Provided by: libncarg-dev_6.4.0-9_amd64 bug

NAME

       AGSTUP - Performs "set-up" tasks required before AGBACK and AGCURV may be called.
       Basically, AGSTUP examines the current values of the primary control parameters for errors
       and computes from them and from its arguments the values of secondary control parameters.
       The primary and secondary control parameters together determine how the routines AGBACK
       and AGCURV will behave.

SYNOPSIS

        CALL AGSTUP (XDRA,NVIX,IIVX,NEVX,IIEX,YDRA,NVIY,IIVY,
       + NEVY,IIEY)

C-BINDING SYNOPSIS

       #include <ncarg/ncargC.h>

       void c_agstup (float *xdra, int nvix, int iivx, int nevx, \
       int iiex, float *ydra, int nviy, int iivy, int nevy, \
       int iiey)

DESCRIPTION

       The first five arguments of AGSTUP are meaningful only if at least one of 'X/MINIMUM.' and
       'X/MAXIMUM.' has the value "null 1" or "null 2", specifying that Autograph is to determine
       for itself the minimum and/or maximum X coordinate in the user's data. Similarly, the
       second five arguments are meaningful only if at least one of 'Y/ MINIMUM.' and
       'Y/MAXIMUM.' has the value "null 1" or "null 2".

       XDRA        (an input array of type REAL, dimensioned as implied by the next four
                   arguments) contains user X coordinates.

       NVIX        (an input expression of type INTEGER) is the number of "vectors" of data from
                   XDRA to be considered in computing the minimum and/or maximum X values.

       IIVX        (an input expression of type INTEGER) is the index increment between two
                   "vectors" in XDRA. The 1st element of the first vector is XDRA(1), the 1st
                   element of the second vector is XDRA(1+IIVX), the 1st element of the third
                   vector is XDRA(1+IIVX*2), etc.

       NEVX        (an input expression of type INTEGER) is the number of elements of each vector
                   in XDRA to be considered in computing the minimum and/or maximum X values.

       IIEX        (an input expression of type INTEGER) is the index increment between two
                   consecutive elements of a vector in XDRA. The second element of the 1st vector
                   is XDRA (1+IIEX), the third element of the 1st vector is XDRA(1+IIEX*2), etc.
                   If IIEX has the value 0, the contents of XDRA are ignored completely; the
                   minimum and maximum X values are considered to be "1." and FLOAT(NEVX),
                   respectively.

       YDRA, NVIY, IIVY, NEVY, and IIEY
                   are used similarly, but define the user Y coordinates.

                   Some examples:

       X array    Data to use                  XDRA     NVIX   IIVX   NEVX   HEX
       -------    -----------                  ----     ----   ----   ----   ---

       X(100)     all data                     X(1)     1      -      100    1
                  (X(I),I=1,99,2)              X(1)     1      -      50     2
                  (X(I),I=51,99,2)             X(51)    1      -      25     2
       X(10,10)   all data                     X(1,1)   10     10     10     1
                                               X(1,1)   1      -      100    1
                  ((X(I,J),I=1,10),J=1,6)      X(1,1)   6      10     10     1

                                               X(1,1)   10     1      6      10
                                               X(1,1)   -      60     1
                  ((X(I,J),I=3,7),J=3,9)       X(3,3)   7      10     5      1
                                               X(3,3)   5      1      7      10
                  ((X(I,J),I=3,7,4),J=3,9,3)   X(3,3)   3      30     2      4
       none       1., 2., . . ., 62.           -        -      -      62     0

       Note: The character "-" is used above to indicate an argument which is ignored and may be
       given a dummy value.

       Normally, the X and Y coordinate data tendered to AGSTUP are the same data which will
       later be used to draw curves.  However, this need not be the case. For example, one could
       call AGSTUP with a two-word XDRA (setting NVIX=1, IIVX=1, NEVX=2, and IIEX=1) containing a
       desired minimum and maximum to be used, disregarding the real data.

       If 'INVERT.' is given the value "1." (in place of its default value "0."), AGSTUP will
       behave as if its first five arguments had been interchanged with its last five, so that X-
       coordinate values refer to vertical distances, and Y-coordinate values to horizontal
       distances, on the graph.  This parameter affects AGCURV in a similar manner, thus allowing
       one to plot "X as a function of Y".

C-BINDING DESCRIPTION

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

EXAMPLES

       Use the ncargex command to see the following relevant examples: agex13, cbex01.

ACCESS

       To use AGSTUP or c_agstup, load the NCAR Graphics libraries ncarg, ncarg_gks, and ncarg_c,
       preferably in that order.    To get smoother curves, drawn using spline interpolation,
       also load libdashsmth.o.  Or, you can use the ncargf77 command to compile your program and
       load the above libraries, then, to get smoother curves, use the -dashsmth option.

MESSAGES

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

SEE ALSO

       Online: autograph, agback, agbnch, agchax, agchcu, agchil, agchnl, agcurv, agdshn, aggetc,
       aggetf, aggeti, aggetp, aggetr, agpwrt, agrstr, agsave, agsetc, agsetf, agseti, agsetp,
       agsetr, agutol, anotat, displa, ezmxy, ezmy, ezxy, ezy

       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.