Exemple #1
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 def test_duplicate_column_names(self):
     """Tests if duplicate column names raise an error loading a TXT file."""
     with self.assertRaises(DuplicateColumnNameError):
         D2TXT.load_txt(
             StringIO(
                 "column name\tcolumn name 2\tcolumn name 2\t"
                 "column name\tcolumn name\tcolumn name 2\r\n"
                 "foo\tbar\tbar\tfoo\tfoo\tbar\r\n",
                 newline="",  # Required to make csv.reader work correctly
             ))
Exemple #2
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 def test_missing_cells(self):
     """Tests if missing cells corrected parsed when loading a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "column 1\tcolumn 2\tcolumn 3\r\n1 tab\t\r\nno tabs\r\n\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["column 1", "column 2", "column 3"],
         [["1 tab", "", None], ["no tabs", None, None], [None, None, None]],
     )
Exemple #3
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 def test_empty_cell(self):
     """Tests if D2TXT correctly loads empty cells and rows in a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "column 1\tcolumn 2\tcolumn 3\r\nempty\t\t\r\n\t\t\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["column 1", "column 2", "column 3"],
         [["empty", "", ""], ["", "", ""]],
     )
Exemple #4
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 def test_surrounding_quotes(self):
     """Tests if surrounding quotes are preserved when loading a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "'single quotes'\t\"double quotes\"\t`backticks`\r\n"
             "'single quotes'\t\"double quotes\"\t`backticks`\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["'single quotes'", '"double quotes"', "`backticks`"],
         [["'single quotes'", '"double quotes"', "`backticks`"]],
     )
Exemple #5
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 def test_cell_whitespace(self):
     """Tests if whitespace in cells are preserved when loading a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "column 1\tcolumn 2\tcolumn 3\r\n"
             "  2 leading spaces\t3 trailing spaces   \t     \r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["column 1", "column 2", "column 3"],
         [["  2 leading spaces", "3 trailing spaces   ", "     "]],
     )
Exemple #6
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 def test_column_name_whitespace(self):
     """Tests if whitespace in columns are preserved when loading a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "   column 1\tcolumn 2    \t  column 3  \t\t  \r\n"
             "3 before\t4 after\t2 both\tempty\tspaces only\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["   column 1", "column 2    ", "  column 3  ", "", "  "],
         [["3 before", "4 after", "2 both", "empty", "spaces only"]],
     )
Exemple #7
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 def test_column_name_case_preserving(self):
     """Tests if column names are case-preserved when loading a TXT file."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "column name\tColumn Name\tCOLUMN NAME\r\n"
             "lowercase\tCapitalized\tUPPERCASE\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["column name", "Column Name", "COLUMN NAME"],
         [["lowercase", "Capitalized", "UPPERCASE"]],
     )
def main(argv):
    """Entrypoint of the command line script."""
    arg_parser = argparse.ArgumentParser(description=__doc__)
    arg_parser.add_argument("skills_txt", help="Path to Skills.txt")
    arg_parser.add_argument(
        "--ulvl-per-blvl",
        type=int,
        help="If provided, specifies ulvl requirement per current skill blvl",
    )
    arg_parser.add_argument(
        "--use-reqlevel-as-base",
        action="store_true",
        help="If set, use reqlevel in Skills.txt as the base ulvl requirement",
    )
    arg_parser.add_argument(
        "--reqskill-level",
        type=int,
        help=
        "If provided, specifies minimum blvl of all reqskills as a requirement",
    )

    args = arg_parser.parse_args(argv)

    skills_txt = D2TXT.load_txt(args.skills_txt)
    num_skills_updated = 0

    for skill in skills_txt:
        # Skip skills not owned by player classes
        if not skill["charclass"]:
            continue

        formulas = []

        if args.ulvl_per_blvl:
            base_ulvl = 0
            if args.use_reqlevel_as_base:
                reqlevel = int(skill["reqlevel"])
                if reqlevel > 1:
                    base_ulvl = reqlevel
            formulas.append(
                make_ulvl_check_formula(args.ulvl_per_blvl, base_ulvl))

        if args.reqskill_level:
            formulas += make_prereq_level_check_formulas(
                skill, args.reqskill_level)

        skill["skpoints"] = combine_skpoints_check_formula(formulas)
        num_skills_updated += 1

    skills_txt.to_txt(args.skills_txt)
    print(f"{num_skills_updated} skill(s) updated in {args.skills_txt}")
Exemple #9
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 def test_load_file_object(self):
     """Tests if D2TXT can load a TXT file from a file object."""
     d2txt = D2TXT.load_txt(
         StringIO(
             "column 1\tcolumn 2\tcolumn 3\r\n"
             "value 1\tvalue 2\tvalue 3\r\n"
             "foo\tbar\tbaz\r\n",
             newline="",  # Required to make csv.reader work correctly
         ))
     self.compare_d2txt(
         d2txt,
         ["column 1", "column 2", "column 3"],
         [["value 1", "value 2", "value 3"], ["foo", "bar", "baz"]],
     )
Exemple #10
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def main(argv):
    """Entrypoint of the command line script."""
    arg_parser = argparse.ArgumentParser(__doc__)
    arg_parser.add_argument("itemtypes_txt", help="Path to ItemTypes.txt")
    arg_parser.add_argument("weapons_txt", help="Path to Weapons.txt")

    args = arg_parser.parse_args(argv)

    item_types_txt = D2TXT.load_txt(args.itemtypes_txt)
    weapons_txt = D2TXT.load_txt(args.weapons_txt)

    itype_nodes = parse_itypes(item_types_txt)

    one_handers, two_handers, mixed_types = classify_itypes_by_hand(
        itype_nodes, weapons_txt
    )
    print("One-handers: " + ", ".join(one_handers))
    print("Two-handers: " + ", ".join(two_handers))
    print("Mixed bags : " + ", ".join(mixed_types))
    print("-" * 80)

    for node in itype_nodes.values():
        if not node.parents:
            print_itype_tree(node, one_handers=one_handers, two_handers=two_handers)
Exemple #11
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def main(argv):
    """Entrypoint of the command line script."""
    args = parse_args(argv)

    tcex_txt = D2TXT.load_txt(args.tcex_txt)
    tc_dict = make_tc_dict(tcex_txt)

    re_flags = 0
    if args.ignore_case:
        re_flags = re.IGNORECASE

    tc_patterns = []
    for pattern_index, pattern_str in enumerate(args.pattern):
        print(f"Pattern {pattern_index + 1}: {repr(pattern_str)}")
        tc_patterns.append(re.compile(pattern_str, flags=re_flags))

    num_matched_tcs = 0
    num_rebalanced_tcs = 0
    for tc_entry in tcex_txt:
        name = tc_entry["Treasure Class"]
        if not match_in_patterns(name, tc_patterns):
            continue

        num_matched_tcs += 1

        # Rebalance treasureclasses from top to bottom. Since a treasureclass
        # can only refer to other TCs above its row, we assume that all previous
        # TCs have already been rebalanced.
        for item_col, prob_col in TC_PROB_COLUMNS.items():
            item_name = tc_entry[item_col]
            if not item_name:
                continue
            if item_name in tc_dict and match_in_patterns(
                    item_name, tc_patterns):
                tc_entry[prob_col] = sum_probs(tc_dict[item_name])
                num_rebalanced_tcs += 1

    tcex_txt.to_txt(args.tcex_txt)
    print(f"{num_matched_tcs} treasureclass(es) matched, "
          f"{num_rebalanced_tcs} treasureclass(es) rebalanced.")
Exemple #12
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    def test_load_path(self):
        """Tests if D2TXT can load a file using a file path, and its contents
        are preserved."""
        file_path = path.join(path.dirname(path.abspath(__file__)),
                              "sample.txt")
        d2txt = D2TXT.load_txt(file_path)

        self.compare_d2txt(
            d2txt,
            [
                "column name",
                "column 2",
                "column 3",
                "",
                "COLUMN NAME",
            ],
            [
                [
                    "lowercase column name",
                    "next cell is empty",
                    "",
                    "empty column name",
                    "UPPERCASE COLUMN NAME",
                ],
                [
                    "next row is empty",
                    "   leading spaces",
                    "trailing spaces   ",
                    "    surrounded by spaces  ",
                    '"double quotes"',
                ],
                ["", "", "", "", "0"],
                [
                    "this row and the next has not enough cells", None, None,
                    None, None
                ],
                [None, None, None, None, None],
            ],
        )
Exemple #13
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def main(argv):
    """Entrypoint of the command line script."""
    arg_parser = argparse.ArgumentParser(description=__doc__)

    arg_parser.add_argument("weapons_txt", help="Path to Weapons.txt")
    arg_parser.add_argument(
        "--1h",
        type=check_item_code,
        help="If provided, item code to assign to 1-hand weapons",
    )
    arg_parser.add_argument(
        "--2h",
        type=check_item_code,
        help="If provided, item code to assign to 2-hand weapons",
    )
    arg_parser.add_argument(
        "--both",
        type=check_item_code,
        help="If provided, item code to assign to 1-or-2-hand weapons",
    )

    args = vars(arg_parser.parse_args(argv))

    weapons_txt = D2TXT.load_txt(args["weapons_txt"])

    num_1h = num_2h = num_both = 0

    for row_index, weapon in enumerate(weapons_txt):
        if not (weapon["type"] and weapon["code"]):
            continue

        if weapon["type2"]:
            print(f"Warning: Row {row_index + 1} is skipped -- "
                  f'{weapon["name"]} already has \'type2\' assigned.')
            continue

        if weapon["1or2handed"]:
            item_code = args["both"]
            num_both += 1
        elif weapon["2handed"]:
            item_code = args["2h"]
            num_2h += 1
        else:
            item_code = args["1h"]
            num_1h += 1

        if item_code:
            weapon["type2"] = item_code

    weapons_txt.to_txt(args["weapons_txt"])

    if args["1h"]:
        print(
            f'\'{args["1h"]}\' has been assigned to {num_1h} 1-hand weapon(s)')
    if args["2h"]:
        print(
            f'\'{args["2h"]}\' has been assigned to {num_2h} 2-hand weapon(s)')
    if args["both"]:
        print(
            f'\'{args["both"]}\' has been assigned to {num_both} 1-or-2-hand weapon(s)'
        )