# Tag Info

## New answers tagged pseudocode

0

Quick sort's complexity varies greatly with the selection of pivot value. for example if you always choose first element as an pivot, algorithm's complexity becomes as worst as O(n^2). here is an smart method to choose pivot element- 1. choose the first, mid, last element of the array. 2. compare these three numbers and find the number which is greater than ...

1

Let dp[amount][currentVertex] give us the length of the shortest path in G which starts from s, ends at currentVertex and consists of amount edges. make all values of dp unset dp[0][s] = 0 for pathLength in (0, 1, .. k-1) // (1) for vertex in V if dp[pathLength][vertex] is set for each u where (vertex, u) is in E ...

0

// Declare constant variables Constant Real PENVALUE = 0.01 Constant Real NICKVALUE = 0.05 Constant Real DIMVALUE = 0.10 Constant Real QUARVALUE = 0.25 Constant Real DOLLAR_AMOUNT = 1.00 //Declare variables Declare Real pennies Declare Real nickels Declare Real dimes Declare Real quarters Declare Real totalAmount // Use inputs to get coin amounts Display ...

0

Let A be a 1D array containing the correct answer. Let B be a 2D array containing the users answer, where B[i] is the i'th answer and B[i][j] is the j'th pin in the i'th answer. To check for correctly placed pins do: correct = 0 for j = 1:len(A) if A[j] == B[i][j] then correct += 1 To check for correct color you can do: correct = 0 A' = sort(A) ...

1

Yeah. Defining distinct is a product of deferring to a color space then when we say maximally distinct colors what we mean to say is colors which are as far from all the other colors as possible. But since the color space doesn't change the answer isn't going to change. And implementing something that better fits with human eyes and how human eyes see color ...

0

I'm doing the exact same question for an upcoming assignment. Here's what I have based on what I deciphered from my lecturers notes: replace(p,e) if(p == first or p == last) throw error. n <- p p <- e return n prev(p) if (p = first) throw Boundary Violation exception return p.prev

2

Your second for block is the same as the first one, the only difference being the array name. This means it's going to count the same edges as the first one, giving you a wrong result. In your second for, you need to count the other edge, not the same one: for all u in V out[u]=0 for all u in V: for all (u,v) in E: out[v]=out[v]+1 ...

0

Here's a C++11 solution: std::string input; std::cin >> input; int num = std::stoi(input); std::vector<int> v_int; for (unsigned int i = 0; i < input.size(); i++) { v_int.push_back(num % 10); num /= 10; } // To get the numbers in the original order std::sort(v_int.rbegin(), v_int.rend()); for (unsigned int i = 0; i < v_int.size(); ...

0

Suppose Variable input_string holds the number entered by the user & you want to store it in an array named 'a'...Here's a C snippet.. you can easily convert it into C++ code.. I would recommend taking the input as string rather than int so that you can directly insert the digits extracted from the end...(else you can start storing the integer from ...

0

Your problem basically breaks into few parts, which you need to figure out: how to read one character from input how to convert one character to the digit it represents how to store it in the array Please, try to explain if you have problem with some particular point from the list above or there is a problem somewhere else.

0

The math for isolating right most digit: digit = digit % 10; The math for shifting a number right by one digit: new_number = old_number / 10; Every letter and number can be represented as a text character. For example, '5' is a character representing the single decimal digit 5. The math for converting a textual digit (character) to numeric: ...

0

In Java you could declare a 2d matrix of boolean values like this: final int ROWS = 8; final int COLS = 8; boolean matrix[][] = new boolean[ROWS][COLS]; Then you fill the matrix with some data: for (int i=0; i < ROWS; i++) for (int j=0; j < COLS; j++) matrix[i][j] = true; //(false if no edge from element i to element j) Then you can ...

0

This algorithm assumes that the vertices are represented as indexes in a list V. The edges are represented as tuples in a list E. I would assume this algorithm is for directed edges based on the "for all (u,w) in E:". A directed edge is an edge that only goes in one direction, so in a tuple (u,w), u would be the node that the edge is leaving to go to w. ...

1

Line 1 - Specify your input Line 2 - Specify your output Line 3 - define a function that takes G Line 4 - set the array in to have all zero values for the number of vertices Lines 5-7 - This looks like it's counting the number of times an edge goes TO a vertice. Line 8 - empty Line 9 - Initialize an empty linked list Line 10-11 - for all vertices, if you ...

0

If I'm not missing anything, if you are referring to this wiki article In the modified version, your values array shall be the same as your w array. After calculating m[n,W], simply check whether it is equal to W. EDIT: If you have unlimited number of items, then you are dealing with Unbounded Knapsack Problem. This is a different problem and the same ...

0

You're not executing merge, but printing the function itself. Do this: print(merge()) However, your logic is a bit messed up, you don't even have a recursive function there. Take a look at this question Also, i think what you need is to call mergesort: def mergesort(ent): if len(ent)>1: m=math.floor(len(ent)/2) L1 = ent[:m] ...

0

Found this in Google code and in github search took me to this Java implementation Another quick raw write-up implementation is the python implementation of Binary tree. The heading for link is misleading, but check the entire write-up. From the link here is a high level psuedo., class Node: ... def insert(self, data): """ Insert ...

0

Here is a simple way of recursively traversing the tree and stopping when parentVal is found: // returns true if the element has been added to this subtree public boolean addLeft(E elem, E parentVal) { if (this.equals(parentVal)) { //Create node with element elem (call it newNode) //Set the left child of the node with parentVal as ...

0

You can insert all numbers of x into a hash table T, and determine if (Z-y) is in T. This needs on scan of X, and one scan of Y. T = set() for x in X: T.add(x) for y in Y: if (Z-y) in T: return TRUE

3

Just put all Yi to a map. Now once you have Z: for all values from Xi find if Z - Xi os present in map

0

Yes, that sounds like a good approach. Think about how to recursively define a set of all permutations, i.e. how can be permutations of {1..n} be expressed in terms of permutations of {1.. n-1}. For this, recall the inductive proof that there are n! permutations. How does the inductive step proceed there?

1

The problem is one of the NP-Complete problems. A brute force algorithm is just creating all permutations and checking if one of them is feasible solution. Checking the feasibility: let the current permutation be v1,v2,...,vn: if for each i there is an edge v_i -> v_(i+1) in the graph, and also v_n->v1 - then the solution is feasible. An ...

0

Assuming right child of a node holds a key larger or equal than the key stored in that node. The idea is to go down the right branch until we find a node whose key is larger or equal to k. If we find a node with key equal to k, we know that all nodes on the right should have keys larger to k. So we take the size of that subtree. Add 1 with that because this ...

1

"Pre" indicates an assumption made at the beginning of execution. In this case, it's indicating that the value passed in is assumed to be not null. "Post" indicates an assumption made at the end of the execution, i.e. what the routine actually does. In this case, when the routine finishes a new element will have been added to the end of the list. If the ...

1

(This was originally a comment) You seem to miss what the point of pseudo code is. Pseudo code is neither standardized nor somewhat defined. In general it is just a code-like representation of an algorithm, while maintaining a high level and readability. You can write pseudo code in whatever form you like. Even real Python code could be considered pseudo ...

Top 50 recent answers are included