Yes, this is a homework question, but I've done my research and a fair amount of deep thought on the topic and can't figure this out. The question states that this piece of code does NOT exhibit short-circuit behavior and asks why. But it looks to me like it does exhibit short-circuit behavior, so can someone explain why it doesn't?

In C:

int sc_and(int a, int b) {
    return a ? b : 0;

It looks to me that in the case that a is false, the program will not try to evaluate b at all, but I must be wrong. Why does the program even touch b in this case, when it doesn't have to?

  • 11
    As is typical of most contrived homework questions, you'll never see this kind of code in a production system, unless the programmer is deliberately trying to be clever. Oct 13, 2014 at 16:00
  • 49
    @RobertHarvey You'll see code exactly like this in production systems all the time! It's not likely to be a function named AND(), but functions receiving arguments by value and then evaluating them (or not) depending on the logic of the function are everywhere. Despite being a "trick question", it's a critical behavior of C to understand. In a language with call-by-name this question would have a very different answer. Oct 13, 2014 at 16:50
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    @BenJackson: I was commenting on the code, not the behavior. Yes, you need to understand the behavior. No, you don't need to write code like this. Oct 13, 2014 at 17:18
  • 3
    This is actually quite relevant if you ever have to code in VB and encounter IIf. Because it is a function rather than an operator, evaluation is not short-circuited. This can create problems for developers used to the short-circuiting operator who then write things like IIf(x Is Nothing, Default, x.SomeValue).
    – Dan Bryant
    Oct 13, 2014 at 19:28
  • 3
    @alk because it's a indictment of the education system. Oct 14, 2014 at 10:49

6 Answers 6


This is a trick question. b is an input argument to the sc_and method, and so will always be evaluated. In other-words sc_and(a(), b()) will call a() and call b() (order not guaranteed), then call sc_and with the results of a(), b() which passes to a?b:0. It has nothing to do with the ternary operator itself, which would absolutely short-circuit.


With regards to why I called this a 'trick question': It's because of the lack of well-defined context for where to consider 'short circuiting' (at least as reproduced by the OP). Many persons, when given just a function definition, assume that the context of the question is asking about the body of the function; they often do not consider the function as an expression in and of itself. This is the 'trick' of the question; To remind you that in programming in general, but especially in languages like C-likes that often have many exceptions to rules, you can't do that. Example, if the question was asked as such:

Consider the following code. Will sc_and exibit short-circuit behavior when called from main:

int sc_and(int a, int b){
    return a?b:0;

int a(){
    cout<<"called a!"<<endl;
    return 0;

int b(){
    cout<<"called b!"<<endl;
    return 1;

int main(char* argc, char** argv){
    int x = sc_and(a(), b());
    return 0;

It would be immediately clear that you're supposed to be thinking of sc_and as an operator in and of itself in your own domain-specific language, and evaluating if the call to sc_and exhibits short-circuit behavior like a regular && would. I would not consider that to be a trick question at all, because it's clear you're not supposed to focus on the ternary operator, and are instead supposed to focus on C/C++'s function-call mechanics (and, I would guess, lead nicely into a follow-up question to write an sc_and that does short-circuit, which would involve using a #define rather than a function).

Whether or not you call what the ternary operator itself does short-circuiting (or something else, like 'conditional evaluation') depends on your definition of short-circuiting, and you can read the various comments for thoughts on that. By mine it does, but it's not terribly relevant to the actual question or why I called it a 'trick'.

  • 13
    The ternary operator does short-circuting? No. It evaluates one of the expressions following the ?, just like in if (condition) {when true} else {when-false}. That's not called short circuiting.
    – Jens
    Oct 13, 2014 at 15:54
  • 12
  • 17
    @Jens: I'd call any case where an operator skips evaluation of one or more of its operands a form of "short circuiting", but this is really just a matter of how you choose to define the term. Oct 13, 2014 at 17:34
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    @Jens It's syntactic sugar for an if else, not an if. And even then, it's not really; the ?: operator is an expression, if-else is a statement. Those are semantically very different things, even if you can construct an equivalent set of statements that produce the same effect as the ternary expression. This is why it is considered short-circuiting; most other expressions always evaluate all of their operands (+,-,*,/ etc). When they don't, it's a short circuit (&&, ||).
    – aruisdante
    Oct 13, 2014 at 19:47
  • 9
    Yes, to me the important distinction is that we're talking about operators. Of course flow control statements control which code path gets executed. For operators, it's non-obvious to someone not familiar with C and C-derived languages that an operator might not evaluate all of its operands, so it's important to have a term for talking about this property, and for that, I use "short circuiting". Oct 13, 2014 at 20:16

When the statement

bool x = a && b++;  // a and b are of int type

executes, b++ will not be evaluated if the operand a evaluated to false (short circuit behavior). This means that the side-effect on b will not take place.

Now, look at the function:

bool and_fun(int a, int b)
     return a && b; 

and call this

bool x = and_fun(a, b++);

In this case, whether a is true or false, b++ will always be evaluated1 during function call and side effect on b will always take place.

Same is true for

int x = a ? b : 0; // Short circuit behavior 


int sc_and (int a, int b) // No short circuit behavior.
   return a ? b : 0;

1 Order of evaluation of function arguments are unspecified.

  • 1
    OK, so coroborating with Stephen Quan's answer: is it possible (legal) that a compilar could inline the "and_fun" function, such that when you call "bool x = and_fun(a, b++);" b++ will not be incremented if a is true ? Oct 14, 2014 at 10:45
  • 4
    @ShivanDragon That sounds like changing observable behaviour to me.
    – sapi
    Oct 14, 2014 at 11:54
  • 3
    @ShivanDragon: When inlining the compiler will not change the behaviour. It is not as simply as substituting the function body in. Oct 14, 2014 at 12:25
  • For clarity, you might add int x = a ? b++ : 0, as observable short-circuiting. Oct 14, 2014 at 18:27
  • @PaulDraper; I kept the original snippet as it is for readers not to confuse.
    – haccks
    Oct 14, 2014 at 20:03

As already pointed out by others, no matter what gets pass into the function as the two arguments, it gets evaluated as it gets passed in. That is way before the tenary operation.

On the other hand, this

#define sc_and(a, b) \
  ((a) ?(b) :0)

would "short-circuit", as this macro does not imply a function call and with this no evaluation of a function's argument(s) is performed.

  • maybe explain why? It looks for me exactly the same as the snippet of the op. Except its inline isntead of a different Scope.
    – dhein
    Oct 14, 2014 at 9:50

Edited to correct the errors noted in @cmasters comment.


int sc_and(int a, int b) {
    return a ? b : 0;

... the returned expression does exhibit short-circuit evaluation, but the function call does not.

Try calling

sc_and (0, 1 / 0);

The function call evaluates 1 / 0, though it is never used, hence causing - probably - a divide by zero error.

Relevant excerpts from the (draft) ANSI C Standard are: Program execution


In the abstract machine, all expressions are evaluated as specified by the semantics. An actual implementation need not evaluate part of an expression if it can deduce that its value is not used and that no needed side effects are produced (including any caused by calling a function or accessing a volatile object).

and Function calls




In preparing for the call to a function, the arguments are evaluated, and each parameter is assigned the value of the corresponding argument.

My guess is that each argument is evaluated as an expression, but that the argument list as a whole is not an expression, hence the non-SCE behaviour is mandatory.

As a splasher on the surface of the deep waters of the C standard, I'd appreciate a properly informed view on two aspects:

  • Does evaluating 1 / 0 produce undefined behaviour?
  • Is an argument list an expression? (I think not)


Even you move to C++, and define sc_and as an inline function, you will not get SCE. If you define it as a C macro, as @alk does, you certainly will.

  • 1
    No, an inline function does not change the semantics of a function call. And those semantics specify that all arguments are evaluated, as you correctly cited. Even if the compiler can optimize the call, visible behavior must not change, i. e. sc_and(f(), g()) must behave as if both f() and g() are always called. sc_and(0, 1/0) is a bad example because it is undefined behavior, and the compiler is not required to even call sc_and()... Oct 15, 2014 at 19:35
  • @cmaster Thank you. I simply did not know that C++ inline preserved call semantics. I've stuck with the zero-divide, as it fits the example, and SCE I think is often exploited to avoid undefined behaviour.
    – Thumbnail
    Oct 17, 2014 at 11:48

To clearly see ternary op short circuiting try changing the code slightly to use function pointers instead of integers:

int a() {
    printf("I'm a() returning 0\n");
    return 0;

int b() {
    printf("And I'm b() returning 1 (not that it matters)\n");
    return 1;

int sc_and(int (*a)(), int (*b)()) {
    a() ? b() : 0;

int main() {
    sc_and(a, b);
    return 0;

And then compile it (even with almost NO optimization: -O0!). You will see b() is not executed if a() returns false.

% gcc -O0 tershort.c            
% ./a.out 
I'm a() returning 0

Here the generated assembly looks like:

    call    *%rdx      <-- call a()
    testl   %eax, %eax <-- test result
    je      .L8        <-- skip if 0 (false)
    movq    -16(%rbp), %rdx
    movl    $0, %eax
    call    *%rdx      <- calls b() only if not skipped

So as others correctly pointed out the question trick is to make you focus on the ternary operator behaviour that DOES short circuit (call that 'conditional evaluation') instead of the parameter evaluation on call (call by value) that DOES NOT short circuit.


The C ternary operator can never short-circuit, because it only evaluates a single expression a (the condition), to determine a value given by expressions b and c, if any value might be returned.

The following code:

int ret = a ? b : c; // Here, b and c are expressions that return a value.

It's almost equivalent to the following code:

int ret;
if(a) {ret = b} else {ret = c}

The expression a may be formed by other operators like && or || that can short circuit because they may evaluate two expressions before returning a value, but that would not be considered as the ternary operator doing short-circuit but the operators used in the condition as it does in a regular if statement.


There is some debate about the ternary operator being a short-circuit operator. The argument says any operator that doesn't evaluate all it's operands does short-circuit according to @aruisdante in the comment below. If given this definition, then the ternary operator would be short-circuiting and in the case this is the original definition I agree. The problem is that the term "short-circuit" was originally used for a specific kind of operator that allowed this behavior and those are the logic/boolean operators, and the reason why are only those is what I'll try to explain.

Following the article Short-circuit Evaluation, the short-circuit evaluation is only referred to boolean operators implemented into the language in a way where knowing that the first operand will make the second irrelevant, this is, for the && operator being the first operand false, and for the || operator being the first operand true, the C11 spec also notes it in 6.5.13 Logical AND operator and 6.5.14 Logical OR operator.

This means that for the short-circuit behavior to be identified, you would expect to identify it in an operator that must evaluate all operands just like the boolean operators if the first operand doesn't make irrelevant the second. This is in line with what is written in another definition for the short-circuit in MathWorks under the "Logical short-circuiting" section, since short-circuiting comes from the logical operators.

As I've been trying to explain the C ternary operator, also called ternary if, only evaluates two of the operands, it evaluates the first one, and then evaluates a second one, either one of the two remaining depending on the value of the first one. It always does this, its not supposed to be evaluating all three in any situation, so there is no "short-circuit" in any case.

As always, if you see something is not right, please write a comment with an argument against this and not just a downvote, that just makes the SO experience worse, and I believe we can be a much better community that one that just downvotes answers one does not agree with.

  • 3
    And why the downvote? I'd like comments so I can fix whatever I've said wrong. Please be constructive. Oct 14, 2014 at 11:09
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    Maybe -1 because it is not 100% On Topic. but anyway I gave +1 because your answer at least explains it statemant and it doesn't seem to be wrong ompv.
    – dhein
    Oct 14, 2014 at 11:27
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    @AdrianPerez see the comments section in my answer for why most people would 100% consider the terniary operator to shor-circuit. It's an expression that doesn't evaluate all its operands based on the value of some of its operands. That's short-circuiting.
    – aruisdante
    Oct 14, 2014 at 12:33
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    I can't think of any non-boolean operator that doesn't evaluate all of its operands . But that's besides the point; the reason it's called short-circuiting is precisley because it's an operator (or in the general sense, an expression rather than a statement) that doesn't evaluate all of its operands. The type of the operator doesn't really matter. It would be perfectly possible to write boolean operators that didn't short circuit, and you could write non-boolean ones that did as well (ex: integer muliplicaton of 0 always is 0, so return 0 immediately if first operand is 0).
    – aruisdante
    Oct 14, 2014 at 16:17
  • 2
    x = a ? b : 0; is semantically the same as (a && (x = b)) || (x = 0);
    – jxh
    Oct 15, 2014 at 2:13

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