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The following Pseudo and JavaScript code is a extract from the implementation of a algorithm , i want to convert it to C++ .

Pseudo Code :

for b from 0 to 2|R| do
for i from 0 to |R| do
if BIT-AT(b, i) = 1 then // b’s bit at index i

JavaScript Code :

for (var b = 0; b < Math.pow(2, orders[r].length); b++) // use b's bits for directions
   for (var i = 0; i < orders[r].length; i++)
    if (((b >> i) & 1) == 1) {  // is b's bit at index i on? 

I don't understand what is happening in the last line of this code , What Should be the C++ code for the above given JavaScript code . So far what i have written is :

for (int b = 0; b < pow(2,; b++) 
  for (int i = 0; i <; i++)
     if (((b >> i) & 1) == 1)***//This line is not doing what it is supposed to do according to pseudo code*** 

The last line is giving me segmentation fault .

-- Edit:I apologize the problem was somewhere else , This code works fine .

share|improve this question
As singer says, this code looks correct. If the C++ code isn't doing what it is supposed to do, what is it doing instead (and what is it supposed to be doing?). I would guess the problem is else where, possibly the difference between orders[r].length and – Patrick Aug 14 '12 at 8:15
It is giving me a segmentation fault . It is supposed to be doing what is written in the pseudo code and what JavaScript code is doing . – rajat Aug 14 '12 at 8:17
@rajat, well if the problem is segfault, it would have been a good idea to say that in the question. Segfault cant be caused by bit operations here, it's probably either at, or in the part of code that you have not posted. Debug it to see where it happens. – SingerOfTheFall Aug 14 '12 at 8:23
Everything else is fine , i output-ed the values of and others . they are fine . Also i should mention that the error occurs in the starting , when b=0 and i=0; – rajat Aug 14 '12 at 8:47
up vote 1 down vote accepted
(((b >> i) & 1) == 1)
     |     |
     |     |
     |    bitwise AND between the result of the shift and number 1.
    shift b by i bits to the right

After that the result is compared with the number 1.

So if, for example, b is 8, and i is 2, it will do the following:

  1. shift 8 (which is 00001000) by 2 bits to the right. The result will be 00000100.
  2. apply the bitwise AND: 00000100 BITWISE_AND 00000001, the result will be 0.
  3. Compare it with 1. Since 0 =/= 1, you will not enter that last if.

As for the logic behind this, the code ((b >> i) & 1) == 1) returns true if the bit number i of the b variable is 1, and false otherwise.

And I believe that c++ code will be the same, with the exception that we don't have Math class in c++, and you'll have to replace vars with the corresponding types.

share|improve this answer

>> is the right shift operator, i.e. take the left operand and move its bit n positions to the right (defined by the right operand).

So essentially, 1 << 5 would move 1 to 100000.

In your example (b >> i) & 1 == 1 will check whether the i-th bit is set (1) due to the logical and (&).

As for your code, you can use it (almost) directly in C or C++. Math.pow() would become pow() inside math.h, but (in this case) you could simply use the left shift operator:

for (int b = 0; b < (1 << orders[r].length); ++b) // added the brackets to make it easier to read
    for (int i = 0; i < orders[r].length; ++i)
        if (((b >> i) & 1) == 1) {
            // ...

1 << orders[r].length will essentially be the same as pow(2, orders[r].length), but without any function call.

share|improve this answer
Why are doing ++b instead of ++b, what is the point of increasing the value before the function ? – rajat Aug 14 '12 at 8:41
I'm just used to doing it that way. Usually a pre-increment (++b) is always faster (not relying on the compiler to notice there wouldn't be any difference), as for pos-tincrement (b++) you'll have to keep a copy of the value. This is especially true for more complex data types (e.g. iterators), where using pre-increment is usually recommended. To emphasise this: The "keep a copy" mechanic isn't part of the compiler generated code if you're not using atomic stuff (like integers or pointers), so it might be impossible to just strip it away. – Mario Aug 14 '12 at 9:08

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