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I have written a function that converts a double to a BCD (BCD: Save each digit of the double as an unsigned char, in addition save the complete length, the fractional length (part behind the floating point) and the sign of the double number). I use the following struct

struct bcd_number 
unsigned int length; 
unsigned int fractional; 
signed char sign; 
unsigned char *digits; 

And thats the double to BCD function:

    struct bcd_number* double2bcd(double x) 
    char tmp[512]; 
    struct bcd_number* bcd = malloc (sizeof(struct bcd_number)); 

    int a = x;  
    double before = a;
    double fractional;
    fractional = x-(long)x;

    bcd->digits = malloc (512);

    char* z = (char*) bcd->digits; 

    sprintf (tmp,"%g",fabs(before));

    bcd->length = strlen(tmp); 
    bcd->sign = (before < 0) ? '-' : '+';

    for (size_t i=0; i<bcd->length; ++i)
     { *z++ = tmp[i] - '0'; } 

    sprintf (tmp,"%g",fabs(fractional)); 

    for (size_t i = strlen(tmp)-1; i!=0; --i) 
    if (tmp[i] != '0') 
    { tmp[i+1] = 0; break; } 

    bcd->fractional = strlen(tmp+2);
    bcd->length += bcd->fractional; 

    for (char* t = tmp + 2; *t; *z++ = *t++ - '0'); 
        bcd->digits = realloc (bcd->digits, bcd->length); 

    return bcd; 

That works perfect.

And I had also added the ability to preform addition/subtraction (Complete source code: but now I want to preform multiplication and division. But the problem is that there are only chars as digits (I dont want to change that). I now that must be like 'multiplication on the paper' (classical way without calculator) but I have the idea that it must be like addition with the modulo operator. On the other hand I have no idea how to implement it with chars with modulo. Any ideas or hints?

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You really should remove the initial malloc(). Do the conversion to a temporary buffer in the function, then malloc() once you know the correct size, removing the need to realloc(). Even better, decide on a maximum static size and always use that, since you also store the lengths. Many small (10-30 bytes) allocations can be very costly and inefficient to manage. – unwind Jan 2 '13 at 13:24
It's not really clear what the specific question is. If you are asking "how do I perform long multiplication in decimal?", then the answer is "the same you'd do it by hand". – Oliver Charlesworth Jan 2 '13 at 13:46
Okay I want to write a function (for example: struct bcd_number* multiplication (struct bcd_number *a, struct bcd_number *b) that preforms the multiplication but I've problems with the implementation of the "the same you'd do it by hand"-way. – Kossi Jan 2 '13 at 13:49
@Kossi: Can you show the code you have so far, and point out where it doesn't work? Or alternatively, give a numerical example that you don't know how to handle. – Oliver Charlesworth Jan 2 '13 at 13:50
Part of the solution to multiplication the same way as you do it by hand is to store, and use, a look-up table for all single-digit multiplications, what I would call a times table. – High Performance Mark Jan 2 '13 at 13:55

Everything you ever wanted to know about BCD can be found at the General Decimal Arithmetic web site.

For multiplication, you will need a primitive routine that multiples two digits together yielding a two digit result. Add this intermediate result to the appropriate position in the answer. Besides having a "multiplication table," finding this "appropriate position" is the crux of "the same you'd do it by hand" method.

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what comes after multiplication and division? factorial? modulus? exponent? natural logarithm? sine? cosine? turn the BCDs back into doubles, do whatever math operation, turn the result in BCD

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