wg-backend-django/dell-env/lib/python3.11/site-packages/plotly/graph_objs/_violin.py

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2023-10-30 03:40:43 -04:00
from plotly.basedatatypes import BaseTraceType as _BaseTraceType
import copy as _copy
class Violin(_BaseTraceType):
# class properties
# --------------------
_parent_path_str = ""
_path_str = "violin"
_valid_props = {
"alignmentgroup",
"bandwidth",
"box",
"customdata",
"customdatasrc",
"fillcolor",
"hoverinfo",
"hoverinfosrc",
"hoverlabel",
"hoveron",
"hovertemplate",
"hovertemplatesrc",
"hovertext",
"hovertextsrc",
"ids",
"idssrc",
"jitter",
"legend",
"legendgroup",
"legendgrouptitle",
"legendrank",
"legendwidth",
"line",
"marker",
"meanline",
"meta",
"metasrc",
"name",
"offsetgroup",
"opacity",
"orientation",
"pointpos",
"points",
"quartilemethod",
"scalegroup",
"scalemode",
"selected",
"selectedpoints",
"showlegend",
"side",
"span",
"spanmode",
"stream",
"text",
"textsrc",
"type",
"uid",
"uirevision",
"unselected",
"visible",
"width",
"x",
"x0",
"xaxis",
"xhoverformat",
"xsrc",
"y",
"y0",
"yaxis",
"yhoverformat",
"ysrc",
}
# alignmentgroup
# --------------
@property
def alignmentgroup(self):
"""
Set several traces linked to the same position axis or matching
axes to the same alignmentgroup. This controls whether bars
compute their positional range dependently or independently.
The 'alignmentgroup' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["alignmentgroup"]
@alignmentgroup.setter
def alignmentgroup(self, val):
self["alignmentgroup"] = val
# bandwidth
# ---------
@property
def bandwidth(self):
"""
Sets the bandwidth used to compute the kernel density estimate.
By default, the bandwidth is determined by Silverman's rule of
thumb.
The 'bandwidth' property is a number and may be specified as:
- An int or float in the interval [0, inf]
Returns
-------
int|float
"""
return self["bandwidth"]
@bandwidth.setter
def bandwidth(self, val):
self["bandwidth"] = val
# box
# ---
@property
def box(self):
"""
The 'box' property is an instance of Box
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Box`
- A dict of string/value properties that will be passed
to the Box constructor
Supported dict properties:
fillcolor
Sets the inner box plot fill color.
line
:class:`plotly.graph_objects.violin.box.Line`
instance or dict with compatible properties
visible
Determines if an miniature box plot is drawn
inside the violins.
width
Sets the width of the inner box plots relative
to the violins' width. For example, with 1, the
inner box plots are as wide as the violins.
Returns
-------
plotly.graph_objs.violin.Box
"""
return self["box"]
@box.setter
def box(self, val):
self["box"] = val
# customdata
# ----------
@property
def customdata(self):
"""
Assigns extra data each datum. This may be useful when
listening to hover, click and selection events. Note that,
"scatter" traces also appends customdata items in the markers
DOM elements
The 'customdata' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["customdata"]
@customdata.setter
def customdata(self, val):
self["customdata"] = val
# customdatasrc
# -------------
@property
def customdatasrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`customdata`.
The 'customdatasrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["customdatasrc"]
@customdatasrc.setter
def customdatasrc(self, val):
self["customdatasrc"] = val
# fillcolor
# ---------
@property
def fillcolor(self):
"""
Sets the fill color. Defaults to a half-transparent variant of
the line color, marker color, or marker line color, whichever
is available.
The 'fillcolor' property is a color and may be specified as:
- A hex string (e.g. '#ff0000')
- An rgb/rgba string (e.g. 'rgb(255,0,0)')
- An hsl/hsla string (e.g. 'hsl(0,100%,50%)')
- An hsv/hsva string (e.g. 'hsv(0,100%,100%)')
- A named CSS color:
aliceblue, antiquewhite, aqua, aquamarine, azure,
beige, bisque, black, blanchedalmond, blue,
blueviolet, brown, burlywood, cadetblue,
chartreuse, chocolate, coral, cornflowerblue,
cornsilk, crimson, cyan, darkblue, darkcyan,
darkgoldenrod, darkgray, darkgrey, darkgreen,
darkkhaki, darkmagenta, darkolivegreen, darkorange,
darkorchid, darkred, darksalmon, darkseagreen,
darkslateblue, darkslategray, darkslategrey,
darkturquoise, darkviolet, deeppink, deepskyblue,
dimgray, dimgrey, dodgerblue, firebrick,
floralwhite, forestgreen, fuchsia, gainsboro,
ghostwhite, gold, goldenrod, gray, grey, green,
greenyellow, honeydew, hotpink, indianred, indigo,
ivory, khaki, lavender, lavenderblush, lawngreen,
lemonchiffon, lightblue, lightcoral, lightcyan,
lightgoldenrodyellow, lightgray, lightgrey,
lightgreen, lightpink, lightsalmon, lightseagreen,
lightskyblue, lightslategray, lightslategrey,
lightsteelblue, lightyellow, lime, limegreen,
linen, magenta, maroon, mediumaquamarine,
mediumblue, mediumorchid, mediumpurple,
mediumseagreen, mediumslateblue, mediumspringgreen,
mediumturquoise, mediumvioletred, midnightblue,
mintcream, mistyrose, moccasin, navajowhite, navy,
oldlace, olive, olivedrab, orange, orangered,
orchid, palegoldenrod, palegreen, paleturquoise,
palevioletred, papayawhip, peachpuff, peru, pink,
plum, powderblue, purple, red, rosybrown,
royalblue, rebeccapurple, saddlebrown, salmon,
sandybrown, seagreen, seashell, sienna, silver,
skyblue, slateblue, slategray, slategrey, snow,
springgreen, steelblue, tan, teal, thistle, tomato,
turquoise, violet, wheat, white, whitesmoke,
yellow, yellowgreen
Returns
-------
str
"""
return self["fillcolor"]
@fillcolor.setter
def fillcolor(self, val):
self["fillcolor"] = val
# hoverinfo
# ---------
@property
def hoverinfo(self):
"""
Determines which trace information appear on hover. If `none`
or `skip` are set, no information is displayed upon hovering.
But, if `none` is set, click and hover events are still fired.
The 'hoverinfo' property is a flaglist and may be specified
as a string containing:
- Any combination of ['x', 'y', 'z', 'text', 'name'] joined with '+' characters
(e.g. 'x+y')
OR exactly one of ['all', 'none', 'skip'] (e.g. 'skip')
- A list or array of the above
Returns
-------
Any|numpy.ndarray
"""
return self["hoverinfo"]
@hoverinfo.setter
def hoverinfo(self, val):
self["hoverinfo"] = val
# hoverinfosrc
# ------------
@property
def hoverinfosrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`hoverinfo`.
The 'hoverinfosrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["hoverinfosrc"]
@hoverinfosrc.setter
def hoverinfosrc(self, val):
self["hoverinfosrc"] = val
# hoverlabel
# ----------
@property
def hoverlabel(self):
"""
The 'hoverlabel' property is an instance of Hoverlabel
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Hoverlabel`
- A dict of string/value properties that will be passed
to the Hoverlabel constructor
Supported dict properties:
align
Sets the horizontal alignment of the text
content within hover label box. Has an effect
only if the hover label text spans more two or
more lines
alignsrc
Sets the source reference on Chart Studio Cloud
for `align`.
bgcolor
Sets the background color of the hover labels
for this trace
bgcolorsrc
Sets the source reference on Chart Studio Cloud
for `bgcolor`.
bordercolor
Sets the border color of the hover labels for
this trace.
bordercolorsrc
Sets the source reference on Chart Studio Cloud
for `bordercolor`.
font
Sets the font used in hover labels.
namelength
Sets the default length (in number of
characters) of the trace name in the hover
labels for all traces. -1 shows the whole name
regardless of length. 0-3 shows the first 0-3
characters, and an integer >3 will show the
whole name if it is less than that many
characters, but if it is longer, will truncate
to `namelength - 3` characters and add an
ellipsis.
namelengthsrc
Sets the source reference on Chart Studio Cloud
for `namelength`.
Returns
-------
plotly.graph_objs.violin.Hoverlabel
"""
return self["hoverlabel"]
@hoverlabel.setter
def hoverlabel(self, val):
self["hoverlabel"] = val
# hoveron
# -------
@property
def hoveron(self):
"""
Do the hover effects highlight individual violins or sample
points or the kernel density estimate or any combination of
them?
The 'hoveron' property is a flaglist and may be specified
as a string containing:
- Any combination of ['violins', 'points', 'kde'] joined with '+' characters
(e.g. 'violins+points')
OR exactly one of ['all'] (e.g. 'all')
Returns
-------
Any
"""
return self["hoveron"]
@hoveron.setter
def hoveron(self, val):
self["hoveron"] = val
# hovertemplate
# -------------
@property
def hovertemplate(self):
"""
Template string used for rendering the information that appear
on hover box. Note that this will override `hoverinfo`.
Variables are inserted using %{variable}, for example "y: %{y}"
as well as %{xother}, {%_xother}, {%_xother_}, {%xother_}. When
showing info for several points, "xother" will be added to
those with different x positions from the first point. An
underscore before or after "(x|y)other" will add a space on
that side, only when this field is shown. Numbers are formatted
using d3-format's syntax %{variable:d3-format}, for example
"Price: %{y:$.2f}".
https://github.com/d3/d3-format/tree/v1.4.5#d3-format for
details on the formatting syntax. Dates are formatted using
d3-time-format's syntax %{variable|d3-time-format}, for example
"Day: %{2019-01-01|%A}". https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format for details on the date
formatting syntax. The variables available in `hovertemplate`
are the ones emitted as event data described at this link
https://plotly.com/javascript/plotlyjs-events/#event-data.
Additionally, every attributes that can be specified per-point
(the ones that are `arrayOk: true`) are available. Anything
contained in tag `<extra>` is displayed in the secondary box,
for example "<extra>{fullData.name}</extra>". To hide the
secondary box completely, use an empty tag `<extra></extra>`.
The 'hovertemplate' property is a string and must be specified as:
- A string
- A number that will be converted to a string
- A tuple, list, or one-dimensional numpy array of the above
Returns
-------
str|numpy.ndarray
"""
return self["hovertemplate"]
@hovertemplate.setter
def hovertemplate(self, val):
self["hovertemplate"] = val
# hovertemplatesrc
# ----------------
@property
def hovertemplatesrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`hovertemplate`.
The 'hovertemplatesrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["hovertemplatesrc"]
@hovertemplatesrc.setter
def hovertemplatesrc(self, val):
self["hovertemplatesrc"] = val
# hovertext
# ---------
@property
def hovertext(self):
"""
Same as `text`.
The 'hovertext' property is a string and must be specified as:
- A string
- A number that will be converted to a string
- A tuple, list, or one-dimensional numpy array of the above
Returns
-------
str|numpy.ndarray
"""
return self["hovertext"]
@hovertext.setter
def hovertext(self, val):
self["hovertext"] = val
# hovertextsrc
# ------------
@property
def hovertextsrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`hovertext`.
The 'hovertextsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["hovertextsrc"]
@hovertextsrc.setter
def hovertextsrc(self, val):
self["hovertextsrc"] = val
# ids
# ---
@property
def ids(self):
"""
Assigns id labels to each datum. These ids for object constancy
of data points during animation. Should be an array of strings,
not numbers or any other type.
The 'ids' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["ids"]
@ids.setter
def ids(self, val):
self["ids"] = val
# idssrc
# ------
@property
def idssrc(self):
"""
Sets the source reference on Chart Studio Cloud for `ids`.
The 'idssrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["idssrc"]
@idssrc.setter
def idssrc(self, val):
self["idssrc"] = val
# jitter
# ------
@property
def jitter(self):
"""
Sets the amount of jitter in the sample points drawn. If 0, the
sample points align along the distribution axis. If 1, the
sample points are drawn in a random jitter of width equal to
the width of the violins.
The 'jitter' property is a number and may be specified as:
- An int or float in the interval [0, 1]
Returns
-------
int|float
"""
return self["jitter"]
@jitter.setter
def jitter(self, val):
self["jitter"] = val
# legend
# ------
@property
def legend(self):
"""
Sets the reference to a legend to show this trace in.
References to these legends are "legend", "legend2", "legend3",
etc. Settings for these legends are set in the layout, under
`layout.legend`, `layout.legend2`, etc.
The 'legend' property is an identifier of a particular
subplot, of type 'legend', that may be specified as the string 'legend'
optionally followed by an integer >= 1
(e.g. 'legend', 'legend1', 'legend2', 'legend3', etc.)
Returns
-------
str
"""
return self["legend"]
@legend.setter
def legend(self, val):
self["legend"] = val
# legendgroup
# -----------
@property
def legendgroup(self):
"""
Sets the legend group for this trace. Traces and shapes part of
the same legend group hide/show at the same time when toggling
legend items.
The 'legendgroup' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["legendgroup"]
@legendgroup.setter
def legendgroup(self, val):
self["legendgroup"] = val
# legendgrouptitle
# ----------------
@property
def legendgrouptitle(self):
"""
The 'legendgrouptitle' property is an instance of Legendgrouptitle
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Legendgrouptitle`
- A dict of string/value properties that will be passed
to the Legendgrouptitle constructor
Supported dict properties:
font
Sets this legend group's title font.
text
Sets the title of the legend group.
Returns
-------
plotly.graph_objs.violin.Legendgrouptitle
"""
return self["legendgrouptitle"]
@legendgrouptitle.setter
def legendgrouptitle(self, val):
self["legendgrouptitle"] = val
# legendrank
# ----------
@property
def legendrank(self):
"""
Sets the legend rank for this trace. Items and groups with
smaller ranks are presented on top/left side while with
"reversed" `legend.traceorder` they are on bottom/right side.
The default legendrank is 1000, so that you can use ranks less
than 1000 to place certain items before all unranked items, and
ranks greater than 1000 to go after all unranked items. When
having unranked or equal rank items shapes would be displayed
after traces i.e. according to their order in data and layout.
The 'legendrank' property is a number and may be specified as:
- An int or float
Returns
-------
int|float
"""
return self["legendrank"]
@legendrank.setter
def legendrank(self, val):
self["legendrank"] = val
# legendwidth
# -----------
@property
def legendwidth(self):
"""
Sets the width (in px or fraction) of the legend for this
trace.
The 'legendwidth' property is a number and may be specified as:
- An int or float in the interval [0, inf]
Returns
-------
int|float
"""
return self["legendwidth"]
@legendwidth.setter
def legendwidth(self, val):
self["legendwidth"] = val
# line
# ----
@property
def line(self):
"""
The 'line' property is an instance of Line
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Line`
- A dict of string/value properties that will be passed
to the Line constructor
Supported dict properties:
color
Sets the color of line bounding the violin(s).
width
Sets the width (in px) of line bounding the
violin(s).
Returns
-------
plotly.graph_objs.violin.Line
"""
return self["line"]
@line.setter
def line(self, val):
self["line"] = val
# marker
# ------
@property
def marker(self):
"""
The 'marker' property is an instance of Marker
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Marker`
- A dict of string/value properties that will be passed
to the Marker constructor
Supported dict properties:
angle
Sets the marker angle in respect to `angleref`.
color
Sets the marker color. It accepts either a
specific color or an array of numbers that are
mapped to the colorscale relative to the max
and min values of the array or relative to
`marker.cmin` and `marker.cmax` if set.
line
:class:`plotly.graph_objects.violin.marker.Line
` instance or dict with compatible properties
opacity
Sets the marker opacity.
outliercolor
Sets the color of the outlier sample points.
size
Sets the marker size (in px).
symbol
Sets the marker symbol type. Adding 100 is
equivalent to appending "-open" to a symbol
name. Adding 200 is equivalent to appending
"-dot" to a symbol name. Adding 300 is
equivalent to appending "-open-dot" or "dot-
open" to a symbol name.
Returns
-------
plotly.graph_objs.violin.Marker
"""
return self["marker"]
@marker.setter
def marker(self, val):
self["marker"] = val
# meanline
# --------
@property
def meanline(self):
"""
The 'meanline' property is an instance of Meanline
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Meanline`
- A dict of string/value properties that will be passed
to the Meanline constructor
Supported dict properties:
color
Sets the mean line color.
visible
Determines if a line corresponding to the
sample's mean is shown inside the violins. If
`box.visible` is turned on, the mean line is
drawn inside the inner box. Otherwise, the mean
line is drawn from one side of the violin to
other.
width
Sets the mean line width.
Returns
-------
plotly.graph_objs.violin.Meanline
"""
return self["meanline"]
@meanline.setter
def meanline(self, val):
self["meanline"] = val
# meta
# ----
@property
def meta(self):
"""
Assigns extra meta information associated with this trace that
can be used in various text attributes. Attributes such as
trace `name`, graph, axis and colorbar `title.text`, annotation
`text` `rangeselector`, `updatemenues` and `sliders` `label`
text all support `meta`. To access the trace `meta` values in
an attribute in the same trace, simply use `%{meta[i]}` where
`i` is the index or key of the `meta` item in question. To
access trace `meta` in layout attributes, use
`%{data[n[.meta[i]}` where `i` is the index or key of the
`meta` and `n` is the trace index.
The 'meta' property accepts values of any type
Returns
-------
Any|numpy.ndarray
"""
return self["meta"]
@meta.setter
def meta(self, val):
self["meta"] = val
# metasrc
# -------
@property
def metasrc(self):
"""
Sets the source reference on Chart Studio Cloud for `meta`.
The 'metasrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["metasrc"]
@metasrc.setter
def metasrc(self, val):
self["metasrc"] = val
# name
# ----
@property
def name(self):
"""
Sets the trace name. The trace name appears as the legend item
and on hover. For violin traces, the name will also be used for
the position coordinate, if `x` and `x0` (`y` and `y0` if
horizontal) are missing and the position axis is categorical.
Note that the trace name is also used as a default value for
attribute `scalegroup` (please see its description for
details).
The 'name' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["name"]
@name.setter
def name(self, val):
self["name"] = val
# offsetgroup
# -----------
@property
def offsetgroup(self):
"""
Set several traces linked to the same position axis or matching
axes to the same offsetgroup where bars of the same position
coordinate will line up.
The 'offsetgroup' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["offsetgroup"]
@offsetgroup.setter
def offsetgroup(self, val):
self["offsetgroup"] = val
# opacity
# -------
@property
def opacity(self):
"""
Sets the opacity of the trace.
The 'opacity' property is a number and may be specified as:
- An int or float in the interval [0, 1]
Returns
-------
int|float
"""
return self["opacity"]
@opacity.setter
def opacity(self, val):
self["opacity"] = val
# orientation
# -----------
@property
def orientation(self):
"""
Sets the orientation of the violin(s). If "v" ("h"), the
distribution is visualized along the vertical (horizontal).
The 'orientation' property is an enumeration that may be specified as:
- One of the following enumeration values:
['v', 'h']
Returns
-------
Any
"""
return self["orientation"]
@orientation.setter
def orientation(self, val):
self["orientation"] = val
# pointpos
# --------
@property
def pointpos(self):
"""
Sets the position of the sample points in relation to the
violins. If 0, the sample points are places over the center of
the violins. Positive (negative) values correspond to positions
to the right (left) for vertical violins and above (below) for
horizontal violins.
The 'pointpos' property is a number and may be specified as:
- An int or float in the interval [-2, 2]
Returns
-------
int|float
"""
return self["pointpos"]
@pointpos.setter
def pointpos(self, val):
self["pointpos"] = val
# points
# ------
@property
def points(self):
"""
If "outliers", only the sample points lying outside the
whiskers are shown If "suspectedoutliers", the outlier points
are shown and points either less than 4*Q1-3*Q3 or greater than
4*Q3-3*Q1 are highlighted (see `outliercolor`) If "all", all
sample points are shown If False, only the violins are shown
with no sample points. Defaults to "suspectedoutliers" when
`marker.outliercolor` or `marker.line.outliercolor` is set,
otherwise defaults to "outliers".
The 'points' property is an enumeration that may be specified as:
- One of the following enumeration values:
['all', 'outliers', 'suspectedoutliers', False]
Returns
-------
Any
"""
return self["points"]
@points.setter
def points(self, val):
self["points"] = val
# quartilemethod
# --------------
@property
def quartilemethod(self):
"""
Sets the method used to compute the sample's Q1 and Q3
quartiles. The "linear" method uses the 25th percentile for Q1
and 75th percentile for Q3 as computed using method #10 (listed
on http://jse.amstat.org/v14n3/langford.html). The "exclusive"
method uses the median to divide the ordered dataset into two
halves if the sample is odd, it does not include the median in
either half - Q1 is then the median of the lower half and Q3
the median of the upper half. The "inclusive" method also uses
the median to divide the ordered dataset into two halves but if
the sample is odd, it includes the median in both halves - Q1
is then the median of the lower half and Q3 the median of the
upper half.
The 'quartilemethod' property is an enumeration that may be specified as:
- One of the following enumeration values:
['linear', 'exclusive', 'inclusive']
Returns
-------
Any
"""
return self["quartilemethod"]
@quartilemethod.setter
def quartilemethod(self, val):
self["quartilemethod"] = val
# scalegroup
# ----------
@property
def scalegroup(self):
"""
If there are multiple violins that should be sized according to
to some metric (see `scalemode`), link them by providing a non-
empty group id here shared by every trace in the same group. If
a violin's `width` is undefined, `scalegroup` will default to
the trace's name. In this case, violins with the same names
will be linked together
The 'scalegroup' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["scalegroup"]
@scalegroup.setter
def scalegroup(self, val):
self["scalegroup"] = val
# scalemode
# ---------
@property
def scalemode(self):
"""
Sets the metric by which the width of each violin is
determined. "width" means each violin has the same (max) width
"count" means the violins are scaled by the number of sample
points making up each violin.
The 'scalemode' property is an enumeration that may be specified as:
- One of the following enumeration values:
['width', 'count']
Returns
-------
Any
"""
return self["scalemode"]
@scalemode.setter
def scalemode(self, val):
self["scalemode"] = val
# selected
# --------
@property
def selected(self):
"""
The 'selected' property is an instance of Selected
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Selected`
- A dict of string/value properties that will be passed
to the Selected constructor
Supported dict properties:
marker
:class:`plotly.graph_objects.violin.selected.Ma
rker` instance or dict with compatible
properties
Returns
-------
plotly.graph_objs.violin.Selected
"""
return self["selected"]
@selected.setter
def selected(self, val):
self["selected"] = val
# selectedpoints
# --------------
@property
def selectedpoints(self):
"""
Array containing integer indices of selected points. Has an
effect only for traces that support selections. Note that an
empty array means an empty selection where the `unselected` are
turned on for all points, whereas, any other non-array values
means no selection all where the `selected` and `unselected`
styles have no effect.
The 'selectedpoints' property accepts values of any type
Returns
-------
Any
"""
return self["selectedpoints"]
@selectedpoints.setter
def selectedpoints(self, val):
self["selectedpoints"] = val
# showlegend
# ----------
@property
def showlegend(self):
"""
Determines whether or not an item corresponding to this trace
is shown in the legend.
The 'showlegend' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["showlegend"]
@showlegend.setter
def showlegend(self, val):
self["showlegend"] = val
# side
# ----
@property
def side(self):
"""
Determines on which side of the position value the density
function making up one half of a violin is plotted. Useful when
comparing two violin traces under "overlay" mode, where one
trace has `side` set to "positive" and the other to "negative".
The 'side' property is an enumeration that may be specified as:
- One of the following enumeration values:
['both', 'positive', 'negative']
Returns
-------
Any
"""
return self["side"]
@side.setter
def side(self, val):
self["side"] = val
# span
# ----
@property
def span(self):
"""
Sets the span in data space for which the density function will
be computed. Has an effect only when `spanmode` is set to
"manual".
The 'span' property is an info array that may be specified as:
* a list or tuple of 2 elements where:
(0) The 'span[0]' property accepts values of any type
(1) The 'span[1]' property accepts values of any type
Returns
-------
list
"""
return self["span"]
@span.setter
def span(self, val):
self["span"] = val
# spanmode
# --------
@property
def spanmode(self):
"""
Sets the method by which the span in data space where the
density function will be computed. "soft" means the span goes
from the sample's minimum value minus two bandwidths to the
sample's maximum value plus two bandwidths. "hard" means the
span goes from the sample's minimum to its maximum value. For
custom span settings, use mode "manual" and fill in the `span`
attribute.
The 'spanmode' property is an enumeration that may be specified as:
- One of the following enumeration values:
['soft', 'hard', 'manual']
Returns
-------
Any
"""
return self["spanmode"]
@spanmode.setter
def spanmode(self, val):
self["spanmode"] = val
# stream
# ------
@property
def stream(self):
"""
The 'stream' property is an instance of Stream
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Stream`
- A dict of string/value properties that will be passed
to the Stream constructor
Supported dict properties:
maxpoints
Sets the maximum number of points to keep on
the plots from an incoming stream. If
`maxpoints` is set to 50, only the newest 50
points will be displayed on the plot.
token
The stream id number links a data trace on a
plot with a stream. See https://chart-
studio.plotly.com/settings for more details.
Returns
-------
plotly.graph_objs.violin.Stream
"""
return self["stream"]
@stream.setter
def stream(self, val):
self["stream"] = val
# text
# ----
@property
def text(self):
"""
Sets the text elements associated with each sample value. If a
single string, the same string appears over all the data
points. If an array of string, the items are mapped in order to
the this trace's (x,y) coordinates. To be seen, trace
`hoverinfo` must contain a "text" flag.
The 'text' property is a string and must be specified as:
- A string
- A number that will be converted to a string
- A tuple, list, or one-dimensional numpy array of the above
Returns
-------
str|numpy.ndarray
"""
return self["text"]
@text.setter
def text(self, val):
self["text"] = val
# textsrc
# -------
@property
def textsrc(self):
"""
Sets the source reference on Chart Studio Cloud for `text`.
The 'textsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["textsrc"]
@textsrc.setter
def textsrc(self, val):
self["textsrc"] = val
# uid
# ---
@property
def uid(self):
"""
Assign an id to this trace, Use this to provide object
constancy between traces during animations and transitions.
The 'uid' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["uid"]
@uid.setter
def uid(self, val):
self["uid"] = val
# uirevision
# ----------
@property
def uirevision(self):
"""
Controls persistence of some user-driven changes to the trace:
`constraintrange` in `parcoords` traces, as well as some
`editable: true` modifications such as `name` and
`colorbar.title`. Defaults to `layout.uirevision`. Note that
other user-driven trace attribute changes are controlled by
`layout` attributes: `trace.visible` is controlled by
`layout.legend.uirevision`, `selectedpoints` is controlled by
`layout.selectionrevision`, and `colorbar.(x|y)` (accessible
with `config: {editable: true}`) is controlled by
`layout.editrevision`. Trace changes are tracked by `uid`,
which only falls back on trace index if no `uid` is provided.
So if your app can add/remove traces before the end of the
`data` array, such that the same trace has a different index,
you can still preserve user-driven changes if you give each
trace a `uid` that stays with it as it moves.
The 'uirevision' property accepts values of any type
Returns
-------
Any
"""
return self["uirevision"]
@uirevision.setter
def uirevision(self, val):
self["uirevision"] = val
# unselected
# ----------
@property
def unselected(self):
"""
The 'unselected' property is an instance of Unselected
that may be specified as:
- An instance of :class:`plotly.graph_objs.violin.Unselected`
- A dict of string/value properties that will be passed
to the Unselected constructor
Supported dict properties:
marker
:class:`plotly.graph_objects.violin.unselected.
Marker` instance or dict with compatible
properties
Returns
-------
plotly.graph_objs.violin.Unselected
"""
return self["unselected"]
@unselected.setter
def unselected(self, val):
self["unselected"] = val
# visible
# -------
@property
def visible(self):
"""
Determines whether or not this trace is visible. If
"legendonly", the trace is not drawn, but can appear as a
legend item (provided that the legend itself is visible).
The 'visible' property is an enumeration that may be specified as:
- One of the following enumeration values:
[True, False, 'legendonly']
Returns
-------
Any
"""
return self["visible"]
@visible.setter
def visible(self, val):
self["visible"] = val
# width
# -----
@property
def width(self):
"""
Sets the width of the violin in data coordinates. If 0 (default
value) the width is automatically selected based on the
positions of other violin traces in the same subplot.
The 'width' property is a number and may be specified as:
- An int or float in the interval [0, inf]
Returns
-------
int|float
"""
return self["width"]
@width.setter
def width(self, val):
self["width"] = val
# x
# -
@property
def x(self):
"""
Sets the x sample data or coordinates. See overview for more
info.
The 'x' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["x"]
@x.setter
def x(self, val):
self["x"] = val
# x0
# --
@property
def x0(self):
"""
Sets the x coordinate for single-box traces or the starting
coordinate for multi-box traces set using q1/median/q3. See
overview for more info.
The 'x0' property accepts values of any type
Returns
-------
Any
"""
return self["x0"]
@x0.setter
def x0(self, val):
self["x0"] = val
# xaxis
# -----
@property
def xaxis(self):
"""
Sets a reference between this trace's x coordinates and a 2D
cartesian x axis. If "x" (the default value), the x coordinates
refer to `layout.xaxis`. If "x2", the x coordinates refer to
`layout.xaxis2`, and so on.
The 'xaxis' property is an identifier of a particular
subplot, of type 'x', that may be specified as the string 'x'
optionally followed by an integer >= 1
(e.g. 'x', 'x1', 'x2', 'x3', etc.)
Returns
-------
str
"""
return self["xaxis"]
@xaxis.setter
def xaxis(self, val):
self["xaxis"] = val
# xhoverformat
# ------------
@property
def xhoverformat(self):
"""
Sets the hover text formatting rulefor `x` using d3 formatting
mini-languages which are very similar to those in Python. For
numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format. And for
dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to d3's date
formatter: "%h" for half of the year as a decimal number as
well as "%{n}f" for fractional seconds with n digits. For
example, *2016-10-13 09:15:23.456* with tickformat
"%H~%M~%S.%2f" would display *09~15~23.46*By default the values
are formatted using `xaxis.hoverformat`.
The 'xhoverformat' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["xhoverformat"]
@xhoverformat.setter
def xhoverformat(self, val):
self["xhoverformat"] = val
# xsrc
# ----
@property
def xsrc(self):
"""
Sets the source reference on Chart Studio Cloud for `x`.
The 'xsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["xsrc"]
@xsrc.setter
def xsrc(self, val):
self["xsrc"] = val
# y
# -
@property
def y(self):
"""
Sets the y sample data or coordinates. See overview for more
info.
The 'y' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["y"]
@y.setter
def y(self, val):
self["y"] = val
# y0
# --
@property
def y0(self):
"""
Sets the y coordinate for single-box traces or the starting
coordinate for multi-box traces set using q1/median/q3. See
overview for more info.
The 'y0' property accepts values of any type
Returns
-------
Any
"""
return self["y0"]
@y0.setter
def y0(self, val):
self["y0"] = val
# yaxis
# -----
@property
def yaxis(self):
"""
Sets a reference between this trace's y coordinates and a 2D
cartesian y axis. If "y" (the default value), the y coordinates
refer to `layout.yaxis`. If "y2", the y coordinates refer to
`layout.yaxis2`, and so on.
The 'yaxis' property is an identifier of a particular
subplot, of type 'y', that may be specified as the string 'y'
optionally followed by an integer >= 1
(e.g. 'y', 'y1', 'y2', 'y3', etc.)
Returns
-------
str
"""
return self["yaxis"]
@yaxis.setter
def yaxis(self, val):
self["yaxis"] = val
# yhoverformat
# ------------
@property
def yhoverformat(self):
"""
Sets the hover text formatting rulefor `y` using d3 formatting
mini-languages which are very similar to those in Python. For
numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format. And for
dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to d3's date
formatter: "%h" for half of the year as a decimal number as
well as "%{n}f" for fractional seconds with n digits. For
example, *2016-10-13 09:15:23.456* with tickformat
"%H~%M~%S.%2f" would display *09~15~23.46*By default the values
are formatted using `yaxis.hoverformat`.
The 'yhoverformat' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["yhoverformat"]
@yhoverformat.setter
def yhoverformat(self, val):
self["yhoverformat"] = val
# ysrc
# ----
@property
def ysrc(self):
"""
Sets the source reference on Chart Studio Cloud for `y`.
The 'ysrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["ysrc"]
@ysrc.setter
def ysrc(self, val):
self["ysrc"] = val
# type
# ----
@property
def type(self):
return self._props["type"]
# Self properties description
# ---------------------------
@property
def _prop_descriptions(self):
return """\
alignmentgroup
Set several traces linked to the same position axis or
matching axes to the same alignmentgroup. This controls
whether bars compute their positional range dependently
or independently.
bandwidth
Sets the bandwidth used to compute the kernel density
estimate. By default, the bandwidth is determined by
Silverman's rule of thumb.
box
:class:`plotly.graph_objects.violin.Box` instance or
dict with compatible properties
customdata
Assigns extra data each datum. This may be useful when
listening to hover, click and selection events. Note
that, "scatter" traces also appends customdata items in
the markers DOM elements
customdatasrc
Sets the source reference on Chart Studio Cloud for
`customdata`.
fillcolor
Sets the fill color. Defaults to a half-transparent
variant of the line color, marker color, or marker line
color, whichever is available.
hoverinfo
Determines which trace information appear on hover. If
`none` or `skip` are set, no information is displayed
upon hovering. But, if `none` is set, click and hover
events are still fired.
hoverinfosrc
Sets the source reference on Chart Studio Cloud for
`hoverinfo`.
hoverlabel
:class:`plotly.graph_objects.violin.Hoverlabel`
instance or dict with compatible properties
hoveron
Do the hover effects highlight individual violins or
sample points or the kernel density estimate or any
combination of them?
hovertemplate
Template string used for rendering the information that
appear on hover box. Note that this will override
`hoverinfo`. Variables are inserted using %{variable},
for example "y: %{y}" as well as %{xother}, {%_xother},
{%_xother_}, {%xother_}. When showing info for several
points, "xother" will be added to those with different
x positions from the first point. An underscore before
or after "(x|y)other" will add a space on that side,
only when this field is shown. Numbers are formatted
using d3-format's syntax %{variable:d3-format}, for
example "Price: %{y:$.2f}".
https://github.com/d3/d3-format/tree/v1.4.5#d3-format
for details on the formatting syntax. Dates are
formatted using d3-time-format's syntax
%{variable|d3-time-format}, for example "Day:
%{2019-01-01|%A}". https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format for details on the
date formatting syntax. The variables available in
`hovertemplate` are the ones emitted as event data
described at this link
https://plotly.com/javascript/plotlyjs-events/#event-
data. Additionally, every attributes that can be
specified per-point (the ones that are `arrayOk: true`)
are available. Anything contained in tag `<extra>` is
displayed in the secondary box, for example
"<extra>{fullData.name}</extra>". To hide the secondary
box completely, use an empty tag `<extra></extra>`.
hovertemplatesrc
Sets the source reference on Chart Studio Cloud for
`hovertemplate`.
hovertext
Same as `text`.
hovertextsrc
Sets the source reference on Chart Studio Cloud for
`hovertext`.
ids
Assigns id labels to each datum. These ids for object
constancy of data points during animation. Should be an
array of strings, not numbers or any other type.
idssrc
Sets the source reference on Chart Studio Cloud for
`ids`.
jitter
Sets the amount of jitter in the sample points drawn.
If 0, the sample points align along the distribution
axis. If 1, the sample points are drawn in a random
jitter of width equal to the width of the violins.
legend
Sets the reference to a legend to show this trace in.
References to these legends are "legend", "legend2",
"legend3", etc. Settings for these legends are set in
the layout, under `layout.legend`, `layout.legend2`,
etc.
legendgroup
Sets the legend group for this trace. Traces and shapes
part of the same legend group hide/show at the same
time when toggling legend items.
legendgrouptitle
:class:`plotly.graph_objects.violin.Legendgrouptitle`
instance or dict with compatible properties
legendrank
Sets the legend rank for this trace. Items and groups
with smaller ranks are presented on top/left side while
with "reversed" `legend.traceorder` they are on
bottom/right side. The default legendrank is 1000, so
that you can use ranks less than 1000 to place certain
items before all unranked items, and ranks greater than
1000 to go after all unranked items. When having
unranked or equal rank items shapes would be displayed
after traces i.e. according to their order in data and
layout.
legendwidth
Sets the width (in px or fraction) of the legend for
this trace.
line
:class:`plotly.graph_objects.violin.Line` instance or
dict with compatible properties
marker
:class:`plotly.graph_objects.violin.Marker` instance or
dict with compatible properties
meanline
:class:`plotly.graph_objects.violin.Meanline` instance
or dict with compatible properties
meta
Assigns extra meta information associated with this
trace that can be used in various text attributes.
Attributes such as trace `name`, graph, axis and
colorbar `title.text`, annotation `text`
`rangeselector`, `updatemenues` and `sliders` `label`
text all support `meta`. To access the trace `meta`
values in an attribute in the same trace, simply use
`%{meta[i]}` where `i` is the index or key of the
`meta` item in question. To access trace `meta` in
layout attributes, use `%{data[n[.meta[i]}` where `i`
is the index or key of the `meta` and `n` is the trace
index.
metasrc
Sets the source reference on Chart Studio Cloud for
`meta`.
name
Sets the trace name. The trace name appears as the
legend item and on hover. For violin traces, the name
will also be used for the position coordinate, if `x`
and `x0` (`y` and `y0` if horizontal) are missing and
the position axis is categorical. Note that the trace
name is also used as a default value for attribute
`scalegroup` (please see its description for details).
offsetgroup
Set several traces linked to the same position axis or
matching axes to the same offsetgroup where bars of the
same position coordinate will line up.
opacity
Sets the opacity of the trace.
orientation
Sets the orientation of the violin(s). If "v" ("h"),
the distribution is visualized along the vertical
(horizontal).
pointpos
Sets the position of the sample points in relation to
the violins. If 0, the sample points are places over
the center of the violins. Positive (negative) values
correspond to positions to the right (left) for
vertical violins and above (below) for horizontal
violins.
points
If "outliers", only the sample points lying outside the
whiskers are shown If "suspectedoutliers", the outlier
points are shown and points either less than 4*Q1-3*Q3
or greater than 4*Q3-3*Q1 are highlighted (see
`outliercolor`) If "all", all sample points are shown
If False, only the violins are shown with no sample
points. Defaults to "suspectedoutliers" when
`marker.outliercolor` or `marker.line.outliercolor` is
set, otherwise defaults to "outliers".
quartilemethod
Sets the method used to compute the sample's Q1 and Q3
quartiles. The "linear" method uses the 25th percentile
for Q1 and 75th percentile for Q3 as computed using
method #10 (listed on
http://jse.amstat.org/v14n3/langford.html). The
"exclusive" method uses the median to divide the
ordered dataset into two halves if the sample is odd,
it does not include the median in either half - Q1 is
then the median of the lower half and Q3 the median of
the upper half. The "inclusive" method also uses the
median to divide the ordered dataset into two halves
but if the sample is odd, it includes the median in
both halves - Q1 is then the median of the lower half
and Q3 the median of the upper half.
scalegroup
If there are multiple violins that should be sized
according to to some metric (see `scalemode`), link
them by providing a non-empty group id here shared by
every trace in the same group. If a violin's `width` is
undefined, `scalegroup` will default to the trace's
name. In this case, violins with the same names will be
linked together
scalemode
Sets the metric by which the width of each violin is
determined. "width" means each violin has the same
(max) width "count" means the violins are scaled by the
number of sample points making up each violin.
selected
:class:`plotly.graph_objects.violin.Selected` instance
or dict with compatible properties
selectedpoints
Array containing integer indices of selected points.
Has an effect only for traces that support selections.
Note that an empty array means an empty selection where
the `unselected` are turned on for all points, whereas,
any other non-array values means no selection all where
the `selected` and `unselected` styles have no effect.
showlegend
Determines whether or not an item corresponding to this
trace is shown in the legend.
side
Determines on which side of the position value the
density function making up one half of a violin is
plotted. Useful when comparing two violin traces under
"overlay" mode, where one trace has `side` set to
"positive" and the other to "negative".
span
Sets the span in data space for which the density
function will be computed. Has an effect only when
`spanmode` is set to "manual".
spanmode
Sets the method by which the span in data space where
the density function will be computed. "soft" means the
span goes from the sample's minimum value minus two
bandwidths to the sample's maximum value plus two
bandwidths. "hard" means the span goes from the
sample's minimum to its maximum value. For custom span
settings, use mode "manual" and fill in the `span`
attribute.
stream
:class:`plotly.graph_objects.violin.Stream` instance or
dict with compatible properties
text
Sets the text elements associated with each sample
value. If a single string, the same string appears over
all the data points. If an array of string, the items
are mapped in order to the this trace's (x,y)
coordinates. To be seen, trace `hoverinfo` must contain
a "text" flag.
textsrc
Sets the source reference on Chart Studio Cloud for
`text`.
uid
Assign an id to this trace, Use this to provide object
constancy between traces during animations and
transitions.
uirevision
Controls persistence of some user-driven changes to the
trace: `constraintrange` in `parcoords` traces, as well
as some `editable: true` modifications such as `name`
and `colorbar.title`. Defaults to `layout.uirevision`.
Note that other user-driven trace attribute changes are
controlled by `layout` attributes: `trace.visible` is
controlled by `layout.legend.uirevision`,
`selectedpoints` is controlled by
`layout.selectionrevision`, and `colorbar.(x|y)`
(accessible with `config: {editable: true}`) is
controlled by `layout.editrevision`. Trace changes are
tracked by `uid`, which only falls back on trace index
if no `uid` is provided. So if your app can add/remove
traces before the end of the `data` array, such that
the same trace has a different index, you can still
preserve user-driven changes if you give each trace a
`uid` that stays with it as it moves.
unselected
:class:`plotly.graph_objects.violin.Unselected`
instance or dict with compatible properties
visible
Determines whether or not this trace is visible. If
"legendonly", the trace is not drawn, but can appear as
a legend item (provided that the legend itself is
visible).
width
Sets the width of the violin in data coordinates. If 0
(default value) the width is automatically selected
based on the positions of other violin traces in the
same subplot.
x
Sets the x sample data or coordinates. See overview for
more info.
x0
Sets the x coordinate for single-box traces or the
starting coordinate for multi-box traces set using
q1/median/q3. See overview for more info.
xaxis
Sets a reference between this trace's x coordinates and
a 2D cartesian x axis. If "x" (the default value), the
x coordinates refer to `layout.xaxis`. If "x2", the x
coordinates refer to `layout.xaxis2`, and so on.
xhoverformat
Sets the hover text formatting rulefor `x` using d3
formatting mini-languages which are very similar to
those in Python. For numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format.
And for dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to
d3's date formatter: "%h" for half of the year as a
decimal number as well as "%{n}f" for fractional
seconds with n digits. For example, *2016-10-13
09:15:23.456* with tickformat "%H~%M~%S.%2f" would
display *09~15~23.46*By default the values are
formatted using `xaxis.hoverformat`.
xsrc
Sets the source reference on Chart Studio Cloud for
`x`.
y
Sets the y sample data or coordinates. See overview for
more info.
y0
Sets the y coordinate for single-box traces or the
starting coordinate for multi-box traces set using
q1/median/q3. See overview for more info.
yaxis
Sets a reference between this trace's y coordinates and
a 2D cartesian y axis. If "y" (the default value), the
y coordinates refer to `layout.yaxis`. If "y2", the y
coordinates refer to `layout.yaxis2`, and so on.
yhoverformat
Sets the hover text formatting rulefor `y` using d3
formatting mini-languages which are very similar to
those in Python. For numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format.
And for dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to
d3's date formatter: "%h" for half of the year as a
decimal number as well as "%{n}f" for fractional
seconds with n digits. For example, *2016-10-13
09:15:23.456* with tickformat "%H~%M~%S.%2f" would
display *09~15~23.46*By default the values are
formatted using `yaxis.hoverformat`.
ysrc
Sets the source reference on Chart Studio Cloud for
`y`.
"""
def __init__(
self,
arg=None,
alignmentgroup=None,
bandwidth=None,
box=None,
customdata=None,
customdatasrc=None,
fillcolor=None,
hoverinfo=None,
hoverinfosrc=None,
hoverlabel=None,
hoveron=None,
hovertemplate=None,
hovertemplatesrc=None,
hovertext=None,
hovertextsrc=None,
ids=None,
idssrc=None,
jitter=None,
legend=None,
legendgroup=None,
legendgrouptitle=None,
legendrank=None,
legendwidth=None,
line=None,
marker=None,
meanline=None,
meta=None,
metasrc=None,
name=None,
offsetgroup=None,
opacity=None,
orientation=None,
pointpos=None,
points=None,
quartilemethod=None,
scalegroup=None,
scalemode=None,
selected=None,
selectedpoints=None,
showlegend=None,
side=None,
span=None,
spanmode=None,
stream=None,
text=None,
textsrc=None,
uid=None,
uirevision=None,
unselected=None,
visible=None,
width=None,
x=None,
x0=None,
xaxis=None,
xhoverformat=None,
xsrc=None,
y=None,
y0=None,
yaxis=None,
yhoverformat=None,
ysrc=None,
**kwargs,
):
"""
Construct a new Violin object
In vertical (horizontal) violin plots, statistics are computed
using `y` (`x`) values. By supplying an `x` (`y`) array, one
violin per distinct x (y) value is drawn If no `x` (`y`) list
is provided, a single violin is drawn. That violin position is
then positioned with with `name` or with `x0` (`y0`) if
provided.
Parameters
----------
arg
dict of properties compatible with this constructor or
an instance of :class:`plotly.graph_objs.Violin`
alignmentgroup
Set several traces linked to the same position axis or
matching axes to the same alignmentgroup. This controls
whether bars compute their positional range dependently
or independently.
bandwidth
Sets the bandwidth used to compute the kernel density
estimate. By default, the bandwidth is determined by
Silverman's rule of thumb.
box
:class:`plotly.graph_objects.violin.Box` instance or
dict with compatible properties
customdata
Assigns extra data each datum. This may be useful when
listening to hover, click and selection events. Note
that, "scatter" traces also appends customdata items in
the markers DOM elements
customdatasrc
Sets the source reference on Chart Studio Cloud for
`customdata`.
fillcolor
Sets the fill color. Defaults to a half-transparent
variant of the line color, marker color, or marker line
color, whichever is available.
hoverinfo
Determines which trace information appear on hover. If
`none` or `skip` are set, no information is displayed
upon hovering. But, if `none` is set, click and hover
events are still fired.
hoverinfosrc
Sets the source reference on Chart Studio Cloud for
`hoverinfo`.
hoverlabel
:class:`plotly.graph_objects.violin.Hoverlabel`
instance or dict with compatible properties
hoveron
Do the hover effects highlight individual violins or
sample points or the kernel density estimate or any
combination of them?
hovertemplate
Template string used for rendering the information that
appear on hover box. Note that this will override
`hoverinfo`. Variables are inserted using %{variable},
for example "y: %{y}" as well as %{xother}, {%_xother},
{%_xother_}, {%xother_}. When showing info for several
points, "xother" will be added to those with different
x positions from the first point. An underscore before
or after "(x|y)other" will add a space on that side,
only when this field is shown. Numbers are formatted
using d3-format's syntax %{variable:d3-format}, for
example "Price: %{y:$.2f}".
https://github.com/d3/d3-format/tree/v1.4.5#d3-format
for details on the formatting syntax. Dates are
formatted using d3-time-format's syntax
%{variable|d3-time-format}, for example "Day:
%{2019-01-01|%A}". https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format for details on the
date formatting syntax. The variables available in
`hovertemplate` are the ones emitted as event data
described at this link
https://plotly.com/javascript/plotlyjs-events/#event-
data. Additionally, every attributes that can be
specified per-point (the ones that are `arrayOk: true`)
are available. Anything contained in tag `<extra>` is
displayed in the secondary box, for example
"<extra>{fullData.name}</extra>". To hide the secondary
box completely, use an empty tag `<extra></extra>`.
hovertemplatesrc
Sets the source reference on Chart Studio Cloud for
`hovertemplate`.
hovertext
Same as `text`.
hovertextsrc
Sets the source reference on Chart Studio Cloud for
`hovertext`.
ids
Assigns id labels to each datum. These ids for object
constancy of data points during animation. Should be an
array of strings, not numbers or any other type.
idssrc
Sets the source reference on Chart Studio Cloud for
`ids`.
jitter
Sets the amount of jitter in the sample points drawn.
If 0, the sample points align along the distribution
axis. If 1, the sample points are drawn in a random
jitter of width equal to the width of the violins.
legend
Sets the reference to a legend to show this trace in.
References to these legends are "legend", "legend2",
"legend3", etc. Settings for these legends are set in
the layout, under `layout.legend`, `layout.legend2`,
etc.
legendgroup
Sets the legend group for this trace. Traces and shapes
part of the same legend group hide/show at the same
time when toggling legend items.
legendgrouptitle
:class:`plotly.graph_objects.violin.Legendgrouptitle`
instance or dict with compatible properties
legendrank
Sets the legend rank for this trace. Items and groups
with smaller ranks are presented on top/left side while
with "reversed" `legend.traceorder` they are on
bottom/right side. The default legendrank is 1000, so
that you can use ranks less than 1000 to place certain
items before all unranked items, and ranks greater than
1000 to go after all unranked items. When having
unranked or equal rank items shapes would be displayed
after traces i.e. according to their order in data and
layout.
legendwidth
Sets the width (in px or fraction) of the legend for
this trace.
line
:class:`plotly.graph_objects.violin.Line` instance or
dict with compatible properties
marker
:class:`plotly.graph_objects.violin.Marker` instance or
dict with compatible properties
meanline
:class:`plotly.graph_objects.violin.Meanline` instance
or dict with compatible properties
meta
Assigns extra meta information associated with this
trace that can be used in various text attributes.
Attributes such as trace `name`, graph, axis and
colorbar `title.text`, annotation `text`
`rangeselector`, `updatemenues` and `sliders` `label`
text all support `meta`. To access the trace `meta`
values in an attribute in the same trace, simply use
`%{meta[i]}` where `i` is the index or key of the
`meta` item in question. To access trace `meta` in
layout attributes, use `%{data[n[.meta[i]}` where `i`
is the index or key of the `meta` and `n` is the trace
index.
metasrc
Sets the source reference on Chart Studio Cloud for
`meta`.
name
Sets the trace name. The trace name appears as the
legend item and on hover. For violin traces, the name
will also be used for the position coordinate, if `x`
and `x0` (`y` and `y0` if horizontal) are missing and
the position axis is categorical. Note that the trace
name is also used as a default value for attribute
`scalegroup` (please see its description for details).
offsetgroup
Set several traces linked to the same position axis or
matching axes to the same offsetgroup where bars of the
same position coordinate will line up.
opacity
Sets the opacity of the trace.
orientation
Sets the orientation of the violin(s). If "v" ("h"),
the distribution is visualized along the vertical
(horizontal).
pointpos
Sets the position of the sample points in relation to
the violins. If 0, the sample points are places over
the center of the violins. Positive (negative) values
correspond to positions to the right (left) for
vertical violins and above (below) for horizontal
violins.
points
If "outliers", only the sample points lying outside the
whiskers are shown If "suspectedoutliers", the outlier
points are shown and points either less than 4*Q1-3*Q3
or greater than 4*Q3-3*Q1 are highlighted (see
`outliercolor`) If "all", all sample points are shown
If False, only the violins are shown with no sample
points. Defaults to "suspectedoutliers" when
`marker.outliercolor` or `marker.line.outliercolor` is
set, otherwise defaults to "outliers".
quartilemethod
Sets the method used to compute the sample's Q1 and Q3
quartiles. The "linear" method uses the 25th percentile
for Q1 and 75th percentile for Q3 as computed using
method #10 (listed on
http://jse.amstat.org/v14n3/langford.html). The
"exclusive" method uses the median to divide the
ordered dataset into two halves if the sample is odd,
it does not include the median in either half - Q1 is
then the median of the lower half and Q3 the median of
the upper half. The "inclusive" method also uses the
median to divide the ordered dataset into two halves
but if the sample is odd, it includes the median in
both halves - Q1 is then the median of the lower half
and Q3 the median of the upper half.
scalegroup
If there are multiple violins that should be sized
according to to some metric (see `scalemode`), link
them by providing a non-empty group id here shared by
every trace in the same group. If a violin's `width` is
undefined, `scalegroup` will default to the trace's
name. In this case, violins with the same names will be
linked together
scalemode
Sets the metric by which the width of each violin is
determined. "width" means each violin has the same
(max) width "count" means the violins are scaled by the
number of sample points making up each violin.
selected
:class:`plotly.graph_objects.violin.Selected` instance
or dict with compatible properties
selectedpoints
Array containing integer indices of selected points.
Has an effect only for traces that support selections.
Note that an empty array means an empty selection where
the `unselected` are turned on for all points, whereas,
any other non-array values means no selection all where
the `selected` and `unselected` styles have no effect.
showlegend
Determines whether or not an item corresponding to this
trace is shown in the legend.
side
Determines on which side of the position value the
density function making up one half of a violin is
plotted. Useful when comparing two violin traces under
"overlay" mode, where one trace has `side` set to
"positive" and the other to "negative".
span
Sets the span in data space for which the density
function will be computed. Has an effect only when
`spanmode` is set to "manual".
spanmode
Sets the method by which the span in data space where
the density function will be computed. "soft" means the
span goes from the sample's minimum value minus two
bandwidths to the sample's maximum value plus two
bandwidths. "hard" means the span goes from the
sample's minimum to its maximum value. For custom span
settings, use mode "manual" and fill in the `span`
attribute.
stream
:class:`plotly.graph_objects.violin.Stream` instance or
dict with compatible properties
text
Sets the text elements associated with each sample
value. If a single string, the same string appears over
all the data points. If an array of string, the items
are mapped in order to the this trace's (x,y)
coordinates. To be seen, trace `hoverinfo` must contain
a "text" flag.
textsrc
Sets the source reference on Chart Studio Cloud for
`text`.
uid
Assign an id to this trace, Use this to provide object
constancy between traces during animations and
transitions.
uirevision
Controls persistence of some user-driven changes to the
trace: `constraintrange` in `parcoords` traces, as well
as some `editable: true` modifications such as `name`
and `colorbar.title`. Defaults to `layout.uirevision`.
Note that other user-driven trace attribute changes are
controlled by `layout` attributes: `trace.visible` is
controlled by `layout.legend.uirevision`,
`selectedpoints` is controlled by
`layout.selectionrevision`, and `colorbar.(x|y)`
(accessible with `config: {editable: true}`) is
controlled by `layout.editrevision`. Trace changes are
tracked by `uid`, which only falls back on trace index
if no `uid` is provided. So if your app can add/remove
traces before the end of the `data` array, such that
the same trace has a different index, you can still
preserve user-driven changes if you give each trace a
`uid` that stays with it as it moves.
unselected
:class:`plotly.graph_objects.violin.Unselected`
instance or dict with compatible properties
visible
Determines whether or not this trace is visible. If
"legendonly", the trace is not drawn, but can appear as
a legend item (provided that the legend itself is
visible).
width
Sets the width of the violin in data coordinates. If 0
(default value) the width is automatically selected
based on the positions of other violin traces in the
same subplot.
x
Sets the x sample data or coordinates. See overview for
more info.
x0
Sets the x coordinate for single-box traces or the
starting coordinate for multi-box traces set using
q1/median/q3. See overview for more info.
xaxis
Sets a reference between this trace's x coordinates and
a 2D cartesian x axis. If "x" (the default value), the
x coordinates refer to `layout.xaxis`. If "x2", the x
coordinates refer to `layout.xaxis2`, and so on.
xhoverformat
Sets the hover text formatting rulefor `x` using d3
formatting mini-languages which are very similar to
those in Python. For numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format.
And for dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to
d3's date formatter: "%h" for half of the year as a
decimal number as well as "%{n}f" for fractional
seconds with n digits. For example, *2016-10-13
09:15:23.456* with tickformat "%H~%M~%S.%2f" would
display *09~15~23.46*By default the values are
formatted using `xaxis.hoverformat`.
xsrc
Sets the source reference on Chart Studio Cloud for
`x`.
y
Sets the y sample data or coordinates. See overview for
more info.
y0
Sets the y coordinate for single-box traces or the
starting coordinate for multi-box traces set using
q1/median/q3. See overview for more info.
yaxis
Sets a reference between this trace's y coordinates and
a 2D cartesian y axis. If "y" (the default value), the
y coordinates refer to `layout.yaxis`. If "y2", the y
coordinates refer to `layout.yaxis2`, and so on.
yhoverformat
Sets the hover text formatting rulefor `y` using d3
formatting mini-languages which are very similar to
those in Python. For numbers, see:
https://github.com/d3/d3-format/tree/v1.4.5#d3-format.
And for dates see: https://github.com/d3/d3-time-
format/tree/v2.2.3#locale_format. We add two items to
d3's date formatter: "%h" for half of the year as a
decimal number as well as "%{n}f" for fractional
seconds with n digits. For example, *2016-10-13
09:15:23.456* with tickformat "%H~%M~%S.%2f" would
display *09~15~23.46*By default the values are
formatted using `yaxis.hoverformat`.
ysrc
Sets the source reference on Chart Studio Cloud for
`y`.
Returns
-------
Violin
"""
super(Violin, self).__init__("violin")
if "_parent" in kwargs:
self._parent = kwargs["_parent"]
return
# Validate arg
# ------------
if arg is None:
arg = {}
elif isinstance(arg, self.__class__):
arg = arg.to_plotly_json()
elif isinstance(arg, dict):
arg = _copy.copy(arg)
else:
raise ValueError(
"""\
The first argument to the plotly.graph_objs.Violin
constructor must be a dict or
an instance of :class:`plotly.graph_objs.Violin`"""
)
# Handle skip_invalid
# -------------------
self._skip_invalid = kwargs.pop("skip_invalid", False)
self._validate = kwargs.pop("_validate", True)
# Populate data dict with properties
# ----------------------------------
_v = arg.pop("alignmentgroup", None)
_v = alignmentgroup if alignmentgroup is not None else _v
if _v is not None:
self["alignmentgroup"] = _v
_v = arg.pop("bandwidth", None)
_v = bandwidth if bandwidth is not None else _v
if _v is not None:
self["bandwidth"] = _v
_v = arg.pop("box", None)
_v = box if box is not None else _v
if _v is not None:
self["box"] = _v
_v = arg.pop("customdata", None)
_v = customdata if customdata is not None else _v
if _v is not None:
self["customdata"] = _v
_v = arg.pop("customdatasrc", None)
_v = customdatasrc if customdatasrc is not None else _v
if _v is not None:
self["customdatasrc"] = _v
_v = arg.pop("fillcolor", None)
_v = fillcolor if fillcolor is not None else _v
if _v is not None:
self["fillcolor"] = _v
_v = arg.pop("hoverinfo", None)
_v = hoverinfo if hoverinfo is not None else _v
if _v is not None:
self["hoverinfo"] = _v
_v = arg.pop("hoverinfosrc", None)
_v = hoverinfosrc if hoverinfosrc is not None else _v
if _v is not None:
self["hoverinfosrc"] = _v
_v = arg.pop("hoverlabel", None)
_v = hoverlabel if hoverlabel is not None else _v
if _v is not None:
self["hoverlabel"] = _v
_v = arg.pop("hoveron", None)
_v = hoveron if hoveron is not None else _v
if _v is not None:
self["hoveron"] = _v
_v = arg.pop("hovertemplate", None)
_v = hovertemplate if hovertemplate is not None else _v
if _v is not None:
self["hovertemplate"] = _v
_v = arg.pop("hovertemplatesrc", None)
_v = hovertemplatesrc if hovertemplatesrc is not None else _v
if _v is not None:
self["hovertemplatesrc"] = _v
_v = arg.pop("hovertext", None)
_v = hovertext if hovertext is not None else _v
if _v is not None:
self["hovertext"] = _v
_v = arg.pop("hovertextsrc", None)
_v = hovertextsrc if hovertextsrc is not None else _v
if _v is not None:
self["hovertextsrc"] = _v
_v = arg.pop("ids", None)
_v = ids if ids is not None else _v
if _v is not None:
self["ids"] = _v
_v = arg.pop("idssrc", None)
_v = idssrc if idssrc is not None else _v
if _v is not None:
self["idssrc"] = _v
_v = arg.pop("jitter", None)
_v = jitter if jitter is not None else _v
if _v is not None:
self["jitter"] = _v
_v = arg.pop("legend", None)
_v = legend if legend is not None else _v
if _v is not None:
self["legend"] = _v
_v = arg.pop("legendgroup", None)
_v = legendgroup if legendgroup is not None else _v
if _v is not None:
self["legendgroup"] = _v
_v = arg.pop("legendgrouptitle", None)
_v = legendgrouptitle if legendgrouptitle is not None else _v
if _v is not None:
self["legendgrouptitle"] = _v
_v = arg.pop("legendrank", None)
_v = legendrank if legendrank is not None else _v
if _v is not None:
self["legendrank"] = _v
_v = arg.pop("legendwidth", None)
_v = legendwidth if legendwidth is not None else _v
if _v is not None:
self["legendwidth"] = _v
_v = arg.pop("line", None)
_v = line if line is not None else _v
if _v is not None:
self["line"] = _v
_v = arg.pop("marker", None)
_v = marker if marker is not None else _v
if _v is not None:
self["marker"] = _v
_v = arg.pop("meanline", None)
_v = meanline if meanline is not None else _v
if _v is not None:
self["meanline"] = _v
_v = arg.pop("meta", None)
_v = meta if meta is not None else _v
if _v is not None:
self["meta"] = _v
_v = arg.pop("metasrc", None)
_v = metasrc if metasrc is not None else _v
if _v is not None:
self["metasrc"] = _v
_v = arg.pop("name", None)
_v = name if name is not None else _v
if _v is not None:
self["name"] = _v
_v = arg.pop("offsetgroup", None)
_v = offsetgroup if offsetgroup is not None else _v
if _v is not None:
self["offsetgroup"] = _v
_v = arg.pop("opacity", None)
_v = opacity if opacity is not None else _v
if _v is not None:
self["opacity"] = _v
_v = arg.pop("orientation", None)
_v = orientation if orientation is not None else _v
if _v is not None:
self["orientation"] = _v
_v = arg.pop("pointpos", None)
_v = pointpos if pointpos is not None else _v
if _v is not None:
self["pointpos"] = _v
_v = arg.pop("points", None)
_v = points if points is not None else _v
if _v is not None:
self["points"] = _v
_v = arg.pop("quartilemethod", None)
_v = quartilemethod if quartilemethod is not None else _v
if _v is not None:
self["quartilemethod"] = _v
_v = arg.pop("scalegroup", None)
_v = scalegroup if scalegroup is not None else _v
if _v is not None:
self["scalegroup"] = _v
_v = arg.pop("scalemode", None)
_v = scalemode if scalemode is not None else _v
if _v is not None:
self["scalemode"] = _v
_v = arg.pop("selected", None)
_v = selected if selected is not None else _v
if _v is not None:
self["selected"] = _v
_v = arg.pop("selectedpoints", None)
_v = selectedpoints if selectedpoints is not None else _v
if _v is not None:
self["selectedpoints"] = _v
_v = arg.pop("showlegend", None)
_v = showlegend if showlegend is not None else _v
if _v is not None:
self["showlegend"] = _v
_v = arg.pop("side", None)
_v = side if side is not None else _v
if _v is not None:
self["side"] = _v
_v = arg.pop("span", None)
_v = span if span is not None else _v
if _v is not None:
self["span"] = _v
_v = arg.pop("spanmode", None)
_v = spanmode if spanmode is not None else _v
if _v is not None:
self["spanmode"] = _v
_v = arg.pop("stream", None)
_v = stream if stream is not None else _v
if _v is not None:
self["stream"] = _v
_v = arg.pop("text", None)
_v = text if text is not None else _v
if _v is not None:
self["text"] = _v
_v = arg.pop("textsrc", None)
_v = textsrc if textsrc is not None else _v
if _v is not None:
self["textsrc"] = _v
_v = arg.pop("uid", None)
_v = uid if uid is not None else _v
if _v is not None:
self["uid"] = _v
_v = arg.pop("uirevision", None)
_v = uirevision if uirevision is not None else _v
if _v is not None:
self["uirevision"] = _v
_v = arg.pop("unselected", None)
_v = unselected if unselected is not None else _v
if _v is not None:
self["unselected"] = _v
_v = arg.pop("visible", None)
_v = visible if visible is not None else _v
if _v is not None:
self["visible"] = _v
_v = arg.pop("width", None)
_v = width if width is not None else _v
if _v is not None:
self["width"] = _v
_v = arg.pop("x", None)
_v = x if x is not None else _v
if _v is not None:
self["x"] = _v
_v = arg.pop("x0", None)
_v = x0 if x0 is not None else _v
if _v is not None:
self["x0"] = _v
_v = arg.pop("xaxis", None)
_v = xaxis if xaxis is not None else _v
if _v is not None:
self["xaxis"] = _v
_v = arg.pop("xhoverformat", None)
_v = xhoverformat if xhoverformat is not None else _v
if _v is not None:
self["xhoverformat"] = _v
_v = arg.pop("xsrc", None)
_v = xsrc if xsrc is not None else _v
if _v is not None:
self["xsrc"] = _v
_v = arg.pop("y", None)
_v = y if y is not None else _v
if _v is not None:
self["y"] = _v
_v = arg.pop("y0", None)
_v = y0 if y0 is not None else _v
if _v is not None:
self["y0"] = _v
_v = arg.pop("yaxis", None)
_v = yaxis if yaxis is not None else _v
if _v is not None:
self["yaxis"] = _v
_v = arg.pop("yhoverformat", None)
_v = yhoverformat if yhoverformat is not None else _v
if _v is not None:
self["yhoverformat"] = _v
_v = arg.pop("ysrc", None)
_v = ysrc if ysrc is not None else _v
if _v is not None:
self["ysrc"] = _v
# Read-only literals
# ------------------
self._props["type"] = "violin"
arg.pop("type", None)
# Process unknown kwargs
# ----------------------
self._process_kwargs(**dict(arg, **kwargs))
# Reset skip_invalid
# ------------------
self._skip_invalid = False