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I am really confused that when this like 1 == scanf("%lg", &entry) is swapped to scanf("%lg", &entry) == 1 makes no difference. My lab book says the former, while I feel latter is comprehensible.

1 == scanf("%lg", &entry) means 1 MUST be equal to scanf("%lg", &entry)Can anyone explain this? I understand the latter, that the evaluation of scanf("%lg", &entry) must equal 1

I tried passing lots of different values and it makes no difference.

    #include <stdio.h>
    #include <stdlib.h>

    int main(void) {
    double entry = 0.0;
    double total = 0.0;
    int number_of_entries = 0;
    while (scanf("%lg", &entry) == 1  ) {
    total += entry;
    /* print the average of all the entries */
    printf("%f\n", total / number_of_entries);
    return EXIT_SUCCESS;
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They're called Yoda conditions. –  Keith Thompson Sep 18 '13 at 1:19

3 Answers 3

Generally speaking, you should not be surprised by (1 == scanf(...)) behaving the same as (scanf(...) == 1), since equality is symmetric. However, this is so because one of the operands is idempotent (in particular, the literal constant 1). scanf() is the only expression with a side effect, so there is no possibility of a different interpretation of the code when the arguments of == are reversed.

However, the evaluation order of the arguments to == is unspecified. So, if on side of == has a side effect that can affect the other side, then the evaluation order will impact the result of the == operation, and reversing the arguments could cause a different behavior. Such a program will thus have undefined behavior.

As a silly example, consider:

a = 0;
if (scanf("%d", &a) == a) {

The snippet has undefined behavior, because it is unspecified whether the a on the right hand side of == will be the old value it was initialized to in the statement above, or the new value that the scanf() call may have supplied. Changing the order of the arguments may cause the program to behave differently, but the behavior is still undefined.

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They are the same. And it's not limited to scanf. Usage like

if (5 == x)

is called Yoda Conditions. It's a method to prevent forgetting to use double = to compare equality. If one mistakenly write:

if (5 = x)

Then the compiler will report the error. On the other hand

if (x = 5)

is valid C (it will assign x with the value of 1, and return the value 5, i.e, true) so the compiler may not warn your about it.

It's just a coding-style, many modern compilers will warn you if you write if (x = 5). If that is true in your case, I suggest not using Yoda Conditions since it's bad for readability.

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scanf("%lg", &entry) == 1

is the same as

1 == scanf("%lg", &entry)

However, I once had a friend who preferred the

1 == scanf("%lg", &entry)

because it caught the potential typo

1 = scanf("%lg", &entry)


scanf("%lg", &entry) = 1

would go through the compiler ok.

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x == 5 however is not same as 5 == x, is it? –  user2282137 Sep 18 '13 at 0:48
Sure. x == 5 is the same as 5 == x. –  Charlie Burns Sep 18 '13 at 0:49
Okay, got rid of my confusion. It is equals –  user2282137 Sep 18 '13 at 0:50

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