Question
second programming assignment will require you to write an R function is able to cache potentially time-consuming computations. For example, taking the mean of a
second programming assignment will require you to write an R function is able to cache potentially time-consuming computations. For example, taking the mean of a numeric vector is typically a fast operation. However, for a very long vector, it may take too long to compute the mean, especially if it has to be computed repeatedly (e.g. in a loop). If the contents of a vector are not changing, it may make sense to cache the value of the mean so that when we need it again, it can be looked up in the cache rather than recomputed. In this Programming Assignment will take advantage of the scoping rules of the R language and how they can be manipulated to preserve state inside of an R object.
Example: Caching the Mean of a Vector
In this example we introduce the
The first function, makeVector creates a special "vector", which is really a list containing a function to
- set the value of the vector
- get the value of the vector
- set the value of the mean
- get the value of the mean
INSTRUCTION ON WHAT FUNCTION WILL BE:
Assignment: Caching the Inverse of a Matrix
Matrix inversion is usually a costly computation and there may be some benefit to caching the inverse of a matrix rather than compute it repeatedly (there are also alternatives to matrix inversion that we will not discuss here). Your assignment is to write a pair of functions that cache the inverse of a matrix.
Write the following functions:
- makeCacheMatrix: This function creates a special "matrix" object that can cache its inverse.
- cacheSolve: This function computes the inverse of the special "matrix" returned by makeCacheMatrix above. If the inverse has already been calculated (and the matrix has not changed), then the cachesolve should retrieve the inverse from the cache.
Computing the inverse of a square matrix can be done with the solve function in R. For example, if X is a square invertible matrix, then solve(X) returns its inverse.
For this assignment, assume that the matrix supplied is always invertible.
In order to complete this assignment, you must do the following:
- Fork the GitHub repository containing the stub R files at https://github.com/rdpeng/ProgrammingAssignment2 to create a copy under your own account.
- Clone your forked GitHub repository to your computer so that you can edit the files locally on your own machine.
- Edit the R file contained in the git repository and place your solution in that file (please do not rename the file).
- Commit your completed R file into YOUR git repository and push your git branch to the GitHub repository under your account.
- Submit to Coursera the URL to your GitHub repository that contains the completed R code for the assignment.
In addition to submitting the URL for your GitHub repository, you will need to submit the 40 character SHA-1 hash (as string of numbers from 0-9 and letters from a-f) that identifies the repository commit that contains the version of the files you want to submit. You can do this in GitHub by doing the following
- Going to your GitHub repository web page for this assignment
- Click on the ?? commits link where ?? is the number of commits you have in the repository. For example, if you made a total of 10 commits to this repository, the link should say 10 commits.
- You will see a list of commits that you have made to this repository. The most recent commit is at the very top. If this represents the version of the files you want to submit, then just click the copy to clipboard button on the right hand side that should appear when you hover over the SHA-1 hash. Paste this SHA-1 hash into the course web site when you submit your assignment. If you don't want to use the most recent commit, then go down and find the commit you want and copy the SHA-1 hash.
Please help me create a simple code function in github.com
Thank you
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