Skip to content

jturmelle/dssat-csm-os

 
 

Repository files navigation

dssat-csm-os

DSSAT Cropping System Model

The Decision Support System for Agrotechnology Transfer (DSSAT) Version is a software application program that comprises crop simulation models for over 42 crops (as of Version 4.7).

For DSSAT to be functional it is supported by data base management programs for soil, weather, and crop management and experimental data, and by utilities and application programs. The crop simulation models simulate growth, development and yield as a function of the soil-plant-atmosphere dynamics.

DSSAT and its crop simulation models have been used for many applications ranging from on-farm and precision management to regional assessments of the impact of climate variability and climate change. It has been in use for more than 20 years by researchers, educators, consultants, extension agents, growers, and policy and decision makers in over 100 countries worldwide.

Read more about DSSAT at http://dssat.net/about

See also: The DSSAT Crop Modeling Ecosystem

and: Non-threatening best practice DSSAT Fortran coding guidelines.

The directory structure

DSSAT cropping system model (CSM) design is a modular structure in which components separate along scientific discipline lines and are structured to allow easy replacement or addition of modules. It has one Soil module, a Crop Template module which can simulate different crops by defining species input files, an interface to add individual crop models if they have the same design and interface, a Weather module, and a module for dealing with competition for light and water among the soil, plants, and atmosphere. It is also designed for incorporation into various application packages, ranging from those that help researchers adapt and test the CSM to those that operate the DSSAT /CSM to simulate production over time and space for different purposes. The DSSAT cropping system model.

Compiling the code

The code is compatible with the CMake utility for generating make files and setting up projects for a variety of IDEs and compilers. To use this feature, first download and install CMake. Then set up a CMake project by pointing to the source code directory and the build directory.

Structure of the code

.
├── <source files>
├── CMakeLists.txt
├── distclean.cmake
├── README.md
├── ...
├── cmake
│   └── Modules
│       ├── SetCompileFlag.cmake
│       └── SetFortranFlags.cmake
├── build
│   └── ...
└── Data
    ├── Documentation
    ├── Cotton
    ├── ... 
    └── Wheat

CMakeLists.txt

This file contains all the configuration needed to set up the project.
Edit this file to make your own configuration and add new projects. Comment/Uncomment any lines pertaining to options you may need.

distclean.cmake

This is a CMake script that will remove all files and folder that are created after running make. You can run this code in one of two ways:

  • Execute cmake -P distclean.cmake. (The -P option to cmake will execute a CMake script)
  • Execute make distclean after your Makefile has been generated.

You shouldn't need to edit this file.

README.md

This File.

[...]

Inside the main directory you will find all subdirectories and source files for your project. All .for, f90, etc.

cmake/Modules/

This directory contains CMake scripts that aid in configuring the build system.

SetCompileFlag.cmake

This file defines a function that will test a set of compiler flags to see which one works and adds that flag to a list of compiler flags. This is used to set compile flags when you don't know which compiler will be used.

SetFortranFlags.cmake

This file uses the function from SetCompilerFlag.cmake to set the DEBUG, TESTING, and RELEASE compile flags for your build. You might want to inspect this file and edit the flags to your liking.

build

This folder is created to organize all working files inside it, avoiding messing up your source folder. During compilation and linking, working folders are created automatically inside this folder. Any libraries created end up in mod/, as well as compiled Fortran .mod files. The executable will end up in bin/.

Data

This folder contains data, documentation, DSSAT configuration files, and crop-specific experiment files.

Configuring the build

It is usually preferred that you do an out-of-source build. To do this, create a build/ directory at the top level of your project and build there.

$ mkdir build
$ cd build
$ cmake ..
$ make

When you do this, temporary CMake files will not be created in your src/ directory.

As written, this template will allow you to specify one of three different sets of compiler flags. The default is RELEASE. You can change this using to TESTING or DEBUG using

$ cmake .. -DCMAKE_BUILD_TYPE=DEBUG

or

$ cmake .. -DCMAKE_BUILD_TYPE=TESTING

You can provide all kind of information CMake. Some examples can be find at [CMake Command-Line Options].

One usable examples could be:

$ cmake -G "Unix Makefiles" -DCMAKE_Fortran_COMPILER=ifort ..

In this example we are specifying the fortran compiler and the kind of project we want as result (make file project).

About

DSSAT Cropping System Model

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Fortran 99.6%
  • CMake 0.4%