In C some data types shows one special properties that when we assign a value beyond range of that data type then it will not any compiler error but assign a number according to some cyclic order. This property is known as cyclic nature of data type.
Data type which shows cyclic nature:
(a) char
(b) int
(c) long int
Data type which doesn’t show cyclic nature:
(a) float
(b) double
(c) long double
1. Cyclic nature of unsigned char:
Range of unsigned char is 0 to 255. If we will assign a value greater than 255 then value of variable will be changed to a value if we will move clockwise direction as shown in the figure according to number. If number is less than 0 then move in anti clockwise direction.
Short cut formula to find cyclic value:
If number is X where X is greater than 255 thenNew value = X % 256
If number is Y where Y is less than 0 then
New value = 256 – (Y% 256)
2. Cyclic nature of signed char:
Range of unsigned char is -128 to 127. If we will assign a value greater than 127 then value of variable will be changed to a value if we will move clockwise direction as shown in the figure according to number. If number is less than -128 then move in anti clockwise direction.
Short cut formula to find cyclic value:
If number is X where X is greater than 127 thenp = X % 256
if p <=127
New value = p
else
New value = p – 256
If number is Y where Y is less than -128 then
p = Y % 256
If p <= 127
New value = -p
else
New value = 256 -p
3. Cyclic nature of unsigned int:
Range of unsigned int is 0 to 65535. If we will assign a value greater than 65535 then value of variable will be changed to a value if we will move clockwise direction as shown in the figure according to number. If number is less than 0 then move in anti clockwise direction.
Short cut formula to find cyclic value:
If number is X where X is greater than 65535 then
New value = X % 65536
If number is Y where Y is less than 0 then
New value = 65536– (Y% 65536)
4. Cyclic nature of signed int:
New value = X % 65536
If number is Y where Y is less than 0 then
New value = 65536– (Y% 65536)
4. Cyclic nature of signed int:
Range of unsigned int is -32768 to 32767. If we will assign a value greater than 32767 then value of variable will be changed to a value if we will move clockwise direction as shown in the figure according to number. If number is less than -32768 then move in anti clockwise direction.
If number is X where X is greater than 32767 then
p = X % 65536
if p <=32767
New value = p
else
New value = p - 65536
If number is Y where Y is less than -32768 then
p = Y % 65536
If p <= 32767
New value = -p
else
New value = 65536 -p
if p <=32767
New value = p
else
New value = p - 65536
If number is Y where Y is less than -32768 then
p = Y % 65536
If p <= 32767
New value = -p
else
New value = 65536 -p
Note: Same rule is also applicable in case of signed long int and unsigned long int.
9 comments:
#include
#include
void main()
{
char a=200;
pintf("%d",a);
getch();
}
o/p is -56...how????plzz explain.....
Inwhich category he comes 1,2,3
subtract 127 from 200 and add result to -128... u vl get -56 as ans coz of cyclic property.
u didn't specify whether a is signed or unsigned so by default compiler is taking it as signed...
Really very good and easy to understand
hey,it was very helpful.but you wrote 653535 instead of 65535 in point 3 and ubsigned instead of signed in point 4.:)
Thanks a ton for posting good questions that help widen our understanding of how computers work
Awesome explanation.....a ton of thanks to u .....it greatly helped me understand C
Int main()
{
Char str1[]="pratik";
Char str2[]="pratik";
If(str1==str2)
print("equal\n");
else
printf("unequal\n");
return 0;
}
What will be the output??
Int main()
{
Char str1[]="pratik";
Char str2[]="pratik";
If(str1==str2)
print("equal\n");
else
printf("unequal\n");
return 0;
}
What will be the output??
It will be unequal because str1 is the name of variable where it is stored in the form of array. So, str1 means the first address where it is stored, i.e. Memory location of "p" say 1024. Similarly, for str2 "p" will have different location say 2046. So, 1024 not equal to 2046. To compare two strings in C, we need strcmp command.
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