- Scilab help
- Graphics Library
- 2d_plot
- 3d_plot
- annotation
- axes_operations
- axis
- bar_histogram
- Color management
- Datatips
- figure_operations
- geometric_shapes
- handle
- interaction
- load_save
- pie
- polygon
- property
- style
- text
- transform
- window_control
- GlobalProperty
- Graphics: Getting started
- alufunctions
- clear_pixmap
- Compound_properties
- graphics_entities
- object_editor
- pixel_drawing_mode
- plzr
- rubberbox
- segs_properties
- show_pixmap
- square
- twinkle
- xbasr
- xchange
- xclear
- xdel
- xget
- xgetech
- xgraduate
- xgrid
- xname
- xnumb
- xpause
- xsegs
- xset
- xsetech
- xsetm
Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
xsegs
draw unconnected segments
Calling Sequence
xsegs(xv,yv,[style]) xsegs(xv,yv,zv,[style])
Arguments
- xv, yv, zv
matrices of the same size. If
zv
is not specified, a zero vector is used.- style
vector or scalar. If
style
is a positive scalar, it gives the color to use for all segments. Ifstyle
is a negative scalar, then current color is used. Ifstyle
is a vector, thenstyle(i)
gives the color to use for segmenti
.
Description
xsegs
draws a set of unconnected segments given by
xv
, yv
and zv
.
If xv
, yv
and zv
are matrices they are considered as vectors by
concatenating their columns. The coordinates of the two points defining a
segment are given by two consecutive values of xv
, yv
and
zv
:
(xv(i),yv(i),zv(i))-->(xv(i+1),yv(i+1),zv(i+1))
.
For instance, using matrices of size (2,n), the segments can be defined by:
xv=[xi_1 xi_2 ...; xf_1 xf_2...] yv=[yi_1 yi_2 ...; yf_1 yf_2...] zv=[zi_1 zi_2 ...; zf_1 zf_2...]
and the segments are (xi_k,yi_k,zi_k)-->(xf_k,yf_k,zf_k)
.
Examples
// 2D example x=2*%pi*(0:9)/10; xv=[sin(x);9*sin(x)]; yv=[cos(x);9*cos(x)]; plot2d([-10,10],[-10,10],[-1,-1],"022") xsegs(xv,yv,1:10) // 3D example clf(); a=gca(); a.view="3d"; f=gcf(); f.color_map=rainbowcolormap(120); alpha=2*%pi*(0:119)/40; xv=[sin(alpha)/2;sin(alpha)/3]; yv=[cos(alpha)/2;cos(alpha)/3]; zv=[alpha/8;alpha/8]; xsegs(xv,yv,zv,1:120); // Now adjust the data_bounds a.data_bounds = [min(xv) min(yv) min(zv); ... max(xv) max(yv) max(zv)]; // We can add an arrow to each segs e = gce(); e.arrow_size = 0.4;
Authors
J.Ph.C.
<< xpause | Graphics Library | xset >> |