Provided by: libncarg-dev_6.3.0-6build1_amd64 
NAME
gevtm - Evaluate a transform matrix and construct GKS segment
DESCRIPTION
GEVTM (Evaluate transformation matrix) - Constructs a GKS segment transformation matrix
starting from a given point, a shift vector, a rotation angle, and X and Y scale factors.
SYNOPSIS
CALL GEVTM(X0,Y0,DX,DY,PHI,FX,FY,SW,MOUT)
C-BINDING SYNOPSIS
#include <ncarg/gks.h>
void geval_tran_matrix(const Gpoint *point, const Gvec *shift, Gdouble angle, const Gvec
*scale, Gcoord_switch coord_switch, Gtran_matrix tran_matrix);
DESCRIPTION
X0 (Real, Input) - An X coordinate value for a fixed point to be used for the
scaling and rotation parts of the output transformation. X is either in world
coordinates or normalized device coordinates depending on the setting of the
argument SW described below.
Y0 (Real, Input) - A Y coordinate value for a fixed point to be used for the
scaling and rotation parts of the output transformation. Y is either in world
coordinates or normalized device coordinates depending on the setting of the
argument SW described below.
DX (Real, Input) - The X component of a shift vector to be used for the scaling
part of the output transformation. DX is either in world coordinates or
normalized device coordinates depending on the setting of the argument SW
described below.
DY (Real, Input) - The Y component of a shift vector to be used for the scaling
part of the output transformation. DY is either in world coordinates or
normalized device coordinates depending on the setting of the argument SW
described below.
PHI (Real, Input) - The rotation angle, in radians, to be used for the rotation
part of the output transformation.
FX (Real, Input) - An X coordinate scale factor to be used in the scaling part of
the output transformation.
FY (Real, Input) - A Y coordinate scale factor to be used in the scaling part of
the output transformation.
SW (Integer, Input) - A coordinate switch to indicate whether the values for the
arguments X0, Y0, DX, and DY (described above) are in world coordinates or
normalized device coordinates. SW=0 indicates world coordinates and SW=1
indicates normalized device coordinates.
MOUT (Real, Output) - A 2x3 array that contains the GKS transformation matrix in a
form that can be used as input to other GKS functions such as GSSGT.
USAGE
If world coordinates are used, the shift vector and the fixed point are transformed by the
current normalization transformation.
The order of the transformation operations as built into the output matrix is: scale
(relative to the fixed point); rotate (relative to the fixed point; shift.
Elements MOUT(1,3) and MOUT(2,3) are in normalized device coordinates and the other
elements of MOUT are unitless.
EXAMPLE
The following code
PI = 3.1415926
CALL GEVTM(.5,.5,.25,0.,45.*PI/180.,.5,1.5,0,TM)
would produce a transformation matrix in TM that would: scale the X coordinates by .5,
scale the Y coordinates by 1.5 (relative to the fixed point of (.5,.5) ); rotate by 45
degrees (relative to the fixed point (.5,.5) ); and shift by .25 in X and 0. in Y. The
input values for the fixed point and shift vector are in world coordintes.
ACCESS
To use GKS routines, load the NCAR GKS-0A library ncarg_gks.
SEE ALSO
Online: gactm, gclsg, gcrsg, gcsgwk, gdsg, gqopsg, gqsgus, gssgt., geval_tran_matrix
Hardcopy: "User's Guide for NCAR GKS-0A Graphics"
COPYRIGHT
Copyright (C) 1987-2009
University Corporation for Atmospheric Research
The use of this Software is governed by a License Agreement.