I frequently mention the acronym “GEDCOM” in this newsletter. This week a reader wrote to me with an excellent question: “What is GEDCOM?” I realized that I haven’t explained this buzzword in a long, long time. So, here is a brief, non-technical explanation of the term for the newer subscribers to this publication.
GEDCOM is an abbreviation that stands for GEnealogy Data COMmunications. In short, GEDCOM is the language by which different genealogy software programs talk to one another. The purpose is to exchange data between dissimilar programs without having to manually re-enter all the data on a keyboard.
To illustrate the importance of GEDCOM, step back in time with me for a moment.
Back before the invention of GEDCOM and before the invention of the home computer, I used 80-column punch cards to record the names and limited information about 200 or so of my ancestors. I did this after work hours in my employer’s data center. I then used the employer’s mainframe computer that cost hundreds of thousands of dollars to sort the data and to print a few crude reports. Luckily for me, my employer allowed me to use all the mainframe time I wanted late at night, after the company finished its daily work.
Around 1980, I built my own home computer. I decided to put my genealogy database onto the new system, but it would not read the 80-column punch cards I had used earlier. I manually re-typed every bit of data into a dBASE-II program that I wrote. My had discovered more ancestors by that time, so I had to enter manually data about 400 or so individuals. I stored the information on 8-inch floppy disks attached to my homemade 8-bit CP/M computer, which had 64 Kb (kilobytes) of memory.
Some time later I discovered a CP/M genealogy program that would operate on my home computer. (CP/M was an operating system that was popular before MS-DOS which, in turn, was popular before Windows.) Unlike my crude, homemade dBASE-II program, this new genealogy program printed pedigree charts, family group sheets, and other reports. I decided to convert to the new, more powerful program (although I must say that it was rather elementary when compared to today’s powerful programs). At this point my database had grown to about 600 individuals, and I could not find any method of easily copying that data into the new program. I first printed out the information from the dBASE-II database. Then I sat at my computer for several evenings, reading the information on paper and re-typing every bit of it into my new program.
I bet you can guess the next step: I purchased an IBM clone in 1984 and decided to move my data to this new powerhouse. After all, it had 640 kilobytes of memory and a 20-megabyte hard drive, which I was certain that I could never fill. Having been rather active in my genealogy research, I now had information about 1,200 people to re-enter. I printed out the entire database from the old system onto paper and then manually re-typed it into the new PC powerhouse. That effort took weeks, and I promised myself, “Never again!”
Newer genealogy programs appeared in the following years, each with new features that I found enticing. However, I continued to use the same program simply because I didn’t want to go through the keyboard effort again.
Roughly twenty-five years ago, the Church of Jesus Christ of Latter-day Saints announced something new: a file format called GEDCOM. This new proposed standard file format was designed to allow different genealogy programs to exchange data. There was only one problem at the time: the only program that could read and write GEDCOM data was the one written by the Church of Jesus Christ of Latter-day Saints.
GEDCOM is a standard, not a program. As such, genealogy programs that are going to use the same data have to be written by the programmers to handle GEDCOM files. If you are trying to transfer data from one program to another, only to discover that one of the programs does not support GEDCOM, you are out of luck. To complete the exchange of data, both programs have to support GEDCOM.
Slowly, over a period of several years, other genealogy programs began to add the ability to read and write GEDCOM files. It became possible to move data from one genealogy program to another without manually re-typing everything. Now you can simply export your file from one genealogy program in GEDCOM format and then import that GEDCOM file into another genealogy program.
GEDCOM files usually have a file name ending in “.GED”, such as myfamily.GED.
You can use GEDCOM files to exchange genealogy data with your distant cousin in Poughkeepsie as well as to upload data to the many online databases.
The author of the genealogy program that I used never did add GEDCOM capability. Luckily for me, someone else eventually wrote a small routine that would export data from this program in GEDCOM format, and I was then able to move my data to increasingly powerful new programs.
By 1990, I was writing articles on CompuServe, advising everyone to never use a genealogy program that lacked GEDCOM capabilities. Luckily, that is no longer an issue. All of today’s genealogy programs will import and export GEDCOM data. Data transfer may still be a problem for those using older genealogy programs without GEDCOM capability; many people still find their data trapped in these “islands.” For them, there is no easy solution.
Unlike the “dark ages” of the 1980s, it is now common for people to use two or three or even more genealogy programs, including those on handheld smartphones and tablet computers. You may find one program that you prefer to use for storing all the bits of information that you encounter in your research efforts. However, you might prefer the printed reports or multimedia scrapbook features of a different program. Thanks to GEDCOM, you can easily move your data from one program to another. You can also share information with distant cousins using yet other genealogy programs by sending GEDCOM files to each other by e-mail.
The instructions for creating or reading GEDCOM files will vary from one program to another. You need to consult the program’s HELP files to find the exact sequence of instructions your genealogy program requires.
GEDCOM files can be read by a human although it would be tedious to do so. Here is an extract from the beginning of a typical GEDCOM file:
1 SOUR Legacy
2 VERS 4.0
2 NAME Legacy (R)
2 CORP Millennia Corp.
3 ADDR PO Box 66
4 CONT El Mirage, AZ 85335
1 DEST Gedcom55
1 DATE 16 Oct 2004
1 SUBM @S0@
1 FILE Kennedy.ged
2 FORM LINEAGE_LINKED
1 CHAR ANSI
0 @S0@ SUBM
1 NAME Not Given
1 ADDR Not Supplied
0 @I1@ INDI
1 NAME Joseph Patrick /Kennedy/
2 GIVN Joseph Patrick
2 SURN Kennedy
1 SEX M
2 DATE 6 Sep 1888
2 PLAC Boston, MA
2 SOUR @S2@
3 PAGE pg 56
3 QUAY 3
2 DATE 18 Nov 1969
2 PLAC Hyannis Port, MA
(rest of file omitted)
The file contains genealogy data in a structured format. It utilizes numbers to indicate the hierarchy and tags to indicate individual pieces of information within the file. A number of zero indicates the first line within a single record, and the letters, or tag, after the zero indicate the type of record. The top line in any GEDCOM file is the HEADER record, indicating that it is the beginning of the file. Words that are more than four letters long are typically abbreviated. In this case, the word HEADER is written as HEAD.
A number ”1” shows that the line in question is one level below the “zero” line. This indicates that this line is one level subservient to the zero line and contains additional information. In the case of the second line in the above file, the entry of “1 SOUR Legacy” indicates that this file was created by (SOURCE) Legacy, a popular genealogy program for Windows.
The number “2” on the next line shows that it is subservient to the preceding line with a number 1 in it. In this case, the line of “VERS 4.0” indicates that the file was written with version 4 of Legacy. Below that you see a line labeled ADDR (address) and another labeled CONT (the previous line is CONTinued here).
Scanning a bit further down the file, you will see the following:
0 @I1@ INDI
Again, the zero indicates this is the beginning of a new record. The “at” signs bracket the record number. In this case, the record is of an INDIvidual, and it is individual #1 (I1) in the database. Succeeding lines show events, such as birth, marriage, and death, along with subsequent data listing dates and places. You will also note an entry of “2 SOUR @S2@,” which indicates that a source citation for the event can be found in SOURce entry S2 to be found later in this file.
INDI, NAME, BIRT, DEAT, SEX, SOUR and the other record types are called GEDCOM “tags.” There are many available tags within the GEDCOM standard and even a capability to create user-defined tags for those situations not covered by the standard. Of course, user-defined tags are usually not understood by the receiving program, so they seem to be somewhat useless. They may help define data within the program in which they were created, but they will not translate to a new program via the GEDCOM format.
This is a very abbreviated explanation of the internals of a GEDCOM file. You can a detailed explanation at http://homepages.rootsweb.com/~pmcbride/gedcom/55gctoc.htm.
Later versions of GEDCOM have been proposed but have never been widely implemented. In February of 2012 at the RootsTech 2012 conference, FamilySearch outlined a major new project around genealogical standards called GEDCOM X, and invited collaboration. In August of 2012 FamilySearch employee and GEDCOM X project leader Ryan Heaton dropped the claim that GEDCOM X is the new industry standard, and repositioned GEDCOM X as another FamilySearch open source project. However, no genealogy programs that I am aware of support GEDCOM X.
You can read more about GEDCOM X at http://www.gedcomx.org.
You need to be aware that the creation of the GEDCOM standard was not a perfect implementation. For one thing, not all the data fields are specified precisely in the GEDCOM specifications. Next, not all the programmers of the various genealogy programs interpreted the specifications in exactly the same manner. For instance, your present genealogy program might be perfectly happy with a birth date listed as, “after 1847 but before 1852.” However, once that information is exported in a GEDCOM file and then imported into a different program, the birth date may say something else. The receiving program may expect exact dates and not be able to handle anything that says “after” or “before,” especially not both in the same statement. Typically, the receiving program simply leaves the line blank. Sadly, one or two genealogy programs will accept the first date found on the line and then will disregard any further information.
Another problem is that not all genealogy programs have the same ideas about databases. One program may have only one field for “occupation,” assuming that every person on the face of the earth never, ever changed careers. Another genealogy program may have the ability to record multiple occupations during the person’s lifetime. When transferring data via GEDCOM from the more powerful program to the simpler one, some of these occupations will be lost.
The GEDCOM standard was invented long before genealogy programs started saving pictures, videos, and other multimedia files. As a result, transferring information from one genealogy program to another reults in the loss of multimedia files.
Another problem is the transfer of notes. Some genealogy programs store only one note per individual while a different program may store different notes for physical description, medical history, occupations, DNA information, and more. GEDCOM was invented long before genealogy programs reached that level of sophistication so it cannot accurately transfer all variations of notes.
These are a few simple examples; you can find numerous other inconsistencies when moving data between dissimilar programs.
There is another problem with translating from one program to another: that of data integrity. Translating from one program’s database to GEDCOM is sort of the same as translating from one spoken language to another. The basics work, but subtleties and details sometimes do not translate well. Then, when translating to the third language (the receiving genealogy program’s database), more translation losses creep in. I well remember reading a technical manual some years ago that had been written in Japanese and then translated into Chinese. At a later date, the Chinese version was translated into English. The resultant English manual was barely readable. The same may happen with translating a database from Program A into GEDCOM and then from GEDCOM into Program B.
A new method of transferring data between different genealogy programs was announced several years ago by Wholly Genes Software. Their Bridge technology reads data from one program directly into a second program without requiring a “double translation” via GEDCOM. The result is a much more accurate transfer process. However, very few genealogy developers have adopted GenBridge. To date, this technology is only available in a few programs.
Despite all the shortcomings, GEDCOM is still a simple and somewhat effective method of transferring genealogy data from one program to another. Most of the data will transfer properly, and then there are easy ways of reviewing the data to look for errors. The names, dates, and locations normally transfer correctly. Text, events, notes, and source citations may not always work perfectly. The exact problems encountered will depend upon the two genealogy programs involved.
Most modern genealogy programs will create an error log of GEDCOM data imported but not understood by the receiving program. You can read that log file to see what the program detected as inconsistent, then manually go in and fix the errors. While tedious, this is still a lot better than re-keying everything!
I offer this article as a non-technical explanation of GEDCOM plus some commentary on its use. For more details and for technical explanations of the inner workings of GEDCOM, I would suggest that you read the following:
- The GEDCOM Standard Release 5.5: http://homepages.rootsweb.com/~pmcbride/gedcom/55gctoc.htm
- GEDCOM: http://en.wikipedia.org/wiki/GEDCOM
- GEDCOM X: http://www.gedcomx.org
- Is GEDCOM Dead? by Beau Sharbrough: http://www.rootsworks.com/genart13.htm