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Aide de Scilab >> Fonctions Elémentaires > Opérations matricielles > min

min

minimum

Syntax

m = min(A)
Col = min(A, 'c')
Row = min(A, 'r'|'m')
M = min(A1, A2,..., An)
M = min(list(A1, A2,..., An))
[.., K] = min(..)

Arguments

A, A1, ..., An

scalars, vectors, matrices or hypermatrices of encoded integers or of real numbers, in dense or sparse format. They must have the same sizes, or be mixed with scalars (scalars are then implicitly expanded to the arrays sizes). Sparse arrays can't be mixed with dense ones, except with dense scalars.

m

single number = minimum of all values of A elements. Always in dense format, even when A is sparse encoded.

Col

column vector if A is a 2D matrix, or hypermatrix of size(A) with size(A,2) set to 1: Minima over columns (for each row). If A is sparse, then Col is sparse as well.

Row

row vector if A is a 2D matrix, or hypermatrix of size(A) with size(A,1) set to 1: Minima over rows (for each column). If A is sparse, then Row is sparse as well.

M

Array of size = size(A1), such that for any q M(q) = min(A1(q),A2(q),..An(q)) If A,..,An are sparse, then M is sparse as well.

K

Indices in A.. of the (first) minimum found. When [m,K]=min(A) is used,

  • If A is a vector, K is a scalar.
  • Otherwise, K is a row vector [i,j,..] of subscripts.

For other syntaxes, K has the shape and sizes of Col, Row, and M.

With the [M,K] = min(A1,A2,..,An) syntax, we have, for any linear index q: [M(q),K(q)] = min([A1(q) A2(q) .. An(q)]).

K is always in dense format, even when A, A1,..,An are sparse-encoded. Hence, when the [M,K]=min(A1,A2,..) syntax is used with huge but sparse matrices, this may lead to a huge dense K matrix. The user must check that enough memory is available for it.

Description

For A, a real vector or matrix, min(A) is the least element of A.

[m,K]=min(A) gives in addition the indices of the first minimum.

A second argument of type string 'r' or 'c' can be used : 'r' is used to get a row vector Row such that Row(j) contains the minimum of the jth column A(:,j), K(j) gives the index of the row which contains the minimum, for the column #j.

'c' is used for the dual operation on the rows of A. 'm' is used for compatibility with Matlab.

[M,K]=min(list(A1,...,An)) is an equivalent syntax of [M,K]=min(A1,A2,...,An).

  • min() ignores NaN values (unless there are only NaN values).
  • min([]) returns [] for values and K.
If min(A1, A2,..., An) is used with a huge input sparse matrix of low density, together with a strictly negative scalar input, the sparse result will no longer have any 0 value: It will be a sparse array with density=1, that may lead to a memory failure.

Examples

[m, k] = min([])
[m, k] = min([5 3 ; 2 %nan])
[m, n] = min([5 3 ; 2 %nan], 4)
[m, k] = min([5 -1 2], [1 5 1], [0 1 3])
[m, k] = min(list([5 -1 2], [1 5 1], [0 1 3]))
--> [m, k] = min([])
 m  =
    []
 k  =
    []

--> [m, k] = min([5 3 ; 2 %nan])
 m  =
   2.

 k  =
   2.   1.

--> [m, k] = min([5 3 ; 2 %nan], 4)
 m  =
   4.   3.
   2.   4.

 k  =
   2.   1.
   1.   2.

--> [m, k] = min([5 -1 2], [1 5 1], [0 1 3])
 m  =
   0.  -1.   1.

 k  =
   3.   1.   2.

With the "r" or "c" options:

A = grand(4,6,"uin",0,30); A(3,4) = %nan
[Row, K] = min(A, "r")
[Col, K] = min(A, "c")
--> A = grand(4,6,"uin",0,30); A(3,4) = %nan
 A  =
   24.   14.   24.   4.    6.    11.
   23.   25.   29.   6.    19.   5.
   30.   2.    20.   Nan    6.   6.
   20.   8.    13.   14.   16.   3.

--> [Row, K] = min(A, "r")
 Row  =
   20.   2.   13.   4.   6.   3.

 K  =
   4.   3.   4.   1.   1.   4.

--> [Col, K] = min(A, "c")
 Col  =
   4.
   5.
   2.
   3.

 K  =
   4.
   6.
   2.
   6.

With sparse inputs:

s = sprand(5,4,0.5); k = s~=0; s(k) = round((s(k)-0.5)*10), full(s)
[Row, K] = min(s, "r")
[Col, K] = min(s, "c")
[M, K] = min(s,1);   [full(s)  ones(s(:,1))*%nan  full(M)]
issparse(M)
K
--> s = sprand(5,4,0.5); k = s~=0; s(k) = round((s(k)-0.5)*10), full(s)
 s  =
(  5,  4) sparse matrix
(  1,  3)     5.
(  1,  4)    -2.
(  2,  1)    -3.
(  2,  3)    -5.
(  3,  1)     3.
(  3,  2)    -1.
(  3,  3)     3.
(  3,  4)     4.
(  5,  3)     4.
(  5,  4)    -5.

 ans  =
   0.   0.   5.  -2.
  -3.   0.  -5.   0.
   3.  -1.   3.   4.
   0.   0.   0.   0.
   0.   0.   4.  -5.


--> [Row, K] = min(s, "r")
 Row  =
(  1,  4) sparse matrix
(  1,  1)    -3.
(  1,  2)    -1.
(  1,  3)    -5.
(  1,  4)    -5.

 K  =
   2.   3.   2.   5.

--> [Col, K] = min(s, "c")
 Col  =
(  5,  1) sparse matrix
(  1,  1)    -2.
(  2,  1)    -5.
(  3,  1)    -1.
(  5,  1)    -5.

 K  =
   4.
   3.
   2.
   1.
   4.

--> [M, K] = min(s,1);   [full(s)  ones(s(:,1))*%nan  full(M)]
 ans  =
   0.   0.   5.  -2.   Nan   0.   0.   1.  -2.
  -3.   0.  -5.   0.   Nan  -3.   0.  -5.   0.
   3.  -1.   3.   4.   Nan   1.  -1.   1.   1.
   0.   0.   0.   0.   Nan   0.   0.   0.   0.
   0.   0.   4.  -5.   Nan   0.   0.   1.  -5.

--> issparse(M)
 ans  =
   1.

--> K
 K  =
   1.   1.   2.   1.
   1.   1.   1.   1.
   2.   1.   2.   2.
   1.   1.   1.   1.
   1.   1.   2.   1.

See also

  • max — maximum
  • strange — range
  • mean — mean (row mean, column mean) of vector/matrix entries
  • gsort — tri par l'algorithme "quick sort"
  • find — trouve les indices des éléments vrais d'un vecteur ou d'une matrice de booléens
  • full — sparse to full matrix conversion

History

VersionDescription
6.0.2 min() now actually works with sparse matrices
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