cumsum

partial cumulative sums of the elements of an array

Syntax

y = cumsum(x)
y = cumsum(x, outtype)
y = cumsum(x, orientation)
y = cumsum(x, orientation, outtype)

Arguments

x

array of booleans, integers, real or complex numbers, polynomials, or rational fractions. Hypermatrices or sparse boolean or numerical matrices are supported as well.

orientation

This argument can be

either a string with possible values "*", "r", "c" or "m"
positive integer 1 ≤ orientation ≤ ndims(x): the index of the dimension along which the cumulative sum must be computed. 1 and "r", and 2 and "c", are equivalent.

outtype

Word "native" or "double".

y

Array of size equal to that of x.

Description

y = cumsum(x) computes and provides the partial cumulative sums y(i)=sum(x(1:i)), i.e.:

y(i) = ∑u=1→i x(u)

y = cumsum(x, orientation) returns the partial cumulative sums of x along the dimension given by orientation:

if orientation is equal to 1 or "r" then:

, or for a N-Dimensional array:
if orientation is equal to 2 or "c" then:

, or for a N-Dimensional array:
if orientation is equal to n then:
y = cumsum(x, "*") is equivalent to y = cumsum(x)
y = cumsum(x, "m") is equivalent to y = cumsum(x, orientation) where orientation is the index of the first dimension of x that is greater than 1. This option is used for Matlab compatibility.

The outtype argument rules the way the summations are done:

For arrays of floats, of polynomials, of rational fractions, the evaluation is always done using floating points computations. The "double" or "native" options are equivalent.
For arrays of integers,

if outtype="native" the evaluation is done using integer computations (modulo 2^b, where b is the number of bits used),

if outtype="double" the evaluation is done using floating point computations.

The default value is outtype="native".
For arrays of booleans,

if outtype="native" the evaluation is done using boolean computations ( + is replaced with |),

if outtype="double" the evaluation is done using floating point computations (%t values are replaced by 1 and %f values by 0).

The default value is outtype="double".

When the input x is sparse, please keep in mind that the density of the result y will be almost always close to 100%.

Examples

A = [1,2;3,4];
cumsum(A)
cumsum(A,1)

I = uint8([2 95 103 ; 254 9 0])
cumsum(I) // native evaluation
cumsum(I,"double")
cumsum(I,2,"double")

s = poly(0,"s");
P = [s, %i+s ; s^2 , 1];
cumsum(P)
cumsum(P, 2)

B = [%t %t %f %f];
cumsum(B)          // evaluation in float
cumsum(B,"native") // similar to or(B)

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cumsum

Syntax

Arguments

Description

Examples

See also