# How to minimize Math calls? (Javascript)

I'm doing a Codewars challenge in which I have to create a function with the parameters a, b & c corresponding to the quadratic equation ax^2 + bx + c = 0 and solve for x. The goal is not only to solve for x, but to minimize the number of spendy Math.sqrt calls. (You also have to return an array with the unique solution(s)).

I came up with a solution:

``````function solveQuadratic(a, b, c) {
if ((4*a*c > b*b) || ((a === 0) && (b === 0))) { return undefined;}
else if (a === 0) {return [-c/b];}
else {
var xVals = [];
var sqrt = Math.sqrt(b*b - 4*a*c);
xVals.push((-b - sqrt)/2*a);
xVals.push((-b + sqrt)/2*a);
if (xVals[0] === xVals[1]) {xVals.pop();}
return xVals;
}
}
``````

I got the error message:

You passed the tests using 6 Math.sqrt calls. You should be able to pass these tests with 4 Math.sqrt calls or less.

I thought storing the result of the square root part of the expression in a variable (sqrt) would prevent it from being called more than that one time to evaluate the expression and assign a value to the variable. But that's not the case.

So I have a couple of questions:

• Is there a way to store a (static) value so that it doesn't need to be reevaluated any time it's used in your code?
• Is there something obvious I'm missing from this solution besides the fact that it's making too many Math.sqrt calls?
• Your code is making one call to `Math.sqrt()` ... – Pointy Jan 5 '15 at 19:20
• A static value doesn’t get “re-evaluated”, that doesn’t make any sense. If it needs evaluating, then it is not a static value in the first place. – CBroe Jan 5 '15 at 19:20
• You appear to be making exactly one `Math.sqrt` call. Your subsequent references to the variable `sqrt` do not invoke the function. Does this code exist within a larger context that might account for the other 5 calls? – apsillers Jan 5 '15 at 19:20
• Are you calling this function six times with your test cases? – jfriend00 Jan 5 '15 at 19:23
• Does the test call the function multiple times? It sounds like it's asking you to solve 6 equations, and some of them have the same same coefficients. – Barmar Jan 5 '15 at 19:23

Add a case for when `c` is zero:

``````....
var sqrt = c==0?Math.abs(b):Math.sqrt(b*b - 4*a*c);
....
``````

Also, to pass all the tests, your solution needs parenthesis when dividing here:

``````xVals.push((-b - sqrt)/(2*a));
xVals.push((-b + sqrt)/(2*a));
``````
• OPs code with this modification does NOT pass the tests. Just go to the website OP links - you can just paste the code and click "Submit", it's very quick. I got a failure pasting OPs code with this one-line modification. – Mörre Jan 5 '15 at 19:40
• I did, but it does not pass for another reason. With my changes, the "6 Math.sqrt" calls issue is solved. Actually it says: `You passed the tests using 4 Math.sqrt calls.` but it fails for something else. – Joanvo Jan 5 '15 at 19:41
• Fair enough, that's true. – Mörre Jan 5 '15 at 19:42
• Oh, never mind my earlier remark that you need to take the absolute value of b. The worst that could happen is that the two solutions will trade places; the result is the same. – Ruud Helderman Jan 5 '15 at 20:00
• @Joanvo: With these two modifications, it worked! Thank you. :) – zahabba Jan 5 '15 at 21:02

An easy way is to use memoization . Use a closure to keep a static list of values used so you don't call `Math.sqrt` for values you've already calculated

``````var cachingSqrt = (function() {
var inputs = {};
return function(val) {
if (inputs.hasOwnProperty(val)) {
return inputs[val];
} else {
return inputs[val] = Math.sqrt(val);
}
}
})();
``````

A generalization of this process would be

``````function createCachedResults(fn, scope) {
var inputs = {};
return function(val) {
if (inputs.hasOwnProperty(val)) {
return inputs[val];
} else {
return inputs[val] = fn.call(scope, val);
}
}
}

cachingSqrt  = createCachedResults(Math.sqrt, Math);
``````

And you could use it like

``````var cachingSquareRoot = createCachedResults(Math.sqrt, Math);
if ((4*a*c > b*b) || ((a === 0) && (b === 0))) {
return undefined;
}
else if (a === 0) {
return [-c/b];
} else {
var xVals = [];
var sqrt = cachingSquareRoot(b*b - 4*a*c);
xVals.push((-b - sqrt)/2*a);
xVals.push((-b + sqrt)/2*a);
if (xVals[0] === xVals[1]) {
xVals.pop();
}
return xVals;
}
}
``````
• This is a form of caching. How would you integrate this into the OP's equation to solve their problem? – jfriend00 Jan 5 '15 at 19:22
• @jfriend00 Just use `sqrt` instead of `Math.sqrt()`? – Juan Mendes Jan 5 '15 at 19:23
• Warning: this conflicts with his local variable `sqrt`. – Barmar Jan 5 '15 at 19:24
• This assumes that values of `a`, `b` and `c` are repeated between calls so that caching will offer a benefit. The OP's question is not clear on whether this is the case or not. – jfriend00 Jan 5 '15 at 19:26
• @jfriend Since the OP is only calling it once in the code displayed, I assumed it must be being called with the same values. – Juan Mendes Jan 5 '15 at 19:27

The key is to avoid `Math.sqrt(x)` when `x === 0` and when `x === b^2` since the answer is already known. These two situations occur when `b^2 === 4ac` and when `4ac === 0`, so the code needs to short circuit those two cases to avoid the extra `Math.sqrt()` calls.

So, all the special cases are:

• When `b^2 - 4ac < 0` or `a === 0 && b === 0` which make the answer `undefined`.
• When `a === 0` (in which case the equation is linear, not quadratic) so the answer is `-c / b`.
• When `c === 0` which makes `4ac === 0` so it's just `-b / a` and `0`.
• When `b^2 - 4ac === 0` in which case the answer is just `-b / (2 * a)`

Using a combination of Ruud's suggestion and a fixed version of Joanvo's suggestion, it will pass with only 4 `Math.sqrt()` calls with this:

``````function solveQuadratic(a, b, c) {
var delta = (b * b) - (4 * a * c), sqrt;
if ((delta < 0) || ((a === 0) && (b === 0))) {
return undefined;
} else if (a === 0) {
return [-c / b];
} else if (c === 0) {
return b === 0 ? [0] : [-b / a, 0];
} else if (delta == 0) {
return [-b / (2 * a)];
} else {
sqrt = Math.sqrt(delta);
return [(-b - sqrt) / (2 * a), (-b + sqrt) / (2 * a)];
}
}
``````

Here's a version that builds on the above version and adds the cache from Juan's answer. In the initial standard test, this reports only one `Math.sqrt()` operation.

``````function solveQuadratic(a, b, c) {
var delta = (b * b) - (4 * a * c), sqrt;
if ((delta < 0) || ((a === 0) && (b === 0))) {
return undefined;
} else if (a === 0) {
return [-c / b];
} else if (c === 0) {
return b === 0 ? [0] : [-b / a, 0];
} else if (delta == 0) {
return [-b / (2 * a)];
} else {
sqrt = sqrt2(delta);
return [(-b - sqrt) / (2 * a), (-b + sqrt) / (2 * a)];
}
}

var sqrt2 = (function() {
var cache = {0:0, 1:1, 4:2, 9:3};
return function(x) {
if (cache.hasOwnProperty(x)) {
return cache[x];
} else {
var result = Math.sqrt(x);
cache[x] = result;
return result;
}
}
})();
``````
• Nice write-up. The pop has become redundant and can be removed; you know the two roots are not equal because delta is never zero in that branch. – Ruud Helderman Jan 5 '15 at 21:46
• Cleaned up the code a little bit more. – jfriend00 Jan 5 '15 at 23:23
• Excellent explanation. Thank you, @jfriend00 – zahabba Jan 6 '15 at 0:53

You should add a shortcut for cases where the discriminant is zero.

``````...
else if (b*b == 4*a*c) return [-b / (2*a)];
...
``````
• OPs code with this modification does NOT pass the tests. Just go to the website OP links - you can just paste the code and click "Submit", it's very quick. I got a failure pasting OPs code with this one-line modification. Of course, OP only asked about the sqrt issue... – Mörre Jan 5 '15 at 19:40
• @Mörre: You are right, I forgot the brackets around the result. I fixed my answer. – Ruud Helderman Jan 5 '15 at 20:24
• This is only part of the answer. It eliminates one `Math.sqrt()` call, but there's still another one to be eliminated. – jfriend00 Jan 5 '15 at 20:59
• @Ruud: Thank you! – zahabba Jan 5 '15 at 21:01
• @jfriend00: The standard tests are a bit meager; `1*x^2 + 0*x + 0 = 0` is the only test case with a zero discriminant, but because C = 0 there, the same test is covered by joanvo's solution. In the random tests, my solution might save a few calls, but that does not count for passing the assignment. Joanvo's solution deserves the upvotes. – Ruud Helderman Jan 5 '15 at 21:36