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I'm implementing a computer simulator in C with the challenge not to use conditionals (ie no if/else, switch/case, while/for, etc.). There are a lot of muxes in the hardware I'm simulating, so it would be nice if I could use the conditional ternary logic operators. So, my question: do C compilers create MUX logic from ternary logic operators, or do they create branches?


int a, b, q, r;
/* Ternary logic */
r = q ? a : b;
/* MUX equivalent logic */
r = ( q & a ) | ( (~q) & b )
/* Branch equivalent logic */
if (q) r = a; else r = b;
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up vote 4 down vote accepted

The ternary operator is equivalent to a branch: i.e. the value not returned is not evaluated.

I don't know how much you are constrained, so note that boolean operators && and || don't evaluate their second argument is the result can be determined from the first.

(And note that you line "MUX" doesn't something very different from the other two expressions: it select bits from a or b depending on the value of corresponding bit in q, it doesn't select a or b depending if q is null or not; Edit: it is worse: you are using !q and not ~q...).

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1. I understand that a ternary operator is equivalent to a branch, as I stated above. What I'm asking is, "does the compiler generate a branch on the assembly level?" 2. I haven't found any use for && and || boolean operators so far. I'll keep your insight in mind. 3. I'm confused by your use of the term "null". But you are correct, I should switch to ~ for most cases (this was to be a simple 1-bit value example, but I'll edit it). – Robz Feb 27 '11 at 14:02
@Robz: 1. in general, yes. – Matteo Italia Feb 27 '11 at 14:07
1. Yes (it must not evaluate the other branch). 3. zero – AProgrammer Feb 27 '11 at 14:40
Ah! I see what you meant now. Thanks! – Robz Feb 28 '11 at 2:55

C compilers create branches out of ternary statements.

Using Freescale's Codewarrior IDE, I compiled the following C program:

int a, b, q, r;    
void main(void) {    
  a = 0;    
  b = 1;    
  q = 0;    
  r = q ? a : b;    

The assembly corresponding to the ternary statement is as follows:

LDX    0x1104 ; load val[q] into register x    
BNE    *+4    ; branch to abs addr 0xC016 if val[q]==a    
BRA    *+5    ; branch to abs addr 0xC019 if val[q]!=a
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Often, branching logic is created, but is very possible to do ternary operation without any kind of branch if you're fine with both values being evaluated. Consider this:

#include <stdio.h>

static inline int isel(int cond, int a, int b)
   int mask = cond | (-cond);
   mask >>= 31;
   return (b & mask) | (a & ~mask);

int main(void)
   printf("1 ? 3 : 4 => %d\n", isel(1, 3, 4));
   printf("0 ? 3 : 4 => %d\n", isel(0, 3, 4));
   printf("-1 ? 3 : 4 => %d\n", isel(-1, 3, 4));
   return 0;

This code assumes that right-shifting of signed numbers will sign-extend, and that sizeof(int) == 4. Some processors can do isel() as an assembly instruction. However, both values will be evaluated, which the ternary ?: doesn't do.

Depending on the situation, the compiler will generally try to do the fastest thing, either branching to avoid redundant calculation, or doing this kind of logic if values in the ternary expression are simple.

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Cool! I used a struct with bit fields to sign extend the bit signals, but this works too, thanks! I originally thought that the compiler would tend to avoid branches at all costs, but as you say, it makes sense to check for "redundant calculation" as well. – Robz Feb 28 '11 at 3:01

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