Thank you for your excellent question.
First: I am an Eiffel software engineer, so I can speak to the matter from experience and not simple conjecture.
Second: the premise of "TDD-vs-DbC" is incorrect; the two technologies are not at odds with each other, but complementary to each other. The complement has to do with placement of assertions and purpose.
The purpose of TDD has both components and scope. The basic components of TDD are boolean assertions and object feature (e.g. method) execution. The steps are simple: Create an object. Execute some code in a feature. Afterward—Make assertions about the state of the data on the object. Assertions that fail, fail the test. Passing all assertions is the goal.
Like TDD, the contracts of Design-by-Contract have purpose, scope, and components. While TDD is limited to unit-test-time, contracts can live through the entire SDLC (Software Development Life-cycle)! Within the scope of TDD, execution of object methods (features), will execute the contracts. In an Eiffel Studio Auto-test (TDD) setup, one creates an object, makes the call (just like TDD in other languages), but here is where likeness ends.
In Eiffel Studio with Auto-test and Eiffel code with contracts, the purpose changes somewhat. We want to test the Client-Supplier relationship. Our TDD code is pretending to be a Client of our Supplier method on its object. We create our objects and call the methods based on this purpose, and not just simplistic "TDD-ish method testing". Because the calls to our methods (features) have contracts, those contracts will execute as a part of our TDD-ish code in Auto-test. Because this is true, contract assertions (tests) that we place in our code do NOT have to appear in our TDD test code. Our job (as a programmer) is to simply ensure: A) The code + contracts are executed along all N-paths, and B) The code + contracts are executed using all reasonable data types and ranges.
There is perhaps more to write about the TDD-Design-by-Contract-Complement relationship, but I won't be boorish with you on the matter. Suffice it to say that TDD and DbC are NOT at odds with other—not by a long shot!
Now—we can turn our attention to the power of the contracts of Design-by-Contract BEYOND where TDD can reach!
Contracts live in the code. They are not external to it, but internal. The most powerful bit (beyond their Client-Supplier contract relationship basis) about contracts is that the COMPILER is designed to know about them! They are NOT a bolt-on addition to Eiffel! Thus, they participate in every aspect of inheritance (both traditional vertical is-a inheritance and in lateral or horizontal Generics). Moreover, they reach to a place that TDD cannot reach—inside the method (feature).
While TDD can mimic preconditions and post-conditions with some ease, TDD cannot reach inside the code and perform loop-invariant contracts, nor can it do periodic spot-check "check" contracts along a block of code as it is executing. This is a POWERFUL logical and qualitative paradigm and reality about how Design-by-Contract works.
Moreover, TDD cannot do class invariants but in the faintest of ways. I have tried my hardest to get my Auto-test code (which is really just Eiffel Studios version of applied-TDD) to do class invariant mimicry. It is not possible. To understand why, you would have to know the in's-and-out's of how Eiffel class invariants work. So, for the moment, you will simply have to either take my word for it (or not) that TDD is incapable of this task, that Design-by-Contract handles so easily, well, and elegantly!
Yet—the reach of Design-by-Contract does not end with the above notions.
We noted (previously/above) that TDD lives at unit-test-time. Contracts, because they are applied in code under the supervision and control of the compiler, apply anywhere that the code can be executed:
- Workbench—you, as a programmer, are using the code to see it work (e.g. before TDD-time or in conjunction with TDD-time).
- Unit-test—Your continuous integration testing, unit-testing, TDD, et al
- Alpha-test—Your initial test users will trip over contracts as they run the EXE
- Beta-test—A wider audience of users will also trip over contracts.
- Production-The final EXE or production system can have continual testing applied through contracts (TDD cannot).
What's more—in each of the situations above, one will find that one has control over just which contracts run and from what sources! You can selectively and fine-grainly turn on and off various forms of contracts and control with extreme precision where and when they are applied by the compiler!
And if all of this was not enough—Contracts (by design) can do something that no TDD assertion can ever do: Tell you WHERE in the call-stack and which Client-Supplier relationship is broken and WHY! (which also immediately suggests how to fix it). Why is this true?
TDD assertions are designed to tell you about the results of a code-run (execution) after the fact. TDD assertion can only see as far as the current state of the method under examination. What TDD assertions cannot do from their position on the outside of the code-base is to tell you precisely which call failed and why! You see—your initial TDD call to some method will trigger that method. Many times, that method will call another, and another, and another—sometimes, as the call-stack winds up and down and hither and yon, there is a breakage: Something writes data wrong, does not write it at all, or writes it when it ought not.
TDD is like the police showing up to the crime scene after the murder has already happened. All they have left is forensic clues that they hope will lead them to a suspect and a conviction. But—what if we could be there as the crime was taking place? THAT is the difference between the placement of TDD assertions and contract assertions. Contracts are there to catch the crime in progress and they point DIRECTLY at the offender as it is committing the offense!
So—let's recap: TDD is NOT at odds with Design-by-Contract. It is a complement and cooperative set of technologies, but with different functions and purposes, as well as tools to work with them. Contract reach further and reveal MORE about your code when it breaks. TDD is one form of catalyst for contracts to be executed.
At the end of the day: I want BOTH! After reading all of this (if you survived), I hope you do as well.