Metadata-Version: 1.0
Name: HL7py
Version: 1.0
Summary: HL7 message parser
Home-page: https://github.com/norlowski/HL7py
Author: Nicholas Orlowski
Author-email: nick.orlowski@gmail.com
License: MIT
Description: HL7py
        =====
        The MIT License
        
        Copyright (c) 2012 Nicholas Orlowski
        
        Permission is hereby granted, free of charge, to any person obtaining a copy
        of this software and associated documentation files (the "Software"), to deal
        in the Software without restriction, including without limitation the rights
        to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
        copies of the Software, and to permit persons to whom the Software is
        furnished to do so, subject to the following conditions:
        
        The above copyright notice and this permission notice shall be included in
        all copies or substantial portions of the Software.
        
        THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
        IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
        FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
        AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
        LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
        OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
        THE SOFTWARE.
        
        =====
        
        
        
        A parser for the HL7 Health data interchange format written in python. Provides
        attribute-like access to correct datatypes and provides the ability to construct HL7
        messages from dictionaries.
        
        The HL7 transport protocol is a confusing mess of pipes and carriage returns. This package
        provides easy Pythonic access to attributes within a message. There is much domain
        knowledge of segments names and field names, but what follows are some basic examples of
        syntax and usage.
        
        
        
        Here is a sample message from http://www.coast2coastinformatics.com/user/ADTA08_examples-110106.pdf
         
            MSH|^~\&|AccMgr|1|||20050110045504||ADT^A01|599102|P|2.3|||
            EVN|A01|20050110045502|||||
            PID|1||10006579^^^1^MRN^1||DUCK^DONALD^D||19241010|M||1|111 DUCK ST^^FOWL^CA^999990000^^M|1|8885551212|8885551212|1|2||40007716^^^AccMgr^VN^1|123121234|||||||||||NO NK1|1|DUCK^HUEY|SO|3583 DUCK RD^^FOWL^CA^999990000|8885552222||Y||||||||||||||
            PV1|1|I|PREOP^101^1^1^^^S|3|||37^DISNEY^WALT^^^^^^AccMgr^^^^CI|||01||||1|||37^DISNEY^WALT^^^^^^AccMgr^^^^CI|2|40007716^^^AccMgr^VN|4|||||||||||||||||||1||G|||20050110045253||||||
            GT1|1|8291|DUCK^DONALD^D||111^DUCK ST^^FOWL^CA^999990000|8885551212||19241010|M||1|123121234||||#Cartoon Ducks Inc|111^DUCK ST^^FOWL^CA^999990000|8885551212||PT| DG1|1|I9|71596^OSTEOARTHROS NOS-L/LEG ^I9|OSTEOARTHROS NOS-L/LEG ||A|
            IN1|1|MEDICARE|3|MEDICARE|||||||Cartoon Ducks Inc|19891001|||4|DUCK^DONALD^D|1|19241010|111^DUCK ST^^FOWL^CA^999990000|||||||||||||||||123121234A||||||PT|M|111 DUCK ST^^FOWL^CA^999990000|||||8291
            IN2|1||123121234|Cartoon Ducks Inc|||123121234A|||||||||||||||||||||||||||||||||||||||||||||||||||||||||8885551212 IN1|2|NON-PRIMARY|9|MEDICAL MUTUAL CALIF.|PO BOX 94776^^HOLLYWOOD^CA^441414776||8003621279|PUBSUMB|||Cartoon Ducks Inc||||7|DUCK^DONALD^D|1|19241010|111 DUCK ST^^FOWL^CA^999990000|||||||||||||||||056269770||||||PT|M|111^DUCK ST^^FOWL^CA^999990000|||||8291 IN2|2||123121234|Cartoon Ducks Inc||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||8885551212
            IN1|3|SELF PAY|1|SELF PAY|||||||||||5||1
        
         
        (Lines not wrapped for emotional effect)
        
        
        =================DATA ACCESS EXAMPLES============
        
        You will be able to use syntax like
        
        1. 'SEG.some_attribute.data' to access either a dictionary (if that field has subfields)
           or a value parsed to the correct datatype, e.g. datetime or numeric.
        2. 'SEG.some_attribute.hl7' to have the message construct the HL7 equivalent of that
           attribute and all of its following segments and subsegments.
        
        3. 'SEG.some_attribute.some_timestamp.data = datetime.datetime.now()' allows you to set
           the value of a specific note/segment. See examples in the tests.
        
        
        Examples:
        
            from HL7py import parser
            my_message = parser.parse(incoming_str)
            my_message.PID.pat_name.data
            {'family_name':'DUCK','give_name':'DONALD','middle_name':'D'}
            my_message.PID.pat_name.family_name.hl7
            'DUCK'
            my_message.IN1[0].ins_company_name.hl7
            'MEDICARE'
            my_message.IN1[0].ins_company_name.data
            'MEDICARE'
            my_message.IN1[1].ins_company_name.hl7
            'SELF PAY'
            my_message.IN1_list
            [IN1,IN1]
            for ins in IN1_list:
                print ins.ins_company_name.hl7
            'MEDICARE'
            'SELFPAY
        
        
        
        
        The NTE section is a special case. NTE sections can come after any other section and
        are assembled into the .note attribute for a segment.
        
        
        
            PID|1|123456789|112233|1234567|Test^Patient||19820620|F|||123 Fake St.^^SumCity^ST^12345-||(123)456-7890||||||
            ORC|RE|29117637990^LAB|291176379902012^LAB||||||201210170000|||1366445686^Doctor^M^^^^^N
            OBR|1|29117637990^LAB|291176379902012^LAB|001321^Iron and TIBC^L|||201210171632|||||||201210171934||||M542856833||29117637990||201210180743|||F
            OBX|1|NM|001347^Iron Bind.Cap.(TIBC)^L||476|ug/dL|250-450|H||N|F|19840622||201210180726|BN
            OBX|2|NM|001348^UIBC^L||462|ug/dL|150-375|H||N|F|19940518||201210180726|BN
            NTE|1|L|Results confirmed on
            NTE|2|L|dilution.
            
        The following would occur:
        
            print my_message.ORC.OBR.OBX_list[1].note
            'Results confirmed on dilution'
        
        =================MESSAGE CREATION EXAMPLES============
        Messages are created by assembling Segments and adding them to a Message.
         Here is an example of how our EMR, Ankhos, constructs an ADT/A08 message.  The chart.to_dict()
         method constructs a dictionary of the relevant fields from chart demographics, etc.
        
            msg = Message()
            msh_data= dict(
                    recv_app={'app_name': 'Their App'},
                    send_app={'app_name': 'ANKHOS'},
                    msg_type=dict(message_code='ADT',
                                  event_code='A08'),
                    accept_ack_type='AL',
                    application_ack_type='AL',
                    proc_id='P',
                    version='2.3',
                    msg_ctl_id=control_id,
                    encoding_chars='^~\&',
                    timestamp=datetime.datetime.now())
            MSH = Segment(code='MSH',data=msh_data)
            evn_data = dict(event_code=event_code,timestamp=dict(time=datetime.datetime.now(),
                                                                  resolution='S'))
            EVN = Segment(code='EVN',data=evn_data)
            PID = Segment(code='PID',data=chart.to_dict())
            pv1_data = {...}
            PV1 = Segment(code='PV1',data=pv1_data)
            msg.add_segments([MSH,EVN,PID,PV1])
        
            #Voila!
            print msg.hl7
        
        
        As long as the data dictionaries follow the signatures in the HL7fields.py specification,
        the Segments should be constructed correctly.  There are a LOT of HL7 specified segments
        but only a few in the include HL7fields.py file. We simply haven't had a use for most of them
        yet but if we do, I will be sure to update the HL7fields specification dictionary.
        
        
        Current limitations:
         1. The ADD operation is not supported. (very low priority)
         2. Intra-field repetition is not yet supported
         3. The tests included are only smoke tests to make sure fundamental things haven't broken!
           HL7 is used in life-critical systems. Again. Please Please Please test your own software!
           More real tests will be added when time allows.
        
Keywords: hl7 parsing
Platform: UNKNOWN
