TABLE OF CONTENTS
etsf_io_tutorials
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NAME
etsf_io_tutorials -- ESTF I/O examples and tutorials
FUNCTION
Tutorials are directly Fortran source code, highly commented, located in src/tutorials. These codes can be compiled and executed to create example files.
The following tutorials are available:
- Tutorial 1 - basics of file creation create_a_crystal_den_file, 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 read_write_sub_access, 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</code>. 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 convert_to_xyz, 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? MPI_output_of_a_density, 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) mix_ETSF_and_non_ETSF, 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) read_a_file, 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.