ipermute
Inverse permute array dimensions
Syntax
Description
Examples
Create a 4-by-3 matrix. Permute this matrix to switch the row and column dimensions.
A = [1 2 3; 4 5 6; 7 8 9; 10 11 12]
A = 4×3
1 2 3
4 5 6
7 8 9
10 11 12
B = permute(A,[2 1])
B = 3×4
1 4 7 10
2 5 8 11
3 6 9 12
Perform an inverse permutation on this resulting matrix. The result is equal to the original matrix A.
C = ipermute(B,[2 1])
C = 4×3
1 2 3
4 5 6
7 8 9
10 11 12
Create a 4-by-3-by-2 array B. Compute its inverse permutation according to the dimension order [3 1 2].
rng default
B = rand(4,3,2)B =
B(:,:,1) =
0.8147 0.6324 0.9575
0.9058 0.0975 0.9649
0.1270 0.2785 0.1576
0.9134 0.5469 0.9706
B(:,:,2) =
0.9572 0.4218 0.6557
0.4854 0.9157 0.0357
0.8003 0.7922 0.8491
0.1419 0.9595 0.9340
A = ipermute(B,[3 1 2])
A =
A(:,:,1) =
0.8147 0.9572
0.6324 0.4218
0.9575 0.6557
A(:,:,2) =
0.9058 0.4854
0.0975 0.9157
0.9649 0.0357
A(:,:,3) =
0.1270 0.8003
0.2785 0.7922
0.1576 0.8491
A(:,:,4) =
0.9134 0.1419
0.5469 0.9595
0.9706 0.9340
The inverse permutation A is the array such that, when you permute it using the same dimension order, the result is equal to the original array B.
C = permute(A,[3 1 2])
C =
C(:,:,1) =
0.8147 0.6324 0.9575
0.9058 0.0975 0.9649
0.1270 0.2785 0.1576
0.9134 0.5469 0.9706
C(:,:,2) =
0.9572 0.4218 0.6557
0.4854 0.9157 0.0357
0.8003 0.7922 0.8491
0.1419 0.9595 0.9340
Input Arguments
Input array, specified as a vector, matrix, or multidimensional array.
Dimension order, specified as a row vector with unique, positive integer elements representing the dimensions of the input array.
Extended Capabilities
This function supports tall arrays with the limitation:
Permuting the tall dimension (dimension one) is not supported.
For more information, see Tall Arrays for Out-of-Memory Data.
Usage notes and limitations:
dimordermust be a fixed-size row vector.If
Bis a heterogeneous cell array,dimordermust be a constant. To learn more about heterogeneous cell arrays, see Code Generation for Cell Arrays (MATLAB Coder).
Refer to the usage notes and limitations in the C/C++ Code Generation section. The same usage notes and limitations apply to GPU code generation.
The ipermute function fully supports
thread-based environments. For more information, see Run MATLAB Functions in Thread-Based Environment.
The ipermute function
fully supports GPU arrays. To run the function on a GPU, specify the input data as a gpuArray (Parallel Computing Toolbox). For more information, see Run MATLAB Functions on a GPU (Parallel Computing Toolbox).
The ipermute function fully supports
distributed arrays. For more information, see Run MATLAB Functions with Distributed Arrays (Parallel Computing Toolbox).
Version History
Introduced before R2006a
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