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Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
GlobalProperty
to customize the objects appearance (curves, surfaces...) in a plot or surf command.
Description
The GlobalProperty is an optional argument that can be used inside a plot or surf command. It allows a global customization of all the new plotted lines (respectivly surfaces). It has to be given as a couple {PropertyName, PropertyValue}. Several couples can be set at the same time in a plot or surf call.
PropertyName must be a string defining the property to set.The PropertyValue can be a real, integer or string (scalar or matrix) depending on the type of property used. For example, to specify a red (color) longdash-dot (line style) with diamond marker (marker), the sequence should be : 'Colo','red','LineSt','-.','Marker','diam'.
As you can see, a full complete spelling of each property name and value is not required but those arguments, specified in any order, must remain unambiguous. Furthermore, the string specification is not case sensitive. GlobalProperty is predominant on all LineSpec previously stated.
Here is a complete list of the PropertyName
you can
specify (using plot or surf) and their available
associated PropertyValue
. If not specified, those properties
are available for both Polyline
and Fac3d
objects (created respectivly by plot or surf) and, as previously said,
they are applied to the new created objects (lines or surfaces).
Sometimes, you may have two PropertyName correponding to one property :
the first one is the equivalent default Matlab name, the second is the
default name used by Scilab (i.e.:Color or Foreground
for a
line, see below).
- CData or ColorData:
a real matrix specifiying the color at every points defined by
Z
matrix. This property is linked to the object'sdata.color
property (see surface_properties). Note that this property is available for surfaces only.- CDataMapping or ColorDataMapping:
a string with value
'scaled'
or'direct'
. If adata.color
is set, each index color data specifies a single value for each vertex.cdata_mapping
determines wether those indices are scaled to map linearly into the current colormap ('scaled'
mode) or point directly into this colormap ('direct
' mode). This property is usefull whencolor_flag
equals2
,3
or4
. Note that this property exists only withFac3d
entities. Note also thatplot3d
has'direct'
mode by default andsurf
has'scaled'
mode by default.- Clipping:
a string
"on"
or"off"
defining the clipping mode ("on"
by default). It is equivalent to theclip_state
property. This field contains thevisible
property (see polyline_properties). Note that this property is not yet available for surface entities.- Color or Foreground:
a string defining a known color (see color_list) or a
1
x3
(or3
x1
) RGB vector defining a color number. Color number is given as a 3-upleR
,G
,B
corresponding respectively to red, green and blue intensity between 0 and 1. This property is linked to the object'sforeground
property (see polyline_properties).Warning
:
Color is not available for surfaces objects. TheForeground
property exists for surfaces objects but is linked to the MatlabEdgeColor
property (see surface_properties).- EdgeColor or Foreground:
a string defining a known color (see color_list) or a
1
x3
(or3
x1
) RGB vector defining a color number. Color number is given as a 3-upleR
,G
,B
corresponding respectively to red, green and blue intensity between 0 and 1. This property is linked to the surfaceforeground
property (see surface_properties).Warning
:
For polyline objects, theForeground
property exists with a different meaning (see above) andEdgeColor
does not exist at all.- FaceColor:
a string with value
'none'
,'flat'
or'interp'
specifying the way the facet's color are rendered. When'none'
is selected, a mesh of the surface is drawn; if'flat'
(deault mode) is set, theFac3d
color.data
values determine one color per facet using the color of the first vertex of the facet. If the value is'interp'
, an interpolated shading is done on the surface usingcolor.data
to determine a color at each vertex of each facet.- LineStyle:
This property value should be a string defining a line style. This property is linked to tje object's
line_style
property (see polyline_properties or surface_properties).Specifier
Line Style
-
Solid line (default) --
Dashed line :
Dotted line -.
Dash-dotted line none
No line - Marker or MarkStyle:
A string defining the marker type. Note that if you specify a marker wihtout a line style, both line (with default solid mode enabled) and marker are drawn.This property is linked to the object's
mark_style
andmark_mode
properties (see polyline_properties or surface_properties).Specifier
Marker Type
+
Plus sign o
Circle *
Asterisk .
Point x
Cross 'square'
or's'
Square 'diamond'
or'd'
Diamond ^
Upward-pointing triangle v
Downward-pointing triangle >
Right-pointing triangle <
Left-pointing triangle 'pentagram'
Five-pointed star (pentagram) 'none'
No marker (default) - MarkerEdgeColor or MarkForeground:
a string defining a known color (see color_list) or a
1
x3
(or3
x1
) RGB vector defining a color number. Color number is given as a 3-upleR
,G
,B
corresponding respectively to red, green and blue intensity between 0 and 1. This property is linked to the object'smark_foreground
property (see polyline_properties or surface_properties).- MarkerFaceColor or MarkBackground:
a string defining a known color (see color_list) or a
1
x3
(or3
x1
) RGB vector defining a color number. Color number is given as a 3-upleR
,G
,B
corresponding respectively to red, green and blue intensity between 0 and 1. This property is linked to the object'smark_background
property (see polyline_properties or surface_properties).- MarkerSize or MarkSize:
a scalar defining the marker size in
point
unit. This property is linked to the object'smark_size
property withmark_size_unit
enabled to"point"
(see polyline_properties or surface_properties).- Visible:
a string
"on"
or"off"
defining the visibility mode ("on"
by default). This property is linked to the object'svisible
property (see polyline_properties or surface_properties).- X data:
a real vector or matrix (re-)defining the given data for all the plotted lines or surfaces. Concerning dimensions, note that this new data must match all the previous specified
X
data : that is to say all those data matrices must be of the same dimensions. This property is linked to the object'sdata.x
property (see polyline_properties or surface_properties).- Y data:
a real vector or matrix (re-)defining the given data for all the plotted lines or surfaces. Concerning dimensions, note that this new data must match all the previous specified
Y
data : that is to say all those data matrices must be of the same dimensions. This property is linked to the object'sdata.y
property (see polyline_properties or surface_properties).- Z data:
when used with
plot
, a real vector or matrix adding aZ
data for all the plotted lines ; withsurf
, a real matrix (re-)defining the given data for all the surfaces. Concerning dimensions, note that this new data must match all the previous specifiedX
andY
data. This property is linked to the object'sdata.z
property (see polyline_properties or surface_properties).
Examples
// -------------------- // With the plot command : // -------------------- x=1:10; // Init. plot(x,sin(x),'colo','red','linest','-.','marker','>','markeredg','cyan','markerFace','yellow','markersize',5) clf(); // combinations' order in {PropertyName,PropertyValue} does not matter plot(x,sin(x),'marker','p','markerfac','cyan','markersiz',10) clf(); // combination of LineSpec and GlobalProperty shows the GlobalProperty predominance plot(x,x.*x,'*cya--','color','gr','linestyle','-','marker','sq','markersize',6,'markforegroun','red','markbackgro',[0.2 0.5 0.6]) clf(); //multiple plots with different LineSpecs and finally some global GlobalProperty clf(); t=0:%pi/20:2*%pi; plot(t,sin(t),'ro-.',t,cos(t),'cya+',t,abs(sin(t)),'--mo','markstyl','diam') // -------------------- // With the plot2d command : // -------------------- function draw_marks(title) a=gca(); a.title.text=title; a.mark_size=8; a.data_bounds=[-1.5 1.5 -1.5 1.5]; theta=(1/15)*(2*%pi)*[0:15]; plot2d(cos(theta),sin(theta)); for i=0:14 do theta=(i/15)*(2*%pi); plot2d(cos(theta),sin(theta),style=-i); end endfunction clf(); subplot(2,2,1) draw_marks("black foreground / white background") subplot(2,2,2) a=gca(); a.mark_foreground=-1; a.mark_background=4; draw_marks("black foreground / cyan background") subplot(2,2,3) a=gca(); a.mark_background=0; draw_marks("black foreground / invisible background") subplot(2,2,4) a=gca(); a.mark_foreground=0; a.mark_background=4; draw_marks("invisible foreground / cyan background") // -------------------- // With the surf command : // -------------------- Z= [ 0.0001 0.0013 0.0053 -0.0299 -0.1809 -0.2465 -0.1100 -0.0168 -0.0008 -0.0000 0.0005 0.0089 0.0259 -0.3673 -1.8670 -2.4736 -1.0866 -0.1602 -0.0067 0.0000 0.0004 0.0214 0.1739 -0.3147 -4.0919 -6.4101 -2.7589 -0.2779 0.0131 0.0020 -0.0088 -0.0871 0.0364 1.8559 1.4995 -2.2171 -0.2729 0.8368 0.2016 0.0130 -0.0308 -0.4313 -1.7334 -0.1148 3.0731 0.4444 2.6145 2.4410 0.4877 0.0301 -0.0336 -0.4990 -2.3552 -2.1722 0.8856 -0.0531 2.6416 2.4064 0.4771 0.0294 -0.0137 -0.1967 -0.8083 0.2289 3.3983 3.1955 2.4338 1.2129 0.2108 0.0125 -0.0014 -0.0017 0.3189 2.7414 7.1622 7.1361 3.1242 0.6633 0.0674 0.0030 0.0002 0.0104 0.1733 1.0852 2.6741 2.6725 1.1119 0.1973 0.0152 0.0005 0.0000 0.0012 0.0183 0.1099 0.2684 0.2683 0.1107 0.0190 0.0014 0.0000]; clf(); f=gcf(); f.figure_size = [610,724]; subplot(211) surf(Z,'facecol','interp','ydat',101:110,'edgecol','mage') subplot(212) surf(Z,'edgeco','b','marker','d','markersiz',9,'markerfac','k','xdata',-50:-41)
See Also
Authors
F.Leray
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