Programmer Guide/Command Reference/EVAL/complex arithmetic: Difference between revisions

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;complex multiplication
;complex multiplication
:{|class="einrahmen"
!argument ''xc''
| any complex type
!argument ''yc''
|-
| same type as 'xc'
!argument ''n''
|-
| a real or complex number
|-
!result ''rc''
| same '''complex''' type as ''xc''
|}
:;<code>''rc''=cmul(''xc'',''n'')</code>
:;<code>''rc''=cmul(''xc'',''n'')</code>
:;<code>''rc''=cmul(''n'',''xc'')</code>: Multiply all elements ''xc'', which can be any complex type, with the real or complex number ''n''. The result ''rc'' has the same type as ''xc''.
:;<code>''rc''=cmul(''n'',''xc'')</code>: Multiply each element of ''xc'' with the real or complex number ''n''.
:;<code>''rc''=cmul(''xc'',''yc'')</code>: Element-wise multiplication of ''xc'' and ''yc''. Both arguments must and the the result have the same complex type.
:;<code>''rc''=cmul(''xc'',''yc'')</code>: Multiply ''xc'' and ''yc'' element by element.


;special functions
;special functions

Revision as of 14:35, 7 April 2011

Because the current version of the STx EVAL command do not support a complex data type, a package of functions is used to implement arithmetic and special handling for complex numbers.

Note:

  • A numerical object containing N x M complex numbers (N>=1, M>=1), consists of 2N rows and M columns, because each complex number uses two cells of a row.
  • If a numerical object containing N x M complex numbers, is converted element-wise to real numbers, the resulting object consists of N rows and M columns.
complex -> complex
argument xc any complex type
result rc same complex type as xc
rc=cr2p(xc) ... convert xc from cartesian (real, imaginary) to polar (length, phase) format
rc=cp2r(xc) ... convert xc from polar (length, phase) to cartesian (real, imaginary) format
rc=conj(xc) ... cojugate xc (xc must be in cartesian format)
complex -> real
argument xc any complex type
result r same real type as xc
r=cr2len(xc) ... compute length of xc; xc is stored in cartesian format
r=cr2phi(xc) ... compute phase of xc; xc is stored in cartesian format
r=cget(xc,0) ... get real part or length of xc (depends on format of xc)
r=cget(xc,1) ... get imaginary part or phase of xc (depends on format of xc)
real -> complex
argument x any real type
argument y same type as x
result rc same complex type as x
rc=cset(x,y) ... combine x (real part or length) and y (imaginary part or phase) elements to a complex numbers
complex multiplication
argument xc any complex type argument yc
same type as 'xc' argument n
a real or complex number
result rc same complex type as xc
rc=cmul(xc,n)
rc=cmul(n,xc)
Multiply each element of xc with the real or complex number n.
rc=cmul(xc,yc)
Multiply xc and yc element by element.
special functions
rc=cdot(xc,yc)
the result rc (complex number) is the dot product of the complex vectors xc and yc
rc=ctrn(xc)
the result rc is transposed matrix of the complex matrix xc


See also
window, fft

<function list>


cr2p

Convert Cartesian coordinates to Polar coordinates

Usage:

cr2p(xC)

Return Type:

like xC


complex numbers

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