- Aide de Scilab
- Graphiques
- 2d_plot
- champ
- champ1
- champ properties
- comet
- contour2d
- contour2di
- contour2dm
- contourf
- errbar
- fchamp
- fec
- fec properties
- fgrayplot
- fplot2d
- grayplot
- grayplot properties
- graypolarplot
- histplot
- LineSpec
- Matplot
- Matplot1
- Matplot properties
- paramfplot2d
- plot
- plot2d
- plot2d2
- plot2d3
- plot2d4
- polarplot
- scatter
- Sfgrayplot
- Sgrayplot

Please note that the recommended version of Scilab is 2024.1.0. This page might be outdated.

See the recommended documentation of this function

# plot2d

2D plot

### Syntax

plot2d([logflag,][x,],y[,style[,strf[,leg[,rect[,nax]]]]]) plot2d([logflag,][x,],y,<opt_args>)

### Arguments

- x
a real matrix or vector. If omitted, it is assumed to be the vector

`1:n`

where`n`

is the number of curve points given by the`y`

parameter.- y
a real matrix or vector.

- <opt_args>
This represents a sequence of statements

`key1=value1,key2=value2`

,... where`key1`

,`key2,...`

can be one of the following:- logflag
sets the scale (linear or logarithmic) along the axes. The associated value should be a string with possible values:

`"nn"`

,`"nl"`

,`"ln"`

and`"ll"`

.- style
sets the style for each curve. The associated value should be a real vector with integer (positive or negative) values.

- strf
controls the display of captions.

`strf`

is a string of length 3`"xyz"`

(by default`strf= "081"`

)- leg
sets the curves captions. The associated value should be a character string.

- rect
sets the minimal bounds requested for the plot. The associated value should be a real vector with four entries:

`[xmin,ymin,xmax,ymax]`

.- nax
sets the axes labels and tics definition. The associated value should be a real vector with four integer entries

`[nx,Nx,ny,Ny].`

- frameflag
controls the computation of the actual coordinate ranges from the minimal requested values. The associated value should be an integer ranging from 0 to 8.

- axesflag
specifies how the axes are drawn. The associated value should be an integer ranging from 0 to 5 or 9 (default value).

### Description

`plot2d`

plots a set of 2D curves. If you are
familiar with Matlab `plot`

syntax, you should use plot.

If `x`

and `y`

are vectors,
plot2d(x,y,<opt_args>) plots vector `y`

versus
vector `x`

. `x`

and `y`

vectors should have the same number of entries.

If `x`

is a vector and `y`

a
matrix plot2d(x,y,<opt_args>) plots each columns of
`y`

versus vector `x`

. The
number of rows of `y`

must be equal to the number of
`x`

entries.

If `x`

and `y`

are matrices,
plot2d(x,y,<opt_args>) plots each columns of `y`

versus corresponding column of `x`

.
`x`

and `y`

must then have the same sizes.

If `y`

is a vector, plot2d(y,<opt_args>)
plots vector `y`

versus vector
`1:size(y,'*')`

.

If `y`

is a matrix, plot2d(y,<opt_args>)
plots each columns of `y`

versus vector
`1:size(y,1)`

.

The `<opt_args>`

arguments should be used to
customize the plot

- logflag
This option may be used to set the scale (linear or logarithmic) along the axes. The associated value should be a string with possible values:

`"nn"`

,`"nl"`

,`"ln"`

and`"ll"`

.`"l"`

stands for logarithmic scale and graduations and`"n"`

for normal scale.- style
This option may be used to specify how the curves are drawn. If this option is specified, the associated value should be a vector with as many entries as curves.

if

`style(i)`

is strictly positive, the curve is drawn as plain line and`style(i)`

defines the index of the color used to draw the curve (see getcolor). Note that the line style and the thickness can be set through the polyline entity properties (see polyline_properties).Piecewise linear interpolation is done between the given curve points.

if

`style(i)`

is negative or zero, the given curve points are drawn using marks,`abs(style(i))`

defines the mark with id used. Note that the marks color and marks sizes can be set through the polyline entity properties (see polyline_properties).

- strf
is a string of length 3

`"xyz"`

(by default`strf= "081"`

)- x
controls the display of captions.

- x=0
no caption.

- x=1
captions are displayed. They are given by the optional argument

`leg`

.

- y
controls the computation of the actual coordinate ranges from the minimal requested values. Actual ranges can be larger than minimal requirements.

- y=0
no computation, the plot use the previous (or default) scale

- y=1
from the rect arg

- y=2
from the min/max of the x, y data

- y=3
built for an isometric scale from the rect arg

- y=4
built for an isometric plot from the min/max of the x, y data

- y=5
enlarged for pretty axes from the rect arg

- y=6
enlarged for pretty axes from the min/max of the x, y data

- y=7
like y=1 but the previous plot(s) are redrawn to use the new scale

- y=8
like y=2 but the previous plot(s) are redrawn to use the new scale

- z
controls the display of information on the frame around the plot. If axes are requested, the number of tics can be specified by the

`nax`

optional argument.- z=0
nothing is drawn around the plot.

- z=1
axes are drawn, the y=axis is displayed on the left.

- z=2
the plot is surrounded by a box without tics.

- z=3
axes are drawn, the y=axis is displayed on the right.

- z=4
axes are drawn centred in the middle of the frame box.

- z=5
axes are drawn so as to cross at point

`(0,0)`

. If point`(0,0)`

does not lie inside the frame, axes will not appear on the graph.

- leg
This option may be used to sets the curve captions. It must be a string with the form

`"leg1@leg2@...."`

where`leg1`

,`leg2`

, etc. are respectively the captions of the first curve, of the second curve, etc. The default is`" "`

.The curve captions are drawn on below the x-axis. This option is not flexible enough, use the captions or legend functions preferably.

- rect
This option may be used to set the minimal bounds requested for the plot. If this option is specified, the associated value should be a real vector with four entries:

`[xmin,ymin,xmax,ymax]`

.`xmin`

and`xmax`

defines the bounds on the abscissae while`ymin`

and`ymax`

defines the bounds on the ordinates.This argument may be used together with the

`frameflag`

option to specify how the axes boundaries are derived from the given`rect`

argument. If the`frameflag`

option is not given, it is supposed to be`frameflag=7`

.The axes boundaries can also be customized through the axes entity properties (see axes_properties).

- nax
This option may be used to specify the axes labels and tics definition. The associated value should be a real vector with four integer entries

`[nx,Nx,ny,Ny]`

.`Nx`

gives the number of main tics to be used on the x-axis (to use autoticks set it to -1),`nx`

gives the number of subtics to be drawn between two main x-axis tics.`Ny`

and`ny`

give similar information for the y-axis.If

`axesflag`

option is not set`nax`

option supposes that`axesflag`

option has been set to 9.- frameflag
This option may be used to control the computation of the actual coordinate ranges from the minimal requested values. Actual ranges can be larger than minimal requirements.

- frameflag=0
no computation, the plot use the previous (or default) scale.

- frameflag=1
The actual range is the range given by the

`rect`

option.- frameflag=2
The actual range is computed from the min/max of the

`x`

and`y`

data.- frameflag=3
The actual range is the range given by the

`rect`

option and enlarged to get an isometric scale.- frameflag=4
The actual range is computed from the min/max of the

`x`

and`y`

data and enlarged to get an isometric scale.- frameflag=5
The actual range is the range given by the

`rect`

option and enlarged to get pretty axes labels.- frameflag=6
The actual range is computed from the min/max of the

`x`

and`y`

data and enlarged to get pretty axes labels.- frameflag=7
like

`frameflag=1`

but the previous plot(s) are redrawn to use the new scale. Used to add the current graph to a previous one.- frameflag=8
like

`frameflag=2`

but the previous plot(s) are redrawn to use the new scale. Used to add the current graph to a previous one.- frameflag=9
like

`frameflag=8`

but the range is enlarged to get pretty axes labels. This is the default value.

The axes boundaries can also be customized through the axes entity properties (see axes_properties)

- axesflag
This option may be used to specify how the axes are drawn. The associated value should be an integer ranging from 0 to 5 :

- axesflag=0
nothing is drawn around the plot (axes_visible=["off" "off"];box="off").

- axesflag=1
axes are drawn, the y-axis is displayed on the left (axes_visible=["on" "on"];box="on",y_location="left").

- axesflag=2
the plot is surrounded by a box without tics (axes_visible=["off" "off"];box="on").

- axesflag=3
axes are drawn, the y-axis is displayed on the right (axes_visible=["on" "on"];box="off",y_location="right").

- axesflag=4
axes are drawn centered in the middle of the frame, the box being not drawn (axes_visible=["on" "on"];box="off",x_location="middle", y_location="middle").

- axesflag=5
axes are drawn centered in the middle of the frame similarly to

`axesflag=4`

, the difference being that the box is drawn (axes_visible=["on" "on"];box="on",x_location="middle",y_location="middle").- axesflag=9
axes are drawn, the y-axis is displayed on the left (axes_visible=["on" "on"];box="off",y_location="left"). This is the default value.

The axes aspect can also be customized through the axes entity properties (see axes_properties).

### More information

By default, successive plots are superposed. To clear the previous plot, use
`clf()`

.

Enter the command `plot2d()`

to see a demo.

Other high level plot2d functions exist:

plot2d2 same as

`plot2d`

but the curve is supposed to be piecewise constant.plot2d3 same as

`plot2d`

but the curve is plotted with vertical bars.plot2d4 same as

`plot2d`

but the curve is plotted with vertical arrows.

### Examples

// x initialisation x=[0:0.1:2*%pi]'; //simple plot plot2d(sin(x));

// multiple plot giving the dimensions of the frame clf(); x=[0:0.1:2*%pi]'; plot2d(x,[sin(x) sin(2*x) sin(3*x)],rect=[0,0,6,0.5]);

//multiple plot with captions and given tics + style clf(); x=[0:0.1:2*%pi]'; plot2d(x,[sin(x) sin(2*x) sin(3*x)],.. [1,2,3],leg="L1@L2@L3",nax=[2,10,2,10],rect=[0,-2,2*%pi,2]);

// auto scaling with previous plots + style clf(); x=[0:0.1:2*%pi]'; plot2d(x,sin(x),-1); plot2d(x,2*sin(x),12); plot2d(2*x,cos(x),3);

// axis on the right clf(); x=[0:0.1:2*%pi]'; plot2d(x,sin(x),leg="sin(x)"); a=gca(); // Handle on axes entity a.y_location ="right";

// axis centered at (0,0) clf(); x=[0:0.1:2*%pi]'; plot2d(x-4,sin(x),1,leg="sin(x)"); a=gca(); // Handle on axes entity a.x_location = "origin"; a.y_location = "origin"; // Some operations on entities created by plot2d ... isoview a=gca(); a.children // list the children of the axes. // There are a compound made of two polylines and a legend poly1= a.children(1).children(1); //store polyline handle into poly1 poly1.foreground = 4; // another way to change the style... poly1.thickness = 3; // ...and the thickness of a curve. poly1.clip_state='off'; // clipping control leg = a.children(2); // store legend handle into leg leg.font_style = 9; leg.line_mode = "on"; isoview off

### See also

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