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I really need to see some honest, thoughtful debate on the merits of the currently accepted enterprise application design paradigm.
I am not convinced that entity objects should exist.
By entity objects I mean the typical things we tend to build for our applications, like "Person", "Account", "Order", etc.
My current design philosophy is this:
All database access must be accomplished via stored procedures.
Whenever you need data, call a stored procedure and iterate over a SqlDataReader or the rows in a DataTable
(Note: I have also built enterprise applications with Java EE, java folks please substitute the equvalent for my .NET examples)
I am not anti-OO. I write lots of classes for different purposes, just not entities. I will admit that a large portion of the classes I write are static helper classes.
I am not building toys. I'm talking about large, high volume transactional applications deployed across multiple machines. Web applications, windows services, web services, b2b interaction, you name it.
I have used OR Mappers. I have written a few. I have used the Java EE stack, CSLA, and a few other equivalents. I have not only used them but actively developed and maintained these applications in production environments.
I have come to the battle-tested conclusion that entity objects are getting in our way, and our lives would be so much easier without them.
Consider this simple example: you get a support call about a certain page in your application that is not working correctly, maybe one of the fields is not being persisted like it should be. With my model, the developer assigned to find the problem opens exactly 3 files. An ASPX, an ASPX.CS and a SQL file with the stored procedure. The problem, which might be a missing parameter to the stored procedure call, takes minutes to solve. But with any entity model, you will invariably fire up the debugger, start stepping through code, and you may end up with 15-20 files open in Visual Studio. By the time you step down to the bottom of the stack, you forgot where you started. We can only keep so many things in our heads at one time. Software is incredibly complex without adding any unnecessary layers.
Development complexity and troubleshooting are just one side of my gripe.
Now let's talk about scalability.
Do developers realize that each and every time they write or modify any code that interacts with the database, they need to do a throrough analysis of the exact impact on the database? And not just the development copy, I mean a mimic of production, so you can see that the additional column you now require for your object just invalidated the current query plan and a report that was running in 1 second will now take 2 minutes, just because you added a single column to the select list? And it turns out that the index you now require is so big that the DBA is going to have to modify the physical layout of your files?
If you let people get too far away from the physical data store with an abstraction, they will create havoc with an application that needs to scale.
I am not a zealot. I can be convinced if I am wrong, and maybe I am, since there is such a strong push towards Linq to Sql, ADO.NET EF, Hibernate, Java EE, etc. Please think through your responses, if I am missing something I really want to know what it is, and why I should change my thinking.
[Edit]
It looks like this question is suddenly active again, so now that we have the new comment feature I have commented directly on several answers. Thanks for the replies, I think this is a healthy discussion.
I probably should have been more clear that I am talking about enterprise applications. I really can't comment on, say, a game that's running on someone's desktop, or a mobile app.
One thing I have to put up here at the top in response to several similar answers: orthogonality and separation of concerns often get cited as reasons to go entity/ORM. Stored procedures, to me, are the best example of separation of concerns that I can think of. If you disallow all other access to the database, other than via stored procedures, you could in theory redesign your entire data model and not break any code, so long as you maintained the inputs and outputs of the stored procedures. They are a perfect example of programming by contract (just so long as you avoid "select *" and document the result sets).
Ask someone who's been in the industry for a long time and has worked with long-lived applications: how many application and UI layers have come and gone while a database has lived on? How hard is it to tune and refactor a database when there are 4 or 5 different persistence layers generating SQL to get at the data? You can't change anything! ORMs or any code that generates SQL lock your database in stone.
I think it comes down to how complicated the "logic" of the application is, and where you have implemented it. If all your logic is in stored procedures, and all your application does is call those procedures and display the results, then developing entity objects is indeed a waste of time. But for an application where the objects have rich interactions with one another, and the database is just a persistence mechanism, there can be value to having those objects.
So, I'd say there is no one-size-fits-all answer. Developers do need to be aware that, sometimes, trying to be too OO can cause more problems than it solves.
Theory says that highly cohesive, loosely coupled implementations are the way forward.
So I suppose you are questioning that approach, namely separating concerns.
Should my aspx.cs file be interacting with the database, calling a sproc, and understanding IDataReader?
In a team environment, especially where you have less technical people dealing with the aspx portion of the application, I don't need these people being able to "touch" this stuff.
Separating my domain from my database protects me from structural changes in the database, surely a good thing? Sure database efficacy is absolutely important, so let someone who is most excellent at that stuff deal with that stuff, in one place, with as little impact on the rest of the system as possible.
Unless I am misunderstanding your approach, one structural change in the database could have a large impact area with the surface of your application. I see that this separation of concerns enables me and my team to minimise this. Also any new member of the team should understand this approach better.
Also, your approach seems to advocate the business logic of your application to reside in your database? This feels wrong to me, SQL is really good at querying data, and not, imho, expressing business logic.
Interesting thought though, although it feels one step away from SQL in the aspx, which from my bad old unstructured asp days, fills me with dread.
One reason - separating your domain model from your database model.
What I do is use Test Driven Development so I write my UI and Model layers first and the Data layer is mocked, so the UI and model is build around domain specific objects, then later I map these objects to what ever technology I'm using the the Data Layer. Its a bad idea to let the database structure determine the design of your application. Where possible write the app first and let that influence the structure of your database, not the other way around.
For me it boils down to I don't want my application to be concerned with how the data is stored. I'll probably get slapped for saying this...but your application is not your data, data is an artifact of the application. I want my application to be thinking in terms of Customers, Orders and Items, not a technology like DataSets, DataTables and DataRows...cuz who knows how long those will be around.
I agree that there is always a certain amount of coupling, but I prefer that coupling to reach upwards rather than downwards. I can tweak the limbs and leaves of a tree easier than I can alter it's trunk.
I tend to reserve sprocs for reporting as the queries do tend to get a little nastier than the applications general data access.
I also tend to think with proper unit testing early on that scenario's like that one column not being persisted is likely not to be a problem.
Eric,
You are dead on. For any really scalable / easily maintained / robust application the only real answer is to dispense with all the garbage and stick to the basics.
I've followed a similiar trajectory with my career and have come to the same conclusions. Of course, we're considered heretics and looked at funny. But my stuff works and works well.
Every line of code should be looked at with suspicion.
I would like to answer with an example similar to the one you proposed.
On my company I had to build a simple CRUD section for products, I build all my entities and a separate DAL. Later another developer had to change a related table and he even renamed several fields. The only file I had to change to update my form was the DAL for that table.
What (in my opinion) entities brings to a project is:
Ortogonality: Changes in one layer might not affect other layers (off course if you make a huge change on the database it would ripple through all the layers but most small changes won't).
Testability: You can test your logic with out touching your database. This increases performance on your tests (allowing you to run them more frequently).
Separation of concerns: In a big product you can assign the database to a DBA and he can optimize the hell out of it. Assign the Model to a business expert that has the knowledge necessary to design it. Assign individual forms to developers more experienced on webforms etc..
Finally I would like to add that most ORM mappers support stored procedures since that's what you are using.
Cheers.
I think you may be "biting off more than you can chew" on this topic. Ted Neward was not being flippant when he called it the "Vietnam of Computer Science".
One thing I can absolutely guarantee you is that it will change nobody's point of view on the matter, as has been proven so often on innumerable other blogs, forums, podcasts etc.
It's certainly ok to have open disucssion and debate about a controversial topic, it's just this one has been done so many times that both "sides" have agreed to disagree and just got on with writing software.
If you want to do some further reading on both sides, see articles on Ted's blog, Ayende Rahein, Jimmy Nilson, Scott Bellware, Alt.Net, Stephen Forte, Eric Evans etc.
#Dan, sorry, that's not the kind of thing I'm looking for. I know the theory. Your statement "is a very bad idea" is not backed up by a real example. We are trying to develop software in less time, with less people, with less mistakes, and we want the ability to easily make changes. Your multi-layer model, in my experience, is a negative in all of the above categories. Especially with regards to making the data model the last thing you do. The physical data model must be an important consideration from day 1.
I found your question really interesting.
Usually I need entities objects to encapsulate the business logic of an application. It would be really complicated and inadequate to push this logic into the data layer.
What would you do to avoid these entities objects? What solution do you have in mind?
Entity Objects can facilitate cacheing on the application layer. Good luck caching a datareader.
We should also talk about the notion what entities really are.
When I read through this discussion, I get the impression that most people here are looking at entities in the sense of an Anemic Domain Model.
A lot of people are considering the Anemic Domain Model as an antipattern!
There is value in rich domain models. That is what Domain Driven Design is all about.
I personally believe that OO is a way to conquer complexity. This means not only technical complexity (like data-access, ui-binding, security ...) but also complexity in the business domain!
If we can apply OO techniques to analyze, model, design and implement our business problems, this is a tremendous advantage for maintainability and extensibility of non-trivial applications!
There are differences between your entities and your tables. Entities should represent your model, tables just represent the data-aspect of your model!
It is true that data lives longer than apps, but consider this quote from David Laribee: Models are forever ... data is a happy side effect.
Some more links on this topic:
Why Setters and Getters are evil
Return of pure OO
POJO vs. NOJO
Super Models Part 2
TDD, Mocks and Design
Really interesting question. Honestly I can not prove why entities are good. But I can share my opinion why I like them. Code like
void exportOrder(Order order, String fileName){...};
is not concerned where order came from - from DB, from web request, from unit test, etc. It makes this method more explicitly declare what exactly it requires, instead of taking DataRow and documenting which columns it expects to have and which types they should be. Same applies if you implement it somehow as stored procedure - you still need to push record id to it, while it not necessary should be present in DB.
Implementation of this method would be done based on Order abstraction, not based on how exactly it is presented in DB. Most of such operations which I implemented really do not depend on how this data is stored. I do understand that some operations require coupling with DB structure for perfomance and scalability purposes, just in my experience there are not too much of them. In my experience very often it is enough to know that Person has .getFirstName() returning String, and .getAddress() returning Address, and address has .getZipCode(), etc - and do not care which tables are involed to store that data.
If you have to deal with such problems as you described, like when additional column breaks report perfomance, then for your tasks DB is a critical part, and you indeed should be as close as possible to it. While entities can provide some convenient abstractions they can hide some important details as well.
Scalability is interesting point here - most of websites which require enormous scalability (like facebook, livejournal, flickr) tend to use DB-ascetic approach, when DB is used as rare as possible and scalability issues are solved by caching, especially by RAM usage. http://highscalability.com/ has some interesting articles on it.
There are other good reasons for entity objects besides abstraction and loose coupling. One of the things I like most is the strong typing that you can't get with a DataReader or a DataTable. Another reason is that when done well, proper entity classes can make the code more maintanable by using first-class constructs for domain-specific terms that anyone looking at the code is likely to understand rather than a bunch of strings with field names in them used for indexing a DataRow. Stored procedures are really orthogonal to the use of an ORM since a lot of mapping frameworks give you the ability to map to sprocs.
I wouldn't consider sprocs + datareaders a substitute for a good ORM. With stored procedures, you're still constrained by, and tightly-coupled to, the procedure's type signature, which uses a different type system than the calling code. Stored procedures can be subject to modification to acommodate additional options and schema changes. An alternative to stored procedures in the case where the schema is subject to change is to use views--you can map objects to views and then re-map views to the underlying tables when you change them.
I can understand your aversion to ORMs if your experience mainly consists of Java EE and CSLA. You might want to have a look at LINQ to SQL, which is a very lightweight framework and is primarily a one-to-one mapping with the database tables but usually only needs minor extension for them to be full-blown business objects. LINQ to SQL can also map input and output objects to stored procedures' paramaters and results.
The ADO.NET Entity framework has the added advantage that your database tables can be viewed as entity classes inheriting from each other, or as columns from multiple tables aggregated into a single entity. If you need to change the schema, you can change the mapping from the conceptual model to the storage schema without changing the actual application code. And again, stored procedures can be used here.
I think that more IT projects in enterprises fail because of unmaintainability of the code or poor developer productivity (which can happen from, e.g., context switching between sproc-writing and app-writing) than scalability problems of an application.
I would also like to add to Dan's answer that separating both models could enable your application to be run on different database servers or even database models.
What if you need to scale your app by load balancing more than one web server? You could install the full app on all web servers, but a better solution is to have the web servers talk to an application server.
But if there aren't any entity objects, they won't have very much to talk about.
I'm not saying that you shouldn't write monoliths if its a simple, internal, short life application. But as soon as it gets moderately complex, or it should last a significant amount of time, you really need to think about a good design.
This saves time when it comes to maintaining it.
By splitting application logic from presentation logic and data access, and by passing DTOs between them, you decouple them. Allowing them to change independently.
You might find this post on comp.object interesting.
I'm not claiming to agree or disagree but it's interesting and (I think) relevant to this topic.
A question: How do you handle disconnected applications if all your business logic is trapped in the database?
In the type of Enterprise application I'm interested in, we have to deal with multiple sites, some of them must be able to function in a disconnected state.
If your business logic is encapsulated in a Domain layer that is simple to incorporate into various application types -say, as a dll- then I can build applications that are aware of the business rules and are able, when necessary, to apply them locally.
In keeping the Domain layer in stored procedures on the database you have to stick with a single type of application that needs a permanent line-of-sight to the database.
It's ok for a certain class of environments, but it certainly doesn't cover the whole spectrum of Enterprise applications.
#jdecuyper, one maxim I repeat to myself often is "if your business logic is not in your database, it is only a recommendation". I think Paul Nielson said that in one of his books. Application layers and UI come and go, but data usually lives for a very long time.
How do I avoid entity objects? Stored procedures mostly. I also freely admit that business logic tends to reach through all layers in an application whether you intend it to or not. A certain amount of coupling is inherent and unavoidable.
I have been thinking about this same thing a lot lately; I was a heavy user of CSLA for a while, and I love the purity of saying that "all of your business logic (or at least as much as is reasonably possible) is encapsulated in business entities".
I have seen the business entity model provide a lot of value in cases where the design of the database is different than the way you work with the data, which is the case in a lot of business software.
For example, the idea of a "customer" may consist of a main record in a Customer table, combined with all of the orders the customer has placed, as well as all the customer's employees and their contact information, and some of the properties of a customer and its children may be determined from lookup tables. It's really nice from a development standpoint to be able to work with the Customer as a single entity, since from a business perspective, the concept of Customer contains all of these things, and the relationships may or may not be enforced in the database.
While I appreciate the quote that "if your business rule is not in your database, it's only a suggestion", I also believe that you shouldn't design the database to enforce business rules, you should design it to be efficient, fast and normalized.
That said, as others have noted above, there is no "perfect design", the tool has to fit the job. But using business entities can really help with maintenance and productivity, since you know where to go to modify business logic, and objects can model real-world concepts in an intuitive way.
Eric,
No one is stopping you from choosing the framework/approach that you would wish. If you are going to go the "data driven/stored procedure-powered" path, then by all means, go for it! Especially if it really, really helps you deliver your applications on-spec and on-time.
The caveat being (a flipside to your question that is), ALL of your business rules should be on stored procedures, and your application is nothing more than a thin client.
That being said, same rules apply if you do your application in OOP : be consistent. Follow OOP's tenets, and that includes creating entity objects to represent your domain models.
The only real rule here is the word consistency. Nobody is stopping you from going DB-centric. No one is stopping you from doing old-school structured (aka, functional/procedural) programs. Hell, no one is stopping anybody from doing COBOL-style code. BUT an application has to be very, very consistent once going down this path, if it wishes to attain any degree of success.
I'm really not sure what you consider "Enterprise Applications". But I'm getting the impression you are defining it as an Internal Application where the RDBMS would be set in stone and the system wouldn't have to be interoperable with any other systems whether internal or external.
But what if you had a database with 100 tables which equate to 4 Stored Procedures for each table just for basic CRUD operations that's 400 stored procedures which need to be maintained and aren't strongly-typed so are susceptible to typos nor can be Unit Tested. What happens when you get a new CTO who is an Open Source Evangelist and wants to change the RDBMS from SQL Server to MySql?
A lot of software today whether Enterprise Applications or Products are using SOA and have some requirements for exposing Web Services, at least the software I am and have been involved with do.
Using your approach you would end up exposing a Serialized DataTable or DataRows. Now this may be deemed acceptable if the Client is guaranteed to be .NET and on an internal network. But when the Client is not known then you should be striving to Design an API which is intuitive and in most cases you would not want to be exposing the Full Database schema.
I certainly wouldn't want to explain to a Java developer what a DataTable is and how to use it. There's also the consideration of Bandwith and payload size and serialized DataTables, DataSets are very heavy.
There is no silver bullet with software design and it really depends on where the priorities lie, for me it's in Unit Testable code and loosely coupled components that can be easily consumed be any client.
just my 2 cents
I'd like to offer another angle to the problem of distance between OO and RDB: history.
Any software has a model of reality that is to some degree an abstraction of reality. No computer program can capture all the complexities of reality, and programs are written just to solve a set of problems from reality. Therefore any software model is a reduction of reality. Sometimes the software model forces reality to reduce itself. Like when you want the car rental company to reserve any car for you as long as it is blue and has alloys, but the operator can't comply because your request won't fit in the computer.
RDB comes from a very old tradition of putting information into tables, called accounting. Accounting was done on paper, then on punch cards, then in computers. But accounting is already a reduction of reality. Accounting has forced people to follow its system so long that it has become accepted reality. That's why it is relatively easy to make computer software for accounting, accounting has had its information model, long before the computer came along.
Given the importance of good accounting systems, and the acceptance you get from any business managers, these systems have become very advanced. The database foundations are now very solid and noone hesitates about keeping vital data in something so trustworthy.
I guess that OO must have come along when people have found that other aspects of reality are harder to model than accounting (which is already a model). OO has become a very successful idea, but persistance of OO data is relatively underdeveloped. RDB/Accounting has had easy wins, but OO is a much larger field (basically everything that isn't accounting).
So many of us have wanted to use OO but we still want safe storage of our data. What can be safer than to store our data the same way as the esteemed accounting system does? It is an enticing prospects, but we all run into the same pitfalls. Very few have taken the trouble to think of OO persistence compared to the massive efforts by the RDB industry, who has had the benefit of accounting's tradition and position.
Prevayler and db4o are some suggestions, I'm sure there are others I haven't heard of, but none have seemed to get half the press as, say, hibernation.
Storing your objects in good old files doesn't even seem to be taken seriously for multiuser applications, and especially web applications.
In my everyday struggle to close the chasm between OO and RDB I use OO as much as possible but try to keep inheritance to a minimum. I don't often use SPs. I'll use the advanced query stuff only in aspects that look like accounting.
I'll be happily supprised when the chasm is closed for good. I think the solution will come when Oracle launches something like "Oracle Object Instance Base". To really catch on, it will have to have a reassuring name.
Not a lot of time at the moment, but just off the top of my head...
The entity model lets you give a consistent interface to the database (and other possible systems) even beyond what a stored procedure interface can do. By using enterprise-wide business models you can make sure that all applications affect the data consistently which is a VERY important thing. Otherwise you end up with bad data, which is just plain evil.
If you only have one application then you don't really have an "enterprise" system, regardless of how big that application or your data are. In that case you can use an approach similar to what you talk about. Just be aware of the work that will be needed if you decide to grow your systems in the future.
Here are a few things that you should keep in mind (IMO) though:
Generated SQL code is bad
(exceptions to follow). Sorry, I
know that a lot of people think that
it's a huge time saver, but I've
never found a system that could
generate more efficient code than
what I could write and often the
code is just plain horrible. You
also often end up generating a ton
of SQL code that never gets used.
The exception here is very simple
patterns, like maybe lookup tables.
A lot of people get carried away on
it though.
Entities <> Tables (or even logical data model entities necessarily). A data model often has data rules that should be enforced as closely to the database as possible which can include rules around how table rows relate to each other or other similar rules that are too complex for declarative RI. These should be handled in stored procedures. If all of your stored procedures are simple CRUD procs, you can't do that. On top of that, the CRUD model usually creates performance issues because it doesn't minimize round trips across the network to the database. That's often the biggest bottleneck in an enterprise application.
Sometimes, your application and data layer are not that tightly coupled. For example, you may have a telephone billing application. You later create a separate application which monitors phone usage to a) better advertise to you b) optimise your phone plan.
These applications have different concerns and data requirements (even the data is coming out of the same database), they would drive different designs. Your code base can end up an absolute mess (in either application) and a nightmare to maintain if you let the database drive the code.
Applications that have domain logic separated from the data storage logic are adaptable to any kind of data source (database or otherwise) or UI (web or windows(or linux etc.)) application.
Your pretty much stuck in your database, which isn't bad if your with a company who is satisfied with the current database system your using. However, because databases evolve overtime there might be a new database system that is really neat and new that your company wants to use. What if they wanted to switch to a web services method of data access (like Service Orientated architecture sometime does). You might have to port your stored procedures all over the place.
Also the domain logic abstracts away the UI, which can be more important in large complex systems that have ever evolving UIs (especially when they are constantly searching for more customers).
Also, while I agree that there is no definitive answer to the question of stored procedures versus domain logic. I'm in the domain logic camp (and I think they are winning over time), because I believe that elaborate stored procedures are harder to maintain than elaborate domain logic. But that's a whole other debate
I think that you are just used to writing a specific kind of application, and solving a certain kind of problem. You seem to be attacking this from a "database first" perspective. There are lots of developers out there where data is persisted to a DB but performance is not a top priority. In lots of cases putting an abstraction over the persistence layer simplifies code greatly and the performance cost is a non-issue.
Whatever you are doing, it's not OOP. It's not wrong, it's just not OOP, and it doesn't make sense to apply your solutions to every othe problem out there.
Interesting question. A couple thoughts:
How would you unit test if all of your business logic was in your database?
Wouldn't changes to your database structure, specifically ones that affect several pages in your app, be a major hassle to change throughout the app?
Good Question!
One approach I rather like is to create an iterator/generator object that emits instances of objects that are relevant to a specific context. Usually this object wraps some underlying database access stuff, but I don't need to know that when using it.
For example,
An AnswerIterator object generates AnswerIterator.Answer objects. Under the hood it's iterating over a SQL Statement to fetch all the answers, and another SQL statement to fetch all related comments. But when using the iterator I just use the Answer object that has the minimum properties for this context. With a little bit of skeleton code this becomes almost trivial to do.
I've found that this works well when I have a huge dataset to work on, and when done right, it gives me small, transient objects that are relatively easy to test.
It's basically a thin veneer over the Database Access stuff, but it still gives me the flexibility of abstracting it when I need to.
The objects in my apps tend to relate one-to-one to the database, but I'm finding using Linq To Sql rather than sprocs makes it much easier writing complicated queries, especially being able to build them up using the deferred execution. e.g. from r in Images.User.Ratings where etc. This saves me trying to work out several join statements in sql, and having Skip & Take for paging also simplifies the code rather than having to embed the row_number & 'over' code.
Why stop at entity objects? If you don't see the value with entity objects in an enterprise level app, then just do your data access in a purely functional/procedural language and wire it up to a UI. Why not just cut out all the OO "fluff"?
Related
In OOD, design of an object is said to be characterized by its identity and behavior.
Having used ORM's in the past, the primary purpose, in my opinion, revolves around the ability to store/retrieve data. That is to say, ORM objects are not design by behavior, but rather data (i.e. database tables). Case and point: Many ORM tools come with a point-to-a-database-table-and-click-object-generator.
If objects are no longer characterized by behavior this will, in my opinion, muddy the identity and responsibility of the objects. Subsequently, if objects are not defined by a responsibility this could lend a hand to having tightly coupled classes and overall poor design.
Furthermore, I would think that in an application setting, you would be heading towards scalability issues.
So, my question is, do you think that ORM's are counterproductive to OO design? Perhaps the underlying question would be whether or not they are counterproductive to application development.
There's a well-known and oft-ignored impedance mismatch between the requirements of good database design and the requirements of good OO design. Most developers (in my experience) either do not understand this impedance mismatch or do not care. Since it's more common to start with the database and generate the objects from it (rather than the reverse), then yes, you'll end up with objects that are great as a persistence layer but sub-optimal from an OO perspective. (The reverse, generating the database from the object model, makes me want to stab my eyes out.)
Why are they sub-optimal from an OO perspective? Because the objects produced by an ORM are not business objects, even with partial classes and the like. Business objects model behavior. ORM objects model persistence. I'm not going to spend ten paragraphs arguing this distinction. It's something Rocky Lhotka has covered quite well in his books on Business Objects and his CSLA framework. Whether or not you like or use CSLA, I think his arguments are solid ones.
If objects are no longer characterized by behavior this will, in my opinion, muddy the
identity and responsibility of the objects.
The objects in question do have database reading and writing as defined behavior. They just don't have much other than that.
The reality of the situation is pretty simple: object orientation isn't an end in itself, it's a means to an end -- but in some cases it just doesn't do much to improve the end result. A lot of uses for ORM form a case in point -- they are thousands of variations of CRUD applications that don't need or want to attach any real behavior to most of the data they process.
The application as a whole gains flexibility by not encoding much (if any) of the data's "behavior" into the code of the application itself. Instead, they're often better off with that as "dumb" data, that they simply pass through from UI to database and back out to reports and such. With a bit of care, this can allow a substantial level of user customization that's almost impossible to match when you try to treat the data as real objects with real behavior encoded into the application proper.
Of course, there's another side to that: it can make it substantially more difficult to ensure the integrity of the data or that the data is only used appropriately -- I've seen code that accidentally used the wrong field in a calculation, so they were averaging the office numbers instead of office sizes in square feet. Both were user-defined fields that just said the contents should be numeric. The application had no way to know that one made perfect sense, and the other didn't at all.
Case and point: Many OR/M tools come with a point-to-a-database-table-and-click-object-generator.
Yes but there are equal, if not greater numbers or ORM solutions that base themselves off your objects and generate your database tables.
If you start with data and then tramp down forcing auto-generated objects to have object behaviours, yes, you might get confused... But if you start with the object and generate the database as a secondary layer, you end up with something a lot more usable, even if the database isn't perhaps as optimised as it could be.
If you're looking for an excuse not to use ORM, don't use it. I personally find it saves me thousands of lines of code doing trivial things that the ORM does just great.
I don't believe ORM are counterproductive to OO design, unless you want to insist that persistence is an integral part of behavior.
I'd separate persistence from business behavior. You're certainly free to add busines behavior to any object that an ORM generates for you.
I've also seen ORM systems which tend to go from the OO model and generate the database.
If anything, I would say ORMs are more biased towards producing good OO code than they are to producing good database code.
Ideally, a successful ORM bridges the two worlds and your application code would be great from a business domain problem-solving and implementation perspective and your database code and model would be great from a normalization, performance and ETL/reporting/replication whatever perspective.
On systems where it separates your data from behavior it's absolutely counterproductive.
Orm systems tend to analyze existing database tables to create stupid "Objects" in your language. These things are not true objects because they do not contain business behavior, but since people have these structures, they tend to want to use them.
Ruby on Rails (Active Record) actually binds your data to a "Live" class--this is much better.
I've never seen a system I really liked--ActiveRecord is close but it makes a few rubiesque assumptions that I'm not quite comfortable with--the biggest being supplying public setters & getters by default.
But to sum up--I've seen a lot of good OO programmers write screwed up code because of ORM.
As with most questions of this type, it depends on your usage.
The main ways to use ORM tools are:
Define object by data, use this object throughout application code (BAD BAD BAD)
Use ORM objects only for data access, define your own objects with an interpretive layer between (Much Better)
If starting from scratch a 3rd method is to design data from your object model. (Best if possible)
So yes, if you define the object by the data tables and use that throughout your code you will not be using OOD and introducing very poor design and maintenance issues.
But if you only use the ORM objects as a data access tool (replacing ADO) then you are free to use good OOD and ORM together. Sure, more code is required to build the interpretation layer, but enables much better practices, with not much more code required than old ADO code.
I'm answering this from a C# perspective, since that is where I do the majority of my development....
I see your point, but I think with the ability to create partial classes you can still create objects with any behavior you like and still get the power that an OR/M brings to the table for data retrieval.
From what I've seen of ORMs they do not go against OO principles - fairly orthogonal to them in fact. (for info - pretty new to ORM technology, Java perspective)
My reasoning is that ORMs help you store the data members of a class to a persistent store without having to couple to that store and write that code yourself. You still decide on the data members and write the behaviours of a class.
I guess you could abuse ORMs to break OO principles, but then you can do that with anything. You might use tooling to create skeletal data classes from a pre-existing table, but you would still create methods etc.
I am really torn right now between using O/R mappers or just sticking to traditional data access. For some reason, every time I bring up O/R mappers, fellow developers cringe and speak about performance issues or how they're just bad in general. What am I missing here? I'm looking at LINQ to SQL and Microsoft Entity Framework. Is there any basis to any of these claims? What kind of things do I have to compromise if I want to use an O/R mapper. Thanks.
This will seem like an unrelated answer at first, but: one of my side interests is WWII-era fighter planes. All of the combatant nations (US, Great Britain, Germany, USSR, Japan etc.) built a bunch of different fighters during the war. Some of them used radial engines (P47, Corsair, FW-190, Zero); some used inline liquid-cooled engines (Bf-109, Mustang, Yak-7, Spitfire); and some used two engines instead of one (P38, Do-335). Some used machine guns, some used cannons, and some used both. Some were even made out of plywood, if you can imagine.
In the end, they all went really really fast, and in the hands of a competent, experienced pilot, they would shoot your rookie ass down in a heartbeat. I don't imagine many pilots flew around thinking "oh, that idiot is flying something with a radial engine - I don't have to worry about him at all". Everyone understood that there were many different ways of achieving the ultimate goal, and each approach had its particular advantages and disadvantages, depending on the circumstances.
The debate between ORM and traditional data access is just like this, and it behooves any programmer to become competent with both approaches, and choose the option that is right for the job at hand.
I struggled with this decision for a long time. I think I was hesitant for two primary reasons. First, O/R mappers represented a lack of control over what was happening in a critical part of the app and, second, because so many times I've been disappointed by solutions that are awesome for the 90% case but miserable for the last 10%. Everything works for select * from authors, of course, but when you crank up the complexity and have a high-volume, critical system and your career is on the line, you feel you need to have complete control to tune every query pattern and byte over the wire. Most developers, including me, get frustrated the first time the tool fails us, and we cannot do what we need to do, or our need deviates from the established pattern supported by the tool. I'll probably get flamed for mentioning specific flaws in tools, so I'll leave it at that.
Fortunately, Anderson Imes finally convinced me to try CodeSmith with the netTiers template. (No, I don't work for them.) After more than a year using this, I can't believe we didn't do it sooner. My team uses Visual Studio DB Pro, and on every check-in our continuous integration build drops out a new set of data access layer assemblies. This handles all the common, low risk stuff automatically, yet we can still write custom sprocs for the tricky bits and have them included as methods on the generated classes, and we can customize the templates for the generated code as well. I highly recommend this approach. There may be other tools that allow this level of control as well, and there is a newer CodeSmith template called PLINQO that uses LINQ to SQL under the hood. We haven't that yet examined (haven't needed to), but this overall approach has a lot of merit.
Jerry
O/RM tools designed to perform very well in most situations. It will cache entities for you, it will execute queries in bulks, it has a very low level optimised access to objects which is way faster than manually assigning values to properties, they give you a very easy way to incorporate variations of aspect oriented programming using modern technics like interceptors, it will manage entity state for you and help resolve conflicts and many more.
Now cons of this approach usually lies in lack of understanding of how things work on a very low level. Most classic problem is "SELECT N+1" (link).
I've been working with NHibernate for 2.5 years now, and I'm still discovering something new about it almost on a daily basis...
Good. In most cases.
The productivity benefit of using an ORM, will in most case outweigh the loss of control over how the data is accessed.
There are not that many who would avoid C#, in order to program is MSIL or Assembly, although that would give them more control.
The problem that i see with a lot of OR mappers is that you get bloated domain objects, which are usually highly coupled with the rest of your data access framework. Our developers cringe at that as well :) It's just harder to port these object to another data access technology. If you use L2S, you can take a look at the generated code. It looks like a complete mess. NHibernate is probably one of the best at this. Your entities are completely unaware of your data access layer, if you design them right.
It really depends on the situation.
I went from a company that used a tweaked out ORM to a company that did not use a ORM and wrote SQL queries all the time. When I asked about using an ORM to simplify the code, I got that blank look in the face followed by all the negatives of it:
Its High Bloat
you don't have fine control over your queries and execute unnecessary ones
there is a heavy object to table mapping
its not dry code because you have to repeat your self
on an on
Well, after working there for a few weeks, I had noticed that:
we had several queries that were almost identical, and alot of times if there was a bug, only a handful would get fixed
instead of caching common tables queries, we would end up reading a table multiple times.
We were repeating our selves all over the place
We had several levels of skill level, so some queries were not written the most efficiently.
After I pointed most of this out, they wrote a "DBO" because the didn't want to call it an ORM. They decided to write one from scratch instead of tweaking out one.
Also, alot of the arguments come from ignorance against ORM's I feel. Every ORM that I have seen allows for custom queries, and even following the ORM's conventions, you can write very complex and detailed queries and normally are more human readable. Also, they tend to be very DRY, You give them your schema, and they figure the rest out, down to relationship mapping.
Modern ORM's have a lot of tools to help you out, like migration scripts, multiple DB types accessed to the same objects so you can leverage advantages of both NOSQL and SQL DB's. But you have to pick the right ORM for your project if your going to use one.
I first got into ORM mapping and Data Access Layers from reading Rockford Lhotka's book, C# business objects. He's spent years working on a framework for DAL's. While his framework out of the box is quite bloated and in some cases, overkill, he has some excellent ideas. I highly recommend the book for anyone looking at ORM mappers. I was influenced by his book enough to take away a lot of his ideas and build them into my own framework and code generation.
There is no simple answer to this since each ORM provider will have it's own particular pluses and minuses. Some ORM solutions are more flexible than others. The onus is on the developer to understand these before using one.
However, take LinqToSql - if you are sure you are not going to need to switch away from SQL Server then this solves a lot of the common problems seen in ORM mappers. It allows you to easily add stored procedures (as static methods), so you aren't just limited to generated SQL. It uses deferred execution, so that you can chain queries together efficiently. It uses partial classes to allow you to easily add custom logic to generated classes without needing to worry about what happens when you re-generate them. There is also nothing stopping you using LINQ to create your own, abstracted DAL - it just speeds up the process. The main, thing, though is that it alleviates the tedium and time required to create basic CRUD layer.
But there are downsides, too. There will be a tight coupling between your tables and classes, there will be a slight performance drop, you may occasionally generate queries that are not as efficient as you expected. And you are tied in to SQL Server (though some other ORM technlogies are database agnostic).
As I said, the main thing is to be aware of the pros and cons before pinning your colours to a particular methodology.
I've seen a trend to move business logic out of the data access layer (stored procedures, LINQ, etc.) and into a business logic component layer (like C# objects).
Is this considered the "right" way to do things these days? If so, does this mean that some database developer positions may be eliminated in favor of more middle-tier coding positions? (i.e. more c# code rather than more long stored procedures.)
If the applications is small with a short lifetime, then it's not worth putting time into abstracting the concerns in layers. In larger, long lived applications your logic/business rules should not be coupled to the data access. It creates a maintenance nightmare as the application grows.
Moving concerns to a common layer or also known as Separation of concerns, has been around for a while:
Wikipedia
The term separation of concerns was
probably coined by Edsger W. Dijkstra
in his 1974 paper "On the role of
scientific thought"1.
For Application Architecture a great book to start with is Domain Driven Design. Eric Evans breaks down the different layers of the application in detail. He also discusses the database impedance and what he calls a "Bounded Context"
Bounded Context
A blog is a system that displays posts from newest to oldest so that people can comment on. Some would view this as one system, or one "Bounded Context." If you subscribe to DDD, one would say there are two systems or two "Bounded Contexts" in a blog: A commenting system and a publication system. DDD argues that each system is independent (of course there will be interaction between the two) and should be modeled as such. DDD gives concrete guidance on how to separate the concerns into the appropriate layers.
Other resources that might interest you:
Domain Driven Design Quickly
Applying Domain Driven Design and
Patterns
Clean Code
Working Effectively with Legacy
Code
Refactor
Until I had a chance to experience The Big Ball of Mud or Spaghetti Code I had a hard time understanding why Application Architecture was so important...
The right way to do things will always to be dependent on the size, availability requirements and lifespan of your application. To use stored procs or not to use stored procs... Tools such as nHibrnate and Linq to SQL are great for small to mid-size projects. To make myself clear, I've never used nHibranate or Linq To Sql on a large application, but my gut feeling is an application will reach a size where optimizations will need to be done on the database server via views, Stored Procedures.. etc to keep the application performant. To do this work Developers with both Development and Database skills will be needed.
Data access logic belongs in the data access layer, business logic belongs in the business layer. I don't see how mixing the two could ever be considered a good idea from a design standpoint.
Separation of layers does not automatically mean not using stored procedures for business logic. This separation is equally possible:
Presentation Layer: .Net, PHP, whatever
Business Layer: Stored Procedures
Data Layer: Stored Procedures or DML
This works very well with Oracle, for example, where the business layer may be implemented in packages in a different schema from the data layer (to enforce proper separation of concerns).
What matters is the separation of concerns, not the language/technology used at each level.
(I expect to get roundly flamed for this heresy!)
The perfect world doesn't exist. It's about elegance versus what works better.
Executing complex SQL queries inside data access layers is much more performative than making a service to ask data many times and then merging and transforming them. When you make complex queries you are putting business logic in those queries.
It really depends on the requirements. Either way as long as it's NOT "behind the button" as it were. I think stored procedure are better for "classic" client server apps with changing needs. A strict middle "business logic" layer is better for apps that need to be very scalable, run on multiple database platforms, etc.
If you are building a layered architecture, and the architecture contains a dedicated business layer, then of course you should put business logic there. However, you can ask any five designers/architects/developers what 'business logic' actually is, and get six different answers. (Hey, I'm an architect myself, so I know all about 'on the one hand, but on the other'!). Is navigating an object graph part of the data layer or business layer? Depends on which EAA patterns you are using, and on exactly how complicated/clever your domain objects are. Or is it perhaps even part of your presentation?
But in more concrete terms: database development tools tend to lag behind Eclipse/Visual Studio/Netbeans/; and stored procedures have never been extremely comfortable for large-scale development. Yes, of course you can code everything in TSQL, PL/SQL &c, but there's a price to pay. What's more, the price of having several languages and platforms involved in one solution increases maintenance costs and delays. On the other hand, moving data access out of reach of DBA's can cause other headaches, especially with shared infrastructure environments with any kind of availability requirements. But overall, yes, modern tools and languages are currently moving logic from the data(base) layer into the application layer. We'll have to see how well it works out and scales.
The reason I've seen this trend is that LINQ and LINQ to SQL ORM give you a nice type-safe alternative to stored procedures.
What's "right" is whether you benefit from doing this personally.
Yes, business logic should be in the business logic layer. For me this is the biggest drawback of using store procedures for everything and thus moving some of the business rules to the db, I prefer to have that logic in the BLL in have the DLL only do communication with the db
It is ALWAYS a good idea to separate your layers. I can't tell you the number of times I've seen stored procedures that are VERY gnarly from lots of business logic written into the sproc. Also if you modify your complex stored procedure for whatever reason, you have the potential to break EVERYTHING that uses it.
Us devs at my company are moving to LINQ w/ the EF and dismissing the stored procedure unless we absolutely need it. LINQ and the EF make separating our layers a lot easier...when the EF is not being difficult. But that's another rant. :)
There will likely always be some level of business logic in the data layer. The data itself is a representation of some of that logic. For instance, primary keys are often created based on business logic rules.
For example, if your system won't allow an order to have more than one customer is part of the business logic, but it's also present (or should be) in the Data layer.
Further, some kinds of business rules are best done on the database itself for efficiency reasons. These are usually stored procedures, and thus exist in the data layer. An example might be a trigger that goes off if a customer has spent more than $X in a year, or if a ship-to is different from a bill-to.
Many of these rules might be handled in the business layer as well, but they also need a data layer component. It depends on where your error handling is.
Business logic in the data layer was common in client/server apps, as there really was no business logic layer per se (unless you could really, seriously prevent anyone from connecting to the database outside the application). Now that web apps are more common, you're seeing more 3- and 4-tier apps (client+web server+app server+database server), and more companies are following best practices and consolidating business logic in its own tier. I don't think there will be any less work for database developers, they'll probably just become the ones that write the business logic layer (and let an ORM tool write most of the database layer).
There are also technical reasons/limitations to be considered when planning where to author the business rules.
In most LOB applications centralization and performance pushes developers to use the database it self as the primary Business Layer, so in a sense, DAL and BL is mixed or unified.
A typical example would be the field that calculates the current location of a rental item, a piece of information that should be available for one or for many listed items, making an SQL view with a User Defined Function the most powerful candidate to hold the rule.
The above example is valid of course if a specific database design and processes implementation is preferred, but I just want to point out that in real world, we choose based on technical limitations and other principles, more often than we do for organizing our code.
I look around and see some great snippets of code for defining rules, validation, business objects (entities) and the like, but I have to admit to having never seen a great and well-written business layer in its entirety.
I'm left knowing what I don't like, but not knowing what a great one is.
Can anyone point out some good OO business layers (or great business objects) or let me know how they judge a business layer and what makes one great?
Thanks
I’ve never encountered a well written business layer.
Here is Alex Papadimoulis's take on this:
[...] If you think about it, virtually every line of code in a software
application is business logic:
The Customers database table, with
its CustomerNumber (CHAR-13),
ApprovedDate (DATETIME), and
SalesRepName (VARCHAR-35) columns:
business logic. If it wasn’t, it’d
just be Table032 with Column01,
Column02, and Column03.
The
subroutine that extends a ten-percent
discount to first time customers:
definitely business logic. And
hopefully, not soft-coded.
And
the code that highlights past-due
invoices in red: that’s business
logic, too. Internet Explorer
certainly doesn’t look for the strings
“unpaid” and “30+ days” and go, hey,
that sure would look good with a #990000 background!
So how then is possible to encapsulate all of this business logic
in a single layer of code? With
terrible architecture and bad code of
course!
[...] By implying that a system’s architecture should include a layer dedicated to business logic, many developers employ all sorts of horribly clever techniques to achieve that goal. And it always ends up in a disaster.
I imagine this is because business logic, as a general rule, is arbitrary and nasty. Garbage in, garbage out.
Also, most of the really good business layers are most probably proprietary. ;-)
Good business layers have been designed after a thorough domain analysis. If you can capture the business' semantics and isolate it from any kind of implementation, whether that be in data storage or any specific application (including presentation), then the logic should be well-factored and reusable in different contexts.
Just as a good database schema design should capture business semantics and isolate itself from any application, a business layer should do the same and even if a database schema and a business layer describe the same entities and concepts, the two should be usable in separate contexts--a database schema shouldn't have to change even when the business logic changes unless the schema doesn't reflect the current business. A business layer should work with any storage schema provided that it's abstracted via an intermdiate layer. For example, the ADO.NET Entity framework lets you design a conceptual schema which maps to the business layer and has a separate mapping to the storage schema which can be changed without recompiling the business object layer or conceptual layer.
If a person from the business side of things can look at code written with the business layer and have a rough idea of what's going on then it might be a good indication that the objects were designed right--you've succesfully conveyed a solution in the problem domain without obfuscating it with artifacts from the solution domain.
I've always been stuck between a rock and a hard place. Ideally, your business logic wouldn't be at all concerned with database or UI-related issues.
Keys Cause Problems
Still, I find things like primary and foreign keys causing problems. Even tools like Entity Framework don't completely eliminate this creep. It can be extremely inefficient to convert IDs passed as POST data into their respective objects, only to pass this to the business layer, which then passes them to the data layer to just be stripped down again.
Even NoSQL databases come with problems. They tend to return full object models, but they usually return more than you need and can lead to problems because you're assuming that object model won't change. And keys are still found in NoSQL databases.
Reuse vs. Overhead
There's also the issue of code reuse. It's pretty common for data layers to return fully populated objects, including every column in that particular table or tables. However, often business logic only cares about a limited subset of this information. It lends itself to specialized data transfer objects that only carry with them the relavent data. Of course, you need to convert between representations, so you create a mapper class. Then, when you save, you need to somehow convert these lesser objects back into the full database representation or do a partial UPDATE (meaning a another SQL command).
So, I see a lot of business layer classes accepting objects mapping directly to database tables (data transfer objects). I also see a lot of business layers accepting raw UI values (presentation objects), as well. It's also not unusual to see business layers calling out to the database mid-computation to retrieve needed data. To try to grab it up-front would probably be inefficient (think about how and if-statement can affect the data that gets retrieved) and lazy loaded values result in a lot of magic or unintended calls out to the database.
Write Your Logic First
Recently, I've been trying to write the "core" code first. This is the code that performs the actual business logic. I don't know about you, but many times when going over someone else's code, I ask the question, "But, where does it do [business rule]?" Often, the business logic is so crowded with concerns about grabbing data, transforming it and whatnot that I can't even see it (needle in a hay stack). So, now I implement the logic first and as I figure out what data I need, I add it as a parameter or add it to a parameter object. Getting the rest of the code to fit this new interface usually falls on a mediator class of some kind.
Like I said, though, you have to keep a lot in mind when writing business layers, including performance. The approach above has been useful lately because I don't have rights to version control or the database schema yet. I am working in a dark room with just my understanding of the requirements so far.
Write with Testing in Mind
Utiltizing dependency injection can be useful for designing a good architecture up-front. Try to think about how you would test your code without hitting a database or other service. This also lends itself to small, reusable classes that can run in multiple contexts.
Conclusion
My conclusion is that there really is no such thing as a perfect business layer. Even in the same application, there can be times when one approach only works 90% of the time. The best we can do is try to write the simplest thing that works. For the longest time I avoided DTOs and wrapped ADO.NET DataRows with objects so updates were immediately recorded in the underlying DataTable. This was a HUGE mistake because I couldn't copy objects and constraints caused exceptions to be thrown at weird times. I only did it to avoid setting parameter values explicitly.
Martin Fowler has blogged extensively about DSLs. I would recommend starting there.
http://martinfowler.com/bliki/dsl.html
It was helpful to me to learn and play with CSLA.Net (if you are a MS guy). I've never implemented a "pure" CSLA application, but have used many of the ideas presented in the architecture.
Your best bet is keep looking for that elusive magic bullet and use the ideas that best fit the problem you are solving. Keep it simple.
One problem I find is that even when you have a nicely designed business layer it is hard to stop business logic leaking out, and development tools tend to encourage this. For example as soon as you add a validator control to an ASP.NET WebForm you have let business logic leak out into the view. The validation should occur in the business layer and only the results of it displayed in the view. And as soon as you add constraints to a database you then have business logic in your database as well. DBA types tend to disagree strongly with this last point though.
Neither have I. We don't create a business layer in our applications. Instead we use MVC-ARS. The business logic is embedded in the (S) state machine and the (A) action.
Possibly because in reality we are never able to fully decouple the business logic from the "process", the inputs, outputs, interface and that ultimately people find it hard to deal with the abstract let alone relating it back to reality.
What do you suggest for Data Access layer? Using ORMs like Entity Framework and Hibernate OR Code Generators like Subsonic, .netTiers, T4, etc.?
For me, this is a no-brainer, you generate the code.
I'm going to go slightly off topic here because there's a bigger underlying fallacy at play. The fallacy is that these ORM frameworks solve the object/relational impedence mismatch. This claim is a barefaced lie.
I find the best way to resolve the object/relational impedance mismatch is to either use OOP exclusively and use an object database or use the idioms of the relational database exclusively and ignore OOP.
The abstraction "everything is a table" is to me, much more powerful than the abstraction "everything is a class." It takes less code, less intellectual effort and leads to faster code when you code to the database rather than to an object model.
To me this seems obvious. If your application is data driven then surely your code should be data driven too? Yet to say this is hugely controversial.
The central problem here is that OOP becomes a really leaky abstraction when used in conjunction with a database. Code that look perfectly sensible when written to the idioms of OOP looks completely insane when you see the traffic that code generates at the database. When that messiness becomes a performance problem, OOP is the first casualty.
There is really no way to resolve this. Databases work with sets of data. OOP focus on instances of classes. Trying to marry the two is always going to end in divorce.
So to answer your question, I believe you should generate your classes and try and make them map the underlying database structure as closely as possible.
Perhaps controversially, I've always felt that using code generators for the ADO.NET plumbing is fundamentally solving the wrong problem.
At some point, hopefully not too long after learning about Connection Strings, SqlCommands, DataAdapters, and all that, we notice that:
Such code is ugly
It is very boring to write
It's very easy to miss something if you're doing it by hand
It has to be repeated every time you want to access the database
So, the problem to solve is "how to do the same thing lots of times fast"?
I say no.
Using code generators to make this process quick still means that you have a ton of code, all the same, all over your business classes (or your data access layer, if you separate that from your business logic).
And then, if you want to do something generically (like track stored procedure usage, for instance), you end up having to customise your code generator if it doesn't already have the feature you want. And even if it does, you still have to regenerate everything all the time.
I like to do things once, not many times, no matter how fast I can do them.
So I rolled my own Data Access class that knows how to add parameters, set up and close connections, manage transactions, and other cool stuff. It only had to be written once, and calling its methods from a Business object that needs some database stuff done consists of one line of code.
When I needed to make the application support multithreaded database accesses, it required a change to the Data Access class only, and all the business classes just do what they already did.
There is no right answer it all depends on your project. As Simon points out if your application is all data driven, then it might make sense depending on the size and complexity of the domain to use non oop paradigm. I had a lot of success building a system using a Transaction Script pattern, which passed XML Messages around the system.
However this system started to break down after five or six years as the application grew in size and complexity (5 or 6 webs, several web services, tons of COM+ components, legacy and .net code, 8+ databases with 800+ tables 4,000+ procedures). No one knew what anything was, and duplication was running rampant.
There are other ways to alleviate the maintance then OOP; however, if you have a very complex domain then hainvg a rich domain model is ideal IMHO, as it allows for the business rules to be expressed in nice encapsulated components.
To answer your question, avoid code generators if you can. Code generators are a recipe for disaster, but if you do go with code generation do not modify the generated code. Also be sure to have a good process in place that is easy for developers to get the new generated code.
I recommend using either the following: ORM or hand roll a lightweight DAL. I am currently transitioning a project over to nHibernate off my hand rolled DAL and am having a lot of success; however, I like having the option of using either option. Further if you properly seperate your concerns (Data Access from Business Layer from Presentation) you can have a single service layer that might talk to a Dao (Data Access Object) that for one object is an ORM but for another is hand rolled). I like this flexibility as it allows to apply the best tool to the job.
I like nHibernate over a hand rolled DAL because while my DAL does abstract away most of the ADO.Net code you still have to write the code that takes a data reader to an object or an object and creates the parameters.
I've always preferred to go the code generator route, especially in C# where you can make use of extended classes to add functionality to the basic data objects.
Hate to say this, but it depends. If you find an ORM tool that fits your needs go for it. We wrote our own system in small steps while developing the application. We are using C++ and there are not that many tools out there anyway. Ours ended up being a XML description of the database, from that the SQL generation script and the basic object layer and metadata were generated.
Do your homework and evaluate theses tools and you will find a good fit for your needs.