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Can some one please explain the nesting of case statements into another. I'm referring to the Duffs Device where all other case statements are inside the do-while loop associated with case 0. I cant get my head around it. It seems to me that it should act like a nested if. But then i'm definitely missing something. Please explain.

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possible duplicate of How does Duff's device work? –  dasblinkenlight Feb 23 '12 at 15:36
Don't be ashamed of not being able to wrap your head around Duff's device... –  Mr Lister Feb 23 '12 at 15:37
my question is about the nested case statements, I used Duffs device as a reference because i ended up there while doing research about the this behavior in the first place. I have already seen the link above and does not quite help. Sorry. –  Bazooka Feb 23 '12 at 15:40
I don't understand your question. Case statements aren't blocks, they don't nest. Duff's device does not involve nesting switch statements. Post an example of code you don't understand. –  Gilles Feb 24 '12 at 15:16
Like i said i was missing something. I read through K&R appendix A section A9 (2nd ed. pg. 222). World makes much more sense now. –  Bazooka Feb 24 '12 at 15:34

2 Answers 2

In a switch-case construct, the switch body is just a normal or compound statement which can contain any other valid c statements. It may also contain case or default labels.
And the control jumps to appropriate case label depending on controlling expression value, the statements in the switch body are executed one after another just like any other scope { } unless a break is encountered.

For example, consider the following simple test program:

int main()
    int i = 6;//5,10;
        case 10:
              printf("\nIn case 10");
        case 11:
              printf("\nIn case 11");              
        case 12:
              printf("\nIn case 12");
        case 5:
              printf("\nIn case 5");
        case 6:
              printf("\nIn case 6");     
              printf("\nIn Default");


    return 0;

Consider 3 values for the controlling expression i in the switch statement:


The resultant outputs are as follows:
Scenario 1: i = 6

In case 6
In Default

Scenario 2: i = 10

In case 10
In case 11
In case 12

Scenario 3: i = 5

In case 5

Notice that, in each of the above scenarios, once a matching case label is encountered the statements are executed sequentially until a break is encountered, Thereby leading to conclusion which is the first statement in the answer.

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The easiest way to understand Duff's device is to separate its two logical components, the switch and the do/while loop, from each other. Here is a logically equivalent implementation, where the two statements are no longer nested:

void copy(int* to, int* from, int count) {
    int n = (count + 7) / 8;
    switch(count % 8) {
        case 0: goto case_0;
        case 1: goto case_1;
        case 2: goto case_2;
        case 3: goto case_3;
        case 4: goto case_4;
        case 5: goto case_5;
        case 6: goto case_6;
        case 7: goto case_7;
    do {
        case_0: *to++ = *from++;
        case_7: *to++ = *from++;
        case_6: *to++ = *from++;
        case_5: *to++ = *from++;
        case_4: *to++ = *from++;
        case_3: *to++ = *from++;
        case_2: *to++ = *from++;
        case_1: *to++ = *from++;
    } while (--n);

Note the labels inside the loop: they are normal C labels, not case labels.

The only difference between this code and Duff's device is that Duff's code exploits the ability of using case labels inside a do/while loop, as long as the loop itself starts and ends inside the switch statement, eliminating the need for "regular" labels and gotos.

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