GB / sec on my machine. – Elizabeth Mattijsen Sep 26 at 13:27
  • I don't really see a way out of this, other then creating a specific new method and using a TWEAK method to set additional parameters: ` class A is Proxy { has $.position; method new(:&FETCH!, :&STORE!, *%_) is raw { my $self := self.Proxy::new(:&FETCH,:&STORE); $self.VAR.TWEAK(|%_); $self } method TWEAK(:$!position = 42 --> Nil) { } } ` – Elizabeth Mattijsen Sep 26 at 14:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.