Provided by: libncarg-dev_6.1.2-7_amd64 bug

NAME

       VVECTR - Manages the coordinate system mapping, color setting, auxiliary text output, and
       drawing of the vector field plot, according to the specifications established by the
       parameter setting routines and the initialization routine, VVINIT.

SYNOPSIS

       CALL VVECTR (U,V,P,IAM,VVUDMV,WRK)

C-BINDING SYNOPSIS

       #include <ncarg/ncargC.h>

       void c_vvectr(float *u, float *v, float *p, int *iam,
                     int (*vvudmv_)(float *xcs, float *ycs,
                     int *ncs, int *iai, int *iag, int *nai),
                     float *wrk)

DESCRIPTION

       U           (REAL 2 dimensional array, dimensioned as specified in last call to VVINIT,
                   input): By default, assumed to contain the first dimensional axis components
                   of the vector field.  However, if PLR is non-zero, it is treated as containing
                   the vector magnitudes.

       V           (REAL 2 dimensional array, dimensioned as specified in last call to VVINIT,
                   input): By default, assumed to contain the second dimensional axis components
                   of the vector field.  However, if PLR is non-zero, it is treated as containing
                   the vector angles.

       P           (REAL 2 dimensional array, dimensioned as specified in last call to VVINIT,
                   input): Array of scalar data that may be used to color the vectors. The grid
                   points are assumed to coincide with the grid points of the U and V arrays.
                   Required only if CTV has an absolute value of 2; otherwise this argument is
                   ignored and may be assigned a dummy value.

       IAM         (INTEGER array, unknown dimension, input): Area map array previously
                   established by calls to routines in the Areas utility. It is not examined or
                   modified by Vectors.  Required only if MSK is set to a non-zero value;
                   otherwise it is ignored and may be assigned a dummy value.

       VVUDMV      (EXTERNAL subroutine, input): User-definable masked drawing subroutine. See
                   the man page vvudmv for a discussion of the usage and argument list required
                   for this subroutine. Required only if MSK is set to a non-zero value;
                   otherwise it is ignored and may be assigned a dummy value.

       WRK         (REAL array, dimensioned as specified in last call to VVINIT, input/output):
                   Work array required only if the parameter VMD is set to a value greater than
                   0.0. Otherwise may be set to a dummy value.

C-BINDING DESCRIPTION

       The C-binding argument descriptions are the same as the FORTRAN argument descriptions.

USAGE

       A call to VVINIT must precede the first call to VVECTR, and is again required any time the
       vector or scalar array data changes, any of the coordinate control parameters are
       modified, or the number of color threshold levels is modified when Vectors is given the
       responsibility of setting up the color threshold value array. However, the user may modify
       text elements or any of the rendering control parameters, and if assuming responsibility
       for setting up the color threshold array, may also modify the color array parameters, in
       between multiple invocations of VVECTR.

       Arguments to VVINIT establish the sizes of the two or three data arrays, as well as the
       possible work array. VVINIT places these values into common block variables where they
       become available to VVECTR.  Therefore no size arguments need appear in the VVECTR
       argument list. When there is no scalar data array, area masking is not enabled, and VMD is
       less than or equal to 0.0, all but the first two arguments to VVECTR may have dummy values
       and the invocation would be something like:

               CALL VVECTR(U,V,IDM,IDM,IDM,IDM)

       where IDM is an arbitrary variable, INTEGER or REAL, that need not have been initialized.
       However, any time the color threshold control parameter, CTV has an absolute value of 2,
       the auxiliary scalar data array is expected, and the P scalar array variable needs to be
       specified.

       The masking capability supported by Vectors allows the user to overlay vector fields on
       top of graphics produced by other utilities, such as Conpack contour plots, without
       encroaching on areas, like label boxes, that should appear in the foreground. Normally the
       area map should be generated and used in the normal way (as described in the Areas and
       Conpack documentation) before calling any routines in the Vectors utility. When the
       parameter MSK has a non-zero value, masking is enabled and a previously created area map
       must be passed to VVECTR.  VVECTR examines the map, returning an error if it determines
       that it is an invalid map or contains more area maps that it can handle, currently 64.
       Otherwise its only use of the map is as a member of the argument list when invoking one of
       the Areas routines, ARDRLN or ARGTAI.  The user must also pass in a user-definable masked
       drawing subroutine.  A simple version of this subroutine, named VVUDMV, is supplied with
       the Vectors utility, and may suffice for basic masked drawing operations. See the vvudmv
       man page for more information.

       The last argument in the calling sequence, WRK, is used only when the parameter VMD
       (Vector Minimum Distance) is given a value greater than 0.0. In this case, Vectors uses
       the array to keep track of the location of each vector in NDC space so that the distances
       between vectors can be compared. Based on these comparisons, Vectors eliminates some
       vectors such that the remaining vectors are separated by at least the specified distance.
       Otherwise the WRK argument is ignored, and may be passed a dummy argument value.

EXAMPLES

       Use the ncargex command to see the following relevant examples: bnchmk, fcover, ffex00,
       ffex01, ffex02, ffex05, stex02, stex03, vvex01, vvex02.

ACCESS

       To use VVECTR or c_vvectr, load the NCAR Graphics libraries ncarg, ncarg_gks, and ncarg_c,
       preferably in that order.

MESSAGES

       See the vectors man page for a description of all Vectors error messages and/or
       informational messages.

SEE ALSO

       Online: vectors, vectors_params, vvgetc, vvgeti, vvgetr, vvinit, vvrset, vvsetc, vvseti,
       vvsetr, vvudmv, vvumxy, ncarg_cbind.

       Hardcopy: NCAR Graphics Fundamentals, UNIX Version

COPYRIGHT

       Copyright (C) 1987-2009
       University Corporation for Atmospheric Research
       The use of this Software is governed by a License Agreement.