path: root/prolog/engine.py

#!/usr/bin/python3

import collections
import html
import http.client
import json
from operator import itemgetter
import re
import socket
import time
import urllib

def strip_html(text):
    return html.unescape(re.sub(r'</?[a-z]+[^>]*>', '', text))

# Create a new pengine, initialize it with [code] and return Prolog's reply.
# The engine is destroyed after answering one query. If [query] is given, the
# first answer is returned and the engine destroyed.
def create(code='', query='', timeout=10):
    opts = {'format': 'json-html', 'destroy': True, 'src_text': code}
    if query:
        opts['ask'] = query
    reply, output = request('POST', '/pengine/create', body=json.dumps(opts), timeout=timeout)

    # If query was given, the actual reply is nested in create/destroy objects.
    if query:
        reply = reply['answer']['data']
    return reply, output

def abort(engine):
    params = urllib.parse.urlencode({
        'id': engine,
        'format': 'json-html'})
    try:
        # We don't care about the answer here, so don't wait for it.
        request('GET', '/pengine/abort?' + params, timeout=0.01)
    except:
        pass

def ask(engine, query, timeout=10):
    return send(engine, 'ask(({}),[])'.format(query), timeout=timeout)

def next(engine, n=1, timeout=10):
    return send(engine, 'next({})'.format(n), timeout=timeout)

def stop(engine, timeout=10):
    return send(engine, 'stop', timeout=timeout)

def destroy(engine):
    try:
        # We don't care about the answer here, so don't wait for it.
        send(engine, 'destroy([force(true)])', timeout=0.01)
    except:
        pass

def send(engine, event, timeout=10):
    params = urllib.parse.urlencode({
        'id': engine,
        'event': event,
        'format': 'json-html'})
    return request('GET', path='/pengine/send?' + params, timeout=timeout)

# Return the main reply and pull potential output replies.
address, port = 'localhost', 3030  # TODO put this somewhere sane
def request(method, path, body=None, timeout=10):
    headers = {'Content-Type': 'application/json;charset=utf-8'}
    messages = []
    try:
        conn = http.client.HTTPConnection(address, port, timeout=timeout)
        conn.request(method, path, body, headers=headers)
        while True:
            response = conn.getresponse()
            if response.status != http.client.OK:
                raise Exception('server returned {}'.format(response.status))

            reply = json.loads(response.read().decode('utf-8'))
            if reply.get('event') == 'output':
                messages.append(_get_message(reply))

                # Pull the next output. These requests should return instantly
                # as no additional processing needs to be done in the pengine.
                params = urllib.parse.urlencode({
                    'id': reply['id'],
                    'format': 'json-html'})
                conn.request('GET', '/pengine/pull_response?' + params, headers=headers)
            else:
                return reply, messages
    finally:
        conn.close()

# Strip boilerplate from Prolog messages … ugly.
def _get_message(reply):
    data = strip_html(reply['data']).strip()
    # Prepend the message with formatted location.
    # NOTE in the final version we probably want to return the location object
    where = ''
    if reply['message'] in ('error', 'warning'):
        if 'location' in reply:
            loc = reply['location']
            where += 'near line ' + str(loc['line'])
            if 'ch' in loc:
                where += ', character ' + str(loc['ch'])
            where += ': '
    # Strip HTML and pengine IDs from the messages.
    text = strip_html(data)
    text = re.sub(r"pengine://[0-9]*/src:[0-9]*: ", '', text)
    text = re.sub(r"'[0-9]{10,}':", '', text)
    return reply['message'], where + text

# Return the value of variable [name] in the JSON object returned by Prolog.
def get_var(data, name):
    for binding in data['variables']:
        if name in binding['variables']:
            return strip_html(binding['value'])
    return None

# Return a string describing variable bindings and residuals in the JSON object
# returned by Prolog.
def pretty_vars(data):
    result = []
    for binding in data['variables']:
        var_list = binding['variables']
        value = binding['value']
        result.append(' = '.join(var_list) + ' = ' + strip_html(value))
    if 'residuals' in data:
        result += [strip_html(b) for b in data['residuals']]
    return ',\n'.join(result) if result else 'true'

# Get all solutions to [query] given background knowledge [code] that are found
# within [timeout] seconds.
def run(code, query, timeout):
    # Returns a tuple ((bindings, constraints), error, more?) for one answer.
    def process_answer(reply):
        # When an engine is destroyed, a nested data object has the actual
        # query result.
        if reply['event'] == 'destroy':
            reply = reply['data']

        if reply['event'] == 'success':
            # Return a dictionary {var: value} and a list of constraints (as
            # strings) from the JSON object returned by Prolog.
            data = reply['data'][0]
            bindings = {}
            for binding in data['variables']:
                value = strip_html(binding['value'])
                for name in binding['variables']:
                    bindings[name] = value
            constraints = [strip_html(r) for r in data.get('residuals', [])]
            return (bindings, constraints), None, reply['more']
        elif reply['event'] == 'failure':
            return None, None, False
        elif reply['event'] == 'error':
            # Remove potential module name (engine ID) from the error message.
            error = ('error', reply['data'].replace("'{}':".format(reply['id']), ''))
            return None, error, False

    start = time.monotonic()
    result, messages = [], []
    engine = None
    try:
        # Create a new pengine.
        reply, output = create(code=code, timeout=timeout)
        messages += output
        if reply.get('event') != 'create':
            raise Exception('System error: creating pengine')
        engine = reply['id']
        if 'error' in map(itemgetter(0), messages):
            return None, messages

        # Run the query.
        real_timeout = timeout - (time.monotonic()-start)
        if real_timeout <= 0:
            raise socket.timeout()
        reply, output = ask(engine, query, real_timeout)
        messages += output
        if 'error' in map(itemgetter(0), output):
            return None, messages

        bindings, error, more = process_answer(reply)
        if bindings:
            result.append(bindings)
        if error:
            messages.append(error)

        # Continue while there are more potential answers.
        while more:
            real_timeout = timeout - (time.monotonic()-start)
            if real_timeout <= 0:
                raise socket.timeout()
            reply, output = next(engine, timeout=real_timeout)
            messages += output
            bindings, error, more = process_answer(reply)
            if bindings:
                result.append(bindings)
            if error:
                messages.append(error)
    except socket.timeout as ex:
        result.append('timeout')
        abort(engine)
    finally:
        if engine:
            destroy(engine)

    return result, messages


# Basic sanity check.
if __name__ == '__main__':
    answers, messages = run('b(Y). a(X) :- {X > 3}, (X = 5 ; {X > 4}).', 'a(X)', timeout=1)
    print(messages)
    for bindings, constraints in answers:
        print('bindings: {}, constraints: {}'.format(bindings, constraints))