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I've read a paragraph but I can't understand what does it mean....can anyone please explain? the paragraph is :

processing a single character as a char*string can lead to a fatal runtime error. a char* string is a pointer probably a large integer. however a character is a small integer(ascii 0-255). on many systems, dereferencing a char vaalue causes an error, because low memory addresses are reserved for special purposes such as operating system interrupt handlers- so "memory violations" occur.

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I should say that this passage sooo misses the point :) –  Armen Tsirunyan Mar 8 '11 at 10:47
This question is most probably C, rather than C++. Few times you will see in C++ texts char * string (in C++ string is a type, and even if being in the std namespace it won't collide with that declaration, most people avoid calling their strings string) –  David Rodríguez - dribeas Mar 8 '11 at 10:51

4 Answers 4

up vote 6 down vote accepted

It means you shouldn't do something like:

char *pCh = 'A';  // this is the value 0x41 (assuming ASCII).
char Ch = *pCh;   // probably not what you wanted.

because there is a vast difference between a character and a character pointer.

In fact, a decent compiler should give you a warning when you attempt to do something like that.

The rest of it explains one possible effect. If you're working in a system where char values are eight bits, they will only be able to hold values from 0 through 255 inclusive (the ISO C standard allows char values to be larger but it's fairly uncommon). It's very unlikely that a pointer chosen at random from that value set will be useful.

It's not totally out of the question since you may be on an embedded system where you have memory-mapped I/O down there but, in that case, you'd be more likely to use something like #define IOPORT7 0x0041 and use IOPORT7 rather than 'A'.

Pointers, on the other hand, tend to be able to point at your entire address space, which can be 32 bits wide (or larger). 32 bits gives you about four billion possible values where a pointer can point to.

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Sorry, but that's just wrong. If pCh is a pointer to character, you can of course dereference it to retrieve the character pointed to. If not, what good would character pointers be after all? –  Axel Mar 8 '11 at 11:01
@Axel, I didn't say you couldn't dereference it. I said you shouldn't do it. And the reason I said that is because you've set it to 'A', not "A", which, in ASCII is 0x41 and very unlikely to be a valid pointer. Just because you can do something doesn't make it a good idea :-) –  paxdiablo Mar 8 '11 at 11:05
It is a valid pointer. It's just not a pointer to a zero terminated string. –  Axel Mar 8 '11 at 11:10
Perhaps you should change char Ch = *pCh; to something like strcpy(pCh2, pCh) since the above assignment to Ch is perfectly valid. –  Axel Mar 8 '11 at 11:14
so it like char *pch='a'; means pch holds value 97 and is a pointer to another char whereas char *pch="avinash"; means that pch holds the pointer pointing to a of avinash. –  avinash Mar 8 '11 at 11:15

I'd dump the book or whereever you got that quote from. What is probably meant is you shouldn't try something like this:

char c = 'a';
strcmp(&c,"a"); // might accidentally work on some systems, but behaviour is undefined
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It means, if you have a single character, i.e.:

char c = 'p';

Do not try to dereference c, i.e., to do *c, because it will lead to undefined behaviour.

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That's not undefined behaviour, that's a compile-time error. –  Axel Mar 8 '11 at 10:57

I'm a little worried about the source of that paragraph -- it feels pretty ancient.

Every modern operating system provides protected memory. Every process gets its own address space, and the physical machine's low memory is not accessible to programs without performing some pretty significant operations (such as iopl(2) or ioperm(2) on Linux systems).

The low memory is not mapped into processes because it is the easiest way to catch attempts to write to the NULL pointer (which is essentially the address 0x0) and char variables (rather than char * variables). The OS could perfectly well map the page at virtual address 0x0 to any page of memory it wants. (Mapping the zero-page is sometimes required for compatibility mode execution of ancient or arcane systems.)

Of course, if you're reading a guide on programming machines without MMUs, then it makes some sense, but I'd still be wary.

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