As an Engineer, most proofs I study at college assume something and we work it out, then at the end of the proof, Maths will tell you if your assumption was right.

We'll assume we have a function called `getAge(person)`

that has a signature as follows.

```
// this performance improvement of storing the year was suggested by @blex
let currentYear = new Date().getFullYear();
let getAge = (person) => {
return (person.yearOfDeath ? person.yearOfDeath : currentYear) - person.yearOfBirth
};
```

Basically, if the person doesn't have a `.yearOfDeath`

, he's still alive and the current year **2020** *at the time of writing this answer*.

and we have a `getOldest(people)`

that has a signature as follows.

```
let getOldest = people => {
/** Keep in mind that people can be mutated and you
need to avoid this here
*/
// An assumption. It can be right or wrong.
let oldest_person = people[0];
// The first method (slice) returns a shallow copy
// the second one (splice) removes the oldest_person
// removing it makes the loop count decrease by one. Nothing else.
// we don't need a deep copy, we won't alter the people.
people = (people.slice()).splice(1);
// You could save the getAge(oldest_person) in a variable
// instead of computing it each time
// I wanted this to be as readable as possible.
for (let person of people){
if (getAge(person) > getAge(oldest_person)){
// Congrats! we have a new older person!
oldest_person = person;
}
}
return oldest_person;
};
```

This has a worst-case time complexity of o(n).

For illustration, let's benchmark this.

```
let people = []
let init = () => {
let randomInteger = (min, max) => {
// return random integer between min, max, found this on stackoverflow
return Math.floor(Math.random() * (max - min + 1)) + min;
}
for (let i = 0; i < 10000000; i++){ // 10m person
let dateOfBirth = parseInt('19' + randomInteger(10,99));
let dateOfDeath = parseInt('20' + randomInteger(10, 99));
let person = {
name: `person_${i}`,
dateOfBirth, // same as dateOfBirth: dateOfBirth,
dateOfDeath, // same logic
}
people.push(person); // add it to people
}
}
init();
start = performance.now(); // time in millisecs
getOldest(people);
end = performance.now(); // time in millisecs after getting the oldest person
console.log((end - start ) * Math.pow(10, -3)) // time elapsed is around 0.2 secs.
```