## New answers tagged matrix

0

MATLAB uses column-major order for historical reasons.
Very early versions of MATLAB were implemented in FORTRAN and relied heavily on the LINPACK and EISPACK FORTRAN libraries which, unlike C, use column-major order. Even though it was (mostly) converted to a C implementation when it was initially commercialized, it retained the use of column-major order.
...

0

Also:
nm1 <- unique(unlist(dimnames(x)))
x1 <- matrix(NA, ncol=length(nm1), nrow=length(nm1), dimnames=list(nm1, nm1))
x1[match(rownames(x), nm1), match(colnames(x), nm1)] <- x
library(Matrix)
x2 <- forceSymmetric(x1)
diag(x2) <- 0
x2
#6 x 6 Matrix of class "dsyMatrix"
# 1 2 3 4 5 6
#1 0.000 0.043 0.080 0.106 ...

1

First, you'd have to add an additional row of NAs to your matrix (since right now it is 5 by 6):
x <- rbind(x, "6"=NA)
Then you can turn the entire lower half (including the diagonals) to 0s, then add it to its own transpose:
x[!upper.tri(x)] <- 0
result <- x + t(x)
(Note that in your case, x[is.na(x)] <- 0 would also work).

0

My exercise for this question, though some Linqs can still be shortcircuited, this may be more clear:
[TestMethod]
public void LinqArraySkipFirstColumnAndLine()
{
var inputString = @"SkipThisLine
1 4 2 1 3 5
2 3 1 2 4 5
3 4 5 3 2 1
...

1

I'd advise to simply skip foreach and use a regular for loop.
After trimming and splitting the line by space(s), simply skip the 1st element by initializing the index to 1 instead of 0.
var cols = line.Trim().Split(' '); //use string split option to remove empty entries for robustness
for (int j = 1; j < cols.Length; j++) //note the j is initialized ...

0

There are many variations on how to do this, but you want to start j at 1 instead of 0. that was you're missing element 0, which I believe if what you're after, so:
foreach (var line in File.ReadAllLines(@"input_5_5.txt", Encoding.GetEncoding(1250)))
{
int j = 1;
foreach (var col in line.Trim().Split(' '))
{
result[i, j] = ...

0

You should instead use (if you need to know which line/col).
Col is initialized with 1 since you don't need first column.
string[] fileLines = System.IO.File.ReadAllLines(@"input_5_5.txt", Encoding.GetEncoding(1250));
for(int line = 0; line < fileLines.Length; line++)
{
string[] splittedLines = fileLines[line].Trim().Split(' ');
for(int col = 1; ...

0

If you flatten the boolean mask like:
m2[np.asarray(m2[:,1]>10).flatten()]
you get the same result, but I would recommend using np.array instead of np.matrix for the reasons given in this answer.

2

Particularly if you're using the programmable pipeline, you have almost complete freedom about the coordinate system you work in, and how you transform your geometry. But once all your transformations are applied in the vertex shader (resulting in the vector assigned to gl_Position), there is still a fixed function block in the pipeline between the vertex ...

0

Seems correct to me. If you boil down your question, you are really saying:
Given a matrix B(m*n), we can represent this in a vector V with length m*n such that V exactly recreates B, or B == V The number of possible values for B is the same as the number of possible values for V.

0

The issue you're experiencing comes down to the fact that operations on a matrix return always return a 2-dimensional array.
When you build the mask on the first array, you get:
In [24]: a2[:,1] > 10
Out[24]: array([False, False, True, True, True], dtype=bool)
which, as you can see, is a 1-dimensional array.
When you do the same thing with the ...

1

Here I tried to clean it up a bit and generalize the use of m:
random_block_sample <- function(a_matrix, m = 2L) {
N <- nrow(a_matrix)
stopifnot(m <= N)
n <- ceiling(N / m)
s <- sample(N - m + 1L, n, TRUE) # start_point
i <- unlist(lapply(s, seq, length.out = m))
b_matrix <- a_matrix[i, , drop = FALSE]
...

1

The problem is that you cannot assign the result of the product to one of the terms while still evaluating it, since that will destroy the original values you still need to calculate the other elements.
Since you have a working binary *, the simple way to implement *= is to make it as *this = *this * other.
There can be shortcuts, but requires matrices to ...

1

You are overwriting the LHS of the operator while still trying to compute the product.
Take the matrices:
1 0
0 1
and
2 0
0 2
For i = 0 and j = 0, you end of making the first matrix;
0 0
0 1
before you start the multiplication. You know you are not going to get the right answer after that.
I don't know if there is a technique you can use to ...

0

I have a few suggestions:
Reshape:
b = reshape(A.',1,[])
b =
1 0 1 0 1 1 0 1 0 1
Transpose then create a vector:
c = A.';
d = c(:).'
d =
1 0 1 0 1 1 0 1 0 1
Indexing:
e = A([1:size(e,1):end, 2:size(e,1):end])
e =
1 0 1 0 1 1 0 1 0 ...

0

Here is a function:
def f(r,v):
def p(x):
return vector([0]+list(x[:-1r])) + x[-1r]*v
m = [r]
for _ in xrange(len(r)-1r):
m.append(p(m[-1r]))
return matrix(m)
Example:
sage: r = vector(ZZ,(0, 1, 2, 3,))
sage: v = vector(ZZ,(3, 5, 7, 9,))
sage: f(r,v)
[ 0 1 2 3]
[ 9 15 22 29]
[ 87 154 218 283]
[ 849 ...

0

Create this function:
function transpose(arr) {
return Object.keys(arr[0]).map(function (c) {
return arr.map(function (r) {
return r[c];
});
});
}
and then:
var transposedArray = transpose(originalArray);

3

If you just want to change all the 4s to 5s then:
x(x==4)=5
basically x==4 will result in a logical matrix with 1s everywhere there was a 4 in x:
[0 0 0 1
0 1 1 0
0 1 0 1]
We then use logical index to only affect the values of x where those 1s are and change them all to 5s.
If you wanted to do this using a loop (which I highly recommend against) ...

2

Short answer to achieve what you want:
x(x==4) = 5
Answer to why your code doesn't do what you expected:
You are changing the item to a 5. But that item is a new variable, it does not point to the same item in your matrix x. Hence the original matrix x remains unchanged.

3

An alternative using ndgrid:
[I, J] = ndgrid(1:m, 1:n);
A = I.^2 + J.^2;

5

bsxfun based solution and as such has to be pretty efficient with runtime performance, as it is well-suited for these expansion related problems -
A = bsxfun(@plus,[1:m]'.^2,[1:n].^2)

0

I've wrote a modified version of matlab's function rref, called g2rref that works great!
https://gist.github.com/esromneb/652fed46ae328b17e104

0

Overview
Consider a sample matrix could look like this:
ABCD
EFGH
IJKL
MNOP
For the purposes of my explanation, ABCD is considered as row 0, EFGH is row 1, and so on. The first pixel of row 0 is A.
Also, when I talk about the outer shell, I am referring to:
ABCD
E H
I L
MNOP
First let's look at the code that moves the values.
int top = ...

1

First, a streaming loader. Provide it with a function that, given a max, returns a vector of data (aka loader<T>). It can store internal state, but it will be copied, so store that internal state in a std::shared_ptr. I guarantee that only one copy of it will be invoked.
You are not responsible for returning all max data from your loader, but as ...

0

This is in the vein of Michal's answer (from which I will steal the nice graphic).
Matrix:
min ..... b ..... c
. . .
. II . I .
. . .
d .... mid .... f
. . .
. III . IV .
. . .
g ..... h ..... max
Min and max are the smallest and largest values, respectively. ...

3

This is just a minor improvement over Divakar's answer. It is a little faster because it replaces a 3D-array permute with a 2D-array permute:
B = bsxfun(@times, permute(A, [1 3 2]), permute(A, [3 1 2]));

4

To state the obvious, have you tried a simple for-loop:
[m,n] = size(A);
B = zeros(m,m,n);
for i=1:n
B(:,:,i) = A(:,i) * A(:,i).';
end
You'll be surprised how competitively fast it is.

3

This -
B = permute(bsxfun(@times,A,permute(A,[3 2 1])),[1 3 2])

0

The matrix firstMultiplyMat itself is fine memory-wise; if you push the values into it that you had put into a, it'll invert correctly. Your problem lies in the values that are inside firstMultiplyMat, which are not exactly the same values as what get printed, because what is printed is truncated.
Essentially, your matrix may not be invertible. You can work ...

1

the easy way would be to use only the output Allocation and use getElementAt_<type> to read from the input Allocations of a different size.
I'm curious--if we were to add this as an intrinsic, do you specifically need only GEMM, or are there other BLAS operations you'd like supported?

0

Given a non-singular matrix A. Construct an algorithm using Gaussian elimination to find $A^{-1}$
I had the same problem and did it In python:
#Helper functions:
def check_zeros(A,I,row, col=0):
"""
returns recursively the next non zero matrix row A[i]
"""
if A[row, col] != 0:
return row
else:
if row+1 == len(A):
return "The Determinant is ...

1

The Mat objects are complex objects that have internal allocations of memory. When you clear the vector, one will need to iterate through every instance of Mat contained and run its destructor which is itself a non-trivial operation.
Also remember that free-store memory perations are non-trivial, so depending on your heap implementation, the heap may decide ...

5

Java does not support returning multiple things at once.
However, you could create a small class that does this:
public class TwoArrays {
public final int[][] A;
public final int[][] B;
public TwoArrays(int[][] A, int[][] B) {
this.A = A;
this.B = B;
}
}
Then make your method like this:
public static TwoArrays ...

2

You can't return multiple values from a method.
You can return a single Object that contains two arrays as members though.
You could also return a multi-dimensional array that contains both arrays, but that's not a very OOP solution.

5

Make one array which contains both arrays. In your case
int[2][][] = {
{{1,2},{2,3},{4,5}},
{{1,2},{2,3},{4,5}}
};
Or better, make an object which contains both arrays.

1

NOTE: getComputedStyle method only work's for elements which are appended to your document
let's start with a function that make's a hidden element and append's it into your document :
var make_test_el =
function () {
var el = document.createElement("div");
// some browsers doesn't add transform styles if display is inline
...

-1

Be careful using optimization, it can drive the debugger crazy.
If you were to do this in a function and simply let the vector go out of scope??
Since the elements are not pointers I think this will work.

0

Here is the final code that prints different parts of a matrix as shown in the picture below:
Here is the code for the output given above:
package com.codopedia.java7.sep2014;
/**
*
* @author www.codopedia.com
*/
public class TwoDArrayExp1 {
public static void main(String args[]) {
int row = 15, column = 15, k = 10;
int my2dArray1[][] = new ...

0

The easiest thing to do here would be to encapsulate this into a single for loop, and change the way you're accessing the core variables so that you're using the loop index instead. Looking at your code, I'm assuming that sat_look_tcs_pass1 is a 3 x 79 matrix. I'm also going to assume that the output height h_test is a single value because when you're ...

0

>>> xs = np.arange(16)
>>> xs
array([ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15])
>>> xs.reshape(4, 4)
array([[ 0, 1, 2, 3],
[ 4, 5, 6, 7],
[ 8, 9, 10, 11],
[12, 13, 14, 15]])
>>> xs = xs.reshape(4, 4)
>>> a, b, c, d = xs[:2, :2], xs[2:, :2], xs[:2, 2:], xs[2:, 2:]
...

2

It looks like you are reusing your distance variable in an unintentional way, as well as your velocity variable at the end of your for loop. You're mutating the distance variable, and then trying to reshape it as a matrix. You'll need to change this variable, and then call where you want to store your matrix as something else. Also, distance and velocity ...

0

Your data:
mydata<-c(1,2,3,4,5,2,3,4,6,7,3,3,5,7,0,4,9,2,4,5)
mat<-matrix(mydata,ncol=5, byrow=T)
mat
# [,1] [,2] [,3] [,4] [,5]
#[1,] 1 2 3 4 5
#[2,] 2 3 4 6 7
#[3,] 3 3 5 7 0
#[4,] 4 9 2 4 5
use
mat[mat[,2]==3,]
result being:
[,1] [,2] [,3] [,4] [,5]
[1,] 2 3 4 6 ...

2

This fine question is the best I have seen in a week on StackOverflow.
Answer: Round it! A major point of the QR decomposition is precisely that the factors in question be well-conditioned, that there be no tiny/huge eigenvalues in Q. When there are no tiny/huge eigenvalues, rounding doesn't hurt.
What point would there be in the QR if it did not let ...

2

For the specific case of QR decomposition, you usually don’t even bother computing the matrix entries that you know are going to be zeroed out by a Householder reflection; you simply treat them as zero from that point on (in fact, you generally don’t even bother storing the zeros, and instead use that space to store the reflection itself).

1

This line is not right:
scanf("%lf\t", *(*(m1+i)+j)); //Scanning input
The type of *(*(m1+i)+j) is double, not double*, which is what you need for scanf.
You need to use
scanf("%lf\t", *(m1+i)+j); //Scanning input
or, a simpler form:
scanf("%lf\t", &m1[i][j]); //Scanning input
You have similar errors in the other loops.

1

Here is an alternative solution using datasample in which , similarly to @RTL's solution, you first create a matrix of zeros and then add a given number of ones:
clc;
clear all;
A = 5;
B = zeros(5,5);
y = datasample(1:size(B,1)*size(B,2),A) % Randomly select 5 (i.e. A) linear indices which will be replaced by 1.
B(y) = 1
y =
12 17 1 22 14
...

7

Here a matrix of zeros, B, is created with the required size and then A random locations of B are changed to 1
A = 5;
B = zeros(5,5);
B(randperm(numel(B),A)) = 1
output
B =
0 1 0 0 0
0 0 0 0 0
0 0 0 0 1
1 0 1 0 1
0 0 0 0 0

0

Here's a link to a blog which has a pretty good explanation of the issue you're having. Judging from other people having this error it seems to be caused by the content on the page.
The content of the web page may be the cause of this error, not your iOS app programming.
I found the error occurred in my app only while on Yahoo. Google.com, no problem. ...

1

This should do it:
from sklearn.feature_extraction.text import CountVectorizer
cv = CountVectorizer()
words_csm = cv.fit_transform(records)
words_csm.todense()
matrix([[1, 0, 0, 0, 0, 0, 0, 1, 0, 0, 2, 0, 1, 0, 0, 0, 0],
[0, 1, 0, 1, 0, 1, 1, 0, 0, 0, 0, 1, 0, 0, 1, 1, 1],
[0, 1, 1, 0, 1, 0, 0, 0, 1, 1, 0, 0, 0, 1, 0, 0, 0]], dtype=int64)

1

Yes you can do this by writing a procedure like this one:
procedure assign_row(signal slm : out T_SLM; slv : STD_LOGIC_VECTOR; constant RowIndex : NATURAL) is
variable temp : STD_LOGIC_VECTOR(slm'high(2) downto slm'low(2)); -- Xilinx iSIM work-around, because 'range(2) evaluates to 'range(1); tested with ISE XST/iSim 14.2
begin
temp := slv;
for i in ...

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