Metadata-Version: 2.1
Name: nemreader
Version: 0.5.1
Summary: Parse NEM12 (interval metering data) and NEM13 (accumulated metering data) data files 
Home-page: https://github.com/aguinane/nem-reader
Author: Alex Guinman
Author-email: alex@guinman.id.au
License: MIT
Project-URL: Bug Reports, https://github.com/aguinane/nem-reader/issues
Description: # nem-reader
        
        [![PyPI version](https://badge.fury.io/py/nemreader.svg)](https://badge.fury.io/py/nemreader) ![Python package](https://github.com/aguinane/nem-reader/workflows/Python%20package/badge.svg?branch=develop) [![Coverage Status](https://coveralls.io/repos/github/aguinane/nem-reader/badge.svg)](https://coveralls.io/github/aguinane/nem-reader)
        
        The Australian Energy Market Operator (AEMO) defines a [Meter Data File Format (MDFF)](https://www.aemo.com.au/Stakeholder-Consultation/Consultations/Meter-Data-File-Format-Specification-NEM12-and-NEM13) for reading energy billing data.
        This library sets out to parse these NEM12 (interval metering data) and NEM13 (accumulated metering data) data files into a useful python object, for use in other projects.
        
        ## Usage
        
        First, read in the NEM file:
        ```python
        from nemreader import read_nem_file
        m = read_nem_file('examples/unzipped/Example_NEM12_actual_interval.csv')
        ```
        
        You can see what data for the NMI and suffix (channel) is available:
        ```python
        > print(m.header)
        HeaderRecord(version_header='NEM12', creation_date=datetime.datetime(2004, 4, 20, 13, 0), from_participant='MDA1', to_participant='Ret1')
        
        > print(m.transactions)
        {'VABD000163': {'E1': [], 'Q1': []}}
        ```
        
        Standard suffix/channels are defined in the [National Metering Identifier Procedure](https://www.aemo.com.au/-/media/Files/Electricity/NEM/Retail_and_Metering/Metering-Procedures/2018/MSATS-National-Metering-Identifier-Procedure.pdf).
        `E1` is the general consumption channel (`11` for NEM13).
        
        Most importantly, you will want to get the energy data itself:
        
        ```python
        > for nmi in m.readings:
        >     for channel in m.readings[nmi]:
        >         for reading in m.readings[nmi][suffix][-1:]:
        >             print(reading)
        Reading(t_start=datetime.datetime(2004, 4, 17, 23, 30), t_end=datetime.datetime(2004, 4, 18, 0, 0), read_value=14.733, uom='kWh', quality_method='S14', event='', read_start=None, read_end=None)
        ```
        
        ## Command Line Usage
        
        You can also output the NEM file in a more human readable format:
        
        ```shell
        nemreader output example.zip
        ```
        
        Which outputs transposed values to a csv file for all channels:
        
        ```
        period_start,period_end,E1,Q1,quality_method
        2004-02-01 00:00:00,2004-02-01 00:30:00,1.111,2.222,A
        2004-02-01 00:30:00,2004-02-01 01:00:00,1.111,2.222,A
        ...
        ```
        
Keywords: energy,NEM12,NEM13
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Requires-Python: >=3.6
Description-Content-Type: text/markdown
