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The prototypes for getchar() and putchar() are:

int getchar(void);

int putchar(int c);

As ,its prototype shows, the getchar() function is declared as returning an integer.However, you can assign this value to a char variable, as is usually done, because the character is contained in the low-order byte.(The high-order byte is normally zero.)

Similary in case of putchar(),even though it is declared as taking an integer parameter you will generally call it using a character argument.Only the low order byte of its parameter is actually output to the screen.

What do you mean by high order and low order bytes?

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  • An int data type is either 16 or 32 bits - either 2 or 4 bytes. Commented Nov 5, 2017 at 2:15
  • Questions asking us to recommend or find a book, tool, software library, tutorial or other off-site resource are off-topic for Stack Overflow as they tend to attract opinionated answers and spam.
    – Rob
    Commented Nov 5, 2017 at 2:17
  • Burn the book... Commented Nov 5, 2017 at 2:18
  • Out of curiosity, what source is this from? Commented Nov 5, 2017 at 2:20
  • Please dont confuse C and C++. Is this one of the HS books, BTW? Commented Nov 5, 2017 at 2:23

2 Answers 2

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In C, the size of an int is implementation defined, but is usually 2, or 4 bytes in size. The high-order byte would be the byte that contains the largest portion of the value. The low-order byte would be the byte that contains the smallest portion of the value. For example, if you have a 16-bit int, and the value is 5,243, you'd write that in hex as 0x147B. The high order byte is the 0x14, and the low-order byte is the 0x7B. A char is only 1 byte, so it is always contained within the lowest order byte. When written in hex (in left-to-right fashion) the low-order byte will always be the right-most 2 digits, and the high-order byte will be the left-most 2 digits (assuming they write all the bytes out, including leading 0s).

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I think the best analogy for this would be to look at decimal numbers.

Although this isn't literally how things work, for the purposes of this analogy let's pretend that a char represents a single decimal digit and that an int represents four decimal digits. If you have a char with some numeric value, you could store that char inside of an int by writing it as the last digit of the integer, padding the front with three zeros. For example, the value 7 would be represented as 0007. Numerically, the char value 7 and the int value 0007 are identical to one another, since we padded the int with zeros. The "low-order digit" of the int would be the one on the far right, which has value 7, and the "high-order bytes" of the int would be the other three values, which are all zeros.

In actuality, on most systems a char represents a single byte (8 bits), and an int is represented by four bytes (32 bits). You can stuff the value of a char into an int by having the three higher-order bytes all hold the value 0 and the low-order byte hold the char's value. The low-order byte of the int is kinda sorta like the one's place in our above analogy, and the higher-order bytes of the int are kinda sorta like the tens, hundreds, and thousands place in the above analogy.

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  • @templatedef can i infer that when integer or any other type(numeric type) gets typecasted to a char var then that char variable contains the low order byte of the numeric type?
    – rooni
    Commented Nov 5, 2017 at 2:44
  • @rimiro, no you can't. If you convert an integer to an unsigned char, you will get the low order bits (at least 8 of them). But converting a number outside of the range to a signed char' is not defined by the standard, so you have to search the documentation for the compiler(s) you use (which you also need to do to see whetherchar` is signed or unsigned).
    – rici
    Commented Nov 5, 2017 at 4:42
  • Actually, the length of the data types is dependent on the used architecture and the compiler. While char is one byte long (8 bits) in most cases, int may be either 16 bits long (two bytes) on 8/16-bit systems, or 32 bits long (four bytes) on 16/32-bit systems. Make use of the sizeof(int) statement to make sure what length your int datatype occupies in memory. Commented Dec 15, 2022 at 1:41

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