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There are many functions commonly used for realtime embedded systems that are pretty simple... but it still seems silly to redevelop them when they have been used around the world for decades. Certainly, there are many situations where it is worthwhile and extensive optimization (based on particular application or hardware features) is a good choice. On the other hand, with lower volume embedded systems the development and testing time is a more significant part of the product cost and a basic embedded system with a few optimization options (trig lookup table size vs. accuracy) would be sufficient.

What C libraries would you recommend for the likes of:

  • Timers
  • Speed optimized trigonometry
  • Interpolation
  • Checksum
  • Geometry
  • (or anything else you like)
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. parsing .ini files – bph Oct 11 '12 at 14:57
Retesting is not silly if you care about the outcome of using someone else's code. People undertest (and plainly don't test) their code and leave surprises in it for you. – Alexey Frunze Oct 11 '12 at 15:04
Realtime embedded systems typically use custom implementations for most things because no single general library will be as efficient in terms of size and speed. The ideal semantics of a library API depend on the specifics of each application. Also, custom code can take advantage of hardware-specific features that are not portable in a general library. – TJD Oct 11 '12 at 18:17
Yeah, all those things would be implemented in different ways, or not at all, depending on hardware and other resources. A lot of embedded systems would not practically be able to do "speed optimized trigonometry" for example. – O'Rooney Oct 16 '12 at 1:16
I understand that there are many systems on the edge of having enough performance... but the mindset that everything must be custom coded with no regard for development time is silly and encourages people to write the inconsistent and broken code that triggered me to ask this question. I am not talking about a $20 DVD player built in quantities in the 10s of millions. Quantities are on the order of a few a day so development and maintenance time is much more important than a few clock cycles. Anyways, can't a library generate custom code per platform and only link the desired parts? – altendky Oct 16 '12 at 1:50

Embedded systems with C compilers should provide almost everything in the Standard C Library, including the trig functions in math.h. Higher-end embedded systems may even support POSIX APIs.

I think you'll find that out of your list, there are some items, like checksum, that have plenty of open, portable ANSI C implementations you can use if not already present on the platform.

Other items, like timers, need to interface with the underlying hardware, and are therefore not portable.

If a standard API hasn't been defined, you end up with a mishmash of implementations. This is true for non-embedded systems as well.

It's certainly frustrating to work on multiple embedded platforms, and spend time learning their unique APIs for serial communications (or SPI or I2C), but until someone creates a standard API with incentives for vendors to support it, that's what you're stuck with.

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I do real-time functional safety critical embedded applications in C for a living at the moment. I am constantly trying to expand my library with nice modules that are of general use. At the moment I have a library consisting of:

  • Common/misc. stuff (short macro's, semahpore'd enable/disable IRQ etc.)
  • Timer lib with API for ms and µs resolution time and timing ("stop-watch")
  • Ring buffer, I use a modified version of Adam Dunkel's from Contiki-OS
  • CRC32, pick any implementation from the web (preferably one that uses word-sized processing instead of byte-by-byte) and verify it against something!
  • AES128, I have an implementation of the ECB-mode at Github that favors code size over speed, feel free to use it.
  • Bit-array module
  • Data marshaling and endianness-handling ala the .NET BitConverter class, e.g. to read a U32 from a pointer
  • Filtering / Debounce
  • Assertion / Logging module, nice for setting a break-point and catching runtime errors when debugging

Most of the stuff in my library has currently been contributed to by my colleagues, so I can't release it as is without asking anyone.

I haven't had use for trigonometry-functionality yet, but there are a ton of code out there that does fast approximation using polynomials derived via Chebyshev approximation or the Remez-algorithm (here's a blog about it). Avoid the implementations using Taylor series. One reason is, it is widely considered to converge slower than the methods mentioned above, and there are precision issues also. CORDIC can also be fast. Depends a bit on the HW.

Here is a trig-library with different choices for speed/accuracy, shamelessly stolen from the Ganssle group: - It compiles as C code with few modifications.

If you have the space for it, you can consider look-up tables and interpolation (e.g 1-3 iterations of Newton-Raphson's method).

Also, many embedded targets have HW-circuitry for doing CRC calculation etc. Most HW-CRC32 peripherals implement the "Ethernet"/IEEE-polynomial, usually among others.

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