Efektivitas Strategi Ta’bir Mushawwar dalam Pembelajaran Bahasa Arab di Madrasah Ibtidaiyah
Abstract
Speaking proficiency is one of the main skills in Arabic language learning, but fourth grade students of MI TPI Keramat face difficulties in assembling mufradat and practicing active conversation, mainly due to the lack of varied learning strategies. This study aims to analyze the effectiveness of the ta'bir mushawwar strategy, which uses picture as a media to facilitate students in constructing sentences and telling stories, in improving Arabic speaking skills. With a quantitative approach and pre-experiment design, this study involved 18 students of class IV-C. Data were collected through tests, observations, and interviews, then analyzed descriptively and N-Gain test. The posttest average was 83.06 (very good category) with 88.9% completeness, and the N-Gain score was 0.6398 which showed effectiveness in the medium category. The ta'bir mushawwar strategy offers a solution in the form of a visual and hands-on learning approach that can significantly improve students' speaking skills and make learning more interesting and interactive.
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"""A collection of string constants. Public module variables: whitespace -- a string containing all ASCII whitespace ascii_lowercase -- a string containing all ASCII lowercase letters ascii_uppercase -- a string containing all ASCII uppercase letters ascii_letters -- a string containing all ASCII letters digits -- a string containing all ASCII decimal digits hexdigits -- a string containing all ASCII hexadecimal digits octdigits -- a string containing all ASCII octal digits punctuation -- a string containing all ASCII punctuation characters printable -- a string containing all ASCII characters considered printable """ __all__ = ["ascii_letters", "ascii_lowercase", "ascii_uppercase", "capwords", "digits", "hexdigits", "octdigits", "printable", "punctuation", "whitespace", "Formatter", "Template"] import _string # Some strings for ctype-style character classification whitespace = ' \t\n\r\v\f' ascii_lowercase = 'abcdefghijklmnopqrstuvwxyz' ascii_uppercase = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' ascii_letters = ascii_lowercase + ascii_uppercase digits = '0123456789' hexdigits = digits + 'abcdef' + 'ABCDEF' octdigits = '01234567' punctuation = r"""!"#$%&'()*+,-./:;<=>?@[\]^_`{|}~""" printable = digits + ascii_letters + punctuation + whitespace # Functions which aren't available as string methods. # Capitalize the words in a string, e.g. " aBc dEf " -> "Abc Def". def capwords(s, sep=None): """capwords(s [,sep]) -> string Split the argument into words using split, capitalize each word using capitalize, and join the capitalized words using join. If the optional second argument sep is absent or None, runs of whitespace characters are replaced by a single space and leading and trailing whitespace are removed, otherwise sep is used to split and join the words. """ return (sep or ' ').join(x.capitalize() for x in s.split(sep)) #################################################################### import re as _re from collections import ChainMap as _ChainMap _sentinel_dict = {} class Template: """A string class for supporting $-substitutions.""" delimiter = '$' # r'[a-z]' matches to non-ASCII letters when used with IGNORECASE, but # without the ASCII flag. We can't add re.ASCII to flags because of # backward compatibility. So we use the ?a local flag and [a-z] pattern. # See https://bugs.python.org/issue31672 idpattern = r'(?a:[_a-z][_a-z0-9]*)' braceidpattern = None flags = _re.IGNORECASE def __init_subclass__(cls): super().__init_subclass__() if 'pattern' in cls.__dict__: pattern = cls.pattern else: delim = _re.escape(cls.delimiter) id = cls.idpattern bid = cls.braceidpattern or cls.idpattern pattern = fr""" {delim}(?: (?P<escaped>{delim}) | # Escape sequence of two delimiters (?P<named>{id}) | # delimiter and a Python identifier {{(?P<braced>{bid})}} | # delimiter and a braced identifier (?P<invalid>) # Other ill-formed delimiter exprs ) """ cls.pattern = _re.compile(pattern, cls.flags | _re.VERBOSE) def __init__(self, template): self.template = template # Search for $$, $identifier, ${identifier}, and any bare $'s def _invalid(self, mo): i = mo.start('invalid') lines = self.template[:i].splitlines(keepends=True) if not lines: colno = 1 lineno = 1 else: colno = i - len(''.join(lines[:-1])) lineno = len(lines) raise ValueError('Invalid placeholder in string: line %d, col %d' % (lineno, colno)) def substitute(self, mapping=_sentinel_dict, /, **kws): if mapping is _sentinel_dict: mapping = kws elif kws: mapping = _ChainMap(kws, mapping) # Helper function for .sub() def convert(mo): # Check the most common path first. named = mo.group('named') or mo.group('braced') if named is not None: return str(mapping[named]) if mo.group('escaped') is not None: return self.delimiter if mo.group('invalid') is not None: self._invalid(mo) raise ValueError('Unrecognized named group in pattern', self.pattern) return self.pattern.sub(convert, self.template) def safe_substitute(self, mapping=_sentinel_dict, /, **kws): if mapping is _sentinel_dict: mapping = kws elif kws: mapping = _ChainMap(kws, mapping) # Helper function for .sub() def convert(mo): named = mo.group('named') or mo.group('braced') if named is not None: try: return str(mapping[named]) except KeyError: return mo.group() if mo.group('escaped') is not None: return self.delimiter if mo.group('invalid') is not None: return mo.group() raise ValueError('Unrecognized named group in pattern', self.pattern) return self.pattern.sub(convert, self.template) # Initialize Template.pattern. __init_subclass__() is automatically called # only for subclasses, not for the Template class itself. Template.__init_subclass__() ######################################################################## # the Formatter class # see PEP 3101 for details and purpose of this class # The hard parts are reused from the C implementation. They're exposed as "_" # prefixed methods of str. # The overall parser is implemented in _string.formatter_parser. # The field name parser is implemented in _string.formatter_field_name_split class Formatter: def format(self, format_string, /, *args, **kwargs): return self.vformat(format_string, args, kwargs) def vformat(self, format_string, args, kwargs): used_args = set() result, _ = self._vformat(format_string, args, kwargs, used_args, 2) self.check_unused_args(used_args, args, kwargs) return result def _vformat(self, format_string, args, kwargs, used_args, recursion_depth, auto_arg_index=0): if recursion_depth < 0: raise ValueError('Max string recursion exceeded') result = [] for literal_text, field_name, format_spec, conversion in \ self.parse(format_string): # output the literal text if literal_text: result.append(literal_text) # if there's a field, output it if field_name is not None: # this is some markup, find the object and do # the formatting # handle arg indexing when empty field_names are given. if field_name == '': if auto_arg_index is False: raise ValueError('cannot switch from manual field ' 'specification to automatic field ' 'numbering') field_name = str(auto_arg_index) auto_arg_index += 1 elif field_name.isdigit(): if auto_arg_index: raise ValueError('cannot switch from manual field ' 'specification to automatic field ' 'numbering') # disable auto arg incrementing, if it gets # used later on, then an exception will be raised auto_arg_index = False # given the field_name, find the object it references # and the argument it came from obj, arg_used = self.get_field(field_name, args, kwargs) used_args.add(arg_used) # do any conversion on the resulting object obj = self.convert_field(obj, conversion) # expand the format spec, if needed format_spec, auto_arg_index = self._vformat( format_spec, args, kwargs, used_args, recursion_depth-1, auto_arg_index=auto_arg_index) # format the object and append to the result result.append(self.format_field(obj, format_spec)) return ''.join(result), auto_arg_index def get_value(self, key, args, kwargs): if isinstance(key, int): return args[key] else: return kwargs[key] def check_unused_args(self, used_args, args, kwargs): pass def format_field(self, value, format_spec): return format(value, format_spec) def convert_field(self, value, conversion): # do any conversion on the resulting object if conversion is None: return value elif conversion == 's': return str(value) elif conversion == 'r': return repr(value) elif conversion == 'a': return ascii(value) raise ValueError("Unknown conversion specifier {0!s}".format(conversion)) # returns an iterable that contains tuples of the form: # (literal_text, field_name, format_spec, conversion) # literal_text can be zero length # field_name can be None, in which case there's no # object to format and output # if field_name is not None, it is looked up, formatted # with format_spec and conversion and then used def parse(self, format_string): return _string.formatter_parser(format_string) # given a field_name, find the object it references. # field_name: the field being looked up, e.g. "0.name" # or "lookup[3]" # used_args: a set of which args have been used # args, kwargs: as passed in to vformat def get_field(self, field_name, args, kwargs): first, rest = _string.formatter_field_name_split(field_name) obj = self.get_value(first, args, kwargs) # loop through the rest of the field_name, doing # getattr or getitem as needed for is_attr, i in rest: if is_attr: obj = getattr(obj, i) else: obj = obj[i] return obj, first
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