Telethon/telethon_generator/parser/tl_object.py

import re


class TLObject:
    def __init__(self, fullname, id, args, result, is_function):
        """
        Initializes a new TLObject, given its properties.
        Usually, this will be called from `from_tl` instead
        :param fullname: The fullname of the TL object (namespace.name)
                         The namespace can be omitted
        :param id: The hexadecimal string representing the object ID
        :param args: The arguments, if any, of the TL object
        :param result: The result type of the TL object
        :param is_function: Is the object a function or a type?
        """
        # The name can or not have a namespace
        if '.' in fullname:
            self.namespace = fullname.split('.')[0]
            self.name = fullname.split('.')[1]
        else:
            self.namespace = None
            self.name = fullname

        # The ID should be an hexadecimal string
        self.id = int(id, base=16)
        self.args = args
        self.result = result
        self.is_function = is_function

    @staticmethod
    def from_tl(tl, is_function):
        """Returns a TL object from the given TL scheme line"""

        # Regex to match the whole line
        match = re.match(r'''
            ^                  # We want to match from the beginning to the end
            ([\w.]+)           # The .tl object can contain alpha_name or namespace.alpha_name
            \#                 # After the name, comes the ID of the object
            ([0-9a-f]+)        # The constructor ID is in hexadecimal form

            (?:\s              # After that, we want to match its arguments (name:type)
                \{?            # For handling the start of the «{X:Type}» case
                \w+            # The argument name will always be an alpha-only name
                :              # Then comes the separator between name:type
                [\w\d<>#.?!]+  # The type is slightly more complex, since it's alphanumeric and it can
                               # also have Vector<type>, flags:# and flags.0?default, plus :!X as type
                \}?            # For handling the end of the «{X:Type}» case
            )*                 # Match 0 or more arguments
            \s                 # Leave a space between the arguments and the equal
            =
            \s                 # Leave another space between the equal and the result
            ([\w\d<>#.?]+)     # The result can again be as complex as any argument type
            ;$                 # Finally, the line should always end with ;
            ''', tl, re.IGNORECASE | re.VERBOSE)

        # Sub-regex to match the arguments (sadly, it cannot be embedded in the first regex)
        args_match = re.findall(r'''
            (\{)?            # We may or may not capture the opening brace
            (\w+)            # First we capture any alpha name with length 1 or more
            :                # Which is separated from its type by a colon
            ([\w\d<>#.?!]+)  # The type is slightly more complex, since it's alphanumeric and it can
                             # also have Vector<type>, flags:# and flags.0?default, plus :!X as type
            (\})?            # We may or not capture the closing brace
            ''', tl, re.IGNORECASE | re.VERBOSE)

        # Retrieve the matched arguments
        args = [TLArg(name, type, brace != '') for brace, name, type, _ in args_match]

        # And initialize the TLObject
        return TLObject(fullname=match.group(1),
                        id=match.group(2),
                        args=args,
                        result=match.group(3),
                        is_function=is_function)

    def __repr__(self):
        fullname = ('{}.{}'.format(self.namespace, self.name) if self.namespace is not None
                    else self.name)

        hex_id = hex(self.id)[2:].rjust(8, '0')  # Skip 0x and add 0's for padding

        return '{}#{} {} = {}'.format(fullname,
                                      hex_id,
                                      ' '.join([str(arg) for arg in self.args]),
                                      self.result)

    def __str__(self):
        fullname = ('{}.{}'.format(self.namespace, self.name) if self.namespace is not None
                    else self.name)

        # Some arguments are not valid for being represented, such as the flag indicator or generic definition
        # (these have no explicit values until used)
        valid_args = [arg for arg in self.args
                      if not arg.flag_indicator and not arg.generic_definition]

        args = ', '.join(['{}={{}}'.format(arg.name) for arg in valid_args])

        # Since Python's default representation for lists is using repr(), we need to str() manually on every item
        args_format = ', '.join(['str(self.{})'.format(arg.name) if not arg.is_vector else
                                 'None if not self.{0} else [str(_) for _ in self.{0}]'.format(arg.name)
                                 for arg in valid_args])

        return ("'({} (ID: {}) = ({}))'.format({})"
                .format(fullname, hex(self.id), args, args_format))


class TLArg:
    def __init__(self, name, type, generic_definition):
        """
        Initializes a new .tl argument
        :param name: The name of the .tl argument
        :param type: The type of the .tl argument
        :param generic_definition: Is the argument a generic definition?
                                   (i.e. {X:Type})
        """
        if name == 'self':  # This very only name is restricted
            self.name = 'is_self'
        else:
            self.name = name

        # Default values
        self.is_vector = False
        self.is_flag = False
        self.flag_index = -1

        # The type can be an indicator that other arguments will be flags
        if type == '#':
            self.flag_indicator = True
            self.type = None
            self.is_generic = False
        else:
            self.flag_indicator = False
            self.is_generic = type.startswith('!')
            self.type = type.lstrip('!')  # Strip the exclamation mark always to have only the name

            # The type may be a flag (flags.IDX?REAL_TYPE)
            # Note that «flags» is NOT the flags name; this is determined by a previous argument
            # However, we assume that the argument will always be called «flags»
            flag_match = re.match(r'flags.(\d+)\?([\w<>.]+)', self.type)
            if flag_match:
                self.is_flag = True
                self.flag_index = int(flag_match.group(1))
                self.type = flag_match.group(2)  # Update the type to match the exact type, not the "flagged" one

            # Then check if the type is a Vector<REAL_TYPE>
            vector_match = re.match(r'vector<(\w+)>', self.type, re.IGNORECASE)
            if vector_match:
                self.is_vector = True
                self.type = vector_match.group(1)  # Update the type to match the one inside the vector

            # The name may contain "date" in it, if this is the case and the type is "int",
            # we can safely assume that this should be treated as a "date" object.
            # Note that this is not a valid Telegram object, but it's easier to work with
            if re.search(r'(\b|_)date\b', name) and self.type == 'int':
                self.type = 'date'

        self.generic_definition = generic_definition

    def __str__(self):
        # Find the real type representation by updating it as required
        real_type = self.type
        if self.is_vector:
            real_type = 'Vector<{}>'.format(real_type)

        if self.is_generic:
            real_type = '!{}'.format(real_type)

        if self.is_flag:
            real_type = 'flags.{}?{}'.format(self.flag_index, real_type)

        if self.generic_definition:
            return '{{{}:{}}}'.format(self.name, real_type)
        else:
            return '{}:{}'.format(self.name, real_type)
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`import re`


			`class TLObject:`
			`def __init__(self, fullname, id, args, result, is_function):`
			`"""`
			`Initializes a new TLObject, given its properties.`
			Usually, this will be called from `from_tl` instead
			`:param fullname: The fullname of the TL object (namespace.name)`
			`The namespace can be omitted`
			`:param id: The hexadecimal string representing the object ID`
			`:param args: The arguments, if any, of the TL object`
			`:param result: The result type of the TL object`
			`:param is_function: Is the object a function or a type?`
			`"""`
			`# The name can or not have a namespace`
			`if '.' in fullname:`
			`self.namespace = fullname.split('.')[0]`
			`self.name = fullname.split('.')[1]`
			`else:`
			`self.namespace = None`
			`self.name = fullname`

			`# The ID should be an hexadecimal string`
			`self.id = int(id, base=16)`
			`self.args = args`
			`self.result = result`
			`self.is_function = is_function`

			`@staticmethod`
			`def from_tl(tl, is_function):`
			`"""Returns a TL object from the given TL scheme line"""`

			`# Regex to match the whole line`
			`match = re.match(r'''`
			`^ # We want to match from the beginning to the end`
			`([\w.]+) # The .tl object can contain alpha_name or namespace.alpha_name`
			`\# # After the name, comes the ID of the object`
			`([0-9a-f]+) # The constructor ID is in hexadecimal form`

			`(?:\s # After that, we want to match its arguments (name:type)`
			`\{? # For handling the start of the «{X:Type}» case`
			`\w+ # The argument name will always be an alpha-only name`
			`: # Then comes the separator between name:type`
			`[\w\d<>#.?!]+ # The type is slightly more complex, since it's alphanumeric and it can`
			`# also have Vector<type>, flags:# and flags.0?default, plus :!X as type`
			`\}? # For handling the end of the «{X:Type}» case`
			`)* # Match 0 or more arguments`
			`\s # Leave a space between the arguments and the equal`
			`=`
			`\s # Leave another space between the equal and the result`
			`([\w\d<>#.?]+) # The result can again be as complex as any argument type`
			`;$ # Finally, the line should always end with ;`
			`''', tl, re.IGNORECASE \| re.VERBOSE)`

			`# Sub-regex to match the arguments (sadly, it cannot be embedded in the first regex)`
			`args_match = re.findall(r'''`
			`(\{)? # We may or may not capture the opening brace`
			`(\w+) # First we capture any alpha name with length 1 or more`
			`: # Which is separated from its type by a colon`
			`([\w\d<>#.?!]+) # The type is slightly more complex, since it's alphanumeric and it can`
			`# also have Vector<type>, flags:# and flags.0?default, plus :!X as type`
			`(\})? # We may or not capture the closing brace`
			`''', tl, re.IGNORECASE \| re.VERBOSE)`

			`# Retrieve the matched arguments`
			`args = [TLArg(name, type, brace != '') for brace, name, type, _ in args_match]`

			`# And initialize the TLObject`
			`return TLObject(fullname=match.group(1),`
			`id=match.group(2),`
			`args=args,`
			`result=match.group(3),`
			`is_function=is_function)`

Improved auto-generated source code readability 2016-09-05 20:12:14 +03:00			`def __repr__(self):`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`fullname = ('{}.{}'.format(self.namespace, self.name) if self.namespace is not None`
			`else self.name)`

			`hex_id = hex(self.id)[2:].rjust(8, '0') # Skip 0x and add 0's for padding`

			`return '{}#{} {} = {}'.format(fullname,`
			`hex_id,`
			`' '.join([str(arg) for arg in self.args]),`
			`self.result)`

Improved auto-generated source code readability 2016-09-05 20:12:14 +03:00			`def __str__(self):`
			`fullname = ('{}.{}'.format(self.namespace, self.name) if self.namespace is not None`
			`else self.name)`

			`# Some arguments are not valid for being represented, such as the flag indicator or generic definition`
			`# (these have no explicit values until used)`
			`valid_args = [arg for arg in self.args`
Attempt at removing cyclic dependencies 2016-09-08 17:55:46 +03:00			`if not arg.flag_indicator and not arg.generic_definition]`
Improved auto-generated source code readability 2016-09-05 20:12:14 +03:00
Several updates, fixes and additions (TcpClient, MtProto...) README.md was updated to reflect more useful information More errors from the official Telegrm website have been added MtProtoSender now handles updates (and doesn't crash!) Fixes on TcpClient to be able to receive whole large packets Updated scheme.tl to the layer 55 Session is now saved more often (to prevent damages from crashes) Fixes to the code generator (generated invalid code for reading "bytes") 2016-09-06 19:54:49 +03:00			`args = ', '.join(['{}={{}}'.format(arg.name) for arg in valid_args])`
Added an interactive example, more doc, fixes and improvements The interactive example allows you to list the top dialogs and send messages to them until "!q" is entered More documetation has been added Fixes when representing TLObjects (lists did not represent well) The `send_code_request` now allows to use multiple phone numbers at once 2016-09-07 12:36:34 +03:00
			`# Since Python's default representation for lists is using repr(), we need to str() manually on every item`
			`args_format = ', '.join(['str(self.{})'.format(arg.name) if not arg.is_vector else`
			`'None if not self.{0} else [str(_) for _ in self.{0}]'.format(arg.name)`
			`for arg in valid_args])`
Improved auto-generated source code readability 2016-09-05 20:12:14 +03:00
			`return ("'({} (ID: {}) = ({}))'.format({})"`
			`.format(fullname, hex(self.id), args, args_format))`


Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`class TLArg:`
			`def __init__(self, name, type, generic_definition):`
			`"""`
			`Initializes a new .tl argument`
			`:param name: The name of the .tl argument`
			`:param type: The type of the .tl argument`
			`:param generic_definition: Is the argument a generic definition?`
			`(i.e. {X:Type})`
			`"""`
Implemented read code on TLObjects Generator The code generated by the generator now also writes the files on_response(...) method. Also, all the generated files are saved in a dictionary containing `constructorId: class` 2016-08-27 22:49:38 +03:00			`if name == 'self': # This very only name is restricted`
			`self.name = 'is_self'`
			`else:`
			`self.name = name`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00
Implemented init and write code on TLObjects Generator The code generated by the generator now classifies the output files in their corresponding categories, also writing their __init__(...) with documented arguments, and the on_send(...) method 2016-08-27 12:59:23 +03:00			`# Default values`
			`self.is_vector = False`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`self.is_flag = False`
			`self.flag_index = -1`

			`# The type can be an indicator that other arguments will be flags`
			`if type == '#':`
			`self.flag_indicator = True`
			`self.type = None`
			`self.is_generic = False`
			`else:`
			`self.flag_indicator = False`
			`self.is_generic = type.startswith('!')`
Added native support for Python's datetime object Now you can make up your Telegram Requests by using the built-in `datetime` instead of manually parsing it 2016-09-11 11:35:02 +03:00			`self.type = type.lstrip('!') # Strip the exclamation mark always to have only the name`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00
			`# The type may be a flag (flags.IDX?REAL_TYPE)`
			`# Note that «flags» is NOT the flags name; this is determined by a previous argument`
			`# However, we assume that the argument will always be called «flags»`
			`flag_match = re.match(r'flags.(\d+)\?([\w<>.]+)', self.type)`
			`if flag_match:`
			`self.is_flag = True`
			`self.flag_index = int(flag_match.group(1))`
			`self.type = flag_match.group(2) # Update the type to match the exact type, not the "flagged" one`

Implemented init and write code on TLObjects Generator The code generated by the generator now classifies the output files in their corresponding categories, also writing their __init__(...) with documented arguments, and the on_send(...) method 2016-08-27 12:59:23 +03:00			`# Then check if the type is a Vector<REAL_TYPE>`
			`vector_match = re.match(r'vector<(\w+)>', self.type, re.IGNORECASE)`
			`if vector_match:`
			`self.is_vector = True`
			`self.type = vector_match.group(1) # Update the type to match the one inside the vector`

Added native support for Python's datetime object Now you can make up your Telegram Requests by using the built-in `datetime` instead of manually parsing it 2016-09-11 11:35:02 +03:00			`# The name may contain "date" in it, if this is the case and the type is "int",`
			`# we can safely assume that this should be treated as a "date" object.`
			`# Note that this is not a valid Telegram object, but it's easier to work with`
			`if re.search(r'(\b\|_)date\b', name) and self.type == 'int':`
			`self.type = 'date'`

Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`self.generic_definition = generic_definition`

			`def __str__(self):`
Implemented init and write code on TLObjects Generator The code generated by the generator now classifies the output files in their corresponding categories, also writing their __init__(...) with documented arguments, and the on_send(...) method 2016-08-27 12:59:23 +03:00			`# Find the real type representation by updating it as required`
			`real_type = self.type`
			`if self.is_vector:`
			`real_type = 'Vector<{}>'.format(real_type)`

			`if self.is_generic:`
			`real_type = '!{}'.format(real_type)`

			`if self.is_flag:`
			`real_type = 'flags.{}?{}'.format(self.flag_index, real_type)`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00
			`if self.generic_definition:`
Implemented init and write code on TLObjects Generator The code generated by the generator now classifies the output files in their corresponding categories, also writing their __init__(...) with documented arguments, and the on_send(...) method 2016-08-27 12:59:23 +03:00			`return '{{{}:{}}}'.format(self.name, real_type)`
Added a .tl file tokenizer and parser A TLObject class has been added, as well as a method for tokenizen .tl files. A TLObject can be created by simply calling `TLObject.from_tl(tl_line)`, this will tokenize the .tl line and return a new TLObject with all the required properties extracted. Also added another method to load .tl files and yield TLObjects, including a SourceBuilder that can be later used to generate Python code. 2016-08-26 20:12:20 +03:00			`else:`
Implemented init and write code on TLObjects Generator The code generated by the generator now classifies the output files in their corresponding categories, also writing their __init__(...) with documented arguments, and the on_send(...) method 2016-08-27 12:59:23 +03:00			`return '{}:{}'.format(self.name, real_type)`