Exemplo n.º 1
0
def count_lengths(args: argparse.Namespace, filename: str):
    print(f"Counting {filename}")
    full_filename = args.prelude + "/" + filename
    scraped_commands = list(
        read_all_text_data(Path2(full_filename + ".scrape")))
    scraped_iter = iter(scraped_commands)
    if args.post_linear:
        original_commands = serapi_instance.load_commands_preserve(
            args, 0, full_filename + ".lin")
    else:
        original_commands = serapi_instance.load_commands_preserve(
            args, 0, full_filename)

    with open(full_filename + ".csv", 'w') as fout:
        rowwriter = csv.writer(fout)
        lemma_statement = ""
        in_proof = False
        cur_len = 0
        for cmd in original_commands:
            if not serapi_instance.possibly_starting_proof(
                    cmd) and not in_proof:
                continue
            if serapi_instance.possibly_starting_proof(cmd) and not in_proof:
                normalized_command = norm(cmd)
                cur_scraped = norm(next(scraped_iter))
                while cur_scraped != normalized_command:
                    cur_scraped = norm(next(scraped_iter))
                try:
                    next_after_start = next(scraped_iter)
                except StopIteration:
                    next_after_start = ""
                if isinstance(next_after_start, ScrapedTactic):
                    lemma_statement = norm(cmd)
                    in_proof = True
                    cur_len = 0
                else:
                    scraped_iter = itertools.chain([next_after_start],
                                                   scraped_iter)
            elif serapi_instance.ending_proof(cmd):
                assert in_proof
                rowwriter.writerow([lemma_statement.strip(), cur_len])
                cur_len = -1
                in_proof = False
            elif in_proof:
                assert cur_len >= 0
                if re.match("[{}]|[*-+]*$", norm(cmd)):
                    continue
                if re.match("Proof\.", norm(cmd)):
                    continue
                cur_len += 1
                if args.add_semis or args.post_linear:
                    cur_len += count_outside_matching("\{\|", "\|\}", ";",
                                                      norm(cmd))
    return full_filename + ".csv"
Exemplo n.º 2
0
def generate_evaluation_details(args: argparse.Namespace, idx: int,
                                filename: Path2,
                                evaluator: StateEvaluator) -> FileSummary:
    scrape_path = args.prelude / filename.with_suffix(".v.scrape")
    interactions = list(read_all_text_data(scrape_path))
    context_filter = get_context_filter(args.context_filter)
    json_rows: List[Dict[str, Any]] = []

    num_points = 0
    num_close = 0
    num_correct = 0
    num_proofs = 0

    doc, tag, text, line = Doc().ttl()

    def write_highlighted(vernac: str) -> None:
        nonlocal text
        nonlocal tag
        substrings = syntax_highlight(vernac)

        for substring in substrings:
            if isinstance(substring, ColoredString):
                with tag('span', style=f'color:{substring.color}'):
                    text(substring.contents)
            else:
                text(substring)

    def write_vernac(block: VernacBlock):
        nonlocal tag
        for command in block.commands:
            with tag('code', klass='plaincommand'):
                write_highlighted(command)

    def generate_proof_evaluation_details(block: ProofBlock, region_idx: int):
        nonlocal num_proofs
        nonlocal num_close
        nonlocal num_correct
        nonlocal json_rows
        num_proofs += 1

        nonlocal num_points

        distanced_tactics = label_distances(block.proof_interactions)

        proof_length = len(distanced_tactics)
        num_points += proof_length

        with tag('div', klass='region'):
            nonlocal evaluator
            for idx, (interaction,
                      distance_from_end) in enumerate(distanced_tactics, 1):
                if interaction.tactic.strip() in [
                        "Proof.", "Qed.", "Defined."
                ]:
                    with tag('code', klass='plaincommand'):
                        write_highlighted(interaction.tactic.strip("\n"))
                    doc.stag('br')
                else:
                    predicted_distance_from_end = evaluator.scoreState(
                        interaction.context_before)
                    grade = grade_prediction(distance_from_end,
                                             predicted_distance_from_end)
                    if grade == "goodcommand":
                        num_correct += 1
                    elif grade == "okaycommand":
                        num_close += 1

                    num_points += 1
                    json_rows.append({
                        "lemma": block.lemma_statement,
                        "hyps": interaction.context_before.hypotheses,
                        "goal": interaction.context_before.goal,
                        "actual-distance": distance_from_end,
                        "predicted-distance": predicted_distance_from_end,
                        "grade": grade
                    })
                    with tag('span',
                             ('data-hyps', "\n".join(interaction.context_before.hypotheses)),
                             ('data-goal', interaction.context_before.goal),
                             ('data-actual-distance', str(distance_from_end)),
                             ('data-predicted-distance', str(predicted_distance_from_end)),
                             ('data-region', region_idx),
                             ('data-index', idx),
                             klass='tactic'), \
                             tag('code', klass=grade):
                        text(interaction.tactic)
                    doc.stag('br')

    def write_lemma_button(lemma_statement: str, region_idx: int):
        nonlocal tag
        nonlocal text
        lemma_name = \
            serapi_instance.lemma_name_from_statement(lemma_statement)
        with tag('button', klass='collapsible',
                 id=f'collapsible-{region_idx}'):
            with tag('code', klass='buttontext'):
                write_highlighted(lemma_statement.strip())

    def grade_prediction(correct_number: int, predicted_number: float) -> str:
        distance = abs(correct_number - predicted_number)
        if distance < 1:
            return "goodcommand"
        elif distance < 5:
            return "okaycommand"
        else:
            return "badcommand"

    with tag('html'):
        header(tag, doc, text, details_css, details_javascript,
               "Proverbot9001 Report")
        with tag('body', onload='init()'), tag('pre'):
            for idx, block in enumerate(get_blocks(interactions)):
                if isinstance(block, VernacBlock):
                    write_vernac(block)
                else:
                    assert isinstance(block, ProofBlock)
                    write_lemma_button(block.lemma_statement, idx)
                    generate_proof_evaluation_details(block, idx)

    base = Path2(os.path.dirname(os.path.abspath(__file__)))
    for extra_filename in extra_files:
        (base.parent / "reports" / extra_filename).copyfile(args.output /
                                                            extra_filename)

    with (args.output /
          filename.with_suffix(".html").name).open(mode='w') as fout:
        fout.write(doc.getvalue())

    with (args.output /
          filename.with_suffix(".json").name).open(mode='w') as fout:
        for row in json_rows:
            fout.write(json.dumps(row))
            fout.write("\n")

    return FileSummary(filename, num_close, num_correct, num_points,
                       num_proofs)
Exemplo n.º 3
0
def count_proofs(args : argparse.Namespace, filename : str) \
    -> Tuple[int, int]:
    eprint(f"Counting {filename}", guard=args.debug)
    scrapefile = args.prelude + "/" + filename + ".scrape"
    interactions = list(
        read_all_text_data(args.prelude + "/" + filename + ".scrape"))
    filter_func = get_context_filter(args.context_filter)

    count = 0
    total_count = 0
    cur_proof_counts = False
    cur_lemma_stmt = ""
    extended_interactions : List[Optional[ScrapedCommand]] = \
        cast(List[Optional[ScrapedCommand]], interactions[1:])  + [None]
    for inter, next_inter in zip(interactions, extended_interactions):
        if isinstance(inter, ScrapedTactic):
            goal_before = inter.goal
            hyps_before = inter.hypotheses
            command = inter.tactic
        else:
            goal_before = ""
            hyps_before = []
            command = inter

        if next_inter and isinstance(next_inter, ScrapedTactic):
            goal_after = next_inter.goal
            hyps_after = next_inter.hypotheses
        else:
            goal_after = ""
            hyps_after = []

        entering_proof = bool((not goal_before) and goal_after)
        exiting_proof = bool(goal_before and not goal_after)

        if entering_proof:
            cur_lemma_stmt = next_inter.prev_tactics[0]
            cur_proof_counts = False if args.some else True
            continue

        if cur_lemma_stmt:
            if filter_func(
                {
                    "goal": format_goal(goal_before),
                    "hyps": hyps_before
                }, command, {
                    "goal": format_goal(goal_after),
                    "hyps": goal_after
                }, args):
                if args.some and not cur_proof_counts:
                    cur_proof_counts = True
            else:
                if args.all and cur_proof_counts:
                    cur_lemma_name = serapi_instance.lemma_name_from_statement(
                        cur_lemma_stmt)
                    eprint(
                        f"Eliminating proof {cur_lemma_name} "
                        f"because tactic {command.strip()} doesn't match",
                        guard=args.debug)
                    cur_proof_counts = False

        if exiting_proof:
            if cur_proof_counts:
                cur_lemma_name = serapi_instance.lemma_name_from_statement(
                    cur_lemma_stmt)
                if args.print_name:
                    print(cur_lemma_name)
                if args.print_stmt:
                    print(re.sub("\n", "\\n", cur_lemma_stmt))
                eprint(f"Proof of {cur_lemma_name} counts", guard=args.debug)
                count += 1
            total_count += 1
            cur_lemma_stmt = ""
    if not args.print_name and not args.print_stmt:
        print(f"{filename}: {count}/{total_count} "
              f"({stringified_percent(count, total_count)}%)")
    return count, total_count