How to make a backup of your Gramps genealogy Family Tree database.
Gramps and XML
Gramps is capable of importing and exporting an XML file that contains all the information in the database. This file is useful for transferring data from one machine to another or for XML processing.
The easiest way to generate an XML file is to export the data. This can be done from the menu: Family Trees->Export or Family Trees->Backup.... This will generate a file with a
.gramps extension. This file is usually a gzip'd XML file (depending on some system settings, sometimes this will be an uncompressed XML file).
Gramps compresses the file because XML files can become rather large. For large databases, this file could grow to 10s to 100s of megabytes in size. Fortunately, XML files compress nicely, usually producing a fairly small size.
How do I tell if the XML file is compressed?
For Linux users, the easiest way is to run the
file command on it.
$ file data.gramps
If the file is compressed, you should see a result similar to:
data.gramps: gzip compressed data, from Unix, last modified: Sun Jun 17 22:36:04 2007
If it is uncompressed, you should see a result similar to:
data.gramps: XML 1.0 document text
How do I uncompress the file?
If the file is compressed, you can uncompress it using the gunzip command.
$ gunzip < data.gramps > data.xml
This example creates an uncompressed
data.xml file from the compressed
You must use the I/O redirection operators (">" and "<"), since
gzip expects files to have a
I am confused. How do I extract editable XML from .gramps file?
You may download and run
gramps2xml script. First make it executable:
chmod +x gramps2xml
Then run it like so:
./gramps2xml filename.gramps filename.xml
Why doesn't Gramps just use a .gz extension?
Gramps uses the Shared Mime System defined by Free Desktop project, and used by all major desktops, including KDE and GNOME. Gramps relies on the MIME type identified by the Shared Mime System to determine the file type of the file.
The Share Mime System allows you to identify a file's type by either using a file extension or by looking at the contents of a small section of the file. The first problem is, usually the filename or extension pattern has the higher priority compared to the contents: if the file is named
something.jpg then it is likely to be JPEG image, not text. So if the Gramps XML file had added
.gz extension to the name, the Shared Mime system would tell us that the file's type is
application/x-gzip instead of the expected
application/x-gramps-xml. Unfortunately, it cannot tell us that it is a gzip'd Gramps XML file.
The second problem is, if we looked at the contents, we would not be able to tell the difference between a gzip'd Gramps XML file or any other gzip'd file. If we looked at uncompressed data, we would not be able to tell the difference between a Gramps XML file and other XML files. So again, the Shared Mime system could not tell us that it is a gzip'd Gramps XML file.
For these reasons, we must rely on the
.gramps extension. If we don't, we would not be able to tell if this was a valid file. Even worse, the mime type of
application/x-gzip would be associated with another application (such as File Roller or Ark) instead of Gramps. The mime type of
application/xml may be associated with XML editors (Bluefish, Conglomerate, Emacs, etc). In that situation, the user double-clicking on the file in the file manager (or performing the default action for the type by any other means) will never launch Gramps with this data,
Gramps is not unique in this problem. For example, the OpenDocument format used by LibreOffice, OpenOffice, StarOffice, Calligra and AbiWord is actually a collection of files in a
zip archive. If you run
unzip on a OpenDocument file, you will see something like:
$ unzip test.odt Archive: test.odt inflating: mimetype inflating: meta.xml inflating: settings.xml inflating: META-INF/manifest.xml inflating: styles.xml inflating: content.xml
tmg2gramps is a program written to convert a family tree from The Master Genealogist V6 to Gramps XML.