Would These Be Considered Magic Numbers?

I've just completed writing a program for a programming class, and I want to avoid use of magic numbers, so here's my question:

In the function below, would my array indexers be considered magic numbers?

Code:

``````string CalcGrade(int s1, int s2, int s3, double median)
{
const int SIZE = 23;
const int LETTER_GRADE_BARRIERS[SIZE] = { 400, 381, 380, 361, 360, 341, 340, 321, 320, 301, 300, 281, 280, 261, 260, 241, 240, 221, 220, 201, 200, 181, 180 };

finalGrade = s1 + s2 + s3 + median;

{
}
{
}
{
}
{
}
{
}
{
}
{
}
{
}
{
}
{
}
{
}
{
}

}
``````

Thanks!

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yes, they would. ..... – Mitch Wheat Jan 25 '10 at 5:34
I disagree. There isn't any more meaningful name we could give them. – GManNickG Jan 25 '10 at 5:36
Are you not concerned about `finalGrade` being, say, 380.5? Intervals with one inclusive endpoint and one exclusive endpoint usually work better. – jamesdlin Jan 25 '10 at 6:29

Yes, any number other than -1,0 or 1 is probably a magic number.

Unless you're a real guru, then you're probably allowed to use powers of two freely as well :-)

As an aside, you could probably refactor that code to be a little more understandable, something like:

``````string CalcGrade (int s1, int s2, int s3, double median) {
// Anything below D- is a fail.
static const int Limits[] = {400, 380, 360, 340,320, 300, 280,260, 240, 220,200,180 };
static const int Grades[] = {"A+","A","A-","B+","B","B-","C+","C","C-","D+","D","D-"};

double finalGrade = s1 + s2 + s3 + median;

// Check each element of the array and, if the final grade is greater
//   than or equal to, return the grade string.
for (int i = 0; i < sizeof(Limits) / sizeof(*Limits); i++)

// Otherwise, failed.
return "Fail";
}
``````

This removes the magic numbers spread all over the code to an area where it's immediately obvious how they work (assuming you align them nicely).

It also removes a problem with your original solution as to what we do with someone that achieved a score of 380.5 - it's not really fair to fail those bods :-) Or to assign a grade to `""` to those above 400 (since there doesn't appear to be a way to return `"A+"`).

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I'm not defining a macro for the initial size of the next hashtable I create, and I'm not using 1 either! – Pascal Cuoq Jan 25 '10 at 5:51
Hey pax, why are you returning `new string`? The return value is not a pointer. :P Just `return Grades[i];` and `return "Fail"` will do. – GManNickG Jan 25 '10 at 5:53
@GMan, I wasn't sure that was kosher (it's been a while since I did C++) but, if char pointers are automatically constructed into string objects, you can change the code to do that. It doesn't really have a bearing on the simplification though so I won't bother about it myself. – paxdiablo Jan 25 '10 at 5:58
I done it. :​​3 EDIT: Now you done it. :3 EDIT²: No problem. :3 – GManNickG Jan 25 '10 at 5:59
Sorry, @GMan, we had crossed edits, I've incorporated your suggestion, thanks. – paxdiablo Jan 25 '10 at 6:04

In the fashion you are doing things, I would say they are not magic numbers. What would you rename them? I can't think of any useful answer (`static const int One = 1;` is useless.)

The `400, 381,` etc. line is more confusing to me at first. I would put something like `// GPA times 100` above it to clarify.

In fact, while your question (array indexes) isn't too magical, the `400...` line should probably be replaced with `static const int A = 400; static const int AMinus = 381;` then `...BARRIERS[] = {A, AMinus,}` and so on. Those are definitely meaningful constants

There are alternate (cleaner) methods that would need numbers that should definitely be turned into named constants. (The same ones suggested above)

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I'm always wary of saying stuff like "The same ones suggested above" in case the answer rises to the top. Then you just look silly :-) – paxdiablo Jan 25 '10 at 6:02
@pax There, I up-voted the answers above me, haha! – GManNickG Jan 25 '10 at 6:05

Yes. You need to recompile to change the numbers; that's where the problem lies.

Any configuration things like that should be, well, configurable, and not require a recompliation. Of course, you may still have numbers in your config, but in your case, it all seems like legitimate data for a configuration table.

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Magic numbers don't necessarily have anything to do with run-time configuration. Anywhere in the code where you use a hardcoded value who's meaning isn't apparent is considered a magic number, and should be replaced by a named constant. Would be great if it was also configurable, but it doesn't need to be by definition. – womp Jan 25 '10 at 5:40
womp: I don't disagree; but magic numbers tend to go hand in hand with an adjustment to a configuration-based approach, in my experience. At least, in this specific case, it would make the code significantly better, and remove any question of magic numbers; it would just leave "specific configuration" :) – Noon Silk Jan 25 '10 at 5:41
While it might be desirable in this case to configure the values at runtime, the part about "You need to recompile to change the numbers" isn't a general rule. There are plenty of places where it's appropriate to use named, compile-time constants. For example, `NULL`, `EOF`, `INT_MAX`, `RAND_MAX`, `CHAR_BIT`, ..... – jamesdlin Jan 25 '10 at 6:24
jamesdlin: Null? Really? but for the others; I'd think that pretty much goes without saying, no? You're right, obviously. – Noon Silk Jan 25 '10 at 6:28

How about how not to do it for a bit of humour?

``````string CalcGrade (int s1, int s2, int s3, double median) {
int grade = median + s1 + s2 + s3;
return
"Fail\0D-\0\0\0D\0\0\0\0D+\0\0\0C-\0\0\0C\0\0\0\0"C+\0\0\0"
}
``````
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How about: (Yes, formatting will be "commentized") `string CalcGrade(int _, int __, int ___, double ____){ int _____ = ____ + _ + __ + ___; _____ = ( _____>400)?400:(( _____<180)?179: _____); return "Fail\0D-\0\0\0D\0\0\0\0D+\0\0\0C-\0\0\0C\0\0\0\0"C+\0\0\0B-\0\0\0B\0\0\0\0B+\0\‌​0\0A-\0\0\0A\0\0\0\0A+"[(( _____-160)/20)*5];}` – GManNickG Jan 25 '10 at 8:11
+1, @Gman, it looks like a form where I'm supposed to fill in the blanks :-) – paxdiablo Jan 25 '10 at 8:13
Heh. Don't forget `#define x int` and `#define y string` and `#define z double` and `#define w 20` and `#define t 5`, so it becomes: `y CalcGrade(x _,x __,x ___,z ____){x _____=____+_+__+___;_____=(_____>(w*w))?(w*w):((_____<((2*t-1)*w))?((2*t-1)*w-1):_____);return "Fail\0D-\0\0\0D\0\0\0\0D+\0\0\0C-\0\0\0C\0\0\0\0"C+\0\0\0B-\0\0\0B\0\0\0\0B+\0\‌​0\0A-\0\0\0A\0\0\0\0A+"[(( _____-(w*(2*(w/t))))/w)*(w/(t-1))];} ` – GManNickG Jan 25 '10 at 8:28
And our trigraph friends: `y CalcGrade(x _,x __,x ___,z ____)??<x _____=____+_+__+___;_____=(_____>(w*w))?(w*w):((_____<((2*t-1)*w))?((2*t-1)*w-1):_____);return "Fail\0D-\0\0\0D\0\0\0\0D+\0\0\0C-\0\0\0C\0\0\0\0"C+\0\0\0B-\0\0\0B\0\0\0\0B+\0\‌​0\0A-\0\0\0A\0\0\0\0A+"??((( _____-(w*(2*(w/t))))/w)*(w/(t-1))??);??>` – GManNickG Jan 25 '10 at 8:34

The definition of `LETTER_GRADE_BARRIERS` is disjoint from what they actually represent, so yes. If it was an array of structs of an int and a char* (the mark) then no.

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Yes, but they are properly represented using constants, so no problems there.

I would, however, consider assigning the letter grades to another array and aligning them with the barriers.

And I would definitely use a loop and not write out each of the 12 cases seperately.

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it can look a lot simpler, for example using `std::lower_bound` to find which bracket score belongs to and array of letters , e.g. `letter_grade[]= { "A", ... };` to convert bracket to a letter grade

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Yes, they are most definitely magic numbers. The way you are going about it doesn't help either. All these numbers are spaced 20 steps apart (with an extra +1 buffer before each) but that is not apparent from the code. A much better implementation would be something like this:

``````string CalcGrade(int s1, int s2, int s3, double median) {
const char* GRADES[] = { "A", "A-", "B+", "B", "B-", "C+", "C", "C-", "D+", "D", "D-" };

double finalGrade = s1 + s2 + s3 + median;

return "A+";
return "Fail";
} else {
}
}
``````
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Yes. The indices into the array have no semantic meaning whatsoever. This makes them 'magic.'

paxdiablo's response is a pretty good way of doing it, though I'd be tempted to combine the limit and grade name into a single class/struct.

Even keeping the code structure, consider these two fragments:

``````// original
{
}

// compared to
{
}
``````

The second sample attaches more semantic meaning to the code, rather than relying upon what '13' and '14' represent.

Storing them in an array buys you little, as you're not actually iterating over the array.

A good check for magic numbers is to describe the solution to the problem to someone. If the numbers don't show up in your verbal description, they're almost certainly magic.

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If you're talking about the numbers that make up the contents of the `LETTER_GRADE_BARRIERS` array, I'd probably consider those numbers as data, not necessarily numbers that deserve unique names.

I'd guess that ideally they would come from a data file rather than embedded in the program, but your assignment/requirements might dictate otherwise.

However, the numbers that are used to index the array might well deserve names.

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