What’s wrong with IDEs?
My first problem with IDEs is that they make it too easy for a person to develop code without fully understanding what they are doing. Some people may see this is a good thing and argue that IDEs are wonderful tools for students and people who are trying to learn to program. This could not be farther from the truth.
A student who is serious about learning software development should achieve an in-depth understanding of project setup and the build process. They should learn the intricacies of a compiler. They should learn what an object file is and what a linker does. These are fundamentals that are very important to the end result (producing a quality product) — not something that should be stumbled upon accidentally. IDEs make it too easy to get by without knowing the fundamentals of embedded system development. Need more convincing? Read “Six languages to master” by Michael Church.
Another problem with IDEs is that each imposes a way of doing things that is unique to that specific IDE. For example, they all use different keyboard shortcuts to start a build or run tests. They all have a different way of configuring builds and specifying source/include directories. Almost all of them I’ve used are cumbersome, feature-lacking text editors. In general, they slow down the development process by making it difficult for a person to get used to one way of doing things. If a developer is writing C code for three different types of microcontrollers, why should they have to use three different development environments? Ideally, a developer should become an expert at a single system and use that for all of their work.
Who are they targeting?
The thing that boggles me the most about IDEs is that they do not seem to be built with their target user in mind. The primary user group for an IDE is software developers. But we’re both familiar and comfortable with code. We live code, we breathe code, we think about code even when we don’t want to be thinking about it. So why do we need a visual, form-based system to help us configure a build environment? A simple config file would do. In fact, I think having to search around in menus to find a configuration setting is anti-productive and non-transparent.
Who is to blame?
This is a really important question. I don’t like to say it, but I think we (the developers) are partially responsible. If embedded device manufacturers were receiving a lot of requests for more high-quality command-line tools, we’d be seeing more available. If more embedded developers stopped using IDEs, we’d see manufacturers stop spending all their time trying to make them not suck and spending more time giving us things that we really need (better documentation, better compilers, etc.).
So what are IDEs good for?
I’ve done a lot of IDE bashing so far, but there two things that IDEs are good for:
- Hobbyists – A hobbyist is someone who doesn’t want to spend their life becoming an expert developer, and they shouldn’t have to. They typically want a quick and dirty solution to help them solve some problem. IDEs can be a useful tool to facilitate this type of developer.
- On-target Debugging – Interfacing with real-world stimuli can be very challenging. There are times when debugging on target is really the fastest way to get to the bottom of an issue. Unfortunately, most embedded device manufacturers do not offer a command-line debugging utility. This leaves us with the IDE as our only option for debugging on-target. I generally keep an IDE workspace file in my repository just for the random times where I may need to debug on target.
How should I be developing?
1. Use a full-featured text editor.
Use a tool that is specifically designed for efficiently writing code. Pick the one that you like best, one that has the features that are most important to you. There are a ton of them out there. Sublime Text 2 is my current editor of choice but Emacs, vim and Notepad++ are some other popular ones.
2. Customize it.
Once you find a good editor, customize it. Create keyboard shortcuts that make sense to you and speed up tasks that you do often.
3. Read your compiler’s documentation.
Learn how to use it from the command line and know it like the back of your hand. You’ll be surprised at how uncomplicated it really is. Experiment with changing compiler optimization levels, and familiarize yourself with the various output files that the build tools generate.
4. Find a good build tool.
Once you have a decent understanding of what the build process entails, find a build tool that is designed for building code. Again, there are a lot of them out there, so shop around, read reviews, pick one, and give it a try. I am a little biased towards Ceedling, but check out Wikipedia’s list of other tools. If you need help setting up the build process, check if the IDE you use generates a Makefile or console output while building; these can be a helpful resource.
5. Consider using Test-Driven Development.
The great thing about using an automated build environment is that it becomes very simple to use any other tool that has a command-line interface in your development process. For example, I highly recommend using Test Driven Development. Using a testing framework designed for your language greatly simplifies the task of unit testing. Unity and CMock are great unit testing tools for C, and they come bundled with Ceedling! These tools can be easily incorporated into your development process if you use an automated build system.
6. Run your code in continuous integration.
A continuous integration server is a system that monitors the code base (version control system) for changes and automatically builds the code and runs tests when it detects a change. Every software development team should be running their code in continuous integration because it gives the entire team instantaneous feedback of the ongoing state of the project.
Continuous integration can be done easily when the project is setup with an automated build system but is much more challenging to use with an IDE. If you are looking for a good continuous server, take a look at TeamCity.
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One of the biggest challenges in application development today is how to factor in application-specific information. The answer lies in the ability to capture application evolution and developers' knowledge of building and extending the application as metadata so that it's not lost in time or translation. Once that can be done effectively, the combination of the application code along with application-specific metadata can be meaningfully packaged into reusable software asset modules. This white paper will discuss how 'Application Factories' can transform an IDE to play a central role in capturing both the application evolution and the developers' knowledge.