From 2c7c9f9caf247c07581c4c6f61c5b55e3567120c Mon Sep 17 00:00:00 2001 From: Yutaka Ichibangase Date: Sat, 11 Feb 2023 12:43:48 +0900 Subject: [PATCH] refine acknowledgements --- README.md | 299 ++++-------------------------------------------------- 1 file changed, 22 insertions(+), 277 deletions(-) diff --git a/README.md b/README.md index 6c5094a..0b1be20 100644 --- a/README.md +++ b/README.md @@ -8,15 +8,19 @@ ## What is this? -`ichiban/prolog` is an embeddable scripting language for **Go**. -Unlike any other scripting engines, `ichiban/prolog` implements logic programming language **Prolog**. +`ichiban/prolog` is an embeddable **ISO Prolog** interpreter in **Go**. -- **Easy to reason about:** based on first-order logic -- **Easy to adopt:** `database/sql`-like Go API -- **Intelligent:** full-featured Prolog implementation -- **Highly customizable:** sandboxing, custom predicates +- **Standards-compliant:** + - [ISO/IEC 13211-1:1995 Information technology — Programming languages — Prolog — Part 1: General core](https://www.iso.org/standard/21413.html) + - [A Prologue for Prolog](http://www.complang.tuwien.ac.at/ulrich/iso-prolog/prologue) + - [DCGs](https://www.complang.tuwien.ac.at/ulrich/iso-prolog/dcgs/dcgsdraft-2019-06-03.pdf) +- **Easy to integrate:** `database/sql`-like Go API +- **Highly customizable:** + - Sandboxing + - Custom predicates in Go + - Custom terms (data types) in Go -## `ichiban/prolog` vs [otto](https://github.com/robertkrimen/otto) vs [go-lua](https://github.com/Shopify/go-lua) +## Comparison with Other Libraries | | **prolog** | otto | go-lua | | ----------- | ---------------------- | --------------- | --------------- | @@ -117,6 +121,10 @@ if err := sols.Err(); err != nil { ## The Default Language +`ichiban/prolog` adheres the ISO standard and comes with the ISO predicates as well as the Prologue for Prolog and DCG predicates. + +See [the Wiki](https://github.com/ichiban/prolog/wiki) for the directives and the built-in predicates. + ### Top Level `1pl` is an experimental top level command for testing the default language and its compliance to the ISO standard. @@ -133,272 +141,6 @@ Then, you can enter the top level with `1pl`: $(go env GOPATH)/bin/1pl [...] ``` -### Directives -- **`:- dynamic(PI)`** Specifies the predicates indicated by `PI` are dynamic. *ISO* -- **`:- multifile(PI)`** Specified the predicates indicated by `PI` may be in multiple files. *ISO* -- **`:- discontiguous(PI)`** Specifies the predicates indicated by `PI` may be defined by clauses which are not consecutive read-terms. *ISO* -- **`:- op(Priority, Specifier, Op)`** Alters the operator table. *ISO* -- **`:- char_conversion(In, Out)`** Alters the character conversion mapping. *ISO* -- **`:- initialization(T)`** Registers a goal for execution right before exiting `Exec()` or `ExecContext()`. *ISO* -- **`:- include(F)`** Loads the content of the file `F` as if it were there instead of this directive. *ISO* -- **`:- ensure_loaded(P)`** Loads the content of the file `P` if not loaded. *ISO* -- **`:- set_prolog_flag(Flag, Value)`** Alters the value for the Prolog flag. *ISO* - -### Predicates - -#### Control constructs -- **`true`** Always succeeds. *ISO* -- **`fail`** Always fails. *ISO* -- **`call(Goal)`** Calls `Goal`. *ISO* -- **`!`** Cut. *ISO* -- **`P, Q`** Conjunction. *ISO* -- **`P; Q`** Disjunction. *ISO* -- **`If -> Then`** If-then. *ISO* -- **`If -> Then; Else`** If-then-else. *ISO* -- **`catch(Goal, Catcher, Recovery)`** Calls `Goal`. If an exception is raised and unifies with `Catcher`, calls `Recovery`. *ISO* -- **`throw(Ball)`** Raises an exception `Ball`. *ISO* -#### Term unification -- **`X = Y`** Unifies `X` with `Y`. *ISO* -- **`unify_with_occurs_check(X, Y)`** Unifies `X` with `Y` with occurs check. *ISO* -- **`X \= Y`** Succeeds iff `X` and `Y` are not unifiable. *ISO* -- **`subsumes_term(General, Specific)`** Succeeds iff there's a substitution `θ` such that `Generalθ = Specificθ` and `Specificθ = Specific`. *ISO* -#### Type testing -- **`var(X)`** Succeeds iff `X` is a variable. *ISO* -- **`atom(X)`** Succeeds iff `X` is an atom. *ISO* -- **`integer(X)`** Succeeds iff `X` is an integer. *ISO* -- **`float(X)`** Succeeds iff `X` is a float. *ISO* -- **`atomic(X)`** Succeeds iff `X` is neither a variable nor a compound. *ISO* -- **`compound(X)`** Succeeds iff `X` is a compound. *ISO* -- **`nonvar(X)`** Succeeds iff `X` is not a variable. *ISO* -- **`number(X)`** Succeeds iff `X` is either an integer or a float. *ISO* -- **`callable(X)`** Succeeds iff `X` is either an atom or a compound. *ISO* -- **`ground(X)`** Succeeds iff `X` is a ground term. *ISO* -- **`acyclic_term(X)`** Succeeds iff `X` is acyclic. *ISO* -#### Term comparison -- **`X @=< Y`** Either `X == Y` or `X @< Y`. *ISO* -- **`X == Y`** Equivalent to `compare(=, X, Y)`. *ISO* -- **`X \== Y`** Equivalent to `\+compare(=, X, Y)`. *ISO* -- **`X @< Y`** Equivalent to `compare(<, X, Y)`. *ISO* -- **`X @> Y`** Equivalent to `compare(>, X, Y)`. *ISO* -- **`X @>= Y`** Either `X == Y` or `X @> Y`. *ISO* -- **`compare(Order, X, Y)`** Compares `X` and `Y` and unifies `Order` with either `<`, `=`, or `>`. *ISO* -- **`sort(List, Sorted)`** Succeeds iff `Sorted` unifies with a sorted list of `List`. *ISO* -- **`keysort(Pairs, Sorted)`** Succeeds iff `Pairs` is a list of `Key-Value` pairs and `Sorted` unifies with a permutation of `Pairs` sorted by `Key`. *ISO* -#### Term creation and decomposition -- **`functor(Term, Name, Arity)`** Succeeds iff `Term` ia either a compound term of `Name` and `Arity` or an atom of `Name` and `Arity = 0`. *ISO* -- **`arg(N, Term, Arg)`** Succeeds iff `Arg` is the `N`-th argument of `Term`. *ISO* -- **`Term =.. List`** Succeeds iff `List` is a list of the functor and arguments of `Term`. *ISO* -- **`copy_term(Term1, Term2)`** Creates a copy of `Term1` and unifies it with `Term2`. *ISO* -- **`term_variables(Term, Vars)`** Succeeds iff `Vars` is a list of variables appear in `Term`. *ISO* -#### Arithmetic evaluation -- **`Result is Expression`** Evaluates `Expression` and unifies it with `Result`. *ISO* - - `Expression` is either: - - integer, - - float, or - -
evaluable functors - - - `X + Y` - - `X - Y` - - `X * Y` - - `X // Y` - - `X / Y` - - `X rem Y` - - `X mod Y` - - `-X` - - `abs(X)` - - `sign(X)` - - `float_integer_part(X)` - - `float_fractional_part(X)` - - `float(X)` - - `floor(X)` - - `truncate(X)` - - `round(X)` - - `ceiling(X)` - - `+(X)` - - `X div Y` - - `X ** Y` - - `sin(X)` - - `cos(X)` - - `atan(X)` - - `exp(X)` - - `log(X)` - - `sqrt(X)` - - `max(X, Y)` - - `min(X, Y)` - - `X ^ Y` - - `asin(X)` - - `acos(X)` - - `atan2(X, Y)` - - `tan(X)` - - `pi` - - `X >> Y` - - `X << Y` - - `X /\ Y` - - `X \/ Y` - - `\X` - - `xor(X, Y)` - -
- -- **`succ(X, S)`** Succeeds iff `S` is the successor of the non-negative integer `X`. *prologue* - -#### Arithmetic comparison -- **`E1 =:= E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` equals to `EV2`. *ISO* -- **`E1 =\= E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` does not equal to `EV2`. *ISO* -- **`E1 < E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` is greater than `EV2`. *ISO* -- **`E1 =< E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` is greater than or equal to `EV2`. *ISO* -- **`E1 > E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` is less than `EV2`. *ISO* -- **`E1 >= E2`** Succeeds iff `E1` and `E2` are evaluated to `EV1` and `EV2` respectively and `EV1` is less than or equal to `EV2`. *ISO* -#### Clause retrieval and information -- **`clause(Head, Body)`** Succeeds iff `Head :- Body` unifies with a clause in the DB. *ISO* -- **`current_predicate(PI)`** Succeeds iff the predicate indicated by `PI` is in the DB. *ISO* -#### Clause creation and destruction -- **`asserta(Clause)`** Prepends `Clause` to the DB. *ISO* -- **`assertz(Clause)`** Appends `Clause` to the DB. *ISO* -- **`retract(Clause)`** Removes a clause that unifies with`Clause` from the DB. *ISO* -- **`abolish(PI)`** Removes the predicate indicated by `PI` from the DB. *ISO* -- **`retractall(Head)`** Removes all the clauses which head unifies with `Head` from the DB. *ISO* -#### All solutions -- **`findall(Template, Goal, Instances)`** Succeeds iff `Instances` unifies with a list of `Template` for each solution of `Goal`. *ISO* -- **`bagof(Template, Goal, Instances)`** Succeeds iff `Instances` unifies with a bag (multiset) of `Template` for each solution of `Goal`. *ISO* -- **`setof(Template, Goal, Instances)`** Succeeds iff `Instances` unifies with a set of `Template` for each solution of `Goal`. *ISO* -#### Stream selection and control -- **`current_input(Stream)`** Succeeds iff `Stream` unifies with the current input stream. *ISO* -- **`current_output(Stream)`** Succeeds iff `Stream` unifies with the current output stream. *ISO* -- **`set_input(S_or_a)`** Sets the current input stream to the stream indicated by `S_or_a` which is either the stream itself or its alias. *ISO* -- **`set_output(S_or_a)`** Sets the current output stream to the stream indicated by `S_or_a` which is either the stream itself or its alias. *ISO* -- **`open(File, Mode, Stream, Options)`** Opens the file `File` in `Mode` with `Options` and unifies the stream with `Stream`. *ISO* - - `Mode` is either: `read`, `write`, or `append`. - - `Options` is a list of stream options listed below: - - **`type(T)`** Specifies the type of the stream. `T` is either `text` (default) or `binary`. - - **`reposition(Bool)`** Specifies if the stream can be repositions. `Bool` is either `true` or `false`. - - **`alias(A)`** Specifies the alias for the stream. `A` is an atom. - - **`eof_action(Action)`** Specifies the action that will be taken when the input stream reached to the end. `Action` is either: - - `error` which throws an exception, - - `eof_code` which returns a value indicating the end of stream (default), or - - `reset` which resets the stream. -- **`open(File, Mode, Stream)`** Equivalent to `open(File, Mode, Stream, [])`. *ISO* -- **`close(S_or_a, Options)`** Closes the stream indicated by `S_or_a` which is the stream itself or its alias. *ISO* - - `Options` is a list of: - - **`force(Bool)`** Specifies if an exception will be raised when it failed to close the stream. `Bool` is either `false` (default) or `true`. -- **`close(S_or_a)`** Equivalent to `close(S_or_a, [])`. *ISO* -- **`flush_output(S_or_a)`** Sends any buffered output to the stream indicated by `S_or_a` which is either the stream itself or its alias. *ISO* -- **`flush_output`** Equivalent to `current_output(S), flush_output(S)`. *ISO* -- **`stream_property(Stream, Property)`** Succeeds iff the stream `Stream` has the property `Property`. *ISO* - - `Property` is either: - - **`file_name(F)`** - - **`mode(M)`** - - **`input`** - - **`output`** - - **`alias(A)`** - - **`position(P)`** - - **`end_of_stream(E)`** - - **`eof_action(A)`** - - **`reposition(Bool)`** - - **`type(T)`** -- **`at_end_of_stream`** Equivalent to `current_input(S), at_end_of_stream(S)`. *ISO* -- **`at_end_of_stream(S_or_a)`** Succeeds iff the stream indicated by `S_or_a` which is either a stream or an alias has the property either `end_of_stream(at)` or `end_of_stream(past)`. *ISO* -- **`set_stream_position(S_or_a, Position)`** Sets the position of the stream indicated by `S_or_a` which is either a stream or an alias to the position `Position`. *ISO* -#### Character input/output -- **`get_char(S_or_a, Char)`** Succeeds iff `Char` unifies with the next character from the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`get_char(Char)`** Equivalent to `current_input(S), get_char(S, Char)`. *ISO* -- **`get_code(S_or_a, Code)`** Succeeds iff `Char` unifies with the next code from the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`get_code(Code)`** Equivalent to `current_input(S), get_code(S, Code)`. *ISO* -- **`peek_char(S_or_a, Char)`** Similar to `get_char(S_or_a, Char)` but doesn't consume the character. *ISO* -- **`peek_char(Char)`** Equivalent to `current_input(S), peek_char(S, Char)`. *ISO* -- **`peek_code(S_or_a, Code)`** Similar to `get_code(S_or_a, Code)` but doesn't consume the code. *ISO* -- **`peek_code(Code)`** Equivalent to `current_input(S), peek_code(S, Code)`. *ISO* -- **`put_char(S_or_a, Char)`** Outputs the character `Char` to the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`put_char(Char)`** Equivalent to `current_output(S), put_char(S, Char)`. *ISO* -- **`put_code(S_or_a, Code)`** Outputs the code `Code` to the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`put_code(Code)`** Equivalent to `current_output(S), put_code(S, Code)`. *ISO* -- **`nl(S_or_a)`** Outputs a newline to the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`nl`** Equivalent to `current_output(S), nl(S)`. *ISO* -#### Byte input/output -- **`get_byte(S_or_a, Byte)`** Succeeds iff `Byte` unifies with the next byte from the stream indicated by `S_or_a` which is a stream or an alias. *ISO* -- **`get_byte(Byte)`** Equivalent to `current_input(S), get_byte(S, Byte)`. *ISO* -- **`peek_byte(S_or_a, Byte)`** Similar to `get_byte(S_or_a, Byte)` but doesn't consume the byte. *ISO* -- **`peek_byte(Byte)`** Equivalent to `current_input(S), peek_byte(S, Byte)`. *ISO* -- **`put_byte(S_or_a, Byte)`** Outputs the byte `Byte` to the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* -- **`put_byte(Byte)`** Equivalent to `current_output(S), put_byte(S, Byte)`. *ISO* -#### Term input/output -- **`read_term(S_or_a, Term, Options)`** Succeeds iff `Term` unifies with the next term from the stream indicated by `S_or_a` which is a stream or an alias. *ISO* - - `Options` is a list of read options listed below: - - **`variables(Vars)`** the list of variables appeared in `Term` - - **`variable_names(VN_list)`** the list of `A = V` where `A` is an atom which name is the string representation of `V` and `V` is a variable appeared in `Term` - - **`singletons(VN_list)`** similar to `variable_names(VN_list)` but those of variables that appeared once. -- **`read_term(Term, Options)`** Equivalent to `current_input(S), read_term(S, Term, Options)`. *ISO* -- **`read(S_or_a, Term)`** Equivalent to `read_term(S_or_a, Term, [])`. *ISO* -- **`read(Term)`** Equivalent to `current_input(S), read(S, Term)`. *ISO* -- **`write_term(S_or_a, Term, Options)`** Outputs `Term` to the stream indicated by `S_or_a` which is either a stream or an alias. *ISO* - - `Options` is a list of write options listed below: - - **`quoted(Bool)`** `Bool` is either `true` or `false`. If `true`, atoms and functors will be quoted as needed. - - **`ignore_ops(Bool)`** `Bool` is either `true` or `false`. If `true`, operators will be written in functional notation. - - **`variable_names(VN_list)`** `VN_list` is a proper list which element is a form of `A = V` where `A` is an atom and `V` is a variable. Each occurrence of `V` will be replaced by the leftmost and unquoted `A`. - - **`numbervars(Bool)`** `Bool` is either `true` or `false`. If `true`, terms `'$VAR'(0)`, `'$VAR'(1)`, ... will be written as `A`, `B`, ... -- **`write_term(Term, Options)`** Equivalent to `current_output(S), write_term(S, Term, Options)`. *ISO* -- **`write(S_or_a, Term)`** Equivalent to `write_term(S_or_a, Term, [numbervars(true)])`. *ISO* -- **`write(Term)`** Equivalent to `current_output(S), write(S, Term)`. *ISO* -- **`writeq(S_or_a, Term)`** Equivalent to `write_temr(S_or_a, Term, [quoted(true), numbervars(true)])`. *ISO* -- **`writeq(Term)`** Equivalent to `current_output(S), writeq(S, Term)`. *ISO* -- **`write_canonical(S_or_a, Term)`** Equivalent to `write_term(S_or_a, Term, [quoted(true), ignore_ops(true)])`. *ISO* -- **`write_canonical(Term)`** Equivalent to `current_output(S), write_canonical(S, Term)`. *ISO* -- **`op(Priority, Specifier, Operator)`** Alters the operator table. *ISO* -- **`current_op(Priority, Specifier, Operator)`** Succeeds iff the operator indicated by `Priority`, `Specifier`, `Operator` is in the operator table. *ISO* -- **`char_conversion(In, Out)`** Alters the character conversion mapping. *ISO* -- **`current_char_conversion(In, Out)`** Succeeds iff the character conversion from `In` to `Out` is in the conversion mapping. *ISO* -#### Logic and control -- **`\+Goal`** Succeeds iff `call(Goal)` fails. *ISO* -- **`once(Goal)`** Calls `Goal` but never redoes. *ISO* -- **`repeat`** Repeats the following code until it succeeds. *ISO* -- **`call(Closure, Arg1, ..., ArgN)`** `N = 1..7`. Succeeds iff `call(Goal)` where `Goal` is `Closure` with additional arguments `Arg1, ..., ArgN`. *ISO* -- **`false`** Equivalent to `fail`. *ISO* -- **`between(Lower, Upper, X)`** Succeeds iff `Lower <= X <= Upper`. *prologue* -#### Atomic term processing -- **`atom_length(Atom, Length)`** Succeeds iff `Length` is the number of runes in `Atom`. *ISO* -- **`atom_concat(Atom1, Atom2, Atom3)`** Succeeds iff `Atom3` is a concatenation of `Atom1` and `Atom2`. *ISO* -- **`sub_atom(Atom, Before, Length, After, SubAtom)`** Succeeds iff `SubAtom` is a sub atom of `Atom` where `Before` is the number of runes before `SubAtom`, `Length` is the length of `SubAtom`, and `After` is the number of runes after `SubAtom`. *ISO* -- **`atom_chars(Atom, List)`** Succeeds iff `List` is the list of single-rune atoms that `Atom` consists of. *ISO* -- **`atom_codes(Atom, List)`** Succeeds iff `List` is the list of runes that `Atom` consists of. *ISO* -- **`char_code(Char, Code)`** Succeeds iff `Char` is a single-rune atom which rune is `Code`. *ISO* -- **`number_chars(Number, List)`** Succeeds iff `List` is the list of single-rune atoms that represents `Number`. *ISO* -- **`number_codes(Number, List)`** Succeeds iff `List` is the list of runes that represents `Number`. *ISO* -#### Implementation defined hooks -- **`set_prolog_flag(Flag, Value)`** Sets the Prolog flag `Flag` to `Value`. *ISO* - - `Flag` is either: - - **`char_conversion`** `Value` is either `on` or `off` (default). - - **`debug`** `Value` is either `on` or `off` (default). - - **`unknown`** `Value` is either `error` (default), `fail`, or `warning`. - - **`double_quotes`** `Value` is either `chars` (default), `codes`, or `atom`. -- **`current_prolog_flag(Flag, Value)`** Succeeds iff `Value` is the current value for the Prolog flag `Flag`. *ISO* - - `Flag` is either: - - **`bounded`** `Value` is always `true`. - - **`max_integer`** `Value` is always `9223372036854775807`. - - **`min_integer`** `Value` is always `-9223372036854775808`. - - **`integer_rounding_function`** `Value` is always `toward_zero`. - - **`char_conversion`** `Value` is either `on` or `off` (default). - - **`debug`** `Value` is either `on` or `off` (default). - - **`max_arity`** `Value` is always `unbounded`. - - **`unknown`** `Value` is either `error` (default), `fail`, or `warning`. - - **`double_quotes`** `Value` is either `chars` (default), `codes`, or `atom`. -- **`halt(X)`** Exits the host program with the status code of `X`. *ISO* -- **`halt`** Equivalent to `halt(0)`. *ISO* -#### Definite clause grammars -- **`expand_term(In, Out)`** Succeeds iff `Out` is an expansion of the term `In`. -- **`phrase(Phrase, List, Remainder)`** Succeeds iff the different list `List-Remainder` satisfies the grammar rule `Phrase`. -- **`phrase(Phrase, List)`** Equivalent to `phrase(Phrase, List, [])`. -#### List processing -- **`member(X, L)`** Succeeds iff `X` is a member of the list `L`. *prologue* -- **`append(Xs, Ys, Zs)`** Succeeds iff `Zs` is the concatenation of `Xs` and `Ys`. *prologue* -- **`length(List, Length)`** Succeeds iff `Length` is the length of `List`. *prologue* -- **`select(X, Xs, Ys)`** Succeeds iff `X` is an element of `Xs` and `Ys` is `Xs` with one occurence of `X` removed. *prologue* -- **`maplist(Goal, List1, ..., Listn)`** `n = 1..7`. Succeeds iff `List1, ..., Listn` are the list of the same length and `call(Goal, List1_i, ..., Listn_i)` succeeds for all the `i`-th elements of `List1, ..., Listn`. *prologue* -- **`nth0(N, List, Elem)`** Succeeds iff `Elem` is the `N`-th element of `List` counting from 0. -- **`nth1(N, List, Elem)`** Succeeds iff `Elem` is the `N`-th element of `List` counting from 1. -#### Program -- **`consult(File)`** Loads Prolog program files indicated by `File`. `File` is either an atom or a list of atoms. An atom `abc` indicates a Prolog program file `./abc` or `./abc.pl`. -- **`[File|Files]`** Equivalent to `consult([File|Files])`. - ## Extensions - **[predicates](https://github.com/guregu/predicates):** Native predicates for ichiban/prolog. @@ -419,7 +161,10 @@ See `ARCHITECTURE.md` for architecture details. ## Acknowledgments -- [A PORTABLE PROLOG COMPILER (Bowen et al. 83)](http://www.softwarepreservation.org/projects/prolog/lisbon/lpw83/p74-Bowen.pdf) -- [ISO Prolog works](http://www.complang.tuwien.ac.at/ulrich/iso-prolog/) by Prof. Ulrich Neumerkel -- [SWI Prolog](https://www.swi-prolog.org/) and its documentation -- [GNU Prolog](http://www.gprolog.org/) and its documentation \ No newline at end of file +We would like to extend our thanks to the following individuals for their contributions to this project: + +- [guregu](https://github.com/guregu) for contributing code and ideas +- [Markus Triska](https://github.com/triska) for his deep knowledge and insights on modern Prolog, as evidenced by his insightful comments on issues +- [Prof. Ulrich Neumerkel](https://github.com/UWN) for valuable guidance, his [works on ISO standards](http://www.complang.tuwien.ac.at/ulrich/iso-prolog/), [the Prologue for Prolog](http://www.complang.tuwien.ac.at/ulrich/iso-prolog/prologue), and DCGs. + +We are grateful for the support and contributions of everyone involved in this project. Arigatou gozaimasu!