Understanding Computation (19 page)

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Authors: Tom Stuart

Tags: #COMPUTERS / Programming / General

BOOK: Understanding Computation
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Instead of doing this job manually, let’s use the rulebook to
build a
DPDA
object that can keep
track of the machine’s current configuration as it reads characters from
the input:

class
DPDA
<
Struct
.
new
(
:current_configuration
,
:accept_states
,
:rulebook
)
def
accepting?
accept_states
.
include?
(
current_configuration
.
state
)
end
def
read_character
(
character
)
self
.
current_configuration
=
rulebook
.
next_configuration
(
current_configuration
,
character
)
end
def
read_string
(
string
)
string
.
chars
.
each
do
|
character
|
read_character
(
character
)
end
end
end

So we can create a
DPDA
, feed
it input, and see whether it’s accepted it:

>>
dpda
=
DPDA
.
new
(
PDAConfiguration
.
new
(
1
,
Stack
.
new
(
[
'$'
]
)),
[
1
]
,
rulebook
)
=> #
>>
dpda
.
accepting?
=> true
>>
dpda
.
read_string
(
'(()'
);
dpda
.
accepting?
=> false
>>
dpda
.
current_configuration
=> #>

Fine so far, but the rulebook we’re using contains a free move, so
the simulation needs to support free moves before it’ll work properly.
Let’s add a
DPDARulebook
helper
method for dealing with free moves, similar to the one in
NFARulebook
(see
Free Moves
):

class
DPDARulebook
def
applies_to?
(
configuration
,
character
)
!
rule_for
(
configuration
,
character
)
.
nil?
end
def
follow_free_moves
(
configuration
)
if
applies_to?
(
configuration
,
nil
)
follow_free_moves
(
next_configuration
(
configuration
,
nil
))
else
configuration
end
end
end

DPDARulebook#follow_free_moves
will repeatedly follow any free moves that apply to the current
configuration, stopping when there are none:

>>
configuration
=
PDAConfiguration
.
new
(
2
,
Stack
.
new
(
[
'$'
]
))
=> #>
>>
rulebook
.
follow_free_moves
(
configuration
)
=> #>
Warning

For the first time in our experiments with state machines, this
introduces the possibility of an infinite loop in the simulation. A
loop can happen whenever there’s a chain of free moves that begins and
ends at the same state; the simplest example is when there’s one free
move that doesn’t change the configuration at all:

>>
DPDARulebook
.
new
(
[
PDARule
.
new
(
1
,
nil
,
1
,
'$'
,
[
'$'
]
)
]
)
.
follow_free_moves
(
PDAConfiguration
.
new
(
1
,
Stack
.
new
(
[
'$'
]
)))
SystemStackError: stack level too deep

These infinite loops aren’t useful, so we’ll just take care to
avoid them in any pushdown automata we design.

We also need to
wrap the default implementation of
DPDA#current_configuration
to take advantage
of the rulebook’s free move support:

class
DPDA
def
current_configuration
rulebook
.
follow_free_moves
(
super
)
end
end

Now we have a simulation of a DPDA that we can start up, feed characters to, and check
for acceptance:

>>
dpda
=
DPDA
.
new
(
PDAConfiguration
.
new
(
1
,
Stack
.
new
(
[
'$'
]
)),
[
1
]
,
rulebook
)
=> #
>>
dpda
.
read_string
(
'(()('
);
dpda
.
accepting?
=> false
>>
dpda
.
current_configuration
=> #>
>>
dpda
.
read_string
(
'))()'
);
dpda
.
accepting?
=> true
>>
dpda
.
current_configuration
=> #>

If we wrap this simulation up in a
DPDADesign
as usual, we can easily check as
many strings as we like:

class
DPDADesign
<
Struct
.
new
(
:start_state
,
:bottom_character
,
:accept_states
,
:rulebook
)
def
accepts?
(
string
)
to_dpda
.
tap
{
|
dpda
|
dpda
.
read_string
(
string
)
}
.
accepting?
end
def
to_dpda
start_stack
=
Stack
.
new
(
[
bottom_character
]
)
start_configuration
=
PDAConfiguration
.
new
(
start_state
,
start_stack
)
DPDA
.
new
(
start_configuration
,
accept_states
,
rulebook
)
end
end

As expected, our DPDA design can recognize complex strings of
balanced brackets nested to arbitrary depth:

>>
dpda_design
=
DPDADesign
.
new
(
1
,
'$'
,
[
1
]
,
rulebook
)
=> #
>>
dpda_design
.
accepts?
(
'(((((((((())))))))))'
)
=> true
>>
dpda_design
.
accepts?
(
'()(())((()))(()(()))'
)
=> true
>>
dpda_design
.
accepts?
(
'(()(()(()()(()()))()'
)
=> false

There’s one final detail to take care of. Our simulation works
perfectly on inputs that leave the DPDA in a valid state, but it blows
up when the machine gets stuck:

>>
dpda_design
.
accepts?
(
'())'
)
NoMethodError: undefined method `follow' for nil:NilClass

This happens because
DPDARulebook#next_configuration
assumes it
will be able to find an applicable rule, so we shouldn’t call it when
none of the rules apply. We’ll fix the problem by modifying
DPDA#read_character
to check for a usable rule
and, if there isn’t one, put the DPDA into a special stuck state that it
can never move out of:

class
PDAConfiguration
STUCK_STATE
=
Object
.
new
def
stuck
PDAConfiguration
.
new
(
STUCK_STATE
,
stack
)
end
def
stuck?
state
==
STUCK_STATE
end
end
class
DPDA
def
next_configuration
(
character
)
if
rulebook
.
applies_to?
(
current_configuration
,
character
)
rulebook
.
next_configuration
(
current_configuration
,
character
)
else
current_configuration
.
stuck
end
end
def
stuck?
current_configuration
.
stuck?
end
def
read_character
(
character
)
self
.
current_configuration
=
next_configuration
(
character
)
end
def
read_string
(
string
)
string
.
chars
.
each
do
|
character
|
read_character
(
character
)
unless
stuck?
end
end
end

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