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Could anyone explain to me what will happen in my computer when I run this piece of false code. Compiled with the gnu gcc compiler. in Codeblocks.

This is false code:

  char data[5];

  data[0] = '1';
  data[1] = '10';
  data[2] = '30';
  data[3] = '50';

  if(sizeof(data) == 5)

sizeof(data) is 5 because I declared char data[5].

If I try to read data[1] I noticed it will return the last char. Either '0' or '48'.

So I was wondering, what happens with the '1' in data[1] and what will happen to my memory?

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are char literals with more then one char accepted by the compiler (special cases like hex '0x1' i know are ) but in general? –  Op De Cirkel May 21 '12 at 7:46
apparently char literals are truncated to a single char. –  joey May 21 '12 at 12:50

2 Answers 2

up vote 3 down vote accepted

It's a bit confusing that you're using multi-character literals like 10, that probably adds to your confusion. What will happen with a line like this:

data[1] = '10';


  • The int-type (not char, in C) value '10' will be truncated down to char
  • The resulting value will be assigned to data[1].

Which value this is, exactly, is compiler-dependent since the literal is larger than what fits in a single char.

If you're seeing 0 (numerically 48 on ASCII systems), this means that 10 was truncated to 0, which is the value stored. The 1 was then completely lost (not stored in an adjacent slot of the array, which you might have expected).

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Thank you, makes it clear. –  joey May 21 '12 at 12:48

Except for the effects of adjust(), what happens is quite clear:

  • data[] is allocated with 5 elements
  • the first through fourth elements are defined
  • the size of data[] is compared with 5
  • adjust() is called with a pointer to the beginning of data[]

I don't understand your comments about reading data[1]. It contains something undefined until assigned.

char x = '10'; is the same as char x = '0' on most architectures. This is a departure in behavior from c++. char expressions are handled as integers mostly, and then implicitly typecast upon storage.

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thank you very much for your answer wallyk. I learned something new. –  joey May 21 '12 at 12:47

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