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path: root/monkey/action.py
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#!/usr/bin/python3

class Action:
    # type ∈ ['insert', 'remove', 'solve', 'solve_all', 'next', 'stop', 'test', 'hint']
    # time: absolute elapsed time since the attempt started, in ms
    # offset: position of the first inserted/removed character
    # text: inserted/removed text or query
    # total, passed: number of test cases
    def __init__(self, type, time, offset=0, text='', total=0, passed=0):
        self.type = type
        self.time = time
        if type == 'insert' or type == 'remove':
            self.offset = offset
            self.length = len(text)
            self.text = text
        elif type == 'solve' or type == 'solve_all':
            self.query = text
        elif type == 'test':
            self.total = total
            self.passed = passed

    def __str__(self):
        s = 't = ' + str(self.time/1000.0) + '  ' + self.type
        if self.type in ('insert', 'remove'):
            s += ' "' + self.text.replace('\n', '\\n').replace('\t', '\\t') + '" at ' + str(self.offset)
        elif self.type in ('solve', 'solve_all'):
            s += ' "' + self.query + '"'
        elif self.type == 'test':
            s += ' {0} / {1}'.format(self.passed, self.total)
        return s

    # apply this action to text
    def apply(self, text):
        if self.type == 'insert':
            return text[:self.offset] + self.text + text[self.offset:]
        elif self.type == 'remove':
            return text[:self.offset] + text[self.offset+self.length:]
        else:
            return text

    # reverse the application of this action
    def unapply(self, text):
        if self.type == 'insert':
            return text[:self.offset] + text[self.offset+self.length:]
        elif self.type == 'remove':
            return text[:self.offset] + self.text + text[self.offset:]
        else:
            return text

_packet_action_map = {
    'ins':  lambda packet, time, code: Action('insert', time, offset=packet['off'], text=packet['txt']),
    'rm':   lambda packet, time, code: Action('remove', time, offset=packet['off'], text=code[packet['off']:packet['off']+packet['len']]),
    'slv':  lambda packet, time, code: Action('solve', time, text=packet['qry']),
    'slva': lambda packet, time, code: Action('solve_all', time, text=packet['qry']),
    'nxt':  lambda packet, time, code: Action('next', time),
    'stp':  lambda packet, time, code: Action('stop', time),
    'tst':  lambda packet, time, code: Action('test', time, total=packet['tot'], passed=packet['pas']),
    'hnt':  lambda packet, time, code: Action('hint', time)
}
# parse log from database into a list of actions, cleaning up some fluff.
# ignore non-text actions (queries and tests)
def parse(data):
    if data == None:
        return [], []

    actions = []
    incorrect = set()

    time = 0
    code = ''
#    i = 0
#    while i < len(data):
#        # parse one action
#        type = data[i]
#        i += 1
#        dt = int(((data[i] << 8) + (data[i+1])) * 100.0)
#        time += dt
#        i += 2
#        if type == 1:  # insert
#            offset = (data[i] << 8) + data[i+1]
#             i += 2
#             length = (data[i] << 8) + data[i+1]
#             i += 2
#             text = data[i:i+length].decode()
#             i += length
#             action = Action('insert', time, offset=offset, text=text)
#         elif type == 2:  # remove
#             offset = (data[i] << 8) + data[i+1]
#             i += 2
#             length = (data[i] << 8) + data[i+1]
#             i += 2
#             text = code[offset:offset+length]
#             action = Action('remove', time, offset=offset, text=text)
#         elif type == 3 or type == 4:  # solve / solve all
#             length = (data[i] << 8) + data[i+1]
#             i += 2
#             query = data[i:i+length].decode()
#             i += length
#             act_type = 'solve' + ('_all' if type == 4 else '')
#             action = Action(act_type, time, text=query)
#         elif type == 5:  # next solution
#             action = Action('next', time)
#         elif type == 7:  # stop/end
#             action = Action('stop', time)
#         elif type == 8:  # test
#             total = data[i]
#             i += 1
#             passed = data[i]
#             i += 1
#             action = Action('test', time, total=total, passed=passed)
#         elif type == 9:  # hint
#             action = Action('hint', time)
#         else:
#             # unsupported action type
#             continue

    for packet in data:
        try:
            time += packet['dt']
            action = _packet_action_map[packet['typ']](packet, time, code)
        except:
            # ignore any errors while decoding a packet
            continue

        # skip normalization if this is the first action
        if actions == []:
            actions.append(action)
            code = action.apply(code)
            continue

        # add to list of actions; modify previously added action if necessary
        prev = actions[-1]

        # remove superfluous REMOVE action when newline is inserted (due to editor auto-indent)
        if prev.type == 'remove' and action.type == 'insert' and \
           action.time == prev.time and \
           action.offset == prev.offset and action.length > prev.length and \
           action.text[action.length-prev.length:] == prev.text:
            # discard last REMOVE action
            code = prev.unapply(code)
            actions.pop()

            # replace current action with something better
            length = action.length - prev.length
            new = Action('insert', prev.time, offset = prev.offset, text = action.text[:length])
            actions.append(new)
            code = new.apply(code)

        # remove superfluous INSERT action when newline is removed (due to editor auto-indent)
        elif prev.type == 'remove' and action.type == 'insert' and \
             action.time == prev.time and \
             action.offset == prev.offset and action.length < prev.length and \
             prev.text[prev.length-action.length:] == action.text:
            # discard last INSERT action
            code = prev.unapply(code)
            actions.pop()

            # replace current action with something better
            length = prev.length - action.length
            new = Action('remove', prev.time, offset = prev.offset, text = prev.text[:length])
            actions.append(new)
            code = new.apply(code)

        # discard INSERT/REMOVE pairs (typos)
        elif prev.type == 'insert' and action.type == 'remove' and \
             action.time - prev.time < 10000 and \
             action.offset == prev.offset and action.text == prev.text:
            # discard last and current actions
            code = prev.unapply(code)
            actions.pop()

        # discard REMOVE/INSERT pairs (deleted char then typed back)
        elif prev.type == 'remove' and action.type == 'insert' and \
             action.offset == prev.offset and action.text == prev.text:
            # discard last and current actions
            code = prev.unapply(code)
            actions.pop()

        # otherwise, simply append the current action
        else:
            actions.append(action)
            code = action.apply(code)

    return actions

# expand any multi-char actions (does not do anything for the 99%)
def expand(actions):
    i = 0
    while i < len(actions):
        if actions[i].type == 'insert' and len(actions[i].text) > 1:
            a = actions.pop(i)
            for offset in range(len(a.text)):
                actions.insert(i+offset, Action('insert', a.time, a.offset+offset, a.text[offset]))
            i += len(a.text)
        elif actions[i].type == 'remove' and len(actions[i].text) > 1:
            a = actions.pop(i)
            for offset in range(len(a.text)):
                actions.insert(i, Action('remove', a.time, a.offset+offset, a.text[offset]))
            i += len(a.text)
        else:
            i += 1

# each action in parse() result corresponds to single insertion/deletion.
# this function merges related adjacent actions
def compress(actions):
    # first make each edit change exactly one character, for easier handling
    expand(actions)

    i = 0
    while i < len(actions)-1:
        a = actions[i]
        b = actions[i+1]

        # merge adjacent INSERT actions
        # +a +b  →  +ab
        if a.type == 'insert' and b.type == 'insert' and \
            b.offset == a.offset + a.length: #and b.time - a.time < 10000:
            a.text += b.text
            a.length += b.length
            del actions[i+1]

        # merge adjacent REMOVE actions (two cases: backspace & delete)
        # -b -a  →  -ab
        elif a.type == 'remove' and b.type == 'remove' and \
            b.offset == a.offset - b.length: #and b.time - a.time < 10000:
            a.text = b.text + a.text
            a.offset = b.offset
            a.length += b.length
            del actions[i+1]
        # -a -b  →  -ab
        elif a.type == 'remove' and b.type == 'remove' and \
             b.offset == a.offset and b.time - a.time < 10000:
            a.text += b.text
            a.length += b.length
            del actions[i+1]

        # merge adjacent INSERT/REMOVE actions
        # +ab -b  →  +a
        elif a.type == 'insert' and b.type == 'remove' and \
             b.offset >= a.offset and b.offset < a.offset + a.length and \
             b.length == a.offset + a.length - b.offset and b.time - a.time < 10000:
            del_start = b.offset - a.offset
            del_end = del_start + b.length
            a.text = a.text[:del_start] + a.text[del_end:]
            a.length -= b.length
            del actions[i+1]

        else:
            i += 1

# some sample code
if __name__ == '__main__':
    import sys, os.path
    sys.path.append(os.path.dirname(os.path.realpath(__file__)) + '/..') # the parent directory is the app directory

    from db.models import Solution

    # print all problem ids
#    print('problems:')
#    for problem in Problem.objects.all():
#        print('  {}\t{}'.format(problem.pk, problem.name))
#    print()

    pid = input('enter problem id: ')
#    problem = Problem.objects.get(pk=pid)

    # print all attempt ids for the selected problem
    print('users solving problem ' + str(pid) + ':')
    attempts = Solution.filter(problem_id=pid)
    print(', '.join([str(attempt.codeq_user_id) for attempt in attempts]))
    print()

    uid = input('enter user id: ')
    attempt = Solution.get(problem_id=pid, codeq_user_id=uid)

    try:
        actions = parse(attempt.trace)
        print('read ' + str(len(actions)) + ' actions from log')
        compress(actions)
        print('after compression: ' + str(len(actions)) + ' actions')
        print()

        print('code versions for this attempt:')
        code = ''
        for action in actions:
            code = action.apply(code)
            print(action)
            print(code.strip())
            print()
    except Exception as ex:
        sys.stderr.write('Error parsing action log: ' + str(ex))