Source: dballe
Priority: optional
Maintainer: Enrico Zini <enrico@debian.org>
Build-Depends: cdbs, debhelper (>> 4.1), dh-buildinfo, doxygen, libtut-dev, unixodbc-dev, gperf, g77, libpopt-dev, libcnf-dev, tetex-bin, gs-common, tetex-extra
Standards-Version: 3.7.2.0

Package: libdballe-dev
Section: libdevel
Architecture: any
Depends: libdballe2 (= ${Source-Version}), libdballef2 (=${Source-Version})
Recommends: pkg-config
Description: Database for punctual meteorological data (C and Fortran development)
 DB-All.e is a fast on-disk database where meteorological observed and
 forecast data can be stored, searched, retrieved and updated.
 .
 This is the development version of the library.

Package: libdballe2
Section: libs
Architecture: any
Depends: ${shlibs:Depends} ${misc:Depends}
Description: Database for punctual meteorological data (C shared library)
 DB-All.e is a fast on-disk database where meteorological observed and
 forecast data can be stored, searched, retrieved and updated.
 .
 This is the shared library for C programs.

Package: libdballef2
Section: libs
Architecture: any
Depends: ${shlibs:Depends} ${misc:Depends}
Description: Database for punctual meteorological data (Fortran shared library)
 DB-All.e is a fast on-disk database where meteorological observed and
 forecast data can be stored, searched, retrieved and updated.
 .
 This is the shared library for Fortran programs.

Package: dballe
Section: misc
Architecture: any
Depends: ${shlibs:Depends} ${misc:Depends}
Description: Database for punctual meteorological data (Command line tools)
 DB-All.e is a fast on-disk database where meteorological observed and
 forecast data can be stored, searched, retrieved and updated.
 .
 This framework allows to manage large amounts of data using its simple
 Application Program Interface, and provides tools to visualise, import
 and export in the standard formats BUFR, AOF and CREX.
 .
 The main characteristics of DB-ALL.e are:
 .
  * Fortran, C, C++ and Python APIs are provided.
  * To make computation easier, data is stored as physical quantities,
    that is, as measures of a variable in a specific point of space and
    time, rather than as a sequence of report.
  * Internal representation is similar to BUFR and CREX WMO standard
    (table code driven) and utility for import and export are included
    (generic and ECMWF template).
  * Representation is in 7 dimensions: latitude and longitude geographic
    coordinates, table driven vertical coordinate, reference time,
    table driven observation and forecast specification, table driven
    data type.
  * It allows to store extra information linked to the data, such as
    confidence intervals for quality control.
  * It allows to store extra information linked to the stations.
  * Variables can be represented as real, integer and characters, with
    appropriate precision for the type of measured value.
  * It is based on physical principles, that is, the data it contains are
    defined in terms of homogeneous and consistent physical data. For
    example, it is impossible for two incompatible values to exist in the
    same point in space and time.
  * It can manage fixed stations and moving stations such as airplanes or
    ships.
  * It can manage both observational and forecast data.
  * It can manage data along all three dimensions in space, such as data
    from soundings and airplanes.
  * Report information is preserved. It can work based on physical
    parameters or on report types.

