I'm working on a fairly simple survey system right now. The database schema is going to be simple: a Survey table, in a one-to-many relation with Question table, which is in a one-to-many relation with the Answer table and with the PossibleAnswers table.

Recently the customer realised she wants the ability to show certain questions only to people who gave one particular answer to some previous question (eg. Do you buy cigarettes? would be followed by What's your favourite cigarette brand?, there's no point of asking the second question to a non-smoker).

Now I started to wonder what would be the best way to implement this conditional questions in terms of my database schema? If question A has 2 possible answers: A and B, and question B should only appear to a user if the answer was A?

Edit: What I'm looking for is a way to store those information about requirements in a database. The handling of the data will be probably done on application side, as my SQL skills suck ;)

closed as too broad by bmargulies, templatetypedef, Josiah Hester, Duck, zero323 Nov 4 '13 at 0:01

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    I work with survey systems every day and you are waaay over simplifying the needed complexity of them. – Joe Phillips Jan 12 '10 at 16:22
  • I know this is a simple example, though it was exactly what I needed for the project ;) But any additional input from you is much welcomed – kender Jan 13 '10 at 8:02
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    @JoePhilllips You are absolutely right.. – Exception Nov 21 '11 at 17:59
up vote 123 down vote accepted

Survey Database Design

Last Update: 5/3/2015
Diagram and SQL files now available at https://github.com/durrantm/survey

enter image description here

If you use this (top) answer or any element, please add feedback on improvements !!!

This is a real classic, done by thousands. They always seems 'fairly simple' to start with but to be good it's actually pretty complex. To do this in Rails I would use the model shown in the attached diagram. I'm sure it seems way over complicated for some, but once you've built a few of these, over the years, you realize that most of the design decisions are very classic patterns, best addressed by a dynamic flexible data structure at the outset.
More details below:

Table details for key tables


The answers table is critical as it captures the actual responses by users. You'll notice that answers links to question_options, not questions. This is intentional.


input_types are the types of questions. Each question can only be of 1 type, e.g. all radio dials, all text field(s), etc. Use additional questions for when there are (say) 5 radio-dials and 1 check box for an "include?" option or some such combination. Label the two questions in the users view as one but internally have two questions, one for the radio-dials, one for the check box. The checkbox will have a group of 1 in this case.


option_groups and option_choices let you build 'common' groups. One example, in a real estate application there might be the question 'How old is the property?'. The answers might be desired in the ranges: 1-5 6-10 10-25 25-100 100+

Then, for example, if there is a question about the adjoining property age, then the survey will want to 'reuse' the above ranges, so that same option_group and options get used.


units_of_measure is as it sounds. Whether it's inches, cups, pixels, bricks or whatever, you can define it once here.

FYI: Although generic in nature, one can create an application on top of this, and this schema is well-suited to the Ruby On Rails framework with conventions such as "id" for the primary key for each table. Also the relationships are all simple one_to_many's with no many_to_many or has_many throughs needed. I would probably add has_many :throughs and/or :delegates though to get things like survey_name from an individual answer easily without.multiple.chaining.

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    wish I could upvote more than once :) – Wil Dec 14 '11 at 9:44
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    @MichaelDurrant, I'm currently analysing your design. A few questions keep ringing in my mind though that prevent me from completely understanding the schema. I whould be really helped if you could answer them: 1) is table question_options filled on answering or on creation of the question? 2) Why is option_group_id in questions optional? when every answer through question_options and option_choices needs an option group. Let's see if i can answer my other questions if those two are cleared. – Bas Goossen Jul 16 '14 at 13:30
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    V1.6 Added. Fixed the foreign key that should be int not varchar. Added 3 'dependent question/answer' fields to actually answer the original question... Updated diagram and github including create script. Added semantic versioning through directories. – Michael Durrant May 5 '15 at 11:08
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    v1.6 gist at gist.github.com/durrantm/1e618164fd4acf91e372 – Michael Durrant May 5 '15 at 11:14
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    I have not been able to wrap my head around question_options , option_groups and Option_choices tables. Please do you have a sample data for each of this tables that can help for better understanding of how to used them. – Digitlimit Jun 20 '16 at 13:11

You could also think about complex rules, and have a string based condition field in your Questions table, accepting/parsing any of these:

  • A(1)=3
  • ( (A(1)=3) and (A(2)=4) )
  • A(3)>2
  • (A(3)=1) and (A(17)!=2) and C(1)

Where A(x)=y means "Answer of question x is y" and C(x) means the condition of question x (default is true)...

The questions have an order field, and you would go through them one-by one, skipping questions where the condition is FALSE.

This should allow surveys of any complexity you want, your GUI could automatically create these in "Simple mode" and allow for and "Advanced mode" where a user can enter the equations directly.

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    wow...I got enlightened after seeing this solution..precisely what I was looking for. Thanks. – pramodtech Aug 30 '11 at 14:23

one way is to add a table 'question requirements' with fields:

  • question_id (link to the "which brand?" question)
  • required_question_id (link to the "do you smoke?" question)
  • required_answer_id (link to the "yes" answer)

In the application you check this table before you pose a certain question. With a seperate table, it's easy adding required answers (adding another row for the "sometimes" answer etc...)

Personally, in this case, I would use the structure you described and use the database as a dumb storage mechanism. I'm fan of putting these complex and dependend constraints into the application layer.

I think the only way to enforce these constraints without building new tables for every question with foreign keys to others, is to use the T-SQL stuff or other vendor specific mechanisms to build database triggers to enforce these constraints.

At an application level you got so much more possibilities and it is easier to port, so I would prefer that option.

I hope this will help you in finding a strategy for your app.

  • my option would require only one table in total, not new tables for every question – tehvan Feb 12 '09 at 11:39
  • yes, I plan to put the logic into the application, I'm not a big fan of creating stored procedure for every little bit of logic (mostly because I suck at it). I'm just looking for a good way to store the requirements. – kender Feb 12 '09 at 11:41
  • tehvan, I think for more complex requirements that solution does lack some critical information. This field is actually about "Expert systems" which is much more suited for this. But now that I think of it, my solution won't be the best either, because it is not really dynamic. – TomHastjarjanto Feb 12 '09 at 11:46

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