plsurf3d - Plot shaded 3-d surface plot
plsurf3d(x, y, z, nx,
ny, opt, clevel, nlevel)
Plots a three-dimensional shaded surface plot within the
environment set up by plw3d(3plplot). The surface is defined by the
two-dimensional matrix z[nx][ny], the point
z[i][j] being the value of the function at (x[i],y[j]).
Note that the points in vectors x and y do not need to be
equally spaced, but must be stored in ascending order. For further details
see the PLplot documentation.
Redacted form: plsurf3d(x, y, z, opt, clevel)
This function is not used in any examples.
- x
(PLFLT_VECTOR(3plplot), input)
- A vector containing the x coordinates at which the function is
evaluated.
- y
(PLFLT_VECTOR(3plplot), input)
- A vector containing the y coordinates at which the function is
evaluated.
- z
(PLFLT_MATRIX(3plplot), input)
- A matrix containing function values to plot. Should have dimensions of
nx by ny.
- nx (PLINT(3plplot),
input)
- Number of x values at which function is evaluated.
- ny (PLINT(3plplot),
input)
- Number of y values at which function is evaluated.
- opt
(PLINT(3plplot), input)
- Determines the way in which the surface is represented. To specify more
than one option just add the options, e.g. FACETED + SURF_CONT
opt=FACETED : Network of lines is drawn connecting points at which
function is defined. opt=BASE_CONT : A contour plot is drawn at the
base XY plane using parameters nlevel and clevel.
opt=SURF_CONT : A contour plot is drawn at the surface plane using
parameters nlevel and clevel. opt=DRAW_SIDES : draws
a curtain between the base XY plane and the borders of the plotted
function. opt=MAG_COLOR : the surface is colored according to the
value of Z; if MAG_COLOR is not used, then the surface is colored
according to the intensity of the reflected light in the surface from a
light source whose position is set using pllightsource(3plplot).
- clevel
(PLFLT_VECTOR(3plplot), input)
- A vector containing the contour levels.
- nlevel
(PLINT(3plplot), input)
- Number of elements in the clevel vector.
Many developers (who are credited at
http://plplot.org/credits.php) have contributed to PLplot over its long
history.
PLplot documentation at http://plplot.org/documentation.php.