The selected answer of Adam Rosenfield is wrong. The answer of coobird too. For that reason I down voted both answers.
Adam Markowitz interpretation of *lineptr++ is right, but he doesn't answer the main question whether this is legal C99 code. Only Tom Future does. Unfortunately he doesn't explain *lineptr++. But I granted them a point each.
So for short, lineptr is a variable and can be manipulated as a pointer. It is thus legal to increment the pointer.
lineptr is a pointer into a sequence of pointers to sequences of chars. In other words it is a pointer to the first string of a string array. According to the code we can assume that the strings are null ('\0') terminated char sequences. nlines is the number of strings in the array.
The while test expression is nlines-- > 0. nlines-- is a post decrement (because -- is on the right of the variable). It is thus executed after the test has been performed and regardless of the test result, so in anycase.
So if the nlines value given as argument was 0, the test is performed first and returns false. The instructions in the loop are not executed. Note that since nlines is decremented anyway, the value of nlines after the while loop will be -1.
If nlines is 1, the test will return true and nlines will be decremented. The instructions in the loop will be executed once. Note that while these instructions are executed the value of nlines is 0. When the test is performed again, we are back to the case when nlines was 0.
The printf instruction uses the *lineptr++ expression. It is a post increment of the pointer (++ is on the right of the variable). This means the expression is evaluated first and the increment is performed after its use. So on the first execution printf receives a copy of the first element of the string array, which is a pointer to the first char of the strings. The lineptr is incremented only after that. The next time the printf is to be executed, lineptr points on the second element and will be move to the third when the second string has been printed. This make sense because we obviously want to print the first string. If Adam Rosenfield was right, the first string would have been skipped and at the end we would try to print the string beyond the last one which is obviously a bad thing to do.
So the printf instruction is a concise form of the two following instructions
++lineptr; // or lineptr++ witch is equivalent but less good. lineptr += 1; is ok too.
Note, as a rule of thumb, that when pre and post increment are equivalent in their action, the pre increment is preferable for performance reason. The compilers will take care to switch it for you ... most of the time. Better pick pre operators yourself whenever possible so it is used always. The reason becomes more explicit once you implement a post and pre increment yourself in C++.