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

NAME

       CPMPXY - Maps Conpack output from a rectangular coordinate system superimposed on the data
       grid to some other coordinate system.

SYNOPSIS

       CALL CPMPXY (IMAP, XINP, YINP, XOTP, YOTP)

DESCRIPTION

       IMAP        (INTEGER, input) is zero if the object of the call is to ask CPMPXY about its
                   mapping capabilities, greater than zero if the object of the call is to do a
                   forward mapping, and less than zero if the object of the call is to do an
                   inverse mapping. When IMAP is non-zero, its absolute value matches the current
                   value of the parameter 'MAP' and identifies the mapping to be used.

       XINP        (REAL, input) is used in one of three ways:

                   •   When IMAP is zero, the value INT(XINP) is the index of a mapping about
                       which CPMPXY is being asked to supply information.

                   •   When IMAP is greater than zero, XINP is the X coordinate of a point on the
                       contour plot. If 'XC1' = 'XCM' (the default situation), then XINP will lie
                       in the range from 1 to M, where M is the first dimension of the array
                       being contoured (equal to the value of the parameter 'ZDM'); in this case,
                       the X coordinate will have the same range as the first index of the data
                       array. If the user sets 'XC1' unequal to 'XCM', then XINP will lie in the
                       range from 'XC1' (corresponding to an index value of 1) to 'XCM'
                       (corresponding to an index value of M).

                   •   When IMAP is less than zero, XINP is the X coordinate of a point on the
                       contour plot, in a coordinate system consistent with the current window,
                       as specified by arguments 5 through 8 of the last call to the SPPS routine
                       SET or by the equivalent call to GKS.

       YINP        (REAL, input/output) is used in one of three ways:

                   •      When IMAP is zero, CPMPXY is expected to return one of the following
                          values of YINP: YINP = 0. indicates that neither the forward nor the
                          inverse transformation is defined. YINP = 1. indicates that the forward
                          transformation is defined, but the inverse is not. YINP = 2. indicates
                          that the forward transformation is not defined, but the inverse is.
                          YINP = 3. indicates that both the forward and the inverse
                          transformations are defined.

                   •      When IMAP is greater than zero, YINP is the Y coordinate of a point on
                          the contour plot. If 'YC1' = 'YCN' (the default situation), then YINP
                          will lie in the range from 1 to N, where N is the second dimension of
                          the array being contoured (equal to the value of the parameter 'ZDN');
                          in this case, the Y coordinate will have the same range as the second
                          index of the data array. If the user sets 'YC1' unequal to 'YCN', then
                          YINP will lie in the range from 'YC1' (corresponding to an index value
                          of 1) to 'YCN' (corresponding to an index value of N).

                   •      When IMAP is less than zero, YINP is the Y coordinate of a point on the
                          contour plot, in a coordinate system consistent with the current
                          window, as specified by arguments 5 through 8 of the last call to the
                          SPPS routine SET or by the equivalent call to GKS.

       XOTP and YOTP
                   (REAL, output) are used in one of two ways:

                   •      If IMAP is greater than zero, XOTP and YOTP are the X and Y coordinates
                          of a point on the contour plot, in a coordinate system consistent with
                          the current window, as specified by arguments 5 through 8 of the last
                          call to the SPPS routine SET or by the equivalent call to GKS.

                   •      When IMAP is less than zero, XOTP and YOTP are the X and Y coordinates
                          of a point on the contour plot. If 'XC1' = 'XCM' (the default
                          situation), then XOTP will lie in the range from 1 to M, where M is the
                          first dimension of the array being contoured (equal to the value of the
                          parameter 'ZDM'); in this case, the X coordinate will have the same
                          range as the first index of the data array. If the user sets 'XC1'
                          unequal to 'XCM', then XOTP will lie in the range from 'XC1'
                          (corresponding to an index value of 1) to 'XCM' (corresponding to an
                          index value of M). Similarly, if 'YC1' = 'YCN' (the default situation),
                          then YOTP will lie in the range from 1 to N, where N is the second
                          dimension of the array being contoured (equal to the value of the
                          parameter 'ZDN'); in this case, the Y coordinate will have the same
                          range as the second index of the data array. If the user sets 'YC1'
                          unequal to 'YCN', then YOTP will lie in the range from 'YC1'
                          (corresponding to an index value of 1) to 'YCN' (corresponding to an
                          index value of N).

                          In any case, if the point (XINP,YINP) cannot be mapped for any reason,
                          some recognizable impossible value should be returned for both of XOTP
                          and YOTP and the internal parameter 'ORV' should be given that value,
                          thereby allowing Conpack routines that call CPMPXY to determine whether
                          or not a point being projected is visible or not.  The value used for
                          this purpose by the Ezmap routines MAPTRA and MAPTRI is 1.E12.

USAGE

       CPMPXY is not to be called by the user. It is called by Conpack when the parameter 'MAP'
       is non-zero. Each call is intended 1) to inquire whether a given mapping is defined by
       CPMPXY, or 2) to map the X and Y coordinates of a single point, whose position is known
       relative to the data grid, to X and Y coordinates in some other coordinate system or 3)
       (as of version 3.1.3) to do the inverse mapping. The default version of CPMPXY is as
       follows:

            SUBROUTINE CPMPXY (IMAP,XINP,YINP,XOTP,YOTP)
              IF (IMAP.EQ.0) THEN
                IF (INT(XINP).GE.1.AND.INT(XINP).LE.3) THEN
                  YINP=3.
                ELSE
                  YINP=0.
                END IF
              ELSE IF (ABS(IMAP).EQ.1) THEN
                IF (IMAP.GT.0) THEN
                  CALL MAPTRA (YINP,XINP,XOTP,YOTP)
                ELSE
                  CALL MAPTRI (XINP,YINP,YOTP,XOTP)
                END IF
              ELSE IF (ABS(IMAP).EQ.2) THEN
                IF (IMAP.GT.0) THEN
                  XOTP=XINP*COS(.017453292519943*YINP)
                  YOTP=XINP*SIN(.017453292519943*YINP)
                ELSE
                  XOTP=SQRT(XINP*XINP+YINP*YINP)
                  YOTP=57.2957795130823*ATAN2(YINP,XINP)
                END IF
              ELSE
                XOTP=XINP
                YOTP=YINP
              END IF
              RETURN
            END

       When CPMPXY is called with IMAP = 0, it assumes it is being
       asked to return information about its mapping capabilities.
       XINP is assumed to have been given the value REAL(I), where
       I is the index of a mapping about which information is
       desired. CPMPXY sets YINP to indicate whether the mapping
       selected by I is implemented or not and whether its inverse
       is implemented or not. In the case of the default version
       of CPMPXY, mappings 1 through 3 are completely implemented
       (both forward and reverse), so a "3." is returned as the
       value of YINP; other mappings are not implemented at all,
       so a "0." is returned as the value of YINP.

       When CPMPXY is called with IMAP = 1, the incoming X and Y
       coordinates are assumed to represent longitude and
       latitude, respectively; the Ezmap routine MAPTRA is called
       to find the X and Y coordinates of the projection of the
       specified point on the globe, and those coordinates are
       returned as the outgoing X and Y coordinates. When IMAP =
       -1, the incoming X and Y coordinates are assumed to be the X
       and Y coordinates of a projected point; the Ezmap routine
       MAPTRI is called to find the longitude and latitude of the
       original point on the globe, and those values are returned
       as the outgoing X and Y coordinates.

       When IMAP = 2, the incoming X and Y coordinates are assumed
       to represent rho and theta (in degrees) in polar
       coordinates; from these are computed the output X and Y
       coordinates. When IMAP = -2, the incoming X and Y
       coordinates are used to compute rho and theta and those
       values are returned.

       If IMAP is anything else, the input X and Y coordinates are
       simply returned as the output X and Y coordinates.

       A user version of CPMPXY can be made to do any desired
       mapping. It should also be made, when IMAP = 0, to return
       correct information about its own capabilities.

ACCESS

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

SEE ALSO

       Online: conpack, cpback, cpchcf, cpchcl, cpchhl, cpchil, cpchll, cpcica, cpclam, cpcldm,
       cpcldr, cpcltr, cpcnrc, cpdrpl, cpezct, cpgetc, cpgeti, cpgetr, cplbam, cplbdr, cpmviw,
       cpmvrw, cppkcl, cppklb, cprect, cprset, cpscae, cpsetc, cpseti, cpsetr, cpsps1, cpsps2,
       ncarg_cbind

       Hardcopy: NCAR Graphics Contouring and Mapping Tutorial

COPYRIGHT

       Copyright (C) 1987-2009
       University Corporation for Atmospheric Research

       The use of this Software is governed by a License Agreement.