plotimplicit
Plots the (x,y) lines solving an implicit equation or Function(x,y)=0
Syntax
plotimplicit(fun) plotimplicit(fun, x_grid) plotimplicit(fun, x_grid, y_grid) plotimplicit(fun, x_grid, y_grid, plotOptions) h = plotimplicit(...)
Arguments
- fun
It may be one of the following:
- A single Scilab-executable string expression of literal scalar
variables "x" and "y" representing two scalar real numbers.
Examples:
"x^3 + 3*y^2 = 1/(2+x*y)"
,"(x-y)*(sin(x)-sin(y))"
(implicitly = 0). - The identifier of an existing function of two variables x and y.
Example:
besselj
(not"besselj"
). - A list, gathering a Scilab or built-in function identifier,
followed by the series of its parameters.
Example: After
function r = test(x,y,a), r = x.*(y-a), endfunction
,fun
can belist(test, 3.5)
to consider and computetest(x, y, 3.5)
.
- A single Scilab-executable string expression of literal scalar
variables "x" and "y" representing two scalar real numbers.
Examples:
- x_grid, y_grid
x_grid
andy_grid
define the cartesian grid of nodes wherefun
(x,y) must be computed.By default,
x_grid = [-1,1]
andy_grid = x_grid
are used. To use default values, just specify nothing. Example skippingy_grid
:plotimplicit(fun, x_grid, , plotOptions)
.Explicit
x_grid
andy_grid
values can be specified as follow:- A vector of 2 real numbers = bounds of the x or y domain. Example:
[-2, 3.5]
. Then the given interval is sampled with 201 points. - A vector of more than 2 real numbers = values where the function
is computed. Example:
-1:0.1:2
. - The colon
:
. Then the considered interval is given by the data bounds of the current or default axes. This allows to overplot solutions of multiple equations on a shared (x,y) domain, with as many call toplotimplicit(..)
as required.
The bounds of the 1st plot drawn byplotimplicit(..)
are set according to the bounds of the solutions offun
. Most often they are (much) narrower thanx_grid
andy_grid
bounds.- A vector of 2 real numbers = bounds of the x or y domain. Example:
- plotOptions
- List of plot() line-styling options used when plotting the solutions curves.
This optional output is a vector containing the handles of
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
plotimplicit(fun, x_grid, y_grid)
evaluates fun
on the nodes (x_grid
, y_grid
), and then
draws the (x,y) contours solving the equation fun
or such that
fun(x,y) = 0
.
When no root curve exists on the considered grid, plotimplicit
yields a warning and plots an empty axes.
|
Examples
With the literal expression of the cartesian equation to plot:
// Draw a circle of radius 1 according to its cartesian equation: plotimplicit "x^2 + y^2 = 1" xgrid(color("grey"),1,7) isoview
With the identifier of the function whose root lines must be plotted:
clf // 1) With a function in Scilab language (macro) function z=F(x, y) z = x.*(x.^2 + y.^2) - 5*(x.^2 - y.^2); endfunction // Draw the curve in the [-3 6] x [-5 5] range subplot(1,2,1) plotimplicit(F, -3:0.1:6, -5:0.1:5) title("$\text{macro: }x.(x^2 + y^2) - 5(x^2 - y^2) = 0$", "fontsize",4) xgrid(color("grey"),1,7) // 2) With a native Scilab builtin subplot(1,2,2) plotimplicit(besselj, -15:0.1:15, 0.1:0.1:19.9) title("$\text{built-in: } besselj(x,y) = 0$", "fontsize",4) xgrid(color("grey"),1,7)
Using the default x_grid, a plotting option, and some post-processing:
equation = "3*x^2*exp(x) - x*y^2 + exp(y)/(y^2 + 1) = 1" h = plotimplicit(equation, , -10:0.1:10, "r--") // Increase the contours thickness afterwards: h.thickness = 2; // Setting titles and grids title("$3x^2 e^x - x y^2 + {{e^y}\over{(y^2 + 1)}} - 1 = 0$", "fontsize",4) xgrid(color("grey"),1,7)
Overplotting:
See Also
- fsolve — résout un système d'équations non-linéaires
- contour2d — level curves on a 3D surface
- contour2di — calcule les courbes de niveau d'une surface
- contour2dm — compute level curves of a surface defined with a mesh
- LineSpec — to quickly customize the lines appearance in a plot
- GlobalProperty — customizes the objects appearance (curves, surfaces...) in a plot or surf command
- plot — 2D plot
History
Version | Description |
6.1.0 | Function introduced. |
2025.0.0 | Function returns the created handle(s). |
Report an issue | ||
<< plot2d4 | 2d_plot | polarplot >> |