Array

Array Concepts

Array

An array is a basic data structure to store a collection of elements sequentially . But elements can be accessed randomly since each element in the array can be identified by an array index.

Dynamic Array

... an array has a fixed capacity and we need to specify the size of the array when we initialize it. Sometimes this will be somewhat inconvenient and wasteful. Most programming languages offer built-in dynamic array which is still a random access list data structure but with variable size. For example, we have vector in C++ and ArrayList in Java.

Operations in Dynamic Array

// "static void main" must be defined in a public class.
public class Main {
    public static void main(String[] args) {

        // 1. initialize
        List<Integer> v0 = new ArrayList<>();
        List<Integer> v1;                           // v1 == null

        // 2. cast an array to a vector
        Integer[] a = {0, 1, 2, 3, 4};
        v1 = new ArrayList<>(Arrays.asList(a));

        // 3. make a copy
        List<Integer> v2 = v1;                      // another reference to v1
        List<Integer> v3 = new ArrayList<>(v1);     // make an actual copy of v1

        // 3. get length
        System.out.println("The size of v1 is: " + v1.size());

        // 4. access element
        System.out.println("The first element in v1 is: " + v1.get(0));

        // 5. iterate the vector
        System.out.print("[Version 1] The contents of v1 are:");
        for (int i = 0; i < v1.size(); ++i) {
            System.out.print(" " + v1.get(i));
        }
        System.out.println();
        System.out.print("[Version 2] The contents of v1 are:");
        for (int item : v1) {
            System.out.print(" " + item);
        }
        System.out.println();

        // 6. modify element
        v2.set(0, 5);       // modify v2 will actually modify v1
        System.out.println("The first element in v1 is: " + v1.get(0));
        v3.set(0, -1);
        System.out.println("The first element in v1 is: " + v1.get(0));

        // 7. sort
        Collections.sort(v1);

        // 8. add new element at the end of the vector
        v1.add(-1);
        v1.add(1, 6);

        // 9. delete the last element
        v1.remove(v1.size() - 1);
    }
}

2D Array - Matrix

Excepts from LeetCode: https://leetcode.com/explore/learn/card/array-and-string/202/introduction-to-2d-array/1166/

In some languages, the multidimensional array is actually implemented internally as a one-dimensional array while in some other languages, there is actually no multidimensional array at all.

1. C++ stores the two-dimensional array as a one-dimensional array.

The picture below shows the actual structure of an M * N array A:

So actually A[i][j] equals to A[i * N + j] if we defined_A_as a one-dimensional array which also contains M * N elements.

2. In Java, the two-dimensional array is actually a one-dimensional array which contains M elements, each of which is an array of N integers.

The picture below shows the actual structure of a two-dimensional array A in Java:

Array Basic Operations

Iterate Through Loop in Java

Five ways to Iterate Through Loop in Java

package crunchify.com.tutorial;

import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;

/**
 * @author Crunchify.com
 */

public class CrunchifyIterateThroughList {

    public static void main(String[] argv) {

        // create list
        List<String> crunchifyList = new ArrayList<String>();

        // add 4 different values to list
        crunchifyList.add("eBay");
        crunchifyList.add("Paypal");
        crunchifyList.add("Google");
        crunchifyList.add("Yahoo");

        // iterate via "for loop"
        System.out.println("==> For Loop Example.");
        for (int i = 0; i < crunchifyList.size(); i++) {
            System.out.println(crunchifyList.get(i));
        }

        // iterate via "New way to loop"
        System.out.println("\n==> Advance For Loop Example..");
        for (String temp : crunchifyList) {
            System.out.println(temp);
        }

        // iterate via "iterator loop"
        System.out.println("\n==> Iterator Example...");
        Iterator<String> crunchifyIterator = crunchifyList.iterator();
        while (crunchifyIterator.hasNext()) {
            System.out.println(crunchifyIterator.next());
        }

        // iterate via "while loop"
        System.out.println("\n==> While Loop Example....");
        int i = 0;
        while (i < crunchifyList.size()) {
            System.out.println(crunchifyList.get(i));
            i++;
        }

        // collection stream() util: Returns a sequential Stream with this collection as its source
        System.out.println("\n==> collection stream() util....");
        crunchifyList.forEach((temp) -> {
            System.out.println(temp);
        });
    }
}

Conversion between Array and ArrayList in Java

From Array to ArrayList

https://dzone.com/articles/how-convert-array-arraylist

// java.util.ArrayList

Element[] array = {new Element(1),new Element(2),new Element(3)};

// 1. Most popular and accepted answer
ArrayList<Element> arrayList = new ArrayList<Element>(Arrays.asList(array));

// Next popular answer
List<Element> list = Arrays.asList(array);
// Cons: It is not the best, because the size of the list returned from asList() is fixed

From ArrayList to Array:

https://www.geeksforgeeks.org/arraylist-array-conversion-java-toarray-methods/

https://stackoverflow.com/questions/7969023/from-arraylist-to-array

// Method 1: Using Object[] toArray() method


// (Preferred) Method 2: Using T[] toArray(T[] a)
// a − This is the array into which the elements of the list are to be stored, 
// if it is big enough; otherwise, a new array of the same runtime type is allocated for this purpose.
// java.util.ArrayList.toArray(T[])

ArrayList<Integer> foo = new ArrayList<Integer>();
foo.add(1);
foo.add(1);
foo.add(2);
foo.add(3);
foo.add(5);

Integer[] bar = foo.toArray(new Integer[foo.size()]);

System.out.println("bar.length = " + bar.length);


// Method 3: Using get() in for loop manually

https://docs.oracle.com/javase/8/docs/api/java/util/ArrayList.html

The following from source: https://docs.oracle.com/javase/tutorial/collections/interfaces/collection.html

For example, suppose thatcis aCollection. The following snippet dumps the contents ofcinto a newly allocated array ofObjectwhose length is identical to the number of elements inc.

Object[] a = c.toArray();

Suppose thatcis known to contain only strings (perhaps becausecis of typeCollection<String>). The following snippet dumps the contents ofcinto a newly allocated array ofStringwhose length is identical to the number of elements inc.

String[] a = c.toArray(new String[0]);

Sliding Window

A sliding window is an abstract concept commonly used in array/string problems. A window is a range of elements in the array/string which usually defined by the start and end indices, i.e. [i,j) (left-closed, right-open). A sliding window is a window "slides" its two boundaries to the certain direction. For example, if we slide [i, j)to the right by 11 element, then it becomes [i+1, j+1) (left-closed, right-open).

Prefix Sum

Prefix sum 数组的 local / global 通用模板,求 min / max 皆可,使用时需要注意初始条件以及顺序:

        int[] leftMax = new int[n];
        int prefixSum = 0;
        // 代表从起始位置开始,值最小的连续和数组
        int localMin = 0;
        int globalMax = Integer.MIN_VALUE;
        for(int i = 0; i < n; i++){
            prefixSum += nums[i];
            globalMax = Math.max(globalMax, prefixSum - localMin);
            localMin = Math.min(localMin, prefixSum);

            leftMax[i] = globalMax;
        }

Kadane's Algorithm

Kadane's Algorithm 相比 prefix sum 的特点是,必须要以 nums[0] 做初始化,从 index = 1 开始搜,优点是在处理 prefix product 的时候更容易处理好“-1” 和 “0” 的情况。

这类靠 prefix sum/product 的 subarray 问题,要注意好对于每一个子问题的 local / global 最优解结构,其中 local 解都是“以当前结尾 && 连续”,而 global 未必。

public class Solution {
    public int maxSubArray(int[] nums) {
        if(nums == null || nums.length == 0) return 0;

        int localMax = nums[0];
        int globalMax = nums[0];
        for(int i = 1; i < nums.length; i++){
            localMax = Math.max(nums[i], localMax + nums[i]);
            globalMax = Math.max(globalMax, localMax);
        }

        return globalMax;
    }
}

*Subarray Sum 系列问题参考:

Source: https://mnmunknown.gitbooks.io/algorithm-notes/626,_dong_tai_gui_hua_ff0c_subarray_lei.html

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