Metadata-Version: 2.0
Name: spm2olca
Version: 1.1.0
Summary: SimaPro Method File to olca-schema converter
Home-page: https://github.com/GreenDelta/spm2olca
Author: Michael Srocka
Author-email: michael.srocka@gmail.com
License: MIT
Download-URL: https://github.com/GreenDelta/spm2olca/tarball/v1.0.0
Keywords: converter lca
Platform: UNKNOWN
Classifier: Development Status :: 3 - Alpha
Classifier: Environment :: Console
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3.5
Classifier: Topic :: Utilities

spm2olca
========

spm2olca is a simple command line tool that converts a SimaPro LCIA
method files to a
`olca-schema <https://github.com/GreenDelta/olca-schema%3E>`__ (JSON-LD)
package.

Installation
------------

The installation of the package requires that Python >= 3.5 is
`installed <https://docs.python.org/3/using/>`__ and that the Python
``Scripts`` folder is in your system path. Then, you can just use
``pip`` to install it:

.. code:: bash

    pip install spm2olca

After this you should be able to run the tool anywhere on your system.
You can test this by executing the following command:

.. code:: bash

    spm2olca -h

To uninstall it, just execute the following command:

.. code:: bash

    pip uninstall spm2olca

Usage
-----

Just type the ``spm2olca`` command followed by the SimaPro CSV file with
LCIA methods you want to convert:

.. code:: bash

     spm2olca "My Method.csv"

This will generate the ``olca-schema`` package which will have the same
file name but with a ``.zip`` extension. This file can be then imported
into openLCA.

To see additional options use the help flag ``-h``:

.. code:: bash

    spm2olca -h

Additional options:

-  ``-out``: define the name of the output file
-  ``-skip_unmapped``: LCIA factors with unmapped flows are not included
   (only applicable when a flow mapping is provided)
-  ``-log``: define the log level (e.g. 'all' will log everything)
-  ``-units``: a CSV file with unit mappings that should be used
-  ``-flows``: a CSV file with flow mappings that should be used

A command with all options could look like this:

.. code:: bash

    spm2olca -out=out.zip -log=all -skip_unmapped -units=units.csv -flows=flows.csv Method.csv

Mapping files
-------------

You can specify mapping files for flows and units that should be used in
the conversion. If no unit mapping file is given, ``spm2olca`` will take
a `default mapping <./spm2olca/data/units.csv>`__ file in the
conversion. For flows, new flows will be created if no mapping file is
provided or if they are not contained in the mapping file. The general
format of these mapping files is:

-  CSV files with semicolons as separator
-  UTF-8 encoded without a byte order mark
-  no column headers

Unit mappings
~~~~~~~~~~~~~

Units are mapped by name to openLCA units and flow properties. The
mapping file must have the following columns:

::

    0.  SimaPro name of the unit
    1.  openLCA reference ID of the unit
    2.  openLCA name of the flow property
    3.  openLCA reference ID of the flow property

Flow mappings
~~~~~~~~~~~~~

The SimaPro flows are mapped to openLCA reference flows with a CSV
mapping file with the following columns:

::

    0.  SimaPro name of the flow (string)
    1.  SimaPro compartment of the flow (string)
    2.  SimaPro sub-compartment of the flow (string)
    3.  SimaPro unit of the flow (string)
    4.  openLCA reference ID of the flow (UUID)
    5.  openLCA name of the flow (string)
    6.  openLCA reference ID of the reference flow property of the flow (UUID)
    7.  openLCA name of the reference flow property of the flow (string)
    8.  openLCA reference ID of the reference unit of the flow (UUID)
    9.  openLCA name of the reference unit of the flow (string)
    10. conversion factor: amount_simapro * factor = amount_openlca (double)

This is the same file as in the openLCA reference data. The conversion
factor ``f`` converts a flow amount from SimaPro ``a_s`` in the SimaPro
reference unit to the respective amount of the flow in the openLCA
reference unit ``a_o``:

::

    a_o = f * a_s

e.g.

::

    a_o = [m3] = 0.001 * [kg] with a_s = [kg]

Thus, the value of an SimaPro LCIA factor is *divided* by the conversion
factor for such a mapped flow when converted to openLCA, e.g.:

::

    lcia_o = 2000/[m3] = 2/(0.001*[kg]) with a_s = [kg] 

The structure of a SimaPro LCIA method file
-------------------------------------------

In the following, the format of a SimaPro LCIA method file is shown in
an
`EBNF <https://en.wikipedia.org/wiki/Extended_Backus%E2%80%93Naur_form>`__
like notation:

.. code:: ebnf

    (* A LCIA method file contains a file header, LCIA methods, and flow lists *)
    MethodFile  = FileHeader
                  { Method }

                  { UnitList }
                  { FlowList };

    (* The file header contains meta-data about the file format, column separator
       etc. *)
    FileHeader  = "{" ... "}";

    (* Each LCIA method starts with a line "Method" and ends with a line "End". It
       contains some method meta data, the LCIA categories*)
    Method      = "Method"
                  MethodMetaData
                  { ImpactCategory }
                  { NWSet }
                  { DamageCategory } ;

    (* An LCIA category starts with the line "Impact category" directly followed by
       a line with the meta-information like name and reference unit. *)
    ImpactCategory   = "Impact category" 
                       ImpactCategory ";" ReferenceUnit ;
                       ImpactFactors ;

    (* The LCIA factors are written into a section starting with the header
       "Substances" followed with an LCIA factors each in a separate row. *)
    ImpactFactors = "Substances"
                     { Compartment ";" SubCompartment ";" FlowName ";" CasNumber ";" ImpactFactor ";" Unit} ;


    (* The weighting section in a normalization weighting set is optional *)
    NWSet = "Normalization-Weighting set"
            NWSetName
            EmptyLine
            "Normalization"
            { ImpactCategory ";" NormalizationFactor }
            [
              "Weighting"
              ImpactCategory ";" WeightingFactor
            ];

    (* A damage category starts with the header "Damage category" and contains a
       damage factor for each impact category. *)
    DamageCategory = "Damage category"
                     DamageCategory ";" ReferenceUnit
                     EmptyLine
                     "Impact categories"
                     { ImpactCategory ";" DamageFactor }

    QuantityList = "Quantities"
                   { QuantityName ";" } 

    UnitList = "Units"
               { UnitSymbol ";" QuantityName ";" UnitFactor ";" ReferenceUnitName} ;

    (* A flow list starts with a line with the flow type (e.g. "Waterborne emissions"
       followed by the meta data of the flows of this type with a separate line for
       each flow. *)
    FlowList = <FlowType>
               { FlowMetaData }
               "End" ;


