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NAME

       psvelo - Plot velocity vectors, crosses, and wedges on maps

SYNOPSIS

       psvelo  [ table ] parameters region [ parameters ] [ [p|s]parameters ] [ color ] [ color ]
       [  color  ]  [   ]  [   ]  [   ]  [   ]  [   ]  [  symbol/scale/conf/font_size   ]   [   [
       [just/dx/dy/][c|label]  ]  [  [level]  ]  [ pen ] [ x_offset ] [ y_offset ] [ -ccopies ] [
       -di<nodata> ] [ -h<headers> ] [ -i<flags> ] [ -:[i|o] ]

       Note: No space is allowed between the option flag and the associated arguments.

DESCRIPTION

       psvelo reads data values from files [or standard input] and generates PostScript code that
       will plot velocity arrows on a map.  Most options are the same as for psxy, except -S. The
       PostScript code is written to standard output. The previous version  (psvelomeca)  is  now
       obsolete. It has been replaced by psvelo and psmeca.

REQUIRED ARGUMENTS

       table  One  or  more  ASCII (or binary, see -bi[ncols][type]) data table file(s) holding a
              number of data columns. If no tables are given then we read from standard input.

       -Jparameters (more ...)
              Select map projection.

       -R[unit]west/east/south/north[/zmin/zmax][r]
              west, east, south, and north specify the region of interest, and  you  may  specify
              them in decimal degrees or in [+-]dd:mm[:ss.xxx][W|E|S|N] format. Append r if lower
              left and upper right  map  coordinates  are  given  instead  of  w/e/s/n.  The  two
              shorthands  -Rg  and  -Rd stand for global domain (0/360 and -180/+180 in longitude
              respectively, with -90/+90 in latitude).  Alternatively  for  grid  creation,  give
              Rcodelon/lat/nx/ny,  where  code is a 2-character combination of L, C, R (for left,
              center, or right) and T, M, B for top, middle, or bottom. e.g., BL for lower  left.
              This  indicates  which  point on a rectangular region the lon/lat coordinate refers
              to, and the grid dimensions nx and ny with grid spacings via -I is used  to  create
              the corresponding region.  Alternatively, specify the name of an existing grid file
              and the -R settings (and grid spacing, if applicable) are  copied  from  the  grid.
              Using  -Runit  expects  projected (Cartesian) coordinates compatible with chosen -J
              and we inversely project to determine actual rectangular  geographic  region.   For
              perspective  view  (-p), optionally append /zmin/zmax.  In case of perspective view
              (-p), a z-range (zmin, zmax) can be appended to indicate the third dimension.  This
              needs to be done only when using the -Jz option, not when using only the -p option.
              In the latter case a perspective view of  the  plane  is  plotted,  with  no  third
              dimension.

       -S

       Selects the meaning of the columns in the data file and the figure to be plotted.
          -Sevelscale/confidence/fontsize.
              Velocity  ellipses  in  (N,E)  convention.  Vscale sets the scaling of the velocity
              arrows. This scaling gives inches (unless c, i, or p is appended). Confidence  sets
              the  2-dimensional  confidence limit for the ellipse, e.g., 0.95 for 95% confidence
              ellipse. Fontsize sets the size of the text in points. The ellipse will  be  filled
              with  the  color or shade specified by the  option [default transparent]. The arrow
              and the circumference of  the  ellipse  will  be  drawn  with  the  pen  attributes
              specified by the  option. Parameters are expected to be in the following columns:
                 1,2:  longitude,  latitude  of  station  (-:  option  interchanges  order)  3,4:
                 eastward, northward velocity (-: option interchanges order) 5,6: uncertainty  of
                 eastward,  northward  velocities  (1-sigma)  (-:  option  interchanges order) 7:
                 correlation between  eastward  and  northward  components  8:  name  of  station
                 (optional).

          -Snbarscale.
              Anisotropy  bars.  Barscale  sets the scaling of the bars This scaling gives inches
              (unless c, i, or p is appended).  Parameters are expected to be  in  the  following
              columns:
                 1,2:  longitude,  latitude  of  station  (-:  option  interchanges  order)  3,4:
                 eastward, northward components of  anisotropy  vector  (-:  option  interchanges
                 order)

          -Srvelscale/confidence/fontsize
              Velocity  ellipses  in  rotated convention. Vscale sets the scaling of the velocity
              arrows. This scaling gives inches (unless c, i, or p is appended). Confidence  sets
              the  2-dimensional  confidence limit for the ellipse, e.g., 0.95 for 95% confidence
              ellipse.  Fontsize sets the size of the text in points. The ellipse will be  filled
              with  the  color or shade specified by the  option [default transparent]. The arrow
              and the circumference of  the  ellipse  will  be  drawn  with  the  pen  attributes
              specified by the  option. Parameters are expected to be in the following columns:
                 1,2:  longitude,  latitude,  of  station  (-:  option  interchanges  order) 3,4:
                 eastward, northward velocity (-: option  interchanges  order)  5,6:  semi-major,
                 semi-minor  axes 7: counter-clockwise angle, in degrees, from horizontal axis to
                 major axis of ellipse.  8: name of station (optional)

          -Swwedge_scale/wedge_mag.
              Rotational wedges. Wedge_scale sets the size of the wedges in inches (unless c,  i,
              or p is appended). Values are multiplied by Wedge_mag before plotting. For example,
              setting  Wedge_mag  to  1.e7  works  well  for  rotations  of  the  order  of   100
              nanoradians/yr.  Use -G to set the fill color or shade for the wedge, and -E to set
              the color or shade for the uncertainty.  Parameters  are  expected  to  be  in  the
              following columns:
                 1,2:  longitude, latitude, of station (-: option interchanges order) 3: rotation
                 in radians 4: rotation uncertainty in radians

          -Sxcross_scale
              gives Strain crosses. Cross_scale sets the size of the cross in inches  (unless  c,
              i, or p is appended). Parameters are expected to be in the following columns:
                 1,2: longitude, latitude, of station (-: option interchanges order) 3: eps1, the
                 most extensional eigenvalue of strain tensor, with extension taken positive.  4:
                 eps2,  the  most compressional eigenvalue of strain tensor, with extension taken
                 positive.  5: azimuth of eps2 in degrees CW from North.

OPTIONAL ARGUMENTS

       -Aparameters
              Modify vector parameters. For vector heads, append vector  head  size  [Default  is
              9p].  See Vector Attributes for specifying additional attributes.

       -B[p|s]parameters (more ...)
              Set map boundary intervals.

       -DSigma_scale
              can  be used to rescale the uncertainties of velocities (-Se and -Sr) and rotations
              (-Sw). Can be combined with the confidence variable.

       -Ffill Sets the color or shade used for frame and annotation. [Default is black]

       -Efill Sets the color or shade used for filling uncertainty wedges (-Sw) or velocity error
              ellipses  (-Se  or  -Sr).  [If -E is not specified, the uncertainty regions will be
              transparent.]

       -Gfill Specify color (for symbols/polygons) or pattern (for polygons) [Default is  black].
              Optionally,  specify  -Gpicon_size/pattern,  where  pattern gives the number of the
              image pattern (1-90) OR the name of a icon-format file.  icon_size  sets  the  unit
              size  in  inches. To invert black and white pixels, use -GP instead of -Gp. See the
              CookBook for information on individual patterns.

       -K (more ...)
              Do not finalize the PostScript plot.

       -L     Draw lines. Ellipses and fault planes will have their outlines drawn using  current
              pen (see -W).

       -N     Do  NOT skip symbols that fall outside the frame boundary specified by -R. [Default
              plots symbols inside frame only].

       -O (more ...)
              Append to existing PostScript plot.

       -P (more ...)
              Select "Portrait" plot orientation.

       -U[just/dx/dy/][c|label] (more ...)
              Draw GMT time stamp logo on plot.

       -V[level] (more ...)
              Select verbosity level [c].

       -W     Set pen attributes for velocity  arrows,  ellipse  circumference  and  fault  plane
              edges. [Defaults: width = default, color = black, style = solid].

       -X[a|c|f|r][x-shift[u]]

       -Y[a|c|f|r][y-shift[u]] (more ...)
              Shift plot origin.

       -ccopies (more ...)
              Specify number of plot copies [Default is 1].

       -dinodata (more ...)
              Replace input columns that equal nodata with NaN.

       -h[i|o][n][+c][+d][+rremark][+rtitle] (more ...)
              Skip or produce header record(s).

       -icols[l][sscale][ooffset][,...] (more ...)
              Select input columns (0 is first column).

       -:[i|o] (more ...)
              Swap 1st and 2nd column on input and/or output.

       -^ or just -
              Print a short message about the syntax of the command, then exits (NOTE: on Windows
              use just -).

       -+ or just +
              Print  an  extensive  usage  (help)  message,  including  the  explanation  of  any
              module-specific option (but not the GMT common options), then exits.

       -? or no arguments
              Print  a  complete usage (help) message, including the explanation of options, then
              exits.

       --version
              Print GMT version and exit.

       --show-datadir
              Print full path to GMT share directory and exit.

VECTOR ATTRIBUTES

       Several modifiers may be appended to the vector-producing options to specify the placement
       of  vector heads, their shapes, and the justification of the vector. Below, left and right
       refers to the side of the vector line when viewed from the start point to the end point of
       the segment:
          +aangle sets the angle of the vector head apex [30].

          +b places a vector head at the beginning of the vector path [none].  Optionally, append
          t for a terminal line, c for a circle, or a for arrow [Default].  Further append l|r to
          only draw the left or right side of this head [both sides].

          +e places a vector head at the end of the vector path [none].  Optionally, append t for
          a terminal line, c for a circle, or a for arrow [Default].  Further append l|r to  only
          draw the left or right side of this head [both sides].

          +g-|fill  turns  off vector head fill (if -) or sets the vector head fill [Default fill
          is used, which may be no fill].

          +l draws half-arrows, using only the left side of specified heads [both sides].

          +m places a vector head at the mid-point the vector path [none].  Append  f  or  r  for
          forward  or  reverse  direction  of  the  vector [forward].  Optionally, append t for a
          terminal line, c for a circle, or a for arrow head [Default].  Further  append  l|r  to
          only draw the left or right side of this head [both sides].  Cannot be combined with +b
          or +e.

          +nnorm scales down vector attributes (pen thickness, head size) with decreasing length,
          where vectors shorter than norm will have their attributes scaled by length/norm [arrow
          attributes remains invariant to length].

          +oplon/plat specifies the oblique pole for the great or small circles.  Only needed for
          great circles if +q is given.

          +p[-][pen] sets the vector pen attributes. If pen has a leading - then the head outline
          is not drawn. [Default pen is used, and head outline is drawn]

          +q means the input angle, length data instead represent  the  start  and  stop  opening
          angles of the arc segment relative to the given point.

          +r draws half-arrows, using only the right side of specified heads [both sides].

          t[b|e]trim  will shift the beginning or end point (or both) along the vector segment by
          the given trim; append suitable unit. If the modifiers b|e are not used then  trim  may
          be  two  values  separated by a slash, which is used to specify different trims for the
          two ends.  Positive trims will shorted the vector while negative trims will lengthen it
          [no trim].

       In addition, all but circular vectors may take these modifiers:
          +jjust  determines how the input x,y point relates to the vector. Choose from beginning
          [default], end, or center.

          +s means the input angle, length is instead the x, y  coordinates  of  the  vector  end
          point.

       Finally, Cartesian vectors may take these modifiers:
          +zscale[unit]  expects  input  dx,dy vector components and uses the scale to convert to
          polar coordinates with length in given unit.

EXAMPLES

       The following should make big red arrows with green ellipses, outlined in red.  Note  that
       the 39% confidence scaling will give an ellipse which fits inside a rectangle of dimension
       Esig by Nsig.

              gmt psvelo << END -h2 -R-10/10/-10/10 -W0.25p,red -Ggreen -L -Se0.2/0.39/18 \
                  -B1g1 -Jx0.4/0.4 -A0.3p -P -V > test.ps
              #Long. Lat. Evel Nvel Esig Nsig CorEN SITE
              #(deg) (deg) (mm/yr) (mm/yr)
              0. -8. 0.0 0.0 4.0 6.0 0.500 4x6
              -8. 5. 3.0 3.0 0.0 0.0 0.500 3x3
              0. 0. 4.0 6.0 4.0 6.0 0.500
              -5. -5. 6.0 4.0 6.0 4.0 0.500 6x4
              5. 0. -6.0 4.0 6.0 4.0 -0.500 -6x4
              0. -5. 6.0 -4.0 6.0 4.0 -0.500 6x-4
              END

       This example should plot some residual rates of rotation in the Western Transverse Ranges,
       California.  The wedges will be dark gray, with light gray wedges to represent the 2-sigma
       uncertainties.

              gmt psvelo << END -Sw0.4/1.e7 -W0.75p -Gdarkgray -Elightgray -h1 -D2 -Jm2.2 \
                  -R240./243./32.5/34.75 -Bf10ma60m/WeSn -P > test.ps
              #lon lat spin(rad/yr) spin_sigma (rad/yr)
              241.4806 34.2073 5.65E-08 1.17E-08
              241.6024 34.4468 -4.85E-08 1.85E-08
              241.0952 34.4079 4.46E-09 3.07E-08
              241.2542 34.2581 1.28E-07 1.59E-08
              242.0593 34.0773 -6.62E-08 1.74E-08
              241.0553 34.5369 -2.38E-07 4.27E-08
              241.1993 33.1894 -2.99E-10 7.64E-09
              241.1084 34.2565 2.17E-08 3.53E-08
              END

SEE ALSO

       psmeca, pspolar, pscoupe, gmt, psbasemap, psxy

REFERENCES

       Bomford, G., Geodesy, 4th ed., Oxford University Press, 1980.

AUTHORS

       Kurt L. Feigl, Department of Geology and Geophysics at  University  of  Wisconsin-Madison,
       Madison, Wisconsin, USA

       Genevieve  Patau,  Laboratory  of  Seismogenesis,  Institut de Physique du Globe de Paris,
       Departement de Sismologie, Paris, France

COPYRIGHT

       2015, P. Wessel, W. H. F. Smith, R. Scharroo, J. Luis, and F. Wobbe