plugin features and parsing

v2.0
Steve Nyemba 2 years ago
parent a9bed578b2
commit c3f5759a6a

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"""
This class refactors the default parsing class (better & streamlined implementation)
"""
from multiprocessing import Process, RLock
import os
import json
class parser (Process) :
_CONFIGURATION = {}
def __init__(self,path=None) :
if not parser._CONFIGURATION :
_path = path if path else os.sep.join([os.environ['HOME'],'.healthcareio/config.json'])
#
# @TODO: Load custom configuration just in case we need to do further processing
config = json.loads(open(path).read())
parser._CONFIGURATION = config['parser']
#
# do we have a custom configuration in this location
#
_custompath = _path.replace('config.json','')
_custompath = _custompath if not _custompath.endswith(os.sep) else _custompath[:-1]
_custompath = os.sep.join([_custompath,'custom'])
if os.exists(_custompath) :
files = os.listdir(_custompath)
if files :
_filename = os.sep.join([_custompath,files[0]])
_customconf = json.loads(open(_filename).read())
#
# merge with existing configuration
else:
pass
#
#
class getter :
def value(self,) :
pass
class setter :
def files(self,files):
pass

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"""
This function contains code to load plugins, the idea of a plugin is that it is designed to load, functions written outside of the scope of the parser.
This enables better parsing, and the creation of a pipeline that can perform pre/post conditions given that {x12} is organized in loops
Contract:
Functions will take in an object (the row of the claim they are intended to parse), and prior rows (parsed)
"""
import os
import importlib as IL
import sys
DEFAULT_PLUGINS='healthcareio.x12.plugins.default'
class MODE :
TRUST,CHECK,TEST,TEST_AND_CHECK= [0,1,2,3]
def instance(**_args) :
pass
def has(**_args) :
"""
This function will inspect if a function is valid as a plugin or not
name : function name for a given file
path : python file to examine
"""
_pyfile = _args['path'] if 'path' in _args else ''
_name = _args['name']
# p = os.path.exists(_pyfile)
_module = {}
if os.path.exists(_pyfile):
_info = IL.utils.spec_from_file_location(_name,_pyfile)
if _info :
_module = IL.utils.module_from_spec(_info)
_info.load.exec(_module)
else:
_module = sys.modules[DEFAULT_PLUGINS]
return hasattr(_module,_name)
def get(**_args) :
"""
This function will inspect if a function is valid as a plugin or not
name : function name for a given file
path : python file to examine
"""
_pyfile = _args['path'] if 'path' in _args else ''
_name = _args['name']
# p = os.path.exists(_pyfile)
_module = {}
if os.path.exists(_pyfile):
_info = IL.utils.spec_from_file_location(_name,_pyfile)
if _info :
_module = IL.utils.module_from_spec(_info)
_info.load.exec(_module)
else:
_module = sys.modules[DEFAULT_PLUGINS]
return getattr(_module,_name) if hasattr(_module,_name) else None
def test (**_args):
"""
This function will test a plugin to insure the plugin conforms to the norm we are setting here
:pointer function to call
"""
_params = {}
try:
if 'pointer' in _args :
_caller = _args['pointer']
else:
_name = _args['name']
_path = _args['path'] if 'path' in _args else None
_caller = get(name=_name,path=_path)
_params = _caller()
#
# the expected result is a list of field names [field_o,field_i]
#
return [_item for _item in _params if _item not in ['',None] and type(_item) == str]
except Exception as e :
return []
pass
def inspect(**_args):
_mode = _args['mode']
_name= _args['name']
_path= _args['path']
if _mode == MODE.CHECK :
_doapply = [has]
elif _mode == MODE.TEST :
_doapply = [test]
elif _mode == MODE.TEST_AND_CHECK :
_doapply = [has,test]
_status = True
_plugin = {"name":_name}
for _pointer in _doapply :
_plugin[_pointer.__name__] = _pointer(name=_name,path=_path)
if not _plugin[_pointer.__name__] :
_status = False
break
_plugin['loaded'] = _status
return _plugin
def load(**_args):
"""
This function will load all the plugins given an set of arguments :
path file
name list of functions to export
mode 1- CHECK ONLY, 2 - TEST ONLY, 3- TEST_AND_CHECK
"""
_path = _args ['path']
_names= _args['names']
_mode= _args ['mode'] if 'mode' in _args else MODE.TEST_AND_CHECK
_doapply = []
if _mode == MODE.CHECK :
_doapply = [has]
elif _mode == MODE.TEST :
_doapply = [test]
elif _mode == MODE.TEST_AND_CHECK :
_doapply = [has,test]
# _plugins = []
_plugins = {}
for _name in _names :
_plugin = {"name":_name}
if 'inspect' in _args and _args['inspect'] :
_plugin = inspect(name=_name,mode=_mode,path=_path)
else:
_plugin["method"] = ""
_status = True
_plugin['loaded'] = _status
if _plugin['loaded'] :
_plugin['pointer'] = get(name=_name,path=_path)
else:
_plugin['pointer'] = None
# _plugins.append(_plugin)
_plugins[_name] = _plugin
return _plugins
def parse(**_args):
"""
This function will apply a function against a given function, and data
:row claim/remits pre-processed
:plugins list of plugins
:conifg configuration associated with
"""
_row = _args['row']
_document = _args['document']
_config = _args['config']
"""
"apply":"@path:name"
"""
_info = _args['config']['apply']
_plug_conf = _args['config']['plugin'] if 'plugin' in _args['config'] else {}
if _info.startswith('@') :
_path = '' #-- get this from general configuration
elif _info.startswith('!'):
_path = _info.split('!')[0][1:]
_name = _info.split(':')[-1]
_name = _args['config']['apply'].split(_path)

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import datetime
def date(**_args):
"""#
This function will return a data as presented in the {x12} i.e it could be a date-range or a single date
- In the case of a single data it is returned as a string
- In the case of a range a complex object is returned with to,from keys
NOTE: dates will be formatted as they
"""
if not _args :
return ['from','to','type']
_date = ""
return _date
def procedure (**_args):
"""
This function will parse SVC element and return given the following The return object is as follows :
claim_id,charge_amount, payment_amount,patient_amount,patient_status,claim_status
"""
cols = ['type','code','amount']
if not _args :
return cols
_procedure = dict.fromkeys(cols,None)
_row = _args['row']
# _document = _args['document']
if len(_row) == 3 :
_procedure = dict(zip(cols,_row[1:4]))
return _procedure
return _info
def SV2(**_args):
pass
def SV3(**_args):
pass
def HL (**_args):
pass
def HI(**_args):
pass

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"""
This file serves as the interface (so to speak) to the x12 parser, plugin interface
@TODO:
- How to write custom plugin
- Provide interface for meta-data (expected)
- Support configuration specification
"""
import os
from . import common
from . import header
from . import body
EDI = body.BODY
def instance(**_args):
pass
# class Parser :
# def __init__(**_args):
# folder = _args['path']
# files = [ os.sep.join(_name,folder) for _name in os.listdir(folder)]
# pass

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from .common import X12DOCUMENT
from .header import HEADER
import numpy as np
class BODY (HEADER):
"""
This class will contain functions that will parse elements associated with the claim body
"""
def BHT (self,**_args):
"""
Expected Element BHT
This functiion will process header submitted (receiver,claim_type,)
"""
_columns= ['receiver_id','submitted_date','submitted_time','claim_type']
return self.parse(_columns,[3,7],**_args)
def NM1 (self,**_args):
"""
Expected Element NM1
ref IL,40,41,82,85,PR ...
Information about entities (doctors, clearing house, provider). we should be mindful of the references
"""
# _CODE_INDEX = 1
# _map = {_CODE_INDEX:{'41':'submitter','40':'receiver','PR':'payer'}}
_columns = ['type','name','id']
_indexes = [1,3,-1]
# _info = [{'index':'40','field':'receiver'},{'index':'41','field':'submitter'},{'index':'PR','field':'payer'}]
_info = self.parse(_columns,_indexes,**_args)
return _info
def N3 (self,**_args):
"""
Expected Element N3
"""
_columns = ['address_line_1']
return self.parse(_columns,[1,2],**_args)
def N4(self,**_args):
"""
Expected Element N4
"""
_columns = ['city','state','zip']
return self.parse(_columns,[1,2,3],**_args)
def HI(self,**_args):
"""
Expected Element HI
This function will parse diagnosis codes ICD 9/10
"""
_columns = ['code','type']
return self.parse(_columns,[2,1],**_args)
def AMT (self,**_args):
"""
Expected Element AMT
"""
_columns = ['amount','qualifier']
return self.parse(_columns,[2,1],**_args)
def SBR (self,**_args):
"""
Expected Element SBR
"""
_index = [9,1]
_columns = ['vendor','individual_code','type']
return self.parse(_columns,[9,2,1],**_args)
def DMG (self,**_args):
"""
Expected Element DMG
"""
_columns = ['dob','gender','format']
_info = self.parse(_columns,[2,3,1],**_args)
return _info
def DTP (self,**_args):
"""
Expected Element DTP
"""
_columns = ['to','from','type']
return self.parse(_columns,[3],**_args)
def PER (self,**_args):
"""
Expected Element PER
"""
_CODE_INDEX = 1
_map = {_CODE_INDEX:{'IC':'submitter'}} # attribute to store the data in
_columns = ['contact_name','phone','email']
_info = self.parse (_columns,[2,4,8],**_args)
#
# @TODO: Inspect the configuration file for the attribute information
#
return _info
def CLM (self,**_args):
"""
Expected Element CLM
"""
_columns = ['claim_id','claim_amount','facility_code','facility_qualifier','frequency_code']
return self.parse(_columns,[1,2,5,5,5],**_args)
def REF (self,**_args):
_columns = ['identifier','qualifier','']
_CODE_INDEX = 1 # -- according to x12 standard
_map = {_CODE_INDEX:{'EA':'patient','EI':'provider','6R':'','D9':''}}
return self.parse(_columns,[2],**_args)
def HI (self,**_args):
"""
Expected Element HI
"""
_columns = ['code','type']
return self.parse(_columns,[1,2],**_args)
def SV1 (self,**_args):
"""
Expected Element SV1
"""
_row = _args['row'] if type(_args['row']) == list else _args['row'].split('*')
_columns = ['type','code','amount','modifier_1','modifier_2','modifier_3','modifier_4','place_of_service','units','measurement']
return self.parse(_columns,[1,1,2,1,1,1,1,5,4,3],**_args)
def SV3 (self,**_args):
return self.SV1(**_args)
def HL (self,**_args) :
""",
Expected Element HL
The expected block is supposed to be unprocessed (to make things simple)
"""
_row = _args['row'] if type(_args['row']) == list else _args['row'].split('~')
# _attr = self.elements() #[_name for _name in dir() if not _name.islower() and not _name.startswith('_')]
# _pointers = [getattr(self,_name) for _name in _attr]
# _map = dict(zip(_attr,_pointers))
_map = self.pointers()
#
# The index here tells us what we are processing i.e index == 1 something about header
#
_columns = ['_index','parent','code','child']
_args['row'] = _row[0]
_info = self.parse (_columns,[1,2,3,4],**_args)
# _field = 'billing_provider' if _info['_index'] == '1' else 'patient'
# _config ={'field':_field}
return _info
# _claim = {_field:_info}
# for _element in _row[1:] :
# _key = _element.split('*')[0]
# if _key in _map and len(_element) > 0:
# _document = _args['document']
# _pointer = _map[_key]
# if _key not in ['CLM','HI','SV3','SV2','SV1'] :
# _claim = self.merge (_claim,_pointer(row=_element.strip().split('*'),document=_document,config=_config))
# else:
# _config = _args['config'] if 'config' in _args else {}
# _claim = self.merge (_claim,_pointer(row=_element.strip().split('*'),document=_document,config=_config))
# else:
# print (['SKIPPING ',_key])
# pass
# return _claim
# def apply(self,_block):
# """
# :_block elements that do not belong to the header block
# """
# _apply = self.pointers()
# _header = {}
# if _block :
# for content in _block :
# _KEY_ELEMENT = content.split('*')[0]
# if _KEY_ELEMENT not in _apply :
# #
# # @TODO: Log elements that are skipped
# # print ([_KEY_ELEMENT , 'NOT FOUND'])
# continue
# _info = _apply[_KEY_ELEMENT](row=content,document=_header)
# if _info :
# if not _header :
# _header = _info
# else:
# _header = self.merge(_header,_info)
# else:
# #
# # For some reason the parser failed by returning a null
# # @TODO: Log this event ....
# pass
# else:
# #
# # @TODO: return the meta data for what is expected
# pass
# return _header

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from typing import Any
import numpy as np
import json
from multiprocessing import Process, RLock
import os
import io
import queue
import transport
from transport import providers
class Store(Process):
"""
This is the data-store service that will handle read/writes
"""
dataStore = None
@staticmethod
def init(self,**_args):
if Store.dataStore is None :
_args = _args['store']
else:
pass
@staticmethod
def reset():
pass
class X12DOCUMENT (Process):
"""
X12DOCUMENT class encapsulates functions that will be used to format an x12 (835,837) claim into an object
"""
_queue = queue.Queue()
class MODE :
#
# The following allow us to handle raw content (stream) or a filename
# The raw content will be wrapped into io.StringIO so that it is handled as if it were a file
#
NAMES,STREAM = 'NAMES','STREAM'
class ConfigHandler :
def format(self,**_args):
"""
This function formats variations of an element's parsing rules
:info {index,field|label,map}
"""
_info = _args['info']
_ref = {}
for _item in _info :
_index = str(_item['index'])
_field = _item['field'] if 'field' in _item else None
_label = _item['label'] if 'label' in _item else None
if _field :
_ref[_index] = {'field':_field}
elif _label :
_ref[_index] = {'label':_label}
return {'@ref':_ref}
def _getColumnsIndexes(self,_columns,_indexes,_map):
"""
This function return columns and indexes related if a parsing map is passed
:param _columns
:param _indexes
:param _map parsing map (field:index)
"""
# @TODO: insure the lengths are the same for adequate usage downstream ...
_xcolumns,_xindexes = list(_map.keys()), list(_map.values())
keys,values = _xcolumns + _columns,_xindexes + _indexes
_config = dict(zip(keys,values))
_outColumns,_outIndexes = list(_config.keys()),list(_config.values())
return _outColumns,_outIndexes
def _getObjectAtributes(self,_config):
_field = _config['field'] if 'field' in _config else {}
_label = _config['label'] if 'label' in _config else {}
return _field,_label
def merge(self,**_args):
#
# This function overrides the old configuration with the new configuration specifications
#
# _columns,_indexes = [],[]
_columns,_indexes = _args['columns'],_args['index']
_map = {}
_config = _args['config'] if 'config' in _args else {}
_field,_label = self._getObjectAtributes(_config)
if 'map' in _config :
_map = _args['config']['map']
_columns,_indexes = self._getColumnsIndexes(_columns,_indexes,_map)
if '@ref' in _config :
# _columns,_indexes = [],[]
_row = _args['row']
_ref = _config['@ref']
for _anchor in _ref:
# print ([_anchor,_anchor == _row[1].strip()])
if _anchor == _row[1].strip() :
_field,_label = self._getObjectAtributes(_ref[_anchor])
_map = _ref[_anchor]['map'] if 'map' in _ref[_anchor] else {}
if _map :
_columns,_indexes = self._getColumnsIndexes([],[],_map)
break
# _columns,_indexes = _columns + _map.keys()
return {'columns':_columns,'index':_indexes,'field':_field,'label':_label}
def legacy(self,**_args):
#
# This function returns the legacy configuration (default parsing)
#
_config = _args['config'] if 'config' in _args else {}
_field,_label = self._getObjectAtributes(_config)
_columns,_indexes = [],[]
if 'map' in _config :
_columns = list(_config['map'].keys())
_indexes = list(_config['map'].values())
return {'columns':_columns,'index':_indexes,'field':_field,'label':_label}
def override(self,**_args):
return _args['columns'],_args['indexes']
def __init__(self,**_args):
super().__init__()
self._mode = _args['mode'] if 'mode' in _args else 'NAMES'
if 'files' in _args :
self.files = _args['files']
self._config = _args['config'] if 'config' in _args else {}
self._document = []
self._x12FileType = None
self._configHandler = X12DOCUMENT.ConfigHandler()
#
#-- The files need to be classified, the files need to be either claims or remits
#
if 'store' not in self._config :
self._store_args = _args['store'] if 'store' in _args else {'provider':providers.CONSOLE}
else:
self._store_args = self._config['store']
def init(self,_header):
"""
Expected Elements must include ST
"""
pass
def merge (self,_x,_y):
"""
This function will merge two objects _x, _y
"""
_zcols = list(set(_x.keys()) & set(_y.keys())) #--common columns
if _zcols :
_out = dict(_x,**{})
for _key in _y.keys() :
if not _key in _zcols :
_out[_key] = _y[_key]
else:
if type(_out[_key]) == list :
_out[_key] += _y[_key]
elif type(_out[_key]) == dict:
_out[_key] = dict(_out[_key],**_y[_key])
else:
_out[_key] = _y[_key]
return _out
else:
return dict(_x,**_y)
def split(self,content):
"""
This function will split the content of an X12 document into blocks and headers
:content x12 document in raw format (text)
"""
#_content = content.split('~')
_content = content.split('HL')
_header = _content[:1][0].split('~')
_blocks = ['HL'+_item for _item in _content[1:]]
_blocks = [_item.split('~') for _item in _blocks ]
# for row in _content :
# if not _blocks and not row.startswith('HL') :
# _header.append(row)
# else:
# _blocks.append(row)
return {'header':_header,'blocks':_blocks}
def parse (self,columns,index,**_args):
"""
This function encapulates how an x12 document element will be processed
:columns list of attributes that make up the object
:index indexes of the said items in the element
:_args
- row raw x12 element (string)
- config configuration of the element. his should indicate functions to apply against function
"""
_ELEMENT = _args['row'][0]
#
# get the right configuration from the _config object
_config = _args['config'][_ELEMENT] if _ELEMENT in _args['config'] else {}
# _field = _config['field'] if 'field' in _config else None
# _label = _config['label'] if 'label' in _config else None
_map = _config['map'] if 'map' in _config else {}
#
# Let's see if overriding the fields/labels isn't necessary
# columns, index,_refField,_refLabel = self._configHandler.merge(row=_args['row'],columns=columns,index=index,config=_config)
# _field = _field if not _refField else _refField
# _label = _label if not _refLabel else _refLabel
_outInfo = self._configHandler.merge(row=_args['row'],columns=columns,index=index,config=_config)
_field,_label = _outInfo['field'],_outInfo['label']
_columns,_index = _outInfo['columns'],_outInfo['index']
if 'row' in _args:
_row = _args['row'] if type(_args['row']) == list else _args['row'].split('*')
_index = np.array(_index)
#
# Sometimes the _row doesn't have all expected indexes, we will compensate
# This allows to minimize parsing errors as it may relate to disconnects between configuration and x12 element variations (shitty format)
#
if np.max(_index) > len(_row) -1 :
_delta = 1 + np.max(_index) - len(_row)
_row = _row + np.repeat('',_delta).tolist()
_row = np.array(_row)
# _element = _row[0]
_configKeys = [] #list(self._config.keys())
_configTree = [] #list(self._config.values())
if 'config' in _args :
_config = _args['config']
_configKeys = list(_config.keys())
_configTree = list(_config.values())
else:
_config = {}
_info = dict(zip(_columns,_row[_index].tolist()))
_document = _args['document'] if 'document' in _args else {}
#
# Extracting configuration (minimal information)
# _config = _args['config'] if 'config' in _args else {}
# _config = self._config
# if '@ref' in _config :
# print (_config['@ref'])
# _values = _config['@ref']
# print (_values)
if _field :
if not _field in _document :
return {_field:_info}
else:
return self.merge(_document[_field],_info)
elif _label :
if not _label in _document :
return {_label:[_info]}
else:
return _document[_label] + [_info]
else:
return _info
else:
return columns
def elements(self):
"""
This function returns elements that are supported as specified by X12 standard
"""
return [_name for _name in dir(self) if not _name.startswith('_') and not _name.islower() ]
def pointers(self):
"""
This function returns pointers associated with each element ...
:return Object of Element:Function
"""
_attr = self.elements()
_pointers = [getattr(self,_name) for _name in _attr]
return dict(zip(_attr,_pointers))
def set(self,_info,_document,_config):
_attrName,_attrType = None,None
if 'label' in _config :
_attrType = 'label'
_attrName = _config['label']
elif 'field' in _config :
_attrType = 'field'
_attrName = _config['field']
if _attrName :
if _attrName not in _document :
_document[_attrName] = [] if _attrType == 'label' else {}
#
# @TODO: make sure we don't have a case of an attribute being overridden
if type(_document[_attrName]) == list :
_document[_attrName] += [_info]
else:
_document[_attrName] = dict(_document[_attrName],**_info)
# _document[_attrName] += [_info] if _attrType == 'label' else dict(_document[_attrName],**_info)
return _document
return dict(_document,**_info)
pass
def log (self,**_args):
pass
def run(self):
"""
This function will trigger the workflow associated with a particular file
"""
_getContent = {
#
# For the sake of testing, the following insures
# that raw string content is handled as if it were a file
#
X12DOCUMENT.MODE.STREAM: (lambda stream : io.StringIO(stream)) ,
X12DOCUMENT.MODE.NAMES: (lambda name: open(name))
}
_writer = transport.factory.instance(**self._store_args)
for _filename in self.files :
try:
_documents = []
_parts = []
# _content = (open(_filename)).read()
_reader = _getContent[self._mode]
_content = _reader(_filename).read()
_info = self.split(_content)
_fileType=self.init(_content)
_header = self.apply(_info['header'])
# print (json.dumps(_header))
for _content in _info['blocks'] :
_body = self.apply(_content,header=_header)
_doc = self.merge(_header,_body)
if _doc and 'claim_id' in _doc:
# X12DOCUMENT._queue.put(_document)
_documents += [_doc]
except Exception as e:
#
# @TODO: Log this issue for later analysis ...
print (e)
pass
#
# Let us post this to the documents we have, we should find a place to post it
#
if _documents :
# print (_header['header'])
self.post(document=_documents,writer=_writer)
break
def post(self,**_args):
"""
This function is intended to post content to a given location
:param document
:param writer
"""
_writer = _args['writer'] if 'writer' in _args else None
_document = _args['document']
if not _writer:
X12DOCUMENT._queue.put(_document)
else:
_writer.write(_document)
def _getConfig(self,_chunk):
#
# Let us determine what kind of file we are dealing with, so we can extract the configuration
# For this we need to look for the ST loop ...
#
line = [line for line in _chunk if line and line[:2] == 'ST' ]
if line :
#
# We found the header of the block, so we can set the default configuration
#
self._x12FileType = line[0].split('*')[1].strip()
_config = {}
if self._x12FileType :
_config = self._config[self._x12FileType]
return _config
def apply(self,_chunk, header = {}):
"""
_chunks are groups of elements split by HL, within each chunk are x12 loops HL,CLM,ISA
"""
_document,_cached = {},{}
_pointers = self.pointers()
_config = self._getConfig(_chunk)
#
# The configuration comes from the file, let's run this in merge mode
# _config = self._configHandler.merge
_pid = None
for line in _chunk :
segments = line.split('*')
_ELEMENT = segments[0]
if _ELEMENT not in _pointers or not _ELEMENT:
continue
if _ELEMENT in ['HL','CLM','ISA'] or not _pid:
_pid = _ELEMENT
if _pid not in _cached :
_cached [_pid] = {}
_pointer = _pointers[_ELEMENT]
_args = {'row':segments,'document':_document,'header':header,'config':(_config)}
_parsedLine = _pointer(**_args)
# print ([_pid,_ELEMENT,_parsedLine])
_cached[_pid] = self.merge(_cached[_pid],_parsedLine)
#
# Let's create the documents as we understand them to be
# @TODO: Create a log so there can be visibility into the parser
#
_document = {}
for _id in _cached :
# print ('patient' in _cached[_id] )
_document = self.merge(_document,_cached[_id])
return _document

@ -0,0 +1,42 @@
"""
This file contains parsing functions for a claim header, the functions are built within class (Object Orientation)
The intent to leverage Object Orientated designs is to easily support multi-processing
"""
import numpy as np
import json
# from . im common
from .common import X12DOCUMENT
class HEADER (X12DOCUMENT):
# @staticmethod
def ISA(self,**_args):
_columns = ['mode','version','date','time']
_index = [15,12,9,10]
return self.parse(_columns,_index,**_args)
# @staticmethod
def GS(self,**_args):
"""
Expected Element GS
"""
_columns = ['type','sender','receiver','date','time','version']
return self.parse(_columns,[1,2,3,4,5,8],**_args)
# @staticmethod
def ST(self,**_args):
"""
Expected Element ST
According to {x12} standard ST will take precedence over GS
"""
_columns = ['type','control_number','version']
return self.parse(_columns,[1,2,3],**_args)
# @staticmethod
def BHT (self,**_args):
"""
Expected Element BHT
This functiion will process header submitted (receiver,claim_type,)
"""
_columns= ['app_id','date','time','type']
return self.parse(_columns,[3,4,5,6],**_args)
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