param3d
plots a single curve in a 3D cartesian frame
param3d1
plots a set of curves in a 3D cartesian frame. 1D mesh plot
Syntax
param3d(x, y, z) param3d(x, y, z, [theta, alpha, leg, flag, ebox]) h = param3d(...) param3d // demo param3d1(X, Y, Z) param3d1(X, Y, list(Z, styles)) param3d1(.., [theta, alpha, leg, flag, ebox]) h = param3d1(...) param3d1 // demo
Arguments
- x, y, z
3 vectors of the same length: cartesian coordinates of the curve's points.
- X, Y, Z
matrices of the same size (nl,nc). Each column #i of the matrices provides the coordinates of the points for the ith curve.
- styles
vector of nc=size(Z,"c") integers specifying the style -- line color or mark style -- of each curve. When it is specified, it must be bundled with
Z
into a list, usinglist(Z, styles)
.By default, lines are drawn with colors indexed from 1 to nc in the current color map, without mark.
If
styles(i)<0
, the curve #i is plotted only with marks of style #|styles(i)|, without line.Otherwise (
styles(i)>0
), the curve #i is rendered as a solid line of color #styles(i), without marks.- theta
Azimuth angle of the (OP) observation point, around the (OZ+) axis, in degrees. Default = 45°.
- alpha
Polar angle of the (OP) observation point to the north pole (Oz+), in degrees, from 0 to 180. Default = 35°.
- leg
single string setting the labels for the 3 axes. "@" is used as a labels separator. Default = "X@Y@Z"
- flag = [type, box]
type
andbox
have the same meaning as inplot3d
:- type
Sets the axes scaling and bounding modes. Default = 2.
type gca().isoview data bounds 0 off [0,1, 0,1, -1,1] 1 off in ebox
2 off from data points 3 on in ebox
4 on from data points 5 on in ebox
6 on from data points Isometrical modes are rendered withgca().cube_scaling="off"
.- box
an integer controlling the display of the axes frame (default = 4).
Value Displayed axes Axes legends gca().box gca().axes_visible 0 none. No frame. yes "off" "off" 1 not implemented. Like 0. Please use 0. 2 only axes lines on the back NO "hidden_axes" "off" 3 full ungraduated box yes "on" "off" 4 full box + 3 graduated axes yes "on" "on"
- ebox
Vector
[xmin,xmax, ymin,ymax, zmin,zmax]
of axes bounds, used and assigned togca().data_bounds
when theflag
option is used with thetype
=1|3|5. By default set to [0,1, 0,1, 0,1].- h
This optional output contains a handle to a Polyline entity or a Compound Entity whose children are the created Polyline objects. Use
h
to modify properties of a specific or all Polyline objects after they are created. For a list of properties, see polyline_properties.
Description
param3d()
is used to plot a single 3D curve defined by its coordinates
x
, y
and z
.
The curve is an object of polyline
type. When it is given the optional output argument
h
returns the curves entities,
from which all the curves properties may be changed: color, line style, thickness,
mark style and colors, etc.
h = param3d1()
is used to plot a set of 3D curves, all having the
same number of points. When it is given, the optional argument h
returns the Compound of curves entities.
The handle of curve #i is h.children($-i+1) . |
Examples
t = 0:0.1:5*%pi; r = (max(t)-t)/10; clf curve = param3d(r.*sin(t), r.*cos(t), t/10, 30, 72,"X@Y@Z",[4,4]) curve.mark_mode = "on"; curve.mark_style = 10; curve.mark_foreground = color("magenta");
box parameter illustrated with param3d1() used for a single curve :
t = (0:0.1:5*%pi)'; r = (max(t)-t)/10; x = r.*sin(t); y = r.*cos(t); z = list(t/10, color("orange")); Box = [0 2 3 4]; clf for i = 1:4 subplot(2,2,i) param3d1(x, y, z, 31, 72,"X legend@Y legend@Z legend",[4, Box(i)]) title(msprintf("box = %d",Box(i)), "fontsize", 4) end gcf().children.children.thickness = 2; // for the 4 curves in a once gca().sub_ticks = [4 4 4]; // only for the last axes
param3d1() used for an actual set of curves:
[X, Y] = ndgrid(-11:0.5:9); R = sqrt(X.*X + Y.*Y) + %eps; Z = sin(R)./R; clf subplot(1,3,1) param3d1(X, Y, Z, 150, 85, flag=[2,4]) subplot(1,3,2) e=param3d1(X, Y, Z, 150, 85, flag=[2,4]) e.foreground = color("green"); subplot(1,3,3) curves=param3d1(X, Y, Z, 150, 85, flag=[2,4]) curves(1:2:$).foreground = color("orange"); gca().box = "back_half"; gcf().children.foreground = color("grey70"); // box & ticks color for the 3 figures
[X, Y] = ndgrid(-11:0.5:9, -7:0.5:6); // x is the long side, y the short one // => X has constant rows. Y has constant columns clf // Meshing lines at constant Y values subplot(1, 3, 1) R = sqrt(X.*X + Y.*Y) + %eps; Z = sin(R)./R; param3d1(X, Y, Z, 150, 85, flag=[2,4]) // Meshing lines at constant X values, with transposed X and Y: subplot(1, 3, 2) R = sqrt(X'.*X' + Y'.*Y') + %eps; Z = sin(R)./R; param3d1(X', Y', Z, 150, 85, flag=[2,4]) // With a curtain and filled curves to avoid messed overlaying parts subplot(1, 3, 3) [Xo, Yo] = ndgrid(-10:0.5:10); R = sqrt(Xo.*Xo + Yo.*Yo) + %eps; Zo = sin(R)./R; // we add the curtain on starting and ending sides nc = size(Xo,"c"); zmin = min(Zo); X = [Xo(1,:) ; Xo ; Xo($,:)]; Y = [Yo(1,:) ; Yo ; Yo($,:)]; Z = [zmin*ones(1,nc) ; Zo ; zmin*ones(1,nc)]; // Rendering e=param3d1(X, Y, Z, 150, 85, flag=[2,4]) e.fill_mode = "on"; // grey box for all axes: gcf().children.foreground = color("grey70");
See also
- plot3d — esboço 3d de uma superfície
- plot3d3 — Esboço de malha de uma superfície definida por facetas retangulares
- scatter 3D — 3D scatter plot
- axes_properties — descrição das propriedades de entidades Axes (de eixos)
- polyline_properties — description of the Polyline entity properties
History
Versão | Descrição |
2025.0.0 | Function returns the created handle(s). |
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