Arrays Data Structure in Javascript, Python and Ruby
Abhishek Sharma Gaur
Posted on May 16, 2023
An array is a collection of items stored in contiguous memory. The idea is to keep many items of the same type together. This makes it easy to calculate the position of each element by adding an offset to the base value, which is the memory location of the first element of the array (usually indicated by the name of the array).
Algorithm for PUSH operation
- Check if the array is full or not.
- If the array is full, exit the program.
- If the array is not full, then increment the size and add the element to the end of the array.
Algorithm for POP operation
- Check if the array is empty or not.
- If the array is empty, print the underflow error and exit the program.
- If the array is not empty, pop the last element.
Time complexity
Push: O(1)
Pop: O(1)
Size: O(1)
SearchByIndex: O(1)
SearchByValue: O(n)
The functions associated with stack are:
size() – Returns the length of the array
push(a) – Inserts the element at the end of an array.
pop() – Deletes the last element of the array.
searchByIndex - Identifies element on a known index.
searchByValue - Retrieve the value's index in the array.
print - To print the array
Below we have a Javascript program implementing an array data structure
class CustomArray {
constructor(limit) {
this.customArray = [];
this.limit = 10
}
push = (item) => {
if(this.customArray.length > this.limit) this.limit++
this.customArray.push(item)
};
pop = () => this.customArray.pop();
print = () => console.log("array:", JSON.stringify(this.customArray));
searchByIndex = (index) => {
console.log('searchByIndex for index', this.customArray[index]);
return this.customArray[index]
}
searchByValue = (value) => {
for(let x in this.customArray){
if(this.customArray[x] === value) {
console.log(`searchByValue for value ${x}`);
return x
}
}
return -1
}
}
let customArray = new CustomArray();
customArray.push(1);
customArray.push(2);
customArray.push(3);
customArray.print();
customArray.pop();
customArray.print();
customArray.searchByIndex(1);
customArray.searchByValue(1);
Below we have a Python program implementing an array data structure
class CustomArray:
def __init__(self, limit):
self.customArray = []
self.limit = limit
def push(self, item):
if len(self.customArray) > self.limit:
self.limit = self.limit + 1
return self.customArray.insert(0, item)
def pop(self):
return self.customArray.pop(0)
def size(self):
return self.limit
def print(self):
return print("Stack is:", self.customArray)
def searchByValue(self, value):
print(self.customArray.index(value))
return self.customArray.index(value)
def searchByIndex(self, index):
print(self.customArray[index])
return self.customArray[index]
customArray = CustomArray(10)
customArray.push(1)
customArray.push(2)
customArray.push(3)
customArray.print()
customArray.pop()
customArray.print()
customArray.searchByIndex(1)
customArray.searchByValue(1)
Below we have a Ruby program implementing an array data structure
class CustomArray
def initialize(limit)
@@customArray = []
@@limit = limit
end
def pop
if @@customArray.length > 0
@@customArray.pop
end
end
def push(item)
@@customArray.push(item)
end
def print
puts "#{@@customArray}"
end
def searchByIndex(index)
puts @@customArray.at(index)
end
def searchByValue(item)
puts @@customArray.find_index(item)
end
def size
puts "#{@@limit}"
end
end
arr = CustomArray.new(10)
arr.push(1);
arr.push(2);
arr.push(3);
arr.print();
arr.pop();
arr.print();
arr.searchByIndex(1);
arr.searchByValue(1);
arr.size
Posted on May 16, 2023
Join Our Newsletter. No Spam, Only the good stuff.
Sign up to receive the latest update from our blog.