/*! \page conversion GRIB edition 1 to 2 conversion
GRIB messages are at the moment exchanged in edition 1 or 2.
Although the information content of two messages in different editions
is almost the same, their binary format is very different and
organised in a different way.
The conversion from grib edition 1 (grib1) to edition 2 (grib2) is
a format translation without any loss of information. Conversely the conversion
from grib2 to grib1 is not always lossless because the edition 2 format has
been extended to allow a wider set of scientific fields to be coded.
Since the new grib2 format is going to replace grib1 we will focus more on the
grib1 to grib2 conversion rather than the opposite, which sometimes is not possible.
The conversion algorithm should be easy to implement, but there are some
factors making it challenging.
First of all the new designed grib2 is in some points semantically
different from grib1.
Therefore it doesn't allow an easy mapping of the meaning across
the two versions.
Moreover some of the numeric code tables semantically identical
are numerically different, which doesn't allow again an easy mapping
between them, because the numeric codes for the same information element
are different.
We refer in particular to the type of level which is numerically different
in the two editions.
Another element to be considered in a conversion algorithm is that
many meteorological operational centres have been developing local patches
to the GRIB specification to overcome the limitations of grib1.
This local extensions or local tables are not coherent and sometimes are
not properly organised.
It is widespread, for example, the use of local parameter tables.
The aim of the conversion facilities provided in GRIB API is to be flexible
enough to define conversion rules also for local tables and local
extensions and to allow the user to configure locally the library to interpret
fields coded in a local flavour of the grib specifications.
\section conv_tech Conversion technique
To convert a grib message from edition 1 to 2 with GRIB API it is enough to
set the key edition=2 (see grib_set).
The conversion is performed automatically provided that the library is configured
properly to translate the parameter information. Indeed the information regarding time
and space is always translated automatically, while the parameter information,
which is sometime dependent on local tables has to be configured by the user if it is
not included in the main set of parameter conversion rules contained in GRIB API
distribution.
\section paramconv Parameters conversion
A list of all the parameters
recognised by the
latest version of GRIB API
is reported for consultation. The list contains their representation
in edition 1 and 2 and for some of them the netcdf CF compliant name.
Each parameter is identified by a paramId, which is a valid GRIB API key,
and is described through the keys shortName, name, units.
For each parameter we can have one or more grib1 and/or grib2 representations.
A grib representation is a set of keys describing the parameter in the coding
format (grib1 or grib2). If for a parameter the grib1 and grib2
representations are both present in the list then the conversion from
grib1 to grib2 is defined and can be automatically performed by
GRIB API just setting edition=2.
A parameter can have more than one representation for a single format,
because local representations are allowed depending on the centre
defined in the grib message.
A local description can be added just editing the following definition
files: paramId.def, shortName.def, name.def, units.def.
The syntax of these files is
value = { key1=value1; key2=value2; key3=value3; ... }.
A definition file containing the rules for a given centre and edition
has to be placed in the directory grib[edition]/localConcepts/[centre:s].
Where [edition] is 1 or 2 and [centre:s] is the string describing the
centre in the official table 0 of grib1.
The files describing the local parameters for ECMWF grib1 are located in
grib1/localConcepts/ecmf.
If for example we need to define "2 metre temperature" for ECMWF we have
to add the following lines to the corresponding files
- paramId.def \n
'167' = {table2Version=128; indicatorOfParameter=167;}
- shortName.def \n
'2t' = {table2Version=128; indicatorOfParameter=167;}
- name.def \n
'2 metre temperature' = {table2Version=128; indicatorOfParameter=167;}
- units.def \n
'K' = {table2Version=128; indicatorOfParameter=167;}
The same syntax can be used to describe the same parameter in grib2 to
be able to convert the information from grib1 to grib2 and to be able
to have the same paramId, name, shortName, units for both editions.
\section localconf Local configuration
A site or user configuration is possible to allow interpretation and conversion of
grib 1 messages encoded in non standard local ways.
To separete the definition files contained in the installation directory from the
definition files described in the previous section, in which the user can put
some extra and local parameter definitions,
the environment variable ECCODES_DEFINITION_PATH can be used.
To set properly this environment variable we have first to find the definitions
files directory used by GRIB API.
At this aim we can use the tool codes_info which is providing some configuration
information about the library.
\verbatim
> codes_info
grib_api Version 1.8.0
Default definition files path is used: /usr/local/lib/grib_api/definitions
Definition files path can be changed setting ECCODES_DEFINITION_PATH environment variable
Default SAMPLES path is used: /usr/local/lib/metaps/lib/grib_api/samples
SAMPLES path can be changed setting ECCODES_SAMPLES_PATH environment variable
\endverbatim
To enable the parameter defintions described in the files contained in our directory
\code
/home/u/grib_api/definitions
\endcode
we have to set the environment variable ECCODES_DEFINITION_PATH as
\verbatim
export ECCODES_DEFINITION_PATH=/home/u/definitions:/usr/local/lib/grib_api/definitions
\endverbatim
so that our definition of the parameters will be read by GRIB API during run time.
The content of the definition files in the directory /home/u/definitions has to be
properly written following the instructions of the previous section.
*/