NAME

       Planimeter -- compute the area of geodesic polygons

SYNOPSIS

       Planimeter [ -r ] [ -s ] [ -l ] [ -e a f ] [ -w ] [ -p prec ] [ -G | -E | -Q | -R ] [ --comment-delimiter
       commentdelim ] [ --version | -h | --help ] [ --input-file infile | --input-string instring ] [
       --line-separator linesep ] [ --output-file outfile ]

DESCRIPTION

       Measure the area of a geodesic polygon.  Reads polygon vertices from standard input, one per line.
       Vertices may be given as latitude and longitude, UTM/UPS, or MGRS coordinates, interpreted in the same
       way as GeoConvert(1).  (MGRS coordinates signify the center of the corresponding MGRS square.)  The end
       of input, a blank line, or a line which can't be interpreted as a vertex signals the end of one polygon
       and the start of the next.  For each polygon print a summary line with the number of points, the
       perimeter (in meters), and the area (in meters^2).

       The edges of the polygon are given by the shortest geodesic between consecutive vertices.  In certain
       cases, there may be two or many such shortest geodesics, and in that case, the polygon is not uniquely
       specified by its vertices.  This only happens with very long edges (for the WGS84 ellipsoid, any edge
       shorter than 19970 km is uniquely specified by its end points).  In such cases, insert an additional
       vertex near the middle of the long edge to define the boundary of the polygon.

       By default, polygons traversed in a counter-clockwise direction return a positive area and those
       traversed in a clockwise direction return a negative area.  This sign convention is reversed if the -r
       option is given.

       Of course, encircling an area in the clockwise direction is equivalent to encircling the rest of the
       ellipsoid in the counter-clockwise direction.  The default interpretation used by Planimeter is the one
       that results in a smaller magnitude of area; i.e., the magnitude of the area is less than or equal to one
       half the total area of the ellipsoid.  If the -s option is given, then the interpretation used is the one
       that results in a positive area; i.e., the area is positive and less than the total area of the
       ellipsoid.

       Only simple (i.e., non-self-intersecting) polygons are supported for the area computation.  Polygons may
       include one or both poles.  There is no need to close the polygon.

OPTIONS

       -r  toggle  whether  counter-clockwise  traversal  of  the  polygon  returns  a positive (the default) or
           negative result.

       -s  toggle whether to return a signed result (the default) or not.

       -l  toggle whether the vertices represent a polygon (the default) or a polyline.   For  a  polyline,  the
           number  of points and the length of the path joining them is returned; the path is not closed and the
           area is not reported.

       -e a f
           specify the ellipsoid via the equatorial radius, a and the flattening, f.  Setting f = 0 results in a
           sphere.  Specify f < 0 for a prolate ellipsoid.  A simple fraction, e.g., 1/297, is  allowed  for  f.
           By default, the WGS84 ellipsoid is used, a = 6378137 m, f = 1/298.257223563.  If entering vertices as
           UTM/UPS  or MGRS coordinates, use the default ellipsoid, since the conversion of these coordinates to
           latitude and longitude always uses the WGS84 parameters.

       -w  toggle the longitude first flag (it starts off); if the flag is  on,  then  when  reading  geographic
           coordinates, longitude precedes latitude (this can be overridden by a hemisphere designator, N, S, E,
           W).

       -p prec
           set  the  output  precision  to prec (default 6); the perimeter is given (in meters) with prec digits
           after the decimal point; the area is given (in meters^2) with (prec - 5)  digits  after  the  decimal
           point.

       -G  use  the  series  formulation  for  the geodesics.  This is the default option and is recommended for
           terrestrial applications.  This option, -G, and the following three options,  -E,  -Q,  and  -R,  are
           mutually exclusive.

       -E  use  "exact"  algorithms (based on elliptic integrals) for the geodesic calculations.  These are more
           accurate than the (default) series expansions for |f| > 0.02.  (But note that the  implementation  of
           areas in GeodesicExact uses a high order series and this is only accurate for modest flattenings.)

       -Q  perform  the  calculation  on  the  authalic  sphere.   The  area calculation is accurate even if the
           flattening is large, provided the edges are sufficiently short.  The  perimeter  calculation  is  not
           accurate.

       -R  The lines joining the vertices are rhumb lines instead of geodesics.

       --comment-delimiter commentdelim
           set  the  comment  delimiter  to  commentdelim  (e.g., "#" or "//").  If set, the input lines will be
           scanned for this delimiter and, if found, the delimiter and the rest of  the  line  will  be  removed
           prior  to processing.  For a given polygon, the last such string found will be appended to the output
           line (separated by a space).

       --version
           print version and exit.

       -h  print usage and exit.

       --help
           print full documentation and exit.

       --input-file infile
           read input from the file infile instead of from standard  input;  a  file  name  of  "-"  stands  for
           standard input.

       --input-string instring
           read  input  from  the  string  instring instead of from standard input.  All occurrences of the line
           separator character (default is a semicolon) in instring are converted to newlines before the reading
           begins.

       --line-separator linesep
           set the line separator character to linesep.  By default this is a semicolon.

       --output-file outfile
           write output to the file outfile instead of to standard  output;  a  file  name  of  "-"  stands  for
           standard output.

EXAMPLES

       Example (the area of the 100km MGRS square 18SWK)

          Planimeter <<EOF
          18n 500000 4400000
          18n 600000 4400000
          18n 600000 4500000
          18n 500000 4500000
          EOF
          => 4 400139.53295860 10007388597.1913

       The  following code takes the output from gdalinfo and reports the area covered by the data (assuming the
       edges of the image are geodesics).

          #! /bin/sh
          egrep '^((Upper|Lower) (Left|Right)|Center) ' |
          sed -e 's/d /d/g' -e "s/' /'/g" | tr -s '(),\r\t' ' ' | awk '{
              if ($1 $2 == "UpperLeft")
                  ul = $6 " " $5;
              else if ($1 $2 == "LowerLeft")
                  ll = $6 " " $5;
              else if ($1 $2 == "UpperRight")
                  ur = $6 " " $5;
              else if ($1 $2 == "LowerRight")
                  lr = $6 " " $5;
              else if ($1 == "Center") {
                  printf "%s\n%s\n%s\n%s\n\n", ul, ll, lr, ur;
                  ul = ll = ur = lr = "";
              }
          }
          ' | Planimeter | cut -f3 -d' '

SEE ALSO

       GeoConvert(1), GeodSolve(1).

       An       online        version        of        this        utility        is        availbable        at
       <https://geographiclib.sourceforge.io/cgi-bin/Planimeter>.

       The  algorithm  for the area of geodesic polygon is given in Section 6 of C. F. F. Karney, Algorithms for
       geodesics,  J.  Geodesy  87,  43-55  (2013);  DOI  <https://doi.org/10.1007/s00190-012-0578-z>;  addenda:
       <https://geographiclib.sourceforge.io/geod-addenda.html>.

AUTHOR

       Planimeter was written by Charles Karney.

HISTORY

       Planimeter was added to GeographicLib, <https://geographiclib.sourceforge.io>, in version 1.4.

GeographicLib 1.49                                 2017-10-05                                      PLANIMETER(1)