# Printing char even parity

This may be a stupid question but I can't seem to figure this out.

I've written a program the takes a char as input, outputs the char and its hexadecimal value then checks for even parity and sets the parity bit to 1 and again outputs the "new" char and it's hex value. However using printf and %c doesn't seem to be the way to go and I don't understand why or how to fix it, so I would very much appreciate if someone could explain why not and what I should be doing instead. Oh and feel free to comment on the code I am learning after all so criticism is always good :)

``````int checkParity(unsigned char myChar); //returns 0 if even 1 if odd

int main()  {
int i;
unsigned char input;

printf("Enter char: ");
scanf("%c", &input);

/* print unchanged char and hex with */
printf("c7: %c ", input);
printf("hex: %x \n", input);

/*if parity is odd*/
if(checkParity(input)){
/*change to even*/
input = (input|0x80);
}

/* print char and hex even parity */
printf("c8: %c ", input);
printf("hex: %x \n", input);

return 0;
}

int checkParity(unsigned char myChar){
int i;
int parity = 0;

while(myChar){    //while myChar != 0
parity += (myChar&1);   //add result of myChar AND 1 to parity
myChar = myChar>>1;     //shift bits left by 1
}
//printf("parity equals: %d\n", parity);
if(parity%2){ // if odd parity
return 1;
}
else { //even parity
return 0;
}
}
``````
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What's the output, and what do you expect it to be? – Adam Liss Mar 9 '12 at 23:43
After adding the parity bit I simply want to print the character that was put in so for example 'L' followed by the new hex value. right now it prints a weird looking square instead of L. – Astabh Mar 9 '12 at 23:47
Beside the fact that >> is shift bit right and not left , try to focus your question to part of the code that is not working. In example , I dont know if you check the checkparity function behaviour – Gil.I Mar 9 '12 at 23:49
That's because it's no longer an `L' :-) The parity bit happens to be the most significant bit, and it's treated as data. So you're actually adding 128 to the hex code of the character. Search for "Extended ASCII table" to find out what the new character is. If you want to print the original character, you can copy it into another variable and print that. – Adam Liss Mar 9 '12 at 23:51
oops thanks didn't notice I'd written left! well I've checked that the checkParity function works a few times and it seems to. Like I mentioned the part that isn't working is printing an char with the parity bit set to 1 using %c. Our lecturer mentioned it would not work but I can't figure out why. – Astabh Mar 9 '12 at 23:53

What are parity bits?

Parity bits are a simple form of error-checking that can be used, for example, when you transmit data from one machine to another. If both machines agree on, say, even parity, then the receiver will know that any incoming characters that don't have even parity were received in error. However, parity of any type can only identify an odd number of erroneous bits: two errors in a single character will cancel each other, and the resulting parity will be correct. Moreover, the receiver cannot determine which bit (or bits) are incorrect; parity provides error detection, but not error correction.

How should received data be processed?

The receiver should calculate and validate the parity of each incoming character. If it detects a character with invalid parity, it should indicate the error somehow. In the best case, it may be able to ask the transmitter to re-transmit the character.

Once the character is validated, the receiver must strip the parity bit before passing the character on for further processing. This is because, since the parity bit is used for error detection, it is "lost" from the data payload. Thus, enabling parity will reduce the number of available data values by half. For example, 8 bits can have one of 256 possible values (0 - 255). If one bit is used for parity, only 7 bits remain to encode the data, leaving only 128 valid values.

``````#include <stdio.h>

// Consider using a boolean data type, as the function returns
// "true" or "false" rather than an arbitrary integer.
int isOddParity(unsigned char myChar);

int main(void) {
unsigned char input;

printf("Enter char: ");
scanf("%c", &input);

// Force even parity by setting MSB if the parity is odd.
unsigned char even = isOddParity(input) ? input | 0x80 : input;

// Print the original char, original hex, and even-parity hex
// Print hex values as 0xHH, zero-padding if necessary.  This program
// will probably never print hex values less than 0x10, but zero-padding
// is good practice.
printf("orig char: %c\n", input);
printf("orig  hex: 0x%02x\n", input);
printf("even  hex: 0x%02x\n", even);
return 0;
}

// Calculate the parity of myChar.
// Returns 1 if odd, 0 if even.
int isOddParity(unsigned char myChar) {
int parity = 0;

// Clear the parity bit from myChar, then calculate the parity of
// the remaining bits, starting with the rightmost, by toggling
// the parity for each '1' bit.
for (myChar &= ~0x80;  myChar != 0;  myChar >>= 1) {
parity ^= (myChar & 1);   // Toggle parity on each '1' bit.
}
return parity;
}
``````
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Thanks, Jonathan, for the correction! – Adam Liss Mar 10 '12 at 16:27
Thank you for the detailed explanation it really helps. – Astabh Mar 17 '12 at 17:32