– Antoine de Saint-Exupery
In this day and age, especially in large corporations, you can find a special breed of software developers who just can’t KISS. For every problem, even the simplest, they dream up a solution that is so complex, so over-engineered that when you look at it, it’s next to impossible to tell what problem it’s trying to solve. When you delve down the layers of abstractions and technologies you soon get lost and forget where you started from.
In 2001, Joel Spolsky coined the term “Architecture Astronaut” to describe folks that love to complexify. However, according to his definition, “It’s very hard to get them to write code or design programs, because they won’t stop thinking about architecture”. To me, however, his definition of an Architecture Astronaut sounds more like a particular variant of a Non-Painter.
The individual I want to talk about today bears a strong resemblance to an Architecture Astronaut, at least on the surface. Contrary to the Architecture Astronaut, he does design programs and does write code — actually, he’s a quite prolific coder. However, what such a developer really does is building overly complex, not-from-this world systems and hence I call him “Major Tom”, in reference to the astronaut character “Major Tom” in David Bowie’s song “Space Oddity“. This song, “depicts an astronaut who casually slips the bonds of the world to journey beyond the stars”. Later in the song, it’s revealed that Major Tom is forever stuck in space and will never return back to earth.
Here’s an example that gives you insight into the thought process of a Major Tom, which can be helpful for diagnosing one.
Let’s assume you have two processes running. One of them (process A) depends on the other (process B). For reliability, process A wants to regularly check whether B is still alive. The initial and obvious choice would be to have process B emit a “live tick” message at regular intervals, potentially including a running counter. A Major Tom’s journey to the stars (and beyond) could look like this:
1. Let’s use a Unix pipe between the processes to exchange the live tick message.
2. But what if the processes are distributed across different machines? Pipes don’t work across machines, so let’s use UDP (datagram) sockets.
3. But with UDP, datagram delivery is not guaranteed, so let’s better use a TCP (stream) socket instead.
4. But what if the machines are based on different architectures that use a different byte order (i. g. big-endian vs. little-endian)? Wouldn’t the counter value be interpreted wrongly? Let’s better use a platform-independent data exchange technology like Protocol Buffers on top of it. This has the additional benefit of supporting backwards compatibility should the message format change and one never knows what additional messages need to be exchanged between process A and process B in the future.
This reasoning goes on and on, let me spare us the rest. In this hypothetical example, a possible final design could look like this:
N. All involved processes register the services that they offer (a “live tick” service, for instance) with a central service registry. Service consumers discover available services offered by service providers. A dedicated, load-balanced broker connects service providers and service consumers which exchange JSON objects via rest API calls over a triply redundant TLS connection.
Now, every software developer is — to some extend — familiar with such lines of thinking and sometimes also leaves solid ground. But while healthy developers stop early and descend back due to the pull exerted by the YAGNI principle as well as time and budget considerations, Major Toms only know one direction: up, up, up in the sky, which translates to more, more, more complexity.
APPEARANCE
Major Toms don’t have any special appearance. They come in all shapes and sizes.
PERSONALITY
Why do Major Toms have such a strong desire to inflate everything? Let’s explore the main drivers, which depend on the particular personality of the Major Tom.
One huge source for not-of-this-earth complexity is the boredom felt by a super-smart developer. I’ve observed many times that developers with a very high IQ have a hard time doing menial work, and sooner or later every task becomes menial to them. The only way to calm down their insatiable mind is to constantly feed it with complexity.
Another cause for cosmic designs can be software engineers with a strong scientific background, especially computer scientists holding PhDs. Some of these individuals are all about research and insist on always creating something novel. Keeping things simple, going for the absolute necessary, and using “mundane” technology is often beneath them.
Last, but not least, there’s a possibility that people create uber-complex designs for job security reasons. Especially Fake Surgeons are known for using strategies like this in order to maintain a massive head start over the rest of the team, thinking “if you can’t comprehend my complex code, you’re not going to replace me.”
RATING
According to the Q²S² framework, a Major Tom’s rating is 4/1/3/3.
(The second Q-rating is so low because of the incidental, unnecessary complexity that causes poor maintainability and poor performance. Hence, the value of what a Major Tom creates is of low, sometimes even negative value to the company.)
POLAR OPPOSITE
The Wolf
CONCLUSION
Major Toms have a passion for making mountains out of molehills but not for shipping production-grade software within budget, in time. Instead of adhering to the trusted XP principle of “doing the simplest thing that could possibly work”, they program in the future tense and constantly ask “but what if?”. The result is often something that resembles a Rube Goldberg machine that nobody (apart from the Major Tom who created it) is able to maintain.
Sometimes it’s possible to cure a Major Tom, and since they are smart and prolific, it’s always worthwhile trying to redirect their energy into more valuable channels. Here are some tactics that might work:
1. Explain that software development is a learning process, that great systems must evolve from simple to complex, just like an oyster grows a pearl from grain of sand, like a vase is made in traditional pottery.
2. Explain that a simple first implementation doesn’t preclude a more elaborate implementation later, once the need for additional complexity has been proven.
3. Explain that a simple design is not a sign of weakness but a sign of strength, that simple design is often the result of hard thinking and discarding of non-essential parts.
4. Explain that doing simple things extremely well can be as satisfying as working with hip technologies.
5. Explain that a company’s main job is to generate money to feed the hungry mouths of its owners and employees, so all successful commercial software development must be done within time and financial constraints.
If your attempts to ground a Major Tom are fruitless, it’s time to go separate ways. Fortunately, when confronted with your down-to-earth ideas, pathological Major Toms usually launch their jet packs and head off for another planet.