You raise valid points, however you are not completely clear on normalization and what it means, for example in
1) The claim that keeping the invoices as they were denormalizes the data is completely and totally wrong.
Let's take price for example - if you have a business requirement that states that you have to keep history of prices then keeping only current price is wrong and it breaks the requirements. And it has nothing to do with normalization, it's simply not designed well. Denormalization is about introducing possibilities for ambiguity into your model (and other artifacts) - and in this case you are simply not modelling your problem space properly.
There is nothing wrong in modelling your database to support temporal data (or versioning and/or separating the areas of the database into archive/temporal and the working set).
Looking at normalization without looking at semantics (in terms of requirements) is not possible.
Also, if your senior developer can't see the difference then I guess he didn't get his seniority in RDBMS development ;)
2) Second part is indeed denormalization. However, if you ever run across senior DB analyst who seriously preaches normalization, you will hear him/her say that it is perfectly acceptable to denormalize as long as you do it consciously and ensure that benefits overweight deficiencies and that anomalies will not bite you. They will also tell you to normalize the logical model and that in the physical model you are allowed to deviate from the ideal for various purposes (performance, maintenance, etc...). In my book the main purpose of normalisation is so that you don't have hidden anomalies (see this article on 5NF for example)
The caching of intermediate results is allowed even on normalized databases and even by biggest evangelists of normalization - you can do it at application layer (as some sort of cache) or you can do it at the database level or you can have a data warehouse for such purposes. These are all valid choices and have nothing to do with normalizing the logical model.
Also, as for your accountant - you should be able to convince him that what he is claiming is not a good test and develop a set of tests (maybe together with him) that will automate the testing of the system without users intervention and give you higher confidence that your system is bug free.
On the other hand I know of systems that require users to enter duplicate information, such as to enter the number of lines on the invoice before or after entering actual lines, to insure that the entry is complete. This data is 'duplicated' and you don't have to store it if you have a procedure that will validate the input. If that procedure comes later it is allowed to store the 'denormalized' data - again, the semantics justify it and you can look at the model as normalized. (it is beneficial to wrap your head around this concept)
The term "denormalized" in (2) is not correct if you look at the formal definition of normal forms and if you consider a design denormalized if it breaks any of the normal forms (to some people this is obvious and there is no other way about it).
Still, you might want to get used to the idea that a lot of people and not necessary useless texts will use the term normalization for any effort that tries to reduce redundancy in the database (just as an example, you will find scientific papers, by which I don't say that they must be right, just as a warning that it is common, that call derived attributes a form of denormalization, see here).
If you want to refer to some more coherent and recognized authorities (again, not recognized by all), maybe the words of C.J.Date can make a clear distinction:
Much of design theory has to do with
reducing redundancy; normalization
reduces redundancy within relvars,
orthogonality reduces it across
qouted from Database in depth: relational theory for practitioners
and on the next page
just as a failure to normalize all the
way implies redundancy and can lead to
certain anomalies, so too can a
failure to adhere to orthogonality.
So, the proper term for redundancy across relvars is orthogonality (basically all normal forms talk about single relvar so if you look strictly at normalization it would never suggest any improvements due to dependencies between two different relvars).
Anyway, one of the other important concepts when you consider database design is also a difference between logical and physical database models. A lot of things that are useful on physical level, such as tables with subtotals or indexes have no place in the logical model - where you try to establish and investigate relationships between the concepts you are trying to model. And that's why you can say they are permissible and they don't ruin the design.
Lines sometimes can be a bit blurry on what is logical model and what is physical model. Especially good example is a table with subtotals. To consider it part of physical implementation and ignore it on the logical level you have to:
- ensure that users (and applications) can not update the subtotal table directly in a manner that is not consistent with their predicate (in another words have a bug in the subtotalling procedure)
- ensure that users (and applications) can not update the table on which these are dependent without updating the subtotal (in another words that some application will not delete a row from the detail table without updating the total)
If you break any of the above rules you will end up with inconsistent database which will provide inconsistent facts. (In such case if you want to formally design a procedure for fixing or examining the problems caused, you would not consider it just an additional table, it would exist at the logical level; where it should not be).
Also, the normalisation always depends on the semantics and the business rules you are trying to model. For example DBAPerformance gives an example in which storing the
TaxAmount in the transaction table is not denormalized design, but he fails to mention that it depends what kind of system you are trying to model (is that obvious?); for example if the transaction has another attribute called
TaxRate it will usually be denormalized because there is functional dependency on a set of non-key attributes (TaxAmount = Amount * TaxRate => FD: Amount,TaxRate -> TaxAmount), and one of these should be removed or guaranteed to be consistent.
Obviously, you might say, but, if the system you are building is for an audit company, then you might not have functional dependency - they might be auditing someone who is using manual calculations or has faulty software or must have ability to record incomplete data and the calculation might be wrong originally and as audit company you must record the fact as it happened.
So, semantics (predicates) which are determined by requirements will influence if any of the normal forms are broken - by influencing functional dependencies (in another words correctly establishing functional dependencies is quite important part of modelling when you strive for normalized database).