Struct rgsl::types::vector::VectorF32 [−][src]
pub struct VectorF32 { /* fields omitted */ }
Implementations
create a new VectorF32 with all elements set to zero
This function returns the i-th element of a vector v. If i lies outside the allowed range of 0 to n-1 then the error handler is invoked and 0 is returned.
This function sets the value of the i-th element of a vector v to x. If i lies outside the allowed range of 0 to n-1 then the error handler is invoked.
This function sets all the elements of the vector v to the value x.
This function sets all the elements of the vector v to zero.
This function makes a basis vector by setting all the elements of the vector v to zero except for the i-th element which is set to one.
This function copies the elements of the other vector into the self vector. The two vectors must have the same length.
This function copies the elements of the self vector into the other vector. The two vectors must have the same length.
This function exchanges the elements of the vectors by copying. The two vectors must have the same length.
This function exchanges the i-th and j-th elements of the vector v in-place.
This function reverses the order of the elements of the vector v.
This function adds the elements of the other vector to the elements of the self vector. The result a_i <- a_i + b_i is stored in self and other remains unchanged. The two vectors must have the same length.
This function subtracts the elements of the self vector from the elements of the other vector. The result a_i <- a_i - b_i is stored in self and other remains unchanged. The two vectors must have the same length.
This function multiplies the elements of the self vector a by the elements of the other
vector. The result a_i <- a_i * b_i
is stored in self and other remains unchanged. The two
vectors must have the same length.
This function divides the elements of the self vector by the elements of the other vector.
The result a_i <- a_i / b_i
is stored in self and other remains unchanged. The two vectors
must have the same length.
This function multiplies the elements of the self vector by the constant factor x. The
result a_i <- a_i
is stored in self
.
This function adds the constant value x to the elements of the self vector. The result
a_i <- a_i + x
is stored in self
.
This function returns the minimum and maximum values in the self vector.
This function returns the index of the maximum value in the self vector. When there are several equal maximum elements then the lowest index is returned.
This function returns the index of the minimum value in the self vector. When there are several equal minimum elements then the lowest index is returned.
This function returns the indices of the minimum and maximum values in the self vector. When there are several equal minimum or maximum elements then the lowest indices are returned.
This function returns true if all the elements of the self vector are equal to 0.
This function returns true if all the elements of the self vector are stricly positive.
This function returns true if all the elements of the self vector are stricly negative.
This function returns true if all the elements of the self vector are stricly non-negative.