I run into this question from time to time and I was wondering what the best solution ultimately may be.


Let's use "dynamic forms" as an example here. You have a form editor and can add form fields (inputs). Each form field translates to a different type of data:

  • A <textarea> becomes a TEXT column.
  • An <input type="text"> becomes a VARCHAR(X).
  • An <input type="range"> becomes a FLOAT.
  • A <select> could be a comma-separated list (TEXT), a separate table with each entry (foreign key) or a reference to an existing table (foreign key).

An easy way to store the structure of each for would probably be something like this:

enter image description here

That's all fine. But the real question is: How do we properly store the data, if someone would fill this dynamic form?

I see two solutions to this:

  • A) Create a table, where there is a NULLable column for each expected data type (VARCHAR, TEXT, FLOAT, ...). This would work, but leaves a lot of ugly NULL values, since each form field value only occupies one column. Also, <select> fields would be problematic if they refer to an existing table.
  • B) Create a table for each expected data type. This would keep things cleaner than version A, but require a lot more complexity when storing and fetching data, since the program has to know the type, use the right table, etc etc.

I'm wondering: are there better / other solutions to this? What's should be considered the better approach? I can imagine something like this coming up quite a lot - perhaps there's a third option I didn't know about?

Please keep in mind that the "form editor" example is just that - an example. This problem applies to many other things: a template editor, a settings editor, etc. I'm asking about a "general" approach with this problem, not specifically for form editors ;)

Note: I wouldn't consider using an additional non-relational database as a solution for this. I mainly want to keep the data in one place, so the question focuses on (My)SQL only.

  • 2
    You're not alone.
    – Strawberry
    Jul 30, 2019 at 11:36
  • @Strawberry I figured. This thing keeps popping up again and again and everyone I know seems to have a different take on it - but none of them has a really "proper" solution.
    – Katai
    Jul 30, 2019 at 11:41
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    "This thing keeps popping up again and again and everyone I know seems to have a different take on it - but none of them has a really "proper" solution. –" That is because this data/user case has nothing relational @Katai these kind of things seams to be better suited for a ODBMS Jul 30, 2019 at 12:04
  • Possible duplicate of How can you represent inheritance in a database?
    – philipxy
    Jul 31, 2019 at 3:06
  • There is no real question here, excet for the title itself, but as a question that's just way too broad and way too general. Other than that, there is nothing else except one single "example" but then at the end we get "but note I'm not asking just about this specific example". Brief : all of "too broad", "primarily opinion-based" and "unclear what you're asking" apply as a valid reason for closing. I haven't checked the "duplicates" thing. Aug 5, 2019 at 11:55

2 Answers 2


I'm asking about a "general" approach with this problem, not specifically for form editors

This thing keeps popping up again and again and everyone I know seems to have a different take on it - but none of them has a really "proper" solution

After the Relational requirement, which is of course the highest order directive, I will take generic approach and proper solution as over-arching directives.

1 Elevation to Relational

But first, a correction. In order to elevate the data model to Relational, without which the rather straight-forward solution would be exceedingly complex (which is precisely why [a] there are so many incorrect methods, and [b] none of them are proper solutions).

The great bulk of "literature" and textbooks that is promoted and marketed as "relational" is in fact anti-relational. Pre-1970 Record Filing Systems with relational labels, which is evidently all that the many authors and "theoreticians" can understand. The main difference between such pre-relational filing systems and the Relational Model is, the references are logical, not physical.

  • Whereas in pre-relational systems, physical records were related by physical pointers, such as ID (INTEGER; GUID; UUID; etc), in the Relational paradigm, logical rows (not records) are related by Relational Key.
  • A Relational Key is required to be made up from the data, which is logical, not physical (physical pointers are not data).

The Record IDs serve no purpose in a Relational database. Their purpose is to propagate what the "theoreticians" understand:

  • to confuse you
  • to maintain a pre-1970, pre-relational, physical mindset
  • and thus prevent a Relational mindset and database

At the least, each such Record ID will be one additional column and one additional index.

  • Additional, not instead of, because the indices on the logical data (Keys) are required for data Integrity, otherwise you will have duplicates and no integrity.

Therefore, your requirement elevated to Relational, with one less column and one less index in each table:

Katai 1


2 Relational Key that is Required

The second thing that needs to be understood is the Intergrity Features of Relational Keys, which you will not have, due to the "theoreticians" being blissfully unaware of it. This is an explanation relevant to the Question, rather than a full tutorial. Assuming that you do want Data Integrity and Relational Integrity (the logical feature provided by the Relational Model (as distinct from Referential Integrity, which is a physical facility provided by SQL). Which we will need, in order to control (provide integrity to) the data structures that are required 'lower' in the data hierarchy, for "Storage".

  • While the above [1] is correct for that purpose, we have an additional requirement: we need the FieldType in the FormField.PK such that it can be migrated to its child tables.
  • But of course, we must not subtract from the logical FormField.PK above [1]. If we do, it would lose its integrity and meaning.
  • So we:
    • add the Relational Key that is required [2]
    • make it Primary Key because that is what is migrated
    • and we maintain the original Primary Key [1] by making it an Alternate Key
    • which changes the relation FieldType::FormField from Non-Identifying to Identifying.

Katai 2

3 Relational Solution • Subtype

Now the solution is straightforward.

I see two solutions to this [A] or [B]

Definitely [B], with a couple of improvements to bring it up to Standard.

[A] is an unnormalised mess that has no integrity, and it will be a maintenance nightmare. Nulls are very problematic, Nulls in a Foreign Key is suicide.

but [B] will require a lot more complexity when storing and fetching data, since the program has to know the type, use the right table, etc etc.


Not at all.

  • Bear with me, the solution is below
  • You clearly understand that the data ("storage") tables have to be typed (or cast)
  • It requires an ordinary Exclusive Subtype structure. (We have had Subtypes in DBMSs since the 1960's.)
  • I have provided that typing (casting) control in the Basetype
    • first, by inserting FieldType in the parent FormField Primary Key, so that it will be migrated
    • second, by using a Non-Identifying relation, so that it is not in the Key of the child UserField
    • but it remains non-key column, and it is available as a Discriminator for the Basetype
  • Now, it is possible to understand why [1][ and [2] had to be implemented first
  • See if you can appreciate the Relational Integrity (as distinct from Referential Integrity) that Relational Keys provide:
    • UserField is CONSTRAINED to FieldNames that exist in the applicable FormName
    • that level of logical data integrity, which is standard fare in Relational databases, cannot be had in the pre-relational physical (Record ID based) filing systems that the "theoreticians" fraudulently market as "relational"
  • Subtype Exposition for beginners

Further, you should be using ACID Transactions (a requirement for SQL Compliance since the first release), not INSERT/UPDATE/DELETE directly from the program. That would simplify both the app and the program code, as well as eliminate the otherwise thousands of errors. If implemented to OLTP Standard, it minimises locking and contention, and reduces, if not eliminates, deadlocks.


Not really. It may not be simple, it is definitely not complex, but it is straight-forward.

  • Use VIEW (this is a classic use of VIEWS)
    • for retrieving a known Subtype:
      one View for each Subtype
    • for retrieving an unknown Subtype:
      one View (with an UNION) for any Subtype (which will return just one for each Basetype, whichever Subtype it is)
      (This is not a "supertype", the anti-relational concept beloved of the "theoreticians", heaven forbid.)
  • That will make the SQL coding also straight-forward.

Katai 3

One More

  • 1
    @Katai You are welcome. Feel free to ask questions (the related Q's & A's do have all sorts of weird and wonderful, but grossly incorrect, info ... which leads to crazy SQL code). That is the legacy of the "theoreticians" who promote anti-relational as "relational". You really need to understand Subtypes as a concept (refer to the links, and the links in the links), something they know nothing about. Jul 31, 2019 at 8:55
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    Which "theoreticians" do you have in mind, who are "blissfully unaware" of the integrity features of Relational Keys? The people I can think of who seem willfully (rather than blissfully) unaware are: vendors who worry that implementing the full SQL Standard will hit performance; and DBAs, ditto. By full Standard I mean supporting CHECK declarative constraints, rather than forcing user sites to write ad-hoc TRIGGER/INSTEAD OF code -- which usually turns out worse for efficiency.
    – AntC
    Jul 31, 2019 at 14:17
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    This answer has some good material, but also a great deal of opinion, which I find highly controversial, prejudiced and historically inaccurate. For example, Date & Darwen's textbooks, or the Alice book do accurately portray the relational model; whereas Codd's own writings after about 1975 are far from his best work and should be ignored.
    – AntC
    Aug 2, 2019 at 3:57
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    @AntC 1) It doesn't matter what anyone thinks (opinion), it is a matter of evidenced fact, logic, science. Date's; Date & Darwen's; the "Alice" books, all contradict the Codd's Relational Model, while purporting to be "relational". They falsely demean Codd, as you slavishly do. They cannot Normalise anything. 2) You are free to implement my data model, and add Record ID columns and indices as they prescribe, which do nothing except confuse you. Or worse, remove the logical indices, which they do not prescribe, and allow duplicates (which are prohibited in the RM). Aug 2, 2019 at 4:51
  • 1
    @AntC Read the RM for yourself, instead of relying on the misrepresentaions of said "theoreticians". Codd's Relational Model Aug 2, 2019 at 4:56

can add form fields (inputs).

Let's remember the Relational Model is for representing 'structured information'.

If you can freely add (something) it sounds like you have unstructured information.

Where are these form fields coming from? Do they represent business entities, or attributes of entities? Then don't you already have those in a data model for the business? (Using 'business' in a very general sense.)

But the real question is: How do we properly store the data, ...

No, the real question is: how do we properly retrieve/query the data? What does the data represent? What questions are the business users going to ask about it?

If you haven't already modelled the business entities/attributes, then you won't know how or even whether you can answer the users' questions.

So if users are just going to throw random facts/fields at the database and expect to ask random questions about it, you don't have structured data, and a Relational Database is not the right tool for the job. That sounds more like NoSQL or some sort of document/tagged/XML/JSON database. (Although I'd dispute whether "database" is the right term for those.)

  • 1
    My attempt to clarify: It's not that they throw random fields / data at the database, it's more that one table (example "forms") are connected to dozens of similar-but-different types of data. All these "types" are known and well defined, it's just that normalizing them down would add dozens of similar tables to the database with "indirect refences" (solution [B]). I was wondering if, in general, there are better approaches to this type of problem. The "free adding" refers to the amount (count) of entities not being defined. The entities themselves are defined.
    – Katai
    Jul 31, 2019 at 8:42
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    Your q says you're using "dynamic forms" merely as an example. Now you're saying you already have all the business data held in a structured database: "The entities themselves are defined." You're duplicating from database fields to build or process a form. Then the forms data is transient/program-internal; it doesn't need to be in a database duplicating what's in the, um ... database. I'm not seeing a general difficulty here. If "dynamic forms" is just one example, please give several more examples. (Add to the O.P.)
    – AntC
    Jul 31, 2019 at 14:06
  • 1
    Sorry, maybe I've been unclear: When I say "the entities are defined", I still mean in the context of the example. So, if the example is a form, all possible "field types" are known. If the example is a template, all "template snippets" are known, etc. I'll try to clarify my O.P. tomorrow or so.
    – Katai
    Aug 1, 2019 at 15:39

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