**1**

vote

**1**answer

25 views

### What is considered a leaf in red black trees?

I am studying red black trees from CLRS.
I have 2 questions about the part where properties of red-black trees are discussed.
The passage from CLRS is as follows:
A red-black tree is a binary tree ...

**-1**

votes

**1**answer

10 views

### For a hash table, how does one conclude that n=O(m), where n is the number of elements in the table and m is the number of slots?

On page 260 of CLRS, it says,
If the number of hash-table slots is at least proportional to the number of elements in the table, we have n = O(m) and, consequently, a = n/m = O(m)/m = O(1). Thus, ...

**0**

votes

**0**answers

13 views

### If we call TREE-MINIMUM once followed by n-1 calls to TREE-SUCCESSOR then each edge of the binary search tree is visited AT MOST TWICE

I am unable to understand this statement in clrs instructor manual of question number 12.2-7.The question is:
An inorder tree walk of an n-node binary search tree can be implemented by finding the ...

**-1**

votes

**1**answer

30 views

### Can someone explain why this heapsort implementation doesn't work?

I've spent a few hours on this, but I am new to c++ object oriented programming so probably some function argument is not passed as it should be, but I cannot find it. For this code I get the ...

**0**

votes

**1**answer

25 views

### CLRS exercise 3.2-4 Big-Oh vs Little Oh

I'm self studying CLRS, and I've hit this point - the question I'm answering is:
Is the function ⌈lglgn⌉! polynomially bounded?
And I've reduced it down to
=Θ(lglgn⋅lglglgn)
Now, all the ...

**1**

vote

**1**answer

37 views

### What exctly is “cn” while calculating the complexity of Merge Sort?

I was reading CLRS today to understand the complexity of Merge sort in a better way. I came across a line that says "where the constant c represents the time required to solve problems of size 1 as ...

**3**

votes

**3**answers

396 views

### How to find a node's predecessor in a BST with each node having 3 attributes--succ,left and right?

A problem from CLRS ,3ed.
12.3-5
Suppose that instead of each node x keeping the attribute x.p, pointing to x’s parent, it keeps x.succ, pointing to x’s successor. Give pseudocode for ...

**0**

votes

**2**answers

50 views

### Lazy propagation for Segmented Tree

There is something unclear to me in the lazy propagation algorithm for segmented trees. According to the code below, upon completely overlap of the query interval, the update value is just added to ...

**1**

vote

**1**answer

82 views

### Is my transition function correct (String matching with finite automata)

I am learning String matching with finite automata from CLRS . I am solving some exercise problems .For the exercise problem 32.3-1 ,
Construct the string-matching automaton for the pattern P = ...

**2**

votes

**1**answer

61 views

### MIT Lecture WRONG? Analysis of open addressing in hashing

In the following MIT lecture:
https://www.youtube.com/watch?v=JZHBa-rLrBA at 1:07:00 ,professor taught to calculate number of probes in unsuccessful search.
But my method of calculating doesn't ...

**0**

votes

**1**answer

43 views

### Where am I going wrong in this python code for CLRS exercise 2.1-4

So the problem is:
"Consider a problem of adding two n-bit binary integers, stored in two n-element arrays A and B. The sum of the two integers should be stored in binary form in an (n+1)-element ...

**0**

votes

**2**answers

73 views

### Implementing a randomized quick sort algorithm

CLRS tells us to exchange A[r] with A[i] where i is a random variable between p and r. However If I were to randomly pick up a variable as the pivot in the quicksort function and exchange the values ...

**0**

votes

**2**answers

98 views

### Heapsort algorithm CLRS

I was implementing a heapsort algorithm in C according to CLRS. However I am unable to get a sorted output. Can you please have a look and tell what is wrong with my code. Functions maxheap and ...

**1**

vote

**1**answer

40 views

### sum of series AP GP clrs appendix A.1-4

I am trying to prove an equation given in the CLRS exercise book. The equation is:
Sigma k=0 to k=infinity (k-1)/2^k = 0
I solved the LHS but my answer is 1 whereas the RHS should be 0
Following is ...

**2**

votes

**1**answer

115 views

### What is the reason behind calculating GCD in Pollard rho integer factorisation?

This is the pseudo code for calculating integer factorisation took from CLRS. But what is the point in calculating GCD involved in Line 8 and the need for doubling k when i == k in Line 13.? Help ...

**0**

votes

**0**answers

252 views

### CLRS Solution 8.4 example of decision tree

Do you have an example of decision tree for this solution problem.
I want to draw the decision tree use in response to question (for most understand). But I don't know how to draw this decision tree. ...

**0**

votes

**0**answers

85 views

### How to get the predecessor matrix in the All pair shortest path matrix multiplication method?

I am implementing the All Pair Shortest Path problem by fast matrix multiplication method in C++.
While updating the shortest distance from i to j, i.e., d[i][j] I am also storing k for which ...

**6**

votes

**2**answers

193 views

### Does this algorithm produce uniformly-random permuations?

I am studying CLRS and found a problem on shuffling algorithm. Does this produce a uniformly random permutations?
1 PERMUTE-WITH-ALL-IDENTITY(A)
2 n = A.length
3 for i = 1 to n
4 swap ...

**0**

votes

**0**answers

24 views

### CLRS implementation of Queue

i have the same Question which has been posted . CLRS code is as follows-
Initialization => q.head =q.tail =1
Empty condition is => q.head =q.tail.
Enqueue
q[q.tail]=x
if(q.tail ...

**1**

vote

**1**answer

117 views

### What is the relation/difference between worst case time complexity of an algorithm and its upper bound?

What is the relation/difference between worst case time complexity of an algorithm and its upper bound?

**0**

votes

**1**answer

41 views

### Why Dijkstra Algorithm is relaxing adjacent edges to the vertices already in the Shortest path tree?

In the DIJKSTRA pseudo-code in chapter 24 page 658 CLRS Third Edition, in the inner loop, while relaxing adjacent edges from the new added vertex why is the relaxing allowed on the edges already ...

**0**

votes

**0**answers

63 views

### construction of state machine in string maching in book algorithm by CLRS

Below is text from Introduction to Algorithms by CLRS. Below is code snippet in string matching using finite state automata. Trnstion function is used to construct state table with pattern to be ...

**1**

vote

**3**answers

53 views

### How to fix an UnboundLocalError caused due to a recursive function call in Python?

I tried to convert the pseudo-code for the Maximum-Subarray problem given in Introduction to Algorithms By CLRS into a full-fledged working code in Python.
Code:
def cross(A,low,mid,high):
...

**2**

votes

**1**answer

202 views

### Singly connected directed graphs

According to the definition available in CLRS 3rd edition, a singly connected directed graph is the one where for every pair of vertices (u,v) there is at most 1 unique path from u->v. Now most of the ...

**2**

votes

**2**answers

99 views

### Difference in running time of insertion sort using CLRS's code and Robert Sedgewick's code

So, very recently, just out of curiosity, I bought the book 'Introduction to Algorithms' By CLRS. As I started going through the book, I noticed that some very typical algorithms in the book are ...

**3**

votes

**1**answer

251 views

### Can we prove correctness of algorithms using loop invariants in which we prove that it is true after the first iteration rather than before?

CLRS says that
We must show three things about a loop invariant:
Initialization: It is true prior to the first iteration of the loop.
Maintenance: If it is true before an iteration of ...

**1**

vote

**1**answer

148 views

### Explain how nC2 is Θ(n^2)

In the book CLRS, in page 69 it's said nC2 is Θ(n^2) in the unit divide and conquer(U - 4). Can anyone expalin how this result is true?

**1**

vote

**1**answer

437 views

### How do I prove theta(log n)=o(log n)?

I'm solving a question from CLRS where we need to prove that (ceil(lg lg n))! is polynomially bounded.
Let g(n)=(ceil(lg lg n))!
lg(g(n))=lg((ceil(lg lg n))!)
=theta(ceil(lg lg n) * lg ...

**1**

vote

**0**answers

518 views

### Greedy Algorithm for activity selection with activity value (CLRS 16.1-5)

Is there a greedy algorithm possible for this problem.
I have worked out a DP algorithm for it but am not sure of a Greedy Algorithm for it.
Please Explain if a greedy algorithm exists for it.
For ...

**0**

votes

**1**answer

47 views

### How does Fibonacci heap delay work as long as possible?

I am reading CLRS and came across a line "Fibonacci heaps delay works as long as possible".But what does it actually mean by delaying works and how can that be related to performance.

**2**

votes

**1**answer

1k views

### Printing out nodes in Disjoint Set in linear time

I'm trying to do this exercise in Introduction to Algorithms by Cormen et al that has to do with the Disjoin Set data structure:
Suppose that we wish to add the operation PRINT-SET(x), which is ...

**4**

votes

**1**answer

92 views

### Why isn't heapsort lg(n!)?

I'm reading CLRS and it says heapsort is
HEAPSORT(A):
BUILD-MAX-HEAP(A);
for (i = A.length; i >= 1; i++)
{
exchange A[1] with A[i];
A.heap-size = A.heap-size - 1;
MAX-HEAPIFY(A,1);
}
...

**1**

vote

**1**answer

91 views

### CLRS Algorithms: Merge n/k sublists each of size k in O(n*lg(n/k))

This is a problem 2-1.b from CLRS.
I don't understand how to merge n/k arrays of size k each in n*lg(n/k).
The best solution I can come up with is to fill each entry of a final array of size n by ...

**-1**

votes

**1**answer

88 views

### Inserting nodes with equal keys in a B-tree

I am trying to insert 3 4s into an empty B-tree. t = 3. I tried some applets online but all thay do is insert 4 once and then just drop 4. Is it the way it has been implemented in CLRS as I did not ...

**0**

votes

**3**answers

53 views

### A better solution for my approach to create procedure Rand(a,b), using procedure Rand(0,1)

I have been reading CLRS and encountered the problem to write a procedure Rand(a,b) which generates a random number between a to b uniformly at random, using a procedure Rand(0,1) which generates 0 or ...

**0**

votes

**2**answers

115 views

### Understanding the running time analysis from an exercise of CLRS

Here's the problem I am looking for an answer for:
An array A[1...n] contains all the integers from 0 to n except one. It would be easy to determine the missing
integer in O(n) time by using an ...

**2**

votes

**3**answers

1k views

### Forward Edge in an Undirected Graph

CLRS - Chapter 22
Theorem 22.10
In a depth-first search of an undirected graph G, every edge of G is
either a tree edge or a back edge.
Proof Let (u,v) be an arbitrary edge of G, and ...

**1**

vote

**1**answer

169 views

### Operations on bits when doing binary long division

This is from the number theory chapter in CLRS.
We are asked to prove that binary "paper and pencil" long division a/b with result q and reminder r does O((1+lgq)lgb) operations on bits.
The way I ...

**5**

votes

**3**answers

2k views

### maximum sum of a subset of size K with sum less than M

Given:
array of integers
value K,M
Question:
Find the maximum sum which we can obtain from all K element subsets of given array such that sum is less than value M?
is there a non dynamic programming ...

**0**

votes

**3**answers

256 views

### CLRS Depth First Search Theorem 22.10

Theorem 22.10 in CLRS - Introduction to Algorithms says that
In a depth first search of an undirected graph G, every edge of G is either a tree edge or a back edge.
Now in this the explanation ...

**4**

votes

**1**answer

1k views

### Maximum and minimum depth of quicksort

This was a problem of CLR (Introduction to Algorithms) The question goes as follow:
Suppose that the splits at every level of quicksort are in the proportion 1 - α to α, where 0 < α ≤ 1/2 is a ...

**2**

votes

**1**answer

511 views

### Red-Black Tree Delete Fixup in CLRS Second Edition, in Clojure

I am implementing red-black tree deletion for interval trees following CLRS 2nd edition, fourth printing, pg 288-9.
Summary of bug:
RB-Delete-Fixup
If x and w are the sentinel nodes, which is a ...

**3**

votes

**1**answer

842 views

### Minimize set of edges in a directed graph keeping connected components

Here is the full question:
Assume we have a directed graph G = (V,E), we want to find a graph G' = (V,E') that has the following properties:
G' has same connected components as G
G' has same ...

**0**

votes

**1**answer

643 views

### Successor and Predecessor worst-case running time in dynamic sets

What is the asymptotic worst-case running time for the following dynamic-set operations ?
Successor(L,x) for unsorted singly & doubly linked lists
Predecessor(L,x) for unsorted doubly linked ...

**0**

votes

**1**answer

1k views

### confusion about Floyd Warshall example on the Cormen's book

I have read and searched about Floyd Warshall algorithm and i think i understand it. But in the example which i read on the book "Introduction to the Algorithms (Thomas H. Cormen's Book)" i stacked at ...

**1**

vote

**1**answer

137 views

### Why don't we add a black node instead of a red node in Red Black tree insertion?

In red black tree insertion, we always choose to add a new node as red so that we can avoid changing the black height of the tree. Why this is more desirable than adding a black node?

**0**

votes

**2**answers

492 views

### Why the 14 most significant bits of 17612864 is 67?

At the bottom of Page 264 of CLRS, the authors say after obtaining r0 = 17612864, the 14 most significant bits of r0 yield the hash value h(k) = 67. I do not understand why it gives 67 since 67 in ...

**1**

vote

**1**answer

425 views

### What is the intuition behing an optimal substructure?

This question is related to dynamic programming and specifically rod cutting problem from CLRS Pg 362
The overall optimal solution incorporates optimal solutions to two related subproblems.
The ...

**1**

vote

**2**answers

4k views

### Recursive matrix multiplication

I am reading Introduction to Algorithms by CLRS. Book shows pseudocode for simple divide and conquer matrix multiplication:
n = A.rows
let c be a new n x n matrix
if n == 1
c11 = a11 * b11
else ...

**2**

votes

**1**answer

221 views

### Recurrence in analysis of SELECT algorithm

In CLRS (2/e, page 191, section 9.3) the analysis of the SELECT algorithm for finding the ith smallest element in an array is presented with the following induction proof:
1. T(n) <= c ...