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Pack logtalk -- logtalk-3.86.0/manuals/_sources/libraries/edcg.rst.txt |
.. _library_edcg:
edcg
This library provides a Logtalk port of Peter Van Roy's extended DCG implementation. For full documentation on EDCGs, see:
https://www.info.ucl.ac.be/~pvr/edcg.html
This Logtalk version defines a hook object, edcg
. Source files
defining EDCGs must be compiled using the compiler option
hook(edcg)
:
::
| ?- logtalk_load(source, [hook(edcg)])
.
Alternatively, the following directive can be added at the beginning of the source file containing the EDCGs:
::
:- set_logtalk_flag(hook, edcg)
.
The hook object automatically adds the EDCGs -->>
infix operator
scoped to the source file.
This port has simplified by copying and then modifying Michael
Hendricks's edcg
repo at:
https://github.com/mndrix/edcg
A notable difference is that Michael's version declares Peter's original
predicates for declaring accumulators and predicates using the hidden
arguments as multifile predicates. But this is risky as two independent
EDCGs may use e.g. the same accumulator names and introduce conflicts.
The Logtalk version uses instead the edcg
hook object internal state
to temporarily save those predicates in order to parse the corresponding
EDCGs.
Open the `../../docs/library_index.html#edcg <../../docs/library_index.html#edcg>`__ link in a web browser.
To load all entities in this library, load the loader.lgt
utility
file:
::
| ?- logtalk_load(edcg(loader))
.
To test this library predicates, load the tester.lgt
file of the
edcgs
example:
::
| ?- logtalk_load(edcgs(tester))
.
Follows the usage documentation written by Michael Hendricks (with a contribution from Peter Ludemann), used here with permission, with the necessary changes for the Logtalk port.
.. code:: logtalk
% declare accumulators
acc_info(adder, X, In, Out, integer::plus(X,In,Out)
).
% declare predicates using these hidden arguments
pred_info(len,0,[adder,dcg])
.
pred_info(increment,0,[adder])
.
increment -->> % add one to the accumulator [1]:adder.
len(Xs,N)
:-
len(0,N,Xs,[])
.
len -->> % 'dcg' accumulator has an element [_], !, % increment the 'adder' accumulator increment, len. len -->> [].
DCG notation gives us a single, hidden accumulator. Extended DCG
notation (implemented by this library) lets predicates have arbitrarily
many hidden accumulators. As demonstrated by the synopsis above, those
accumulators can be implemented with arbitrary goals (like
integer::plus/3
).
Benefits of this library:
Extended DCG syntax is very similar to DCG notation. An EDCG is created
with clauses whose neck is the -->>
operator. The following syntax
is supported inside an EDCG clause:
{Goal}
- don't expand any hidden arguments of Goal
Goal
- expand all hidden arguments of Goal that are also in the
head. Those hidden arguments not in the head are given default values.Goal:L
- If Goal
has no hidden arguments then force the
expansion of all arguments in L
in the order given. If Goal
has hidden arguments then expand all of them, using the contents of
L
to override the expansion. L
is either a term of the form
Acc
, Acc(Left,Right)
, Pass
, Pass(Value)
, or a list of
such terms. When present, the arguments Left
, Right
, and
Value
override the default values of arguments not in the head.List:Acc
- Accumulate a list of terms in the accumulator Acc
List
- Accumulate a list of terms in the accumulator dcg
X/Acc
- Unify X
with the left term for the accumulator Acc
Acc/X
- Unify X
with the right term for the accumulator
Acc
X/Acc/Y
- Unify X
with the left and Y
with the right term
for the accumulator Acc
insert(X,Y):Acc
- Insert the arguments X
and Y
into the
chain implementing the accumulator Acc
. This is useful when the
value of the accumulator changes radically because X
and Y
may
be the arguments of an arbitrary relationinsert(X,Y)
- Insert the arguments X
and Y
into the chain
implementing the accumulator dcg
. This inserts the difference list
X-Y into the accumulated listPredicates are declared with facts of the following form:
.. code:: logtalk
pred_info(Name, Arity, List)
.
The predicate Name/Arity
has the hidden parameters given in
List
. The parameters are added in the order given by List
and
their names must be atoms.
Accumulators are declared with facts in one of two forms. The short form is:
.. code:: logtalk
acc_info(Acc, Term, Left, Right, Joiner)
.
The long form is:
.. code:: logtalk
acc_info(Acc, Term, Left, Right, Joiner, LStart, RStart)
.
In most cases the short form gives sufficient information. It declares
the accumulator Acc
, which must be an atom, along with the
accumulating function, Joiner
, and its arguments Term
, the term
to be accumulated, and Left
& Right
, the variables used in
chaining.
The long form of acc_info
is useful in more complex programs. It
contains two additional arguments, LStart
and RStart
, that are
used to give default starting values for an accumulator occurring in a
body goal that does not occur in the head. The starting values are given
to the unused accumulator to ensure that it will execute correctly even
though its value is not used. Care is needed to give correct values for
LStart
and RStart
. For DCG-like list accumulation both may
remain unbound.
Two conventions are used for the two variables used in chaining
depending on which direction the accumulation is done. For forward
accumulation, Left
is the input and Right
is the output. For
reverse accumulation, Right
is the input and Left
is the output.
Passed arguments are conceptually the same as accumulators with =/2 as the joiner function. Passed arguments are declared as facts in one of two forms. The short form is:
.. code:: logtalk
pass_info(Pass)
.
The long form is:
.. code:: logtalk
pass_info(Pass, PStart)
.
In most cases the short form is sufficient. It declares a passed
argument Pass
, that must be an atom. The long form also contains the
starting value PStart
that is used to give a default value for a
passed argument in a body goal that does not occur in the head. Most of
the time this situation does not occur.
Peter Van Roy's page: `Declarative Programming with State https://www.info.ucl.ac.be/~pvr/edcg.html`__
Technical Report UCB/CSD-90-583 `Extended DCG Notation: A Tool for Applicative Programming in Prolog https://www2.eecs.berkeley.edu/Pubs/TechRpts/1990/5471.html`__ by Peter Van Roy
A short `Wikipedia article https://en.wikipedia.org/wiki/Definite_clause_grammar#Extensions`__ on DCGs and extensions.