# C floating point arithmetic

I am trying to implement a function to calculate the frequencies of words and word pairs to discover which word pairs are collocations (i.e, have a meaining in and of themselves) (e.g., disk drive). However, I cannot seem to implement the formula that I need for this.

My problem is with the doubles. I have even tried type-casting the formulas, but they always result in 0.00000000000000000000, which obviously is not true for something like ((7 * 207) / 6790) (one of the inputs I looked at).

I feel like I should be typecasting somewhere, but it didn't seem to be of any help. Am I somehow swamping something? Or is this merely a problem with the print statements? Any help would be greatly appreciated.

``````int chi_squared(hashTable *bigrams, hashTable *tokens, int numTokens){

list *l = NULL;
char *token1;
char *token2;
char *delimiter = " ";

int o11, o12, o21, o22 = 0;
int notW1, notW2 = 0;
double e11, e12, e21, e22 = 0;
float x2 = 0;

for(int i = 0; i < bigrams->size; i++){
l = bigrams->table[i];
while(l != NULL){
printf("bigram = %s\n", l->str);
token1 = strtok(l->str, delimiter);
token2 = strtok(NULL, delimiter);

o11 = l->occurrences;  //total occurrences of bigram
o21 = search(tokens, token1)->occurrences;  //total occurrences of only word 1
o12 = search(tokens, token2)->occurrences;  //total occurrences of only word 2
o22 = numTokens - o11 - o12 - o21;   //total occurrences of neither

notW1 = numTokens - o21;
notW2 = numTokens - o12;

e11 = ((o12 * o21) / numTokens);
e12 = (notW1 / numTokens) * (o12 / numTokens) * numTokens;
e21 = (o21 / numTokens) * ((numTokens - o12) / numTokens) * numTokens;
e22 = ((numTokens - o21) / numTokens) * ((numTokens - o12) / numTokens) * numTokens;

// x2 = (powf((o11 - e11), 2) / e11) + (powf((o12 - e12), 2) / e12) + (powf((o21 - e21), 2) / e21) + (powf((o22 - e22), 2) / e22);
x2 = (numTokens * (pow(((o11 * o22) - (o12 * o21)), 2))) / ((o11 - o12) * (o11 + o21) * (o12 + o22) * (o21 - o22));

printf("bigram: %d, token1: %d, token2: %d, neither: %d\n", o11, o21, o12, o22);
printf("not w1:  %d,  not w2:  %d\n", notW1, notW2);
printf("marginal probabilities:  bigram: %.20lf, token1: %.20lf, token2: %.20lf, neither: %.20lf\n", e11, e12, e21, e22);
printf("chi squared = %.20lf\n", x2);
l = l->next;
}
}

return 0;
}
``````
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Could you provide an real-world example how to run this code? What's the input? –  Andrej Sep 5 '13 at 5:31

The thing is, regardless of the actual values, the following holds:

``````int / int = int
``````

The output will not be cast to a non-`int` type automatically.

So the output will be floored to an `int` when doing division.

What you want to do is force either of these to happen:

``````double / int = double
float / int = float
int / double = double
int / float = float
``````

You can do this by either:

• Putting a `(double)` or `(float)` somewhere in your expression or
• Changing one or more of the variables to `double` or `float`

EDIT: This is called a widening conversion. Here is a brief mention of it.

-

It is certainly true for an expression such as `((7 * 207) / 6790)` that the result is `0`, or `0.0` if you think in `double`.

The expression only has integers, so it will be computed as an integer multiplication followed by an integer division.

You need to cast to a floating-point type to change that, e.g. `((7 * 207) / 6790.0)`.

Many poeple seem to expect the right-hand side of an assignment to be automatically "adjusted" by the type of the target variable: this is not how it works. The result is converted, but that doesn't affect any "inner" operations in the right-hand expression. In your code:

``````e11 = ((o12 * o21) / numTokens);
``````

All of `o12`, `o21` and `numTokens` are integer, so that expression is evaluated as integer, then converted to floating-point since `e11` is `double`.

This like doing

``````const double a_quarter = 1 / 4;
``````

this is just a simpler case of the same problem: the expression is evaluated first, then the result (the integer `0`) is converted to double and stored. That's how the language works.

The fix is to cast:

``````e11 = ((o12 * o21) / (double) numTokens);
``````
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I see. Thank you! I was casting in the wrong place previously. –  user2052561 Feb 22 '13 at 10:31

If you are dividing ((7 * 207) / 6790) try

``````double val = double(7*207) / double(6790);
``````

because when you simply divide it, C assumes integers and so it becomes zero!

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This still results in integer division and only the result is casted to `double`. –  Archie Feb 22 '13 at 10:27
@Archie OK, thank you for the hint, I corrected my post. –  bash.d Feb 22 '13 at 10:29
@bash.d That form of casting is only available in C++. –  Daniel Fischer Feb 22 '13 at 19:59
You are right... I forgot the parenthesis... –  bash.d Feb 22 '13 at 21:07

You must cast these numbers to `double` before division. When you perform division on `int` the result is also an integer rounded towards zero, e.g. `1 / 2 == 0`, but `1.0 / 2.0 == 0.5`.

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If the operands are integer, C will perform integer arithmetic. That is, `1/4 == 0`. However, if you force an operand to be `double`, then the arithmetic will take fractional parts into account. So:

``````int a = 1;
int b = 4;
double c = 1.0

double d = a/b;         // d == 0.0
double e = c/b;         // e == 0.25
double f = (double)a/b; // f == 0.25
``````
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