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Why is the first one able to increment pbf_[k] correctly while the second one does not even do it(increment)for once?

unsigned pbf_[5] ={0}; 
 bool m=0;

Code 1:

for(int k=0;k<5;k++)    

  if((m=(bit_table_[k][i][bit_index ] &bit_mask[bit]))==true)    

Code 2:

for(int k=0;k<5;k++)    
   if((bit_table_[k][i][bit_index ] & bit_mask[bit])==true)
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Well you should check the value of M inside each iteration as well as after them, and you should see the difference... –  Mihalis Bagos Dec 30 '11 at 9:59

4 Answers 4

up vote 7 down vote accepted

In the first case, the result of the masking is converted to bool m before it is compared to true.

In the second case, I believe the bitmasks are some integer type. In that case true will be promoted to the same integer type (and have the value 1).

Just remove the == true from the comparison to make them equivalent.

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In case @John doesn't realize, & is bitwise AND, not logical AND, so the result is an integer. A nonzero integer evaluated in a boolean context is true, but it's not equal to the value of true as an integer which is 1. –  Ben Jackson Dec 30 '11 at 10:04
Another way to fix this would be to use an explicit cast to bool. However, this is silly, as comparing to true is silly in the first place. In the same way that the phrase "it is true that" is almost always superfluous in English, == true is almost always superfluous in programming. –  Karl Knechtel Dec 30 '11 at 10:17

I found one problem in your code. You need to use && instead of &. In comparison, && is an logical operator and it differs from &--Bitwise operator.


if((m=(bit_table_[k][i][bit_index ] && bit_mask[bit]))==true)

To learn about operator in C++ you can visit:http://www.worldbestlearningcenter.com/index_files/c++_operators.htm

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No, he does want a bitwise operator because he needs to check that a specific bit is set in both values. However, he needs to not compare the result to true, because that's equivalent to comparing it to 1, when it may be some other nonzero value even on a "match". @BoPersson has it right. –  Karl Knechtel Dec 30 '11 at 10:16

You first check

if((m=(bit_table_[k][i][bit_index ] &bit_mask[bit]))==true)

is assining some value to variable m and that is taken by if as true.

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the first on tests the result of the the assignment to m of the value of bit_table_[k][i][bit_index ] & bit_mask[bit], while the second just tests whether

bit_table_[k][i][bit_index ] & bit_mask[bit] results not 0

Both the same effect, except that the first records the result in m on each iteration.

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No, they don't have the same effect, and your description of the second test is, I believe, incorrect. See Bo Persson's answer. –  Mat Dec 30 '11 at 10:10

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