matrix_compare: Non-zero element-wise comparison between two sparse matrices
In netdiffuseR: Analysis of Diffusion and Contagion Processes on Networks
matrix_compare R Documentation
Non-zero element-wise comparison between two sparse matrices
Description
Taking advantage of matrix sparseness, the function only evaluates
fun between pairs of elements of A and B where
either A or B have non-zero values. This can be helpful
to implement other binary operators between sparse matrices that may
not be implemented in the Matrix package.
Usage
matrix_compare(A, B, fun)
compare_matrix(A, B, fun)
Arguments
A
A matrix of size n*m of class dgCMatrix.
B
A matrix of size n*m of class dgCMatrix.
fun
A function that receives 2 arguments and returns a scalar.
Details
Instead of comparing element by element, the function
loops through each matrix non-zero elements to make the comparisons, which
in the case of sparse matrices can be more efficient (faster). Algorithmically
it can be described as follows:
# Matrix initialization
init ans[n,m];
# Looping through non-zero elements of A
for e_A in E_A:
ans[e_A] = fun(A[e_A], B[e_A])
# Looping through non-zero elements of B and applying the function
# in e_B only if it was not applied while looping in E_A.
for e_B in E_B:
if (ans[e_B] == Empty)
ans[e_B] = fun(A[e_B], B[e_B])
compare_matrix is just an alias for matrix_compare.
Value
An object of class dgCMatrix of size n*m.
See Also
Other dyadic-level comparison functions:
vertex_covariate_compare(),
vertex_covariate_dist()
Examples
# These two should yield the same results -----------------------------------
# Creating two random matrices
set.seed(89)
A <- rgraph_ba(t = 9, m = 4)
B <- rgraph_ba(t = 9, m = 4)
A;B
# Comparing
ans0 <- matrix_compare(A,B, function(a,b) (a+b)/2)
ans1 <- matrix(0, ncol=10, nrow=10)
for (i in 1:10)
for (j in 1:10)
ans1[i,j] <- mean(c(A[i,j], B[i,j]))
# Are these equal?
all(ans0[] == ans1[]) # Should yield TRUE
netdiffuseR documentation built on Aug. 30, 2023, 5:07 p.m.
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| matrix_compare | R Documentation |
Non-zero element-wise comparison between two sparse matrices
Description
Taking advantage of matrix sparseness, the function only evaluates
fun between pairs of elements of A and B where
either A or B have non-zero values. This can be helpful
to implement other binary operators between sparse matrices that may
not be implemented in the Matrix package.
Usage
matrix_compare(A, B, fun)
compare_matrix(A, B, fun)
Arguments
A |
A matrix of size |
B |
A matrix of size |
fun |
A function that receives 2 arguments and returns a scalar. |
Details
Instead of comparing element by element, the function loops through each matrix non-zero elements to make the comparisons, which in the case of sparse matrices can be more efficient (faster). Algorithmically it can be described as follows:
# Matrix initialization
init ans[n,m];
# Looping through non-zero elements of A
for e_A in E_A:
ans[e_A] = fun(A[e_A], B[e_A])
# Looping through non-zero elements of B and applying the function
# in e_B only if it was not applied while looping in E_A.
for e_B in E_B:
if (ans[e_B] == Empty)
ans[e_B] = fun(A[e_B], B[e_B])
compare_matrix is just an alias for matrix_compare.
Value
An object of class dgCMatrix of size n*m.
See Also
Other dyadic-level comparison functions:
vertex_covariate_compare(),
vertex_covariate_dist()
Examples
# These two should yield the same results -----------------------------------
# Creating two random matrices
set.seed(89)
A <- rgraph_ba(t = 9, m = 4)
B <- rgraph_ba(t = 9, m = 4)
A;B
# Comparing
ans0 <- matrix_compare(A,B, function(a,b) (a+b)/2)
ans1 <- matrix(0, ncol=10, nrow=10)
for (i in 1:10)
for (j in 1:10)
ans1[i,j] <- mean(c(A[i,j], B[i,j]))
# Are these equal?
all(ans0[] == ans1[]) # Should yield TRUE
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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