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I'm working on some code for a microprocessor.
It has a few large, critical constants.

#define F_CPU 16000000UL

In this case, this is the CPU frequency. In Hertz.

As it is, it's rather hard to tell if that's 1,600,000, 160,000,000 or 16,000,000 without manually tabbing a cursor across the digits.

If I put commas in the number #define F_CPU 16,000,000UL, it truncates the constant.

I've worked with a few esoteric languages that have a specific digit-separator character, intended to make large numbers more readable (ex 16_000_000, mostly in languages intended for MCUs). Large "magic numbers" are rather common in embedded stuff, as they are needed to describe aspects of how a MCU talks to the real world.

Is there anything like this in C?

share|improve this question
The term "magic number" usually refers to numeric constants suddenly appearing in the middle of the code. Ie something like: if (var == 16000000) ... (bad), rather than if (var == F_CPU) ... (good). – Lundin Jun 12 '12 at 14:43
up vote 4 down vote accepted

One possibility is to write it like that:

#define F_CPU (16 * 1000 * 1000)


#define MHz (1000*1000)
#define F_CPU (16 * MHz)

Edit: The MHz(x) others suggested might be nicer

share|improve this answer
I actually like this notation better, as it's closer to how the clock would actually be specified. You wouldn't say it's a "MHz(16)" CPU, you would say it a "16 MHz" CPU. – Fake Name Jun 11 '12 at 9:24
I wound up using: #define MHz (1000UL*1000UL) #define F_CPU (16 * MHz) – Fake Name Jun 11 '12 at 9:41
I have to specify the numbers as UL, otherwise they will get truncated to the MCU native size, which is 8 bits. Which ends badly. – Fake Name Jun 11 '12 at 9:41
@Fake Name: int can't have size 8 bits on a conforming implementation, it's required to be at least 16 bits. It still ends badly at that size, obviously. – Steve Jessop Jun 11 '12 at 10:53
@Fake Name: I suppose I'm mentioning it just because the question is labelled C, but it turns out you aren't programming C, you're programming some other language that is related to C. Unlike the more common variants of C that you get due to minor defects in compilers for PCs and suchlike, most casual passers-by won't know all that much about C-like languages for 8bit processors, and certainly don't know which compiler(s) you need to support, since you haven't said. It might affect the answers. Although not this answer, because even in actual C you need at least a long to guarantee 32 bits. – Steve Jessop Jun 12 '12 at 8:35

Yes, C does have preprocessor separators: ##

So you can write

#define F_CPU 16##000##000UL

which has exactly the same meaning as 16000000UL. (Unlike other structures like 16*1000*1000 where you need to be careful not to put them in places where the multiplication can cause problems.)

share|improve this answer
In what cases might multiplication cause problems? – jamesdlin Jun 11 '12 at 10:27
@jamesdlin Well, in expressions with higher precedence operators. For example if you have #define FIRST 16000000 and #define SECOND 16*1000*1000 without parenthesis, ~FIRST would not be the same as ~SECOND. – Mr Lister Jun 11 '12 at 11:42
Okay, then I'd qualify instead that as "need to be careful to parenthesize the expression", which any sane C programmer normally would do anyway. – jamesdlin Jun 11 '12 at 11:53
@jamesdlin True, as is the case in most of the answers here. But not all. – Mr Lister Jun 11 '12 at 12:05
## is actually the concatenation operator of the cpp which can be used for other things aswell. – JimmyB Jun 12 '12 at 10:44

maybe something like that?

#define MHz(x) (1000000 * (x))
#define F_CPU MHz(16)

Also, I don't like #defines. Usually it's better to have enums or constants:

static const long MHz = 1000*1000;
static const long F_CPU = 16 * MHz;
share|improve this answer
These are resolved out at compile time to set a whole bundle of various constants, that are then written to various hardware registers, and as such set various bit times for serial interfacing, etc... You really don't want to use enums or other stuff, as they may wind up in RAM somewhere. This MCU has a grand total of 2K RAM (and 32K program space), it's rather precious. – Fake Name Jun 11 '12 at 9:40
Hell, take a look at this #define: #define Lin_set_btr_brr(bt,br) { U8 __jacq__; __jacq__ = LINCR; LINCR &= ~(1<<LENA); LINBTR = ((1<<LDISR) | (LBT_MASK & bt)); LINBRRH = (U8)((((((((U32)F_CPU*1000)<<1)/(((U32)br)*bt))+1)>>1)-1)>>8); LINBRRL = (U8)(( (((((U32)F_CPU*1000)<<1)/(((U32)br)*bt))+1)>>1)-1) ; LINCR = __jacq__; } – Fake Name Jun 11 '12 at 9:45
Note: I didn't write that, it's from the actual MCU documentation. I'm in the process of trying to make it readable. – Fake Name Jun 11 '12 at 9:45
@FakeName Yeah, it's insane a bit :) The low-level programming has own rules. – kan Jun 11 '12 at 9:49
Your MHz macro should parenthesize x so that something like MHz(1 + 2) behaves properly. – jamesdlin Jun 11 '12 at 10:26

You could write the constant as the result of a calculation (16*1000*1000 for your example). Even better, you could define another macro, MHZ(x), and define your constant as MHZ(16), which would make the code a little bit more self-documenting - at the expense of creating name-space collision probability.

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// constants.h
#define Hz   1u              // 16 bits
#define kHz  (1000u  *  Hz)  // 16 bits
#define MHz  (1000ul * kHz)  // 32 bits

// somecode.h
#define F_CPU (16ul * MHz)   // 32 bits


  • int is 16 bits on a 8 bit MCU.
  • 16 bit literals will get optimized down to 8 bit ones (with 8 bit instructions), whenever possible.
  • Signed integer literals are dangerous, particularly if mixed with bitwise operators, as common in embedded systems. Make everything unsigned by default.
  • Consider using a variable notation or comments that indicate that a constant is 32 bits, since 32 bit variables are very very slow on most 8-bitters.
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You can use scientific notation:

#define F_CPU 1.6e+007


#define K 1000

#define F_CPU (1.6*K*K)
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With the scientific notation F_CPU has type double, which introduces some potential pitfalls. – Steve Jessop Jun 11 '12 at 10:50
Float numbers is likely not an option, as this is for an 8-bit MCU. – Lundin Jun 12 '12 at 14:20
#define F_CPU ((int)1.6e7) – Inverse Jun 12 '12 at 18:42
I have to stop and think to make sure 1.6e7 == 16,000,000. 16.0e6 would be clearer. But still, better to stick with plain integers. – Craig McQueen Jun 13 '12 at 1:36

It might help readability to define the constant as:

#define F_CPU_HZ 16000000UL

That way you know what type of data is in it. In our SW we have a few peripherals which require assorted prescalers to be set, so we have a #defines like this:

#define SYS_CLK_MHZ    (48)
#define SYS_CLK_KHZ    (SYS_CLK_MHZ * 1000)
#define SYS_CLK_HZ     (SYS_CLK_KHZ * 1000)
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