Sunday, February 03, 2019

How is software like cooking?

Time for a light-hearted post. After my move to the UK and having had my share of fish and chips, I have become by reaction more interested in Italian culinary history and practice. So I started diving into the science and the tradition of cooking, reading books such as the science of meat which combine chemistry and good taste, and I have now cooked enough lasagne to build a statistically significant sample.

Disclaimer: this post is full of meat references as that's culturally significant as a metaphor to transmit the concepts I have in mind. You may find this distasteful if you have chosen to follow a different path.

So here's 5 ways in which software development and cooking are alike...

Feedback loops

"to serve man"
There's a joke in a Futurama episode about Bender (being a robot) not having a sense of taste and hence playfully disgusting the humans in the team with too much salt. The joke works because in cooking you need a continuous feedback loop to conform to your taste, for example adding salt and pepper at the end of a preparation until it tastes right.

We are no strangers to this process in software development: most of the practices I preach about lead to getting working software in front of someone that will use it as soon as possible, to better steer future development with the feedback.

There are shorter, inner feedback loops than tasting: the speed with which meat is browning will make you adjust your source of heat for that phase of the preparation to avoid charring the exterior surface to a pitch black color. Not too different from your unit tests failing and informing you of an issue well before it gets to an actual customer that will send the steak back to the kitchen.

Quality is in the eye of the beholder

Cacio e pepe: simple&tasty or poor?
Taste has lots of different components, including not just what your tongue perceives but also smells, presentation, and expectations. But for most of these aspects, quality is in the eye of the beholder and we can't avoid coming to grips with the variety of people and cultures.

Therefore, despite how good you think your burgers are, some people just don't like fat, mince meat. I appreciate Indian curries but I have some physical limits on the spiciness levels that make me almost always choose mild korma. And imagine the cultural shock of discovering I have been wrongly putting lemon in tea all my life instead of milk as the only acceptable choice.
(I know, tea doesn't even grow in Europe, but I grew up with British tea as the standard.)

We all have good intentions in thinking hard about what a user will enjoy or be productive with; but we have to recognize there is a vast variety of users and we have to design (or cook) for each of them.

Control the process, rather than micromanaging the material

This cake was fluorescent on purpose
Convection ovens are a great example of a controlled process for cooking uniformly. In the context of large pieces of meat or fish, this mainly means getting them to a uniform, high-but-not-too-high temperature to avoid overcooking. The oven fan pushes hot air all around them, heating the surface evenly. Air transfers less heat than, for example, water; so there is time for the temperature to rise across your roasting chicken rather than overcooking the outside while leaving some parts dangerously raw.

Thus for large cuts this is pretty much impossible to achieve in a pan, unless you literally cut everything into slices thin enough that they can cook quickly. The oven-based process is much more convenient as you literally abandon your tray in there, checking from time to time if it's ready with a thermometer.

Generally speaking of enterprise applications and websites, I favor a process in which we catch bugs with multiple safety nets (up to user experimentation if possible) than overdesigning for every possible problem. While you can think of possible scenarios to test endlessly, bugs are always going to happen and it's more important to have a process in place for which they will be fixed and never regress because of new automated tests. That makes your software converge to a steady, stable state like a perfectly cooked chicken.

You need to measure

That's definitely cold, not just for meat
If you want to consistently cook meat to your liking, there is no escape from using a thermometer to understand when it's ready - its center reaching a set temperature that corresponds to medium-rare (for a steak) or well-cooked (for poultry) or something else. Looking at the external color? No relation with the inside. Checking how hard it has become? Too subjective. Roast for a certain amount of time? Ignores the variability of both the ingredients and the heat source.

When we perceive part of an application as slow, we need to use a profiler to find out what functions or methods are taking the most time to execute. Making as few assumptions as possible, we collect data to point us in the right direction. Opinions don't count: your browser timings and other metrics do (if collected correctly).

You can substitute ingredients, to a certain extent

Focaccia genovese
Cornstarch and flour are used in small quantities in many recipes, with the goal of thickening a liquid. This is due to their starch content, as this carbohydrate granules swell up with water creating enough friction to transform a liquid with the viscosity of water into something that feels like cream.

If you try to use cornstarch to make bread however, you won't be able to get an elastic product as it lacks the proteins that would build gluten. Even if you use the wrong flour (cake flour as opposed to bread flour, to keep it simple), this will greatly affect the result due to the smaller percentage of proteins that it contains. Baking, both for sweet and savoury goods, require much more precision.

In software development, we have grown up with Lego bricks as a metaphor and we continuously try to swap out pieces, hiding details behind a useful abstraction that sometimes leaks. Nowadays relational databases can be queried interchangeably if you stick to standard SQL queries. But the data types for columns can be pretty different in the range they support, especially if they are somewhat more exotic like JSON and XML fields rather than integer and strings. A wise decision is still required to understand when substituting components is possible, or where some combinations will never work.

And here are 5 ways in which software development and cooking are very different...

Cooking is a repeatable process

Lots of Dutch cheese around Amsterdam
Recipes (at least the good ones) are literally the codification of a process that should be robust to external variations to get a consistent result. It's the mark of a good cook to be able to deal with variations in ingredients or tools, but unless you are up on a mountain water boils at pretty much the same temperature, and the physical transformation that your carrots undertake when they are heated is well established.

In software, every new feature is a new design to make rather than the execution of a plan. Even porting software or reimplementing it bears surprises as the platform it is running on is now different. And no one understands how long it took to produce the original version, no matter give an estimation for the new one that is being created. We have processes for understanding what a feature should do, and safely implementing it and rolling it out; but there are always land mines waiting on the path.

Cooking has some precise physical quantities you can rely on

Peppered pork fillet steak
Understood: measurement is needed in both fields. But as much as your oven oscillates around its target temperature, it is still much more precise than a developer's effort. Even without meetings and other time variables, how fast and precise we are in a certain day varies: humans aren't robots. Just how knowledgeable we are about a technology influences greatly the designing and testing phases. The Mythical Man-Month remains, well, mythical.

In the food industry, the right tools can even measure the strength of a flour, to check whether it's good for the bread you want to obtain. If you look at a technology team, measuring how many tasks per week we have completed is probably as good as it gets. There's humans involved and applying social science to a very small group probably doesn't get you very far in terms of collecting data and drawing inferences.

You can still measure other times objectively, like time to deploy: how long it takes for a commit on master to reach the production environment. We partly do this because it's important but also because it's feasible to measure. What most project managers would care about will be time from idea to complete implementation instead. But that requires estimating the length of a queue that changes all the time, and is just the first step of a creative development process with its own variations.

Determinism of the digital world

Blackberries from the garden
It's pretty difficult to get the same tomatoes, courgettes or grapes as last week, and pretty much impossible to get the same ones in-season and off-season. You can ship them in from South Africa or Australia but travel time and refrigeration can modify their contents, and thus their taste.

If you look at a physical server, it's much more similar to laboratory equipment than to a living product: you can run programs and see them always taking a similar amount of time to complete, controlling the randomness of the operating system around it. This gets eroded a bit in the cloud, where performance may be affected by your neighbors due to co-tenancy.

Timing in the kitchen

Very unstable crochembouche
Whether it is simply changing the temperature of a meat joint, or a more complex transformation like baking a cake, timing should be one of the concerns if you want to obtain a good result. I formalize this concept by thinking that it's not possible to stop time, in many cases.

Cooks know tricks like cooking eggs or rice to a certain degree, than cooling it down and finish the process later when the food has to be served; or simply reheat it if fully cooked. This works for various categories of products, but it's an ad-hoc process.

Consider the power we have in a digital world: firing up a debugger literally stops execution at some point in the life of the program, allowing us to take a look at what we want in the right context. Since the state of the program is the Matrix, we can slow it down, speed it up, and change things causing a déjà vu to your objects.

If you want to reproduce some computation, you have the tools available to build a Docker image containing all sorts of dependencies and store it for future usage. If you want to reproduce your perfect croissants, the only tools you have are a recipe and your own memories. Add the variation of ingredients and even temperature and humidity in your kitchen, and you can understand why scientific exploration needs a laboratory with its controlled conditions to be able to make progress.

Cooking equipment makes a difference

Now, grate parmesan without this...
Besides basic tools like appropriately shaped knives, a pressure cooker would make you able to reach certain results that would take a long time with an ordinary pot of boiling water. A temperature bath (I don't own one of these) can help cooking meat evenly only to then finish the process with a 2-minute searing. Even a scale is just necessary for baking, as measuring ingredients like flour by volume has a 50% margin of error due to its compressibility.

Consider how you can write code on your old laptop from the beach instead. You target an open source interpreter, and the end product will run on the same server that could accept strictly regulated banking software. As long as you can literally string bytes together, you can produce running software: everything else helps. The ephemeralization of software tools due to virtualization and the large availability of open source platforms make digital startups a reality, whereas opening a restaurant remains a capital-intensive operation.

But there's more...

The power of metaphors

Metaphors can foster understanding of a new system, or lead us ashtray. They are powerfully transmitting a mental model, but that model has its limitations and may even be less precise than a more formal model like a math analogy. But especially in complicated fields like cryptography, terms such as key and signature have popularized concepts to generation of students that would have otherwise found them very hard to think about.

I wrote this post for fun, but I stand behind most of the comparisons: that's all for now. You'll find me using an Helm to ship my containers...

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