What do "-1L", "1L" etc. mean in C ?
For example, in ftell reference, it says
... If an error occurs, -1L is returned ...
What does this mean ? What is the type of "1L" ?
Why not return NULL, if error occurs ?
As for why
Catching this situation involves checking for a non-negative value:
ftell() returns type long int, the L suffix applied to a literal forces its type to long rather than plain int.
NULL would be wholly incorrect because it is a macro representing a pointer not an integer. Its value, when interpreted and an integer may represent a valid file position, while -1 (or any negative value) cannot.
For all intents and purposes you can generally simply regard the error return as -1, the L suffix is not critical to correct operation in most cases due to implicit casting rules
That means -1 as a long (rather than the default type for numbers, which is an integer)
Editing today implies more details are still wanted.
Mark has it right. The "L" suffix is long. -1L is thus a long -1.
My favored way to test is different from Marks and is a matter of preference not goodness.
if ( err >= 0L ) success else error
By general habit I do not like looking for explicit -1. If a -2 ever pops up in the future my code will likely not break.
Ever since I started using C, way back in the beginning of C, I noticed most library routines returning int values return 0 for success and -1 on error. Most.
NULL is not normally returned by integer functions as NULL is a pointer value. Besides the clash of types a huge reason for not returning NULL depends on a bit of history.
Things were not clean back when C was being invented, and maybe not even on small systems today. The original K&R C did not guarantee NULL would be zero as is usually the case on CPUs with virtual memory. On small "real memory" systems zero may be a valid address making it necessary for "invalid" addresses to be moved to some other OS dependent location. Such would really be accepted by the CPU, just not generated in the normal scheme of things. Perhaps a very high memory address. I can even see a hidden array called
Back then you saw a lot of