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How many bits are read by the function fgetc in a stream?

The man page of fgetc tells that this function reads a "character", but a character is not a clear definition for me. How many bits does contain a "character" ? Is reading a character with fgetc equivalent as reading a byte?

Does it depend on the architecture of the machine and on the size of "char" or "byte"?

My objective is to read binary data in a stream with portability (byte=8bits or byte=16bits). Is it a better idea to use fread/fwrite with types like uintN_t instead of fgetc in order to control how many bits are read in the stream? Is there a better solution?

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How many bits does contain a "character" ?

A character contains precisely CHAR_BIT bits, an implementation-specific value defined in limits.h.

/* Number of bits in a `char'.  */
#  define CHAR_BIT      8

Is reading a character with fgetc equivalent as reading a byte

Yup, fgetc reads exactly one byte.

This portability problem isn't easily solvable. The best way around it is to not make assumptions on the binary representation.

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Thanks. But if I want to write binary data in a file shared between machines with different architecture I must pay attention to binary representation. I think using uintN_t solves this problem if you also pay attention to endianness. – mvera Jul 27 '12 at 13:38
    
@mvera If you need endianness independent output, you will need to either write a "BOM" (byte order mark, as for UTF-16 and UTF-32), or make sure each platform you want the software to run on has 8-bit bytes, which is every single popular platform that is in use on any significant scale today. – rubenvb Jul 27 '12 at 13:52

Your platform has a smallest unit of data, which corresponds to the C data type char. All I/O happens in units of chars. You are guaranteed that a char can hold the values 0–127, and either 0–255 or −127–127. Everything else is platform-specific. (The actual number of bits inside a char is contained in the macro CHAR_BIT.)

That said, as long as you only write and read values within the advertised range into each char, you are guaranteed that your program will work on any conforming platform. The only thing you are not guaranteed is that the resulting data stream will be binarily identical.

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You're not guaranteed -128 for a signed char, only -127. – Daniel Fischer Jul 27 '12 at 13:33
    
Actually -127 to 127! – Shahbaz Jul 27 '12 at 13:33
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So I guess "character" means "char" in the man page of fgetc. So if I have a binary file containing 4 octets (32bits) that I want to interpret as 4 small int I must not use fgetc as depending on the architecture of the machine 8bits or 16bits, I will read respectively 2 chars or 4 chars before OEF. Is it true ? – mvera Jul 27 '12 at 13:33
    
You don't really have a "platform-independent" way of having 32 bits. Your platform, all the way down to your hardware, already delivers data in some sort of unit (i.e. bytes). You could not physically take a 4-byte stream of your 8bpB platform and read it on a 9bpB platform as is. If you send four bytes over the network, they'll be received as four bytes on the other end, but they take 32 bits on your machine and 36 on the other. – Kerrek SB Jul 27 '12 at 13:35
    
@david Why not -127 ? in limits.h we have : #define SCHAR_MIN (-128) – Rsh Jul 27 '12 at 13:40

fgetc read exactly one byte. A character type (signed char, char, unsigned char and qualified versions) contains CHAR_BIT bits (<limits.h>), which is a constant greater than 8.

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