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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

5 Answers 5

up vote 1 down vote accepted

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.

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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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