Metadata-Version: 2.1
Name: esbmtk
Version: 0.4.0.2
Summary: An Earth Sciences Box Modeling Toolkit
Home-page: https://github.com/uliw/esbmtk
Author: Ulrich G. Wortmann
Author-email: uli.wortmann@utoronto.ca
License: GPL-3.0-or-later
Description: 
        # Table of Contents
        
        1.  [ESBMTK - An Earth-sciences box modeling toolkit](#orgdf00cee)
        2.  [News](#org9ae8582)
        3.  [Contributing](#org20dc123)
        4.  [Installation](#org8bd7ec3)
        5.  [Documentation](#org2b8eeb9)
        6.  [Todo](#org75dfa96)
        7.  [License](#org794af26)
        
        
        <a id="orgdf00cee"></a>
        
        # ESBMTK - An Earth-sciences box modeling toolkit
        
        ESBMTK is python library which aims to simplify typical box modeling
        projects the in Earth-Sciences. The general focus is to make box
        modeling more approachable for classroom teaching. So performance and
        scalability currently no priority. Specifically, the solver is just a
        simple forward Euler scheme, so stiff problems are not handled
        gracefully.
        
        At present, it will calculate masses/concentrations in reservoirs and
        fluxes including isotope ratios. It provides a variety of classes
        which allow the creation and manipulation of input signals, and the
        generation of graphical results.
        
        
        <a id="org9ae8582"></a>
        
        # News
        
        -   March 18<sup>th</sup> esbmtk 0.4.0.0 now has a carbonate chemistry module
            which currently includes methods to calculate PCO<sub>2</sub>, CA, and H<sup>+</sup>
            concentrations from TA and DIC. The seawater class has been renamed
            `SeawaterConstants` and provides access to a limited set of
            seawater species concentrations and their K and Pk constants at
            given set of temperature, salinity and pressure conditions. This
            version also includes some refactoring in the `Connnection` and
            `ConnectionmGroup` classes. It is likely that this broke some
            connection types.
        
        -   March 13<sup>th</sup>, cleaned up the use of the `k_value` keyword which is
            now restricted to the `flux_balance` connection type. In all other
            instances use the `scale` keyword instead. The old keyword is still
            working, but will print a warning message. The `describe()` method
            is now called `info()`.
        
        -   March 11<sup>th</sup>, added a seawater class which provides access to
            K-values, and concentrations.
        
        -   March 10<sup>th</sup>, the code documentation is now available at <https://uliw.github.io/esbmtk/esbmtk/index.html>
        
        -   March 6<sup>th</sup>, the plot reservoir function now takes and additional
            filename argument e.g., (fn="foo.pdf"). Signals now accept an
            optional reservoir argument. This simplifies signal creation as the
            source and reservoir connection can be created implicitly.
        
        -   Feb. 28<sup>th</sup>, added a VirtualReservoir class. This class allows the
            definition of reservoirs which depend on the execution of a
            user-defined function. See the class documentation for details.
            
            Display precision can now be set independently for each Reservoir,
            Flux, Signal, Datafield and VirtualReservoir
        
        -   Jan. 30<sup>th</sup>, added oxygen and nitrogen species definitions
        
        -   Jan. 18<sup>th</sup>, Reading a previous model state is now more robust. It no
            longer requires the models model have the same numbers of
            fluxes. It will attempt to match by name, and print a warning for
            those fluxes it could not match.
        
        -   Jan. 12<sup>th</sup>, The model object now accepts a `plot_style` keyword
        
        -   Jan. 5<sup>th</sup>, Connector objects and fluxes use now a more consistent
            naming scheme: `Source_2_Sink_Connector`, and the associated flux
            is named `Source_2_Sink_Flux`. Processes acting on flux are named
            `Source_2_Sink_Pname`
            
            The model type (`m_type`) now defaults to `mass_only`, and will
            ignore isotope calculations. Use `m_type = "both"` to get the old
            behavior.
        
        -   Dec. 30<sup>th</sup>, the connection object has now a generalized update
            method which allows to update all or a subset of all parameters
        
        -   Dec. 23<sup>rd</sup>, the connection object has now the basic machinery to
            allow updates to the connection properties after the connection has
            been established. If need be, updates will trigger a change to the
            connection type and re-initialize the associated processes. At
            present this works for changes to the rate, the fractionation
            factor, possibly delta.
        
        -   Dec. 20<sup>th</sup>, added a new connection type (`flux_balance`) which
            allows equilibration fluxes between two reservoirs without the need
            to specify forward and backwards fluxes explicitly. See the
            equilibration example in the example directory.
        
        -   Dec. 9<sup>th</sup>, added a basic logging infrastructure. Added `describe()`
            method to `Model`, `Reservoir` and `Connnection` classes. This will
            list details about the fluxes and processes etc. Lot's of code
            cleanup and refactoring.
        
        -   Dec. 7<sup>th</sup>, When calling an instance without arguments, it now
            returns the values it was initialized with. In other words, it will
            print the code which was used to initialize the instance.
        
        -   Dec. 5<sup>th</sup>, added a DataField Class. This allows for the integration of data
            which is computed after the model finishes into the model summary
            plots.
        
        -   Nov. 26<sup>th</sup>  Species definitions now accept an optional display string. This
            allows pretty printed output for chemical formulas.
        
        -   Nov. 24<sup>th</sup> New functions to list all connections of a reservoir, and
            to list all processes associated with a connection. This allows the
            use of the help system on process names. New interface to specify
            connections with more complex characteristics (e.g., scale a flux
            in response to reservoir concentration). This will breaks existing
            scripts which use these kind of connections. See the Quickstart
            guide how to change the connection definition.
        
        -   Nov. 23<sup>rd</sup> A model can now save it's state, which can then be used
            to initialize a subsequent model run. This is particularly useful
            for models which require a spin up phase to reach equilibrium
        
        -   Nov. 18<sup>th</sup>, started to add unit tests for selected modules. Added
            unit conversions to external data sets. External data can now be
            directly associated with a reservoir.
        
        -   Nov. 5<sup>th</sup>, released version 0.2. This version is now unit aware. So
            rather than having a separate keyword for `unit`, quantities are
            now specified together wit their unit, e.g., `rate = "15
               mol/s"`. This breaks the API, and requires that existing scripts
            are modified. I thus also removed much of the existing
            documentation until I have time to update it.
        
        -   Oct. 27<sup>th</sup>, added documentation on how to integrate user written
            process classes, added a class which allows for concentration
            dependent flux. Updated the documentation, added examples
        
        -   Oct. 25<sup>th</sup>, Initial release on github.
        
        
        <a id="org20dc123"></a>
        
        # Contributing
        
        Don't be shy. Contributing is as easy as finding bugs by using the
        code, or maybe you want to add a new process code? If you have plenty
        of time to spare, ESMBTK could use a solver for stiff problems, or a
        graphical interface ;-) See the todo section for ideas.
        
        
        <a id="org8bd7ec3"></a>
        
        # Installation
        
        ESBMTK relies on the following python versions and libraries
        
        -   python > 3.6
        -   matplotlib
        -   numpy
        -   pandas
        -   typing
        -   nptyping
        -   pint
        
        If you work with conda, it is recommended to install the above via
        conda. If you work with pip, the installer should install these
        libraries automatically. ESBMTK itself can be installed with pip
        
        -   pip install esbmtk
        
        
        <a id="org2b8eeb9"></a>
        
        # Documentation
        
        The documentation is available in org format or in pdf format. 
        See the documentation folder, [specifically the quickstart guide](https://github.com/uliw/esbmtk/blob/master/Documentation/ESBMTK-Quick-Start_Guide.org).
        
        At present, I also provide the following example cases (as py-files
        and in jupyter notebook format)
        
        -   A trivial carbon cycle model which shows how to set up the model,
            and read an external csv file to force the model.
        -   
        
        
        <a id="org75dfa96"></a>
        
        # Todo
        
        -   expand the documentation
        -   provide more examples
        -   do more testing
        
        
        <a id="org794af26"></a>
        
        # License
        
        ESBMTK: A general purpose Earth Science box model toolkit
        Copyright (C), 2020 Ulrich G. Wortmann
        
        This program is free software: you can redistribute it and/or modify
        it under the terms of the GNU General Public License as published by
        the Free Software Foundation, either version 3 of the License, or
        (at your option) any later version.
        
        This program is distributed in the hope that it will be useful,
        but WITHOUT ANY WARRANTY; without even the implied warranty of
        MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
        GNU General Public License for more details.
        
        You should have received a copy of the GNU General Public License
        along with this program.  If not, see <https://www.gnu.org/licenses/>.
        
        
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: GNU Lesser General Public License v3 (LGPLv3)
Classifier: Operating System :: OS Independent
Classifier: Intended Audience :: Education
Classifier: Intended Audience :: Science/Research
Classifier: Topic :: Scientific/Engineering :: Chemistry
Classifier: License :: OSI Approved :: GNU Lesser General Public License v3 or later (LGPLv3+)
Requires-Python: >=3.7
Description-Content-Type: text/markdown
