RTL Routines, MTH$, BLAS1$VxDOTx, Arguments
*Conan The Librarian (sorry for the slow response - running on an old VAX)
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/sys$common/syshlp/helplib.hlb RTL Routines, MTH$, BLAS1$VxDOTx, Arguments *Conan The Librarian (sorry for the slow response - running on an old VAX) |
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n
OpenVMS usage:longword_signed
type: longword integer (signed)
access: read only
mechanism: by reference
Number of elements in vector x. The n argument is the address of
a signed longword integer containing the number of elements. If
you specify a value for n that is less than or equal to 0, then
the value of dotpr is 0.0.
x
OpenVMS usage:floating_point or complex_number
type: F_floating, D_floating, G_floating real or
F_floating, D_floating, G_floating complex
access: read only
mechanism: by reference, array reference
Array containing the elements to be accessed. All elements of
array x are accessed only if the increment argument of x, called
incx, is 1. The x argument is the address of a floating-point or
floating-point complex number that is this array. This argument
is an array of length at least:
1+(n-1)*|incx|
where:
n = number of vector elements specified in n
incx= increment argument for the array x specified in incx
Specify the data type as follows:
Routine Data Type for x
BLAS1$VSDOT F-floating real
BLAS1$VDDOT D-floating real
BLAS1$VGDOT G-floating real
BLAS1$VCDOTU and F-floating complex
BLAS1$VCDOTC
BLAS1$VZDOTU and D-floating complex
BLAS1$VZDOTC
BLAS1$VWDOTU and G-floating complex
BLAS1$VWDOTC
incx
OpenVMS usage:longword_signed
type: longword integer (signed)
access: read only
mechanism: by reference
Increment argument for the array x. The incx argument is the
address of a signed longword integer containing the increment
argument. If incx is greater than 0, then x is referenced forward
in array x; that is, x[i] is referenced in:
x(1+(i-1)*incx)
where:
x = array specified in x
i = element of the vector x
incx= increment argument for the array x specified in incx
If incx is less than 0, then x is referenced backward in array x;
that is, x[i] is referenced in:
x(1+(n-i)*|incx|)
where:
x = array specified in x
n = number of vector elements specified in n
i = element of the vector x
incx= increment argument for the array x specified in incx
y
OpenVMS usage:floating_point or complex_number
type: F_floating, D_floating, G_floating real or
F_floating, D_floating, G_floating complex
access: read only
mechanism: by reference, array reference
Array containing the elements to be accessed. All elements of
array y are accessed only if the increment argument of y, called
incy, is 1. The y argument is the address of a floating-point or
floating-point complex number that is this array. This argument
is an array of length at least:
1+(n-1)*|incy|
where:
n = number of vector elements specified in n
incy= increment argument for the array y specified in incy
Specify the data type as follows:
Routine Data Type for y
BLAS1$VSDOT F-floating real
BLAS1$VDDOT D-floating real
BLAS1$VGDOT G-floating real
BLAS1$VCDOTU and F-floating complex
BLAS1$VCDOTC
BLAS1$VZDOTU and D-floating complex
BLAS1$VZDOTC
BLAS1$VWDOTU and G-floating complex
BLAS1$VWDOTC
incy
OpenVMS usage:longword_signed
type: longword integer (signed)
access: read only
mechanism: by reference
Increment argument for the array y. The incy argument is the
address of a signed longword integer containing the increment
argument. If incy is greater than or equal to 0, then y is
referenced forward in array y; that is, y[i] is referenced in:
y(1+(i-1)*incy)
where:
y = array specified in y
i = element of the vector y
incy= increment argument for the array y specified in incy
If incy is less than 0, then y is referenced backward in array y;
that is, y[i] is referenced in:
y(1+(n-i)*|incy|)
where:
y = array specified in y
n = number of vector elements specified in n
i = element of the vector y
incy= increment argument for the array y specified in incy
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