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I'm not a C programmmer but I am translating a C program to Delphi. All is going well except I can't figure out the meaning of statements like this one:

if (result1)
    *result1 = t2;

It seems that the assignment is always to be performed and then tested for some condition?

The complete C program is listed at http://en.wikipedia.org/wiki/Talk%3ATrilateration if that helps.

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In C, there is an assimilation between integers and booleans: any number not zero means true. In C 99 the bool type was added (following the steps of C++), but these so common uses are difficult to erradicate (and there is also a lot of legacy source code using this convention).

The true meaning of that sentence is:

if ( result1 != NULL ) {
    *result1 = t2;
}

This means that result1 is a pointer, and if the probable memory allocation previous to this line was successful, then it is used to store the value t2.

So, what does this have to do with pointers? Well, a pointer is basically an integer (a memory address), and NULL is (very commonly, but not always) zero. So "result1" can be interpreted as result1 != NULL or even result1 != 0.

Finally NULL is returned when a memory allocation (or any other memory operation) was unsuccessful, so it is quite common to test that the pointer is alive (i.e., it is not NULL) before using it.

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it tests if the pointer result1 is not null. If true t2 will be assigned as value of result1

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Not quite, you missed the asterisk. – JeremyP Apr 26 '12 at 15:45
    
@JeremyP: I did not miss it. That is why I wrote t2 will be assigned to the value of result1 and not to the address of it. – juergen d Apr 26 '12 at 15:47
3  
The value of result1 is a pointer i.e. the address. What the statement does is assign t2 to the value of the variable obtained by dereferencing result1. – JeremyP Apr 26 '12 at 16:01

In C/C++ it is Undefined Behavior to dereference a NULL pointer. In short really bad things can happen if you do so.

So it is always a good practice to check a pointer for NULL before dereferencing it.
The said code does that.

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result looks like a pointer to a pointer. if it's not null, point the pointer it's pointing to to t2.

if result1 is not null result1 points to an address point that address to t2

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It's t2. not &t2. – asaelr Apr 26 '12 at 19:38
if (result1 != NULL)
{
    *result1 = t2;
}

If result1 is a null pointer, the line *result = t2 should cause a SEGFAULT.

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It's actually a common pattern in C, if you want to pass return results through function parameters. There are no var parameters in C functions, so you simulate the idea by passing a pointer to the value as a parameter and then the function can set the value by assigning to the place pointed to by the pointer.

The line in main that looks like this:

result = trilateration(&o1, &o2, p1, r1, p2, r2, p3, r3, MAXZERO);

creates pointers that point to the address in memory of the variables o1 and o2 (that's what the & means). Then the line in the function

*result1 = t2;

assigns t2 to whatever result1 is pointing to, which in this case is o1.

The line

if (result1)

tests if the pointer is "true" (false is the same as 0 and any non zero value is true in C ), so it is the same as

if (result1 != NULL)  // NULL is effectively the same as 0.

The reason this is done is so that it is legal to pass NULL as the first argument of the function. You might want to do this if you are only interested in getting one of the two result values. So, you can safely do

result = trilateration(NULL, &o2, p1, r1, p2, r2, p3, r3, MAXZERO);

if you don't care about calculating o1.

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result1 is a pointer; its value is the location of another object in memory.

In C boolean contexts, a zero-valued integral expression evaluates as false, whereas any non-zero-valued integral expression evaluates as true. In a pointer context, a zero-valued integral expression is treated as the NULL pointer constant, which represents a well-defined "nowhere" and is considered an invalid pointer value.

So if (result1) tests the value of the pointer; if it's 0, that means result1 isn't pointing anywhere meaningful, and since 0 also means false, the body of the if statement won't be executed. It's a shorthand way of writing if (result1 != NULL). If the value isn't 0, then it's a valid pointer value (hopefully; see below), the test passes, and the expression *result1 = t2 writes the value of t2 to the location pointed to by result1.

Couple of notes about pointers: first of all, a non-NULL pointer value isn't necessarily a valid pointer, in that its value may not correspond to the address of a live object. The behavior on attempting to dereference (access the memory pointed to by) an invalid pointer is undefined; your program may crash outright, or it may continue to execute in a bad state, or it may work just fine. Thus it's usually considered good practice to initialize all pointers to NULL when they're declared, and to set them to NULL when whatever they're pointing to is no longer in use.

Secondly, while the null pointer constant is always zero-valued, the null pointer value used by the implementation doesn't have to be. It's up to the compiler to map these values, so as far as your source code is concerned, NULL always means 0; just don't assume that's true for the underlying OS.

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