Tutorials are directly Fortran source code, highly commented, located in src/tutorials
. These codes can be compiled and executed to create example files. The HTML tutorials are a pretty printing of these source files. Each HTML file contains a short introduction to explain the objectives of the tutorial and then follow the source code, regularly interrupted by notes and comments.
Tutorial 1 - basics of file creation
The first tutorial is intended to explain the basics and the philosophy of this library. It details the first steps required to create a density file, using high level routines (etsf_io_data_<action>
). It shows how to use the pointers and the unformatted ones (used to map any shape arrays between the ETSF definition and the main program memory).
Tutorial 2 - advanced writing, sub-access on k point and spin
The second tutorial introduces the group level routines and explain how to access only sub part of arrays. This sub access is possible when one array has a dimension on spin or k points. Then one can access data for one k point or spin at a time. This is controlled by some attributes in the concerned groups, called <short_var_name>__[spin|kpoint]_access
. In this tutorial a wave-function file is created and the coefficients of wave-functions are written for one k point at a time.
Tutorial 3 - a converter tool, usage of validity checks
The third tutorial shows how to use high level modules etsf_io_file and etsf_io_tools to check the conformance of an input ETSF file on cristalographic specifications and then to read atomic coordinates and names to create a simple XYZ file.
Tutorial 4 - how to use split capabilities in conjonction with MPI?
The fourth tutorial shows how to use the split definitions as defined in the specifications to handle MPI computations. This is possible with the help of the etsf_split structure. This tutorial create a density file with a paralelisation on z planes. Each process compute a gaussian in its own z planes and create an ETSF file with a split on number_of_grid_points_vector3. Thanks to etsf_io
the created files can be then gathered into one unique file.
Tutorial 5 - mixing ETSF and non-ETSF variables in file creation (tutorial 1 enhancement)
The fifth tutorial is not focus on the low level API but it uses it in several areas. This tutorial shows how to write an ETSF file with additional non-ETSF variables. These variables are defined and written directly by using the low level API. Besides it also shows how to use the etsf_io_<group>_put() methods in the context of a concurrent list of ETSF and non-ETSF variables.
Tutorial 6 - simple read of a wavefunction file (continuation of tutorial 2)
The sixth tutorial introduces the read actions in a simple case. Here, we know that the file should contains the variables of a wavefunction description. This tutorial uses the file created by tutorial 2 but does not read it with sub access. Everything is read once as a bloc.