In my specific case, I firstly developed a program to run in a Texas Instruments microcontroller (TMS320F28335). It was a real time synchronous generator simulator so it needed to perform an important amount of floating-point operations. I did not specify any suffix for floating-point constants so they were treated as doubles (I guess that what the C standards says) but the compiler provided by Texas Instruments implements those doubles as 32 bits floating-point numbers so the FPU of the microcontroller was used (see Table 6-1 from the compiler user's guide) in an efficient way let's say. Then, I had to port that program to a BeagleBone Black with an embedded linux (patched for the real time requirements). Of course, all the constants were treated again as doubles by the compiler (GCC), but in this case that did not mean 32 bits floating-point numbers but 64 bits floating-point numbers. I do not fully understand how the FPU of the ARM Cortex A8 works but as far as I read (and since it is a 32 bits processor), performance would be improved if those floating-point constants were treated as 32 bits floating-point numbers. So, all of this led me to the question: is there a way to make more portable "best type" floating-point constants? In this case, I would have solve the problem by adding the "f" suffix to every constant because both processors are more efficient (I guess) treating with float, but if I am developing something in an amd64 PC and I want to port that to a 32 bits microcontroller, is there a way to add some suffix that could be changed to be "f" for 32 bits microcontrollers and "l" for an amd64 PC? I thought of something like this (of course, it doesn't work):
architecture-dependant header file for 32 bits microcontroller:
#define BEST_TYPE f
.
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architecture-dependant header file for amd64 PC:
#define BEST_TYPE l
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architecture-independent source file:
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a = b * 0.1BEST_TYPE;
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To clarify, by "best type" I meant the more precise numeric data type supported by the FPU of the microprocessor.
double
is supposed to be the most precise, portably.#define BEST_TYPE(x) ((float)(x))
. Then you could usea = b * BEST_TYPE(0.1);
in your architecture-independent source file.double
and then tofloat
. This can yield a less accurate result than converting directly tofloat
. It is better to append a suffix to indicate the type, as with#define BEST_TYPE(x) x##f
.