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wg-backend-django/dell-env/lib/python3.11/site-packages/plotly/graph_objs/_mesh3d.py
infidel be27c0882e Add iptable-parser as submodule
2023-10-30 14:40:43 +07:00

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from plotly.basedatatypes import BaseTraceType as _BaseTraceType
import copy as _copy
class Mesh3d(_BaseTraceType):
# class properties
# --------------------
_parent_path_str = ""
_path_str = "mesh3d"
_valid_props = {
"alphahull",
"autocolorscale",
"cauto",
"cmax",
"cmid",
"cmin",
"color",
"coloraxis",
"colorbar",
"colorscale",
"contour",
"customdata",
"customdatasrc",
"delaunayaxis",
"facecolor",
"facecolorsrc",
"flatshading",
"hoverinfo",
"hoverinfosrc",
"hoverlabel",
"hovertemplate",
"hovertemplatesrc",
"hovertext",
"hovertextsrc",
"i",
"ids",
"idssrc",
"intensity",
"intensitymode",
"intensitysrc",
"isrc",
"j",
"jsrc",
"k",
"ksrc",
"legend",
"legendgroup",
"legendgrouptitle",
"legendrank",
"legendwidth",
"lighting",
"lightposition",
"meta",
"metasrc",
"name",
"opacity",
"reversescale",
"scene",
"showlegend",
"showscale",
"stream",
"text",
"textsrc",
"type",
"uid",
"uirevision",
"vertexcolor",
"vertexcolorsrc",
"visible",
"x",
"xcalendar",
"xhoverformat",
"xsrc",
"y",
"ycalendar",
"yhoverformat",
"ysrc",
"z",
"zcalendar",
"zhoverformat",
"zsrc",
}
# alphahull
# ---------
@property
def alphahull(self):
"""
Determines how the mesh surface triangles are derived from the
set of vertices (points) represented by the `x`, `y` and `z`
arrays, if the `i`, `j`, `k` arrays are not supplied. For
general use of `mesh3d` it is preferred that `i`, `j`, `k` are
supplied. If "-1", Delaunay triangulation is used, which is
mainly suitable if the mesh is a single, more or less layer
surface that is perpendicular to `delaunayaxis`. In case the
`delaunayaxis` intersects the mesh surface at more than one
point it will result triangles that are very long in the
dimension of `delaunayaxis`. If ">0", the alpha-shape algorithm
is used. In this case, the positive `alphahull` value signals
the use of the alpha-shape algorithm, _and_ its value acts as
the parameter for the mesh fitting. If 0, the convex-hull
algorithm is used. It is suitable for convex bodies or if the
intention is to enclose the `x`, `y` and `z` point set into a
convex hull.
The 'alphahull' property is a number and may be specified as:
- An int or float
Returns
-------
int|float
"""
return self["alphahull"]
@alphahull.setter
def alphahull(self, val):
self["alphahull"] = val
# autocolorscale
# --------------
@property
def autocolorscale(self):
"""
Determines whether the colorscale is a default palette
(`autocolorscale: true`) or the palette determined by
`colorscale`. In case `colorscale` is unspecified or
`autocolorscale` is true, the default palette will be chosen
according to whether numbers in the `color` array are all
positive, all negative or mixed.
The 'autocolorscale' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["autocolorscale"]
@autocolorscale.setter
def autocolorscale(self, val):
self["autocolorscale"] = val
# cauto
# -----
@property
def cauto(self):
"""
Determines whether or not the color domain is computed with
respect to the input data (here `intensity`) or the bounds set
in `cmin` and `cmax` Defaults to `false` when `cmin` and `cmax`
are set by the user.
The 'cauto' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["cauto"]
@cauto.setter
def cauto(self, val):
self["cauto"] = val
# cmax
# ----
@property
def cmax(self):
"""
Sets the upper bound of the color domain. Value should have the
same units as `intensity` and if set, `cmin` must be set as
well.
The 'cmax' property is a number and may be specified as:
- An int or float
Returns
-------
int|float
"""
return self["cmax"]
@cmax.setter
def cmax(self, val):
self["cmax"] = val
# cmid
# ----
@property
def cmid(self):
"""
Sets the mid-point of the color domain by scaling `cmin` and/or
`cmax` to be equidistant to this point. Value should have the
same units as `intensity`. Has no effect when `cauto` is
`false`.
The 'cmid' property is a number and may be specified as:
- An int or float
Returns
-------
int|float
"""
return self["cmid"]
@cmid.setter
def cmid(self, val):
self["cmid"] = val
# cmin
# ----
@property
def cmin(self):
"""
Sets the lower bound of the color domain. Value should have the
same units as `intensity` and if set, `cmax` must be set as
well.
The 'cmin' property is a number and may be specified as:
- An int or float
Returns
-------
int|float
"""
return self["cmin"]
@cmin.setter
def cmin(self, val):
self["cmin"] = val
# color
# -----
@property
def color(self):
"""
Sets the color of the whole mesh
The 'color' 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
- A number that will be interpreted as a color
according to mesh3d.colorscale
Returns
-------
str
"""
return self["color"]
@color.setter
def color(self, val):
self["color"] = val
# coloraxis
# ---------
@property
def coloraxis(self):
"""
Sets a reference to a shared color axis. References to these
shared color axes are "coloraxis", "coloraxis2", "coloraxis3",
etc. Settings for these shared color axes are set in the
layout, under `layout.coloraxis`, `layout.coloraxis2`, etc.
Note that multiple color scales can be linked to the same color
axis.
The 'coloraxis' property is an identifier of a particular
subplot, of type 'coloraxis', that may be specified as the string 'coloraxis'
optionally followed by an integer >= 1
(e.g. 'coloraxis', 'coloraxis1', 'coloraxis2', 'coloraxis3', etc.)
Returns
-------
str
"""
return self["coloraxis"]
@coloraxis.setter
def coloraxis(self, val):
self["coloraxis"] = val
# colorbar
# --------
@property
def colorbar(self):
"""
The 'colorbar' property is an instance of ColorBar
that may be specified as:
- An instance of :class:`plotly.graph_objs.mesh3d.ColorBar`
- A dict of string/value properties that will be passed
to the ColorBar constructor
Supported dict properties:
bgcolor
Sets the color of padded area.
bordercolor
Sets the axis line color.
borderwidth
Sets the width (in px) or the border enclosing
this color bar.
dtick
Sets the step in-between ticks on this axis.
Use with `tick0`. Must be a positive number, or
special strings available to "log" and "date"
axes. If the axis `type` is "log", then ticks
are set every 10^(n*dtick) where n is the tick
number. For example, to set a tick mark at 1,
10, 100, 1000, ... set dtick to 1. To set tick
marks at 1, 100, 10000, ... set dtick to 2. To
set tick marks at 1, 5, 25, 125, 625, 3125, ...
set dtick to log_10(5), or 0.69897000433. "log"
has several special values; "L<f>", where `f`
is a positive number, gives ticks linearly
spaced in value (but not position). For example
`tick0` = 0.1, `dtick` = "L0.5" will put ticks
at 0.1, 0.6, 1.1, 1.6 etc. To show powers of 10
plus small digits between, use "D1" (all
digits) or "D2" (only 2 and 5). `tick0` is
ignored for "D1" and "D2". If the axis `type`
is "date", then you must convert the time to
milliseconds. For example, to set the interval
between ticks to one day, set `dtick` to
86400000.0. "date" also has special values
"M<n>" gives ticks spaced by a number of
months. `n` must be a positive integer. To set
ticks on the 15th of every third month, set
`tick0` to "2000-01-15" and `dtick` to "M3". To
set ticks every 4 years, set `dtick` to "M48"
exponentformat
Determines a formatting rule for the tick
exponents. For example, consider the number
1,000,000,000. If "none", it appears as
1,000,000,000. If "e", 1e+9. If "E", 1E+9. If
"power", 1x10^9 (with 9 in a super script). If
"SI", 1G. If "B", 1B.
labelalias
Replacement text for specific tick or hover
labels. For example using {US: 'USA', CA:
'Canada'} changes US to USA and CA to Canada.
The labels we would have shown must match the
keys exactly, after adding any tickprefix or
ticksuffix. For negative numbers the minus sign
symbol used (U+2212) is wider than the regular
ascii dash. That means you need to use 1
instead of -1. labelalias can be used with any
axis type, and both keys (if needed) and values
(if desired) can include html-like tags or
MathJax.
len
Sets the length of the color bar This measure
excludes the padding of both ends. That is, the
color bar length is this length minus the
padding on both ends.
lenmode
Determines whether this color bar's length
(i.e. the measure in the color variation
direction) is set in units of plot "fraction"
or in *pixels. Use `len` to set the value.
minexponent
Hide SI prefix for 10^n if |n| is below this
number. This only has an effect when
`tickformat` is "SI" or "B".
nticks
Specifies the maximum number of ticks for the
particular axis. The actual number of ticks
will be chosen automatically to be less than or
equal to `nticks`. Has an effect only if
`tickmode` is set to "auto".
orientation
Sets the orientation of the colorbar.
outlinecolor
Sets the axis line color.
outlinewidth
Sets the width (in px) of the axis line.
separatethousands
If "true", even 4-digit integers are separated
showexponent
If "all", all exponents are shown besides their
significands. If "first", only the exponent of
the first tick is shown. If "last", only the
exponent of the last tick is shown. If "none",
no exponents appear.
showticklabels
Determines whether or not the tick labels are
drawn.
showtickprefix
If "all", all tick labels are displayed with a
prefix. If "first", only the first tick is
displayed with a prefix. If "last", only the
last tick is displayed with a suffix. If
"none", tick prefixes are hidden.
showticksuffix
Same as `showtickprefix` but for tick suffixes.
thickness
Sets the thickness of the color bar This
measure excludes the size of the padding, ticks
and labels.
thicknessmode
Determines whether this color bar's thickness
(i.e. the measure in the constant color
direction) is set in units of plot "fraction"
or in "pixels". Use `thickness` to set the
value.
tick0
Sets the placement of the first tick on this
axis. Use with `dtick`. If the axis `type` is
"log", then you must take the log of your
starting tick (e.g. to set the starting tick to
100, set the `tick0` to 2) except when
`dtick`=*L<f>* (see `dtick` for more info). If
the axis `type` is "date", it should be a date
string, like date data. If the axis `type` is
"category", it should be a number, using the
scale where each category is assigned a serial
number from zero in the order it appears.
tickangle
Sets the angle of the tick labels with respect
to the horizontal. For example, a `tickangle`
of -90 draws the tick labels vertically.
tickcolor
Sets the tick color.
tickfont
Sets the color bar's tick label font
tickformat
Sets the tick label formatting rule using d3
formatting mini-languages which are very
similar to those in Python. For numbers, see: h
ttps://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"
tickformatstops
A tuple of :class:`plotly.graph_objects.mesh3d.
colorbar.Tickformatstop` instances or dicts
with compatible properties
tickformatstopdefaults
When used in a template (as layout.template.dat
a.mesh3d.colorbar.tickformatstopdefaults), sets
the default property values to use for elements
of mesh3d.colorbar.tickformatstops
ticklabeloverflow
Determines how we handle tick labels that would
overflow either the graph div or the domain of
the axis. The default value for inside tick
labels is *hide past domain*. In other cases
the default is *hide past div*.
ticklabelposition
Determines where tick labels are drawn relative
to the ticks. Left and right options are used
when `orientation` is "h", top and bottom when
`orientation` is "v".
ticklabelstep
Sets the spacing between tick labels as
compared to the spacing between ticks. A value
of 1 (default) means each tick gets a label. A
value of 2 means shows every 2nd label. A
larger value n means only every nth tick is
labeled. `tick0` determines which labels are
shown. Not implemented for axes with `type`
"log" or "multicategory", or when `tickmode` is
"array".
ticklen
Sets the tick length (in px).
tickmode
Sets the tick mode for this axis. If "auto",
the number of ticks is set via `nticks`. If
"linear", the placement of the ticks is
determined by a starting position `tick0` and a
tick step `dtick` ("linear" is the default
value if `tick0` and `dtick` are provided). If
"array", the placement of the ticks is set via
`tickvals` and the tick text is `ticktext`.
("array" is the default value if `tickvals` is
provided).
tickprefix
Sets a tick label prefix.
ticks
Determines whether ticks are drawn or not. If
"", this axis' ticks are not drawn. If
"outside" ("inside"), this axis' are drawn
outside (inside) the axis lines.
ticksuffix
Sets a tick label suffix.
ticktext
Sets the text displayed at the ticks position
via `tickvals`. Only has an effect if
`tickmode` is set to "array". Used with
`tickvals`.
ticktextsrc
Sets the source reference on Chart Studio Cloud
for `ticktext`.
tickvals
Sets the values at which ticks on this axis
appear. Only has an effect if `tickmode` is set
to "array". Used with `ticktext`.
tickvalssrc
Sets the source reference on Chart Studio Cloud
for `tickvals`.
tickwidth
Sets the tick width (in px).
title
:class:`plotly.graph_objects.mesh3d.colorbar.Ti
tle` instance or dict with compatible
properties
titlefont
Deprecated: Please use
mesh3d.colorbar.title.font instead. Sets this
color bar's title font. Note that the title's
font used to be set by the now deprecated
`titlefont` attribute.
titleside
Deprecated: Please use
mesh3d.colorbar.title.side instead. Determines
the location of color bar's title with respect
to the color bar. Defaults to "top" when
`orientation` if "v" and defaults to "right"
when `orientation` if "h". Note that the
title's location used to be set by the now
deprecated `titleside` attribute.
x
Sets the x position with respect to `xref` of
the color bar (in plot fraction). When `xref`
is "paper", defaults to 1.02 when `orientation`
is "v" and 0.5 when `orientation` is "h". When
`xref` is "container", defaults to 1 when
`orientation` is "v" and 0.5 when `orientation`
is "h". Must be between 0 and 1 if `xref` is
"container" and between "-2" and 3 if `xref` is
"paper".
xanchor
Sets this color bar's horizontal position
anchor. This anchor binds the `x` position to
the "left", "center" or "right" of the color
bar. Defaults to "left" when `orientation` is
"v" and "center" when `orientation` is "h".
xpad
Sets the amount of padding (in px) along the x
direction.
xref
Sets the container `x` refers to. "container"
spans the entire `width` of the plot. "paper"
refers to the width of the plotting area only.
y
Sets the y position with respect to `yref` of
the color bar (in plot fraction). When `yref`
is "paper", defaults to 0.5 when `orientation`
is "v" and 1.02 when `orientation` is "h". When
`yref` is "container", defaults to 0.5 when
`orientation` is "v" and 1 when `orientation`
is "h". Must be between 0 and 1 if `yref` is
"container" and between "-2" and 3 if `yref` is
"paper".
yanchor
Sets this color bar's vertical position anchor
This anchor binds the `y` position to the
"top", "middle" or "bottom" of the color bar.
Defaults to "middle" when `orientation` is "v"
and "bottom" when `orientation` is "h".
ypad
Sets the amount of padding (in px) along the y
direction.
yref
Sets the container `y` refers to. "container"
spans the entire `height` of the plot. "paper"
refers to the height of the plotting area only.
Returns
-------
plotly.graph_objs.mesh3d.ColorBar
"""
return self["colorbar"]
@colorbar.setter
def colorbar(self, val):
self["colorbar"] = val
# colorscale
# ----------
@property
def colorscale(self):
"""
Sets the colorscale. The colorscale must be an array containing
arrays mapping a normalized value to an rgb, rgba, hex, hsl,
hsv, or named color string. At minimum, a mapping for the
lowest (0) and highest (1) values are required. For example,
`[[0, 'rgb(0,0,255)'], [1, 'rgb(255,0,0)']]`. To control the
bounds of the colorscale in color space, use `cmin` and `cmax`.
Alternatively, `colorscale` may be a palette name string of the
following list: Blackbody,Bluered,Blues,Cividis,Earth,Electric,
Greens,Greys,Hot,Jet,Picnic,Portland,Rainbow,RdBu,Reds,Viridis,
YlGnBu,YlOrRd.
The 'colorscale' property is a colorscale and may be
specified as:
- A list of colors that will be spaced evenly to create the colorscale.
Many predefined colorscale lists are included in the sequential, diverging,
and cyclical modules in the plotly.colors package.
- A list of 2-element lists where the first element is the
normalized color level value (starting at 0 and ending at 1),
and the second item is a valid color string.
(e.g. [[0, 'green'], [0.5, 'red'], [1.0, 'rgb(0, 0, 255)']])
- One of the following named colorscales:
['aggrnyl', 'agsunset', 'algae', 'amp', 'armyrose', 'balance',
'blackbody', 'bluered', 'blues', 'blugrn', 'bluyl', 'brbg',
'brwnyl', 'bugn', 'bupu', 'burg', 'burgyl', 'cividis', 'curl',
'darkmint', 'deep', 'delta', 'dense', 'earth', 'edge', 'electric',
'emrld', 'fall', 'geyser', 'gnbu', 'gray', 'greens', 'greys',
'haline', 'hot', 'hsv', 'ice', 'icefire', 'inferno', 'jet',
'magenta', 'magma', 'matter', 'mint', 'mrybm', 'mygbm', 'oranges',
'orrd', 'oryel', 'oxy', 'peach', 'phase', 'picnic', 'pinkyl',
'piyg', 'plasma', 'plotly3', 'portland', 'prgn', 'pubu', 'pubugn',
'puor', 'purd', 'purp', 'purples', 'purpor', 'rainbow', 'rdbu',
'rdgy', 'rdpu', 'rdylbu', 'rdylgn', 'redor', 'reds', 'solar',
'spectral', 'speed', 'sunset', 'sunsetdark', 'teal', 'tealgrn',
'tealrose', 'tempo', 'temps', 'thermal', 'tropic', 'turbid',
'turbo', 'twilight', 'viridis', 'ylgn', 'ylgnbu', 'ylorbr',
'ylorrd'].
Appending '_r' to a named colorscale reverses it.
Returns
-------
str
"""
return self["colorscale"]
@colorscale.setter
def colorscale(self, val):
self["colorscale"] = val
# contour
# -------
@property
def contour(self):
"""
The 'contour' property is an instance of Contour
that may be specified as:
- An instance of :class:`plotly.graph_objs.mesh3d.Contour`
- A dict of string/value properties that will be passed
to the Contour constructor
Supported dict properties:
color
Sets the color of the contour lines.
show
Sets whether or not dynamic contours are shown
on hover
width
Sets the width of the contour lines.
Returns
-------
plotly.graph_objs.mesh3d.Contour
"""
return self["contour"]
@contour.setter
def contour(self, val):
self["contour"] = 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
# delaunayaxis
# ------------
@property
def delaunayaxis(self):
"""
Sets the Delaunay axis, which is the axis that is perpendicular
to the surface of the Delaunay triangulation. It has an effect
if `i`, `j`, `k` are not provided and `alphahull` is set to
indicate Delaunay triangulation.
The 'delaunayaxis' property is an enumeration that may be specified as:
- One of the following enumeration values:
['x', 'y', 'z']
Returns
-------
Any
"""
return self["delaunayaxis"]
@delaunayaxis.setter
def delaunayaxis(self, val):
self["delaunayaxis"] = val
# facecolor
# ---------
@property
def facecolor(self):
"""
Sets the color of each face Overrides "color" and
"vertexcolor".
The 'facecolor' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["facecolor"]
@facecolor.setter
def facecolor(self, val):
self["facecolor"] = val
# facecolorsrc
# ------------
@property
def facecolorsrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`facecolor`.
The 'facecolorsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["facecolorsrc"]
@facecolorsrc.setter
def facecolorsrc(self, val):
self["facecolorsrc"] = val
# flatshading
# -----------
@property
def flatshading(self):
"""
Determines whether or not normal smoothing is applied to the
meshes, creating meshes with an angular, low-poly look via flat
reflections.
The 'flatshading' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["flatshading"]
@flatshading.setter
def flatshading(self, val):
self["flatshading"] = 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.mesh3d.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.mesh3d.Hoverlabel
"""
return self["hoverlabel"]
@hoverlabel.setter
def hoverlabel(self, val):
self["hoverlabel"] = 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
# i
# -
@property
def i(self):
"""
A vector of vertex indices, i.e. integer values between 0 and
the length of the vertex vectors, representing the "first"
vertex of a triangle. For example, `{i[m], j[m], k[m]}`
together represent face m (triangle m) in the mesh, where `i[m]
= n` points to the triplet `{x[n], y[n], z[n]}` in the vertex
arrays. Therefore, each element in `i` represents a point in
space, which is the first vertex of a triangle.
The 'i' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["i"]
@i.setter
def i(self, val):
self["i"] = 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
# intensity
# ---------
@property
def intensity(self):
"""
Sets the intensity values for vertices or cells as defined by
`intensitymode`. It can be used for plotting fields on meshes.
The 'intensity' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["intensity"]
@intensity.setter
def intensity(self, val):
self["intensity"] = val
# intensitymode
# -------------
@property
def intensitymode(self):
"""
Determines the source of `intensity` values.
The 'intensitymode' property is an enumeration that may be specified as:
- One of the following enumeration values:
['vertex', 'cell']
Returns
-------
Any
"""
return self["intensitymode"]
@intensitymode.setter
def intensitymode(self, val):
self["intensitymode"] = val
# intensitysrc
# ------------
@property
def intensitysrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`intensity`.
The 'intensitysrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["intensitysrc"]
@intensitysrc.setter
def intensitysrc(self, val):
self["intensitysrc"] = val
# isrc
# ----
@property
def isrc(self):
"""
Sets the source reference on Chart Studio Cloud for `i`.
The 'isrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["isrc"]
@isrc.setter
def isrc(self, val):
self["isrc"] = val
# j
# -
@property
def j(self):
"""
A vector of vertex indices, i.e. integer values between 0 and
the length of the vertex vectors, representing the "second"
vertex of a triangle. For example, `{i[m], j[m], k[m]}`
together represent face m (triangle m) in the mesh, where `j[m]
= n` points to the triplet `{x[n], y[n], z[n]}` in the vertex
arrays. Therefore, each element in `j` represents a point in
space, which is the second vertex of a triangle.
The 'j' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["j"]
@j.setter
def j(self, val):
self["j"] = val
# jsrc
# ----
@property
def jsrc(self):
"""
Sets the source reference on Chart Studio Cloud for `j`.
The 'jsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["jsrc"]
@jsrc.setter
def jsrc(self, val):
self["jsrc"] = val
# k
# -
@property
def k(self):
"""
A vector of vertex indices, i.e. integer values between 0 and
the length of the vertex vectors, representing the "third"
vertex of a triangle. For example, `{i[m], j[m], k[m]}`
together represent face m (triangle m) in the mesh, where `k[m]
= n` points to the triplet `{x[n], y[n], z[n]}` in the vertex
arrays. Therefore, each element in `k` represents a point in
space, which is the third vertex of a triangle.
The 'k' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["k"]
@k.setter
def k(self, val):
self["k"] = val
# ksrc
# ----
@property
def ksrc(self):
"""
Sets the source reference on Chart Studio Cloud for `k`.
The 'ksrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["ksrc"]
@ksrc.setter
def ksrc(self, val):
self["ksrc"] = 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.mesh3d.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.mesh3d.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
# lighting
# --------
@property
def lighting(self):
"""
The 'lighting' property is an instance of Lighting
that may be specified as:
- An instance of :class:`plotly.graph_objs.mesh3d.Lighting`
- A dict of string/value properties that will be passed
to the Lighting constructor
Supported dict properties:
ambient
Ambient light increases overall color
visibility but can wash out the image.
diffuse
Represents the extent that incident rays are
reflected in a range of angles.
facenormalsepsilon
Epsilon for face normals calculation avoids
math issues arising from degenerate geometry.
fresnel
Represents the reflectance as a dependency of
the viewing angle; e.g. paper is reflective
when viewing it from the edge of the paper
(almost 90 degrees), causing shine.
roughness
Alters specular reflection; the rougher the
surface, the wider and less contrasty the
shine.
specular
Represents the level that incident rays are
reflected in a single direction, causing shine.
vertexnormalsepsilon
Epsilon for vertex normals calculation avoids
math issues arising from degenerate geometry.
Returns
-------
plotly.graph_objs.mesh3d.Lighting
"""
return self["lighting"]
@lighting.setter
def lighting(self, val):
self["lighting"] = val
# lightposition
# -------------
@property
def lightposition(self):
"""
The 'lightposition' property is an instance of Lightposition
that may be specified as:
- An instance of :class:`plotly.graph_objs.mesh3d.Lightposition`
- A dict of string/value properties that will be passed
to the Lightposition constructor
Supported dict properties:
x
Numeric vector, representing the X coordinate
for each vertex.
y
Numeric vector, representing the Y coordinate
for each vertex.
z
Numeric vector, representing the Z coordinate
for each vertex.
Returns
-------
plotly.graph_objs.mesh3d.Lightposition
"""
return self["lightposition"]
@lightposition.setter
def lightposition(self, val):
self["lightposition"] = 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.
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
# opacity
# -------
@property
def opacity(self):
"""
Sets the opacity of the surface. Please note that in the case
of using high `opacity` values for example a value greater than
or equal to 0.5 on two surfaces (and 0.25 with four surfaces),
an overlay of multiple transparent surfaces may not perfectly
be sorted in depth by the webgl API. This behavior may be
improved in the near future and is subject to change.
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
# reversescale
# ------------
@property
def reversescale(self):
"""
Reverses the color mapping if true. If true, `cmin` will
correspond to the last color in the array and `cmax` will
correspond to the first color.
The 'reversescale' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["reversescale"]
@reversescale.setter
def reversescale(self, val):
self["reversescale"] = val
# scene
# -----
@property
def scene(self):
"""
Sets a reference between this trace's 3D coordinate system and
a 3D scene. If "scene" (the default value), the (x,y,z)
coordinates refer to `layout.scene`. If "scene2", the (x,y,z)
coordinates refer to `layout.scene2`, and so on.
The 'scene' property is an identifier of a particular
subplot, of type 'scene', that may be specified as the string 'scene'
optionally followed by an integer >= 1
(e.g. 'scene', 'scene1', 'scene2', 'scene3', etc.)
Returns
-------
str
"""
return self["scene"]
@scene.setter
def scene(self, val):
self["scene"] = 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
# showscale
# ---------
@property
def showscale(self):
"""
Determines whether or not a colorbar is displayed for this
trace.
The 'showscale' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["showscale"]
@showscale.setter
def showscale(self, val):
self["showscale"] = 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.mesh3d.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.mesh3d.Stream
"""
return self["stream"]
@stream.setter
def stream(self, val):
self["stream"] = val
# text
# ----
@property
def text(self):
"""
Sets the text elements associated with the vertices. If trace
`hoverinfo` contains a "text" flag and "hovertext" is not set,
these elements will be seen in the hover labels.
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
# vertexcolor
# -----------
@property
def vertexcolor(self):
"""
Sets the color of each vertex Overrides "color". While Red,
green and blue colors are in the range of 0 and 255; in the
case of having vertex color data in RGBA format, the alpha
color should be normalized to be between 0 and 1.
The 'vertexcolor' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["vertexcolor"]
@vertexcolor.setter
def vertexcolor(self, val):
self["vertexcolor"] = val
# vertexcolorsrc
# --------------
@property
def vertexcolorsrc(self):
"""
Sets the source reference on Chart Studio Cloud for
`vertexcolor`.
The 'vertexcolorsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["vertexcolorsrc"]
@vertexcolorsrc.setter
def vertexcolorsrc(self, val):
self["vertexcolorsrc"] = 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
# x
# -
@property
def x(self):
"""
Sets the X coordinates of the vertices. The nth element of
vectors `x`, `y` and `z` jointly represent the X, Y and Z
coordinates of the nth vertex.
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
# xcalendar
# ---------
@property
def xcalendar(self):
"""
Sets the calendar system to use with `x` date data.
The 'xcalendar' property is an enumeration that may be specified as:
- One of the following enumeration values:
['chinese', 'coptic', 'discworld', 'ethiopian',
'gregorian', 'hebrew', 'islamic', 'jalali', 'julian',
'mayan', 'nanakshahi', 'nepali', 'persian', 'taiwan',
'thai', 'ummalqura']
Returns
-------
Any
"""
return self["xcalendar"]
@xcalendar.setter
def xcalendar(self, val):
self["xcalendar"] = 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 coordinates of the vertices. The nth element of
vectors `x`, `y` and `z` jointly represent the X, Y and Z
coordinates of the nth vertex.
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
# ycalendar
# ---------
@property
def ycalendar(self):
"""
Sets the calendar system to use with `y` date data.
The 'ycalendar' property is an enumeration that may be specified as:
- One of the following enumeration values:
['chinese', 'coptic', 'discworld', 'ethiopian',
'gregorian', 'hebrew', 'islamic', 'jalali', 'julian',
'mayan', 'nanakshahi', 'nepali', 'persian', 'taiwan',
'thai', 'ummalqura']
Returns
-------
Any
"""
return self["ycalendar"]
@ycalendar.setter
def ycalendar(self, val):
self["ycalendar"] = 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
# z
# -
@property
def z(self):
"""
Sets the Z coordinates of the vertices. The nth element of
vectors `x`, `y` and `z` jointly represent the X, Y and Z
coordinates of the nth vertex.
The 'z' property is an array that may be specified as a tuple,
list, numpy array, or pandas Series
Returns
-------
numpy.ndarray
"""
return self["z"]
@z.setter
def z(self, val):
self["z"] = val
# zcalendar
# ---------
@property
def zcalendar(self):
"""
Sets the calendar system to use with `z` date data.
The 'zcalendar' property is an enumeration that may be specified as:
- One of the following enumeration values:
['chinese', 'coptic', 'discworld', 'ethiopian',
'gregorian', 'hebrew', 'islamic', 'jalali', 'julian',
'mayan', 'nanakshahi', 'nepali', 'persian', 'taiwan',
'thai', 'ummalqura']
Returns
-------
Any
"""
return self["zcalendar"]
@zcalendar.setter
def zcalendar(self, val):
self["zcalendar"] = val
# zhoverformat
# ------------
@property
def zhoverformat(self):
"""
Sets the hover text formatting rulefor `z` 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 `zaxis.hoverformat`.
The 'zhoverformat' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["zhoverformat"]
@zhoverformat.setter
def zhoverformat(self, val):
self["zhoverformat"] = val
# zsrc
# ----
@property
def zsrc(self):
"""
Sets the source reference on Chart Studio Cloud for `z`.
The 'zsrc' property must be specified as a string or
as a plotly.grid_objs.Column object
Returns
-------
str
"""
return self["zsrc"]
@zsrc.setter
def zsrc(self, val):
self["zsrc"] = val
# type
# ----
@property
def type(self):
return self._props["type"]
# Self properties description
# ---------------------------
@property
def _prop_descriptions(self):
return """\
alphahull
Determines how the mesh surface triangles are derived
from the set of vertices (points) represented by the
`x`, `y` and `z` arrays, if the `i`, `j`, `k` arrays
are not supplied. For general use of `mesh3d` it is
preferred that `i`, `j`, `k` are supplied. If "-1",
Delaunay triangulation is used, which is mainly
suitable if the mesh is a single, more or less layer
surface that is perpendicular to `delaunayaxis`. In
case the `delaunayaxis` intersects the mesh surface at
more than one point it will result triangles that are
very long in the dimension of `delaunayaxis`. If ">0",
the alpha-shape algorithm is used. In this case, the
positive `alphahull` value signals the use of the
alpha-shape algorithm, _and_ its value acts as the
parameter for the mesh fitting. If 0, the convex-hull
algorithm is used. It is suitable for convex bodies or
if the intention is to enclose the `x`, `y` and `z`
point set into a convex hull.
autocolorscale
Determines whether the colorscale is a default palette
(`autocolorscale: true`) or the palette determined by
`colorscale`. In case `colorscale` is unspecified or
`autocolorscale` is true, the default palette will be
chosen according to whether numbers in the `color`
array are all positive, all negative or mixed.
cauto
Determines whether or not the color domain is computed
with respect to the input data (here `intensity`) or
the bounds set in `cmin` and `cmax` Defaults to `false`
when `cmin` and `cmax` are set by the user.
cmax
Sets the upper bound of the color domain. Value should
have the same units as `intensity` and if set, `cmin`
must be set as well.
cmid
Sets the mid-point of the color domain by scaling
`cmin` and/or `cmax` to be equidistant to this point.
Value should have the same units as `intensity`. Has no
effect when `cauto` is `false`.
cmin
Sets the lower bound of the color domain. Value should
have the same units as `intensity` and if set, `cmax`
must be set as well.
color
Sets the color of the whole mesh
coloraxis
Sets a reference to a shared color axis. References to
these shared color axes are "coloraxis", "coloraxis2",
"coloraxis3", etc. Settings for these shared color axes
are set in the layout, under `layout.coloraxis`,
`layout.coloraxis2`, etc. Note that multiple color
scales can be linked to the same color axis.
colorbar
:class:`plotly.graph_objects.mesh3d.ColorBar` instance
or dict with compatible properties
colorscale
Sets the colorscale. The colorscale must be an array
containing arrays mapping a normalized value to an rgb,
rgba, hex, hsl, hsv, or named color string. At minimum,
a mapping for the lowest (0) and highest (1) values are
required. For example, `[[0, 'rgb(0,0,255)'], [1,
'rgb(255,0,0)']]`. To control the bounds of the
colorscale in color space, use `cmin` and `cmax`.
Alternatively, `colorscale` may be a palette name
string of the following list: Blackbody,Bluered,Blues,C
ividis,Earth,Electric,Greens,Greys,Hot,Jet,Picnic,Portl
and,Rainbow,RdBu,Reds,Viridis,YlGnBu,YlOrRd.
contour
:class:`plotly.graph_objects.mesh3d.Contour` 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`.
delaunayaxis
Sets the Delaunay axis, which is the axis that is
perpendicular to the surface of the Delaunay
triangulation. It has an effect if `i`, `j`, `k` are
not provided and `alphahull` is set to indicate
Delaunay triangulation.
facecolor
Sets the color of each face Overrides "color" and
"vertexcolor".
facecolorsrc
Sets the source reference on Chart Studio Cloud for
`facecolor`.
flatshading
Determines whether or not normal smoothing is applied
to the meshes, creating meshes with an angular, low-
poly look via flat reflections.
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.mesh3d.Hoverlabel`
instance or dict with compatible properties
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`.
i
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "first" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `i[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `i` represents a point in space, which
is the first vertex of a triangle.
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`.
intensity
Sets the intensity values for vertices or cells as
defined by `intensitymode`. It can be used for plotting
fields on meshes.
intensitymode
Determines the source of `intensity` values.
intensitysrc
Sets the source reference on Chart Studio Cloud for
`intensity`.
isrc
Sets the source reference on Chart Studio Cloud for
`i`.
j
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "second" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `j[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `j` represents a point in space, which
is the second vertex of a triangle.
jsrc
Sets the source reference on Chart Studio Cloud for
`j`.
k
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "third" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `k[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `k` represents a point in space, which
is the third vertex of a triangle.
ksrc
Sets the source reference on Chart Studio Cloud for
`k`.
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.mesh3d.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.
lighting
:class:`plotly.graph_objects.mesh3d.Lighting` instance
or dict with compatible properties
lightposition
:class:`plotly.graph_objects.mesh3d.Lightposition`
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.
opacity
Sets the opacity of the surface. Please note that in
the case of using high `opacity` values for example a
value greater than or equal to 0.5 on two surfaces (and
0.25 with four surfaces), an overlay of multiple
transparent surfaces may not perfectly be sorted in
depth by the webgl API. This behavior may be improved
in the near future and is subject to change.
reversescale
Reverses the color mapping if true. If true, `cmin`
will correspond to the last color in the array and
`cmax` will correspond to the first color.
scene
Sets a reference between this trace's 3D coordinate
system and a 3D scene. If "scene" (the default value),
the (x,y,z) coordinates refer to `layout.scene`. If
"scene2", the (x,y,z) coordinates refer to
`layout.scene2`, and so on.
showlegend
Determines whether or not an item corresponding to this
trace is shown in the legend.
showscale
Determines whether or not a colorbar is displayed for
this trace.
stream
:class:`plotly.graph_objects.mesh3d.Stream` instance or
dict with compatible properties
text
Sets the text elements associated with the vertices. If
trace `hoverinfo` contains a "text" flag and
"hovertext" is not set, these elements will be seen in
the hover labels.
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.
vertexcolor
Sets the color of each vertex Overrides "color". While
Red, green and blue colors are in the range of 0 and
255; in the case of having vertex color data in RGBA
format, the alpha color should be normalized to be
between 0 and 1.
vertexcolorsrc
Sets the source reference on Chart Studio Cloud for
`vertexcolor`.
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).
x
Sets the X coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
xcalendar
Sets the calendar system to use with `x` date data.
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 coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
ycalendar
Sets the calendar system to use with `y` date data.
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`.
z
Sets the Z coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
zcalendar
Sets the calendar system to use with `z` date data.
zhoverformat
Sets the hover text formatting rulefor `z` 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 `zaxis.hoverformat`.
zsrc
Sets the source reference on Chart Studio Cloud for
`z`.
"""
def __init__(
self,
arg=None,
alphahull=None,
autocolorscale=None,
cauto=None,
cmax=None,
cmid=None,
cmin=None,
color=None,
coloraxis=None,
colorbar=None,
colorscale=None,
contour=None,
customdata=None,
customdatasrc=None,
delaunayaxis=None,
facecolor=None,
facecolorsrc=None,
flatshading=None,
hoverinfo=None,
hoverinfosrc=None,
hoverlabel=None,
hovertemplate=None,
hovertemplatesrc=None,
hovertext=None,
hovertextsrc=None,
i=None,
ids=None,
idssrc=None,
intensity=None,
intensitymode=None,
intensitysrc=None,
isrc=None,
j=None,
jsrc=None,
k=None,
ksrc=None,
legend=None,
legendgroup=None,
legendgrouptitle=None,
legendrank=None,
legendwidth=None,
lighting=None,
lightposition=None,
meta=None,
metasrc=None,
name=None,
opacity=None,
reversescale=None,
scene=None,
showlegend=None,
showscale=None,
stream=None,
text=None,
textsrc=None,
uid=None,
uirevision=None,
vertexcolor=None,
vertexcolorsrc=None,
visible=None,
x=None,
xcalendar=None,
xhoverformat=None,
xsrc=None,
y=None,
ycalendar=None,
yhoverformat=None,
ysrc=None,
z=None,
zcalendar=None,
zhoverformat=None,
zsrc=None,
**kwargs,
):
"""
Construct a new Mesh3d object
Draws sets of triangles with coordinates given by three
1-dimensional arrays in `x`, `y`, `z` and (1) a sets of `i`,
`j`, `k` indices (2) Delaunay triangulation or (3) the Alpha-
shape algorithm or (4) the Convex-hull algorithm
Parameters
----------
arg
dict of properties compatible with this constructor or
an instance of :class:`plotly.graph_objs.Mesh3d`
alphahull
Determines how the mesh surface triangles are derived
from the set of vertices (points) represented by the
`x`, `y` and `z` arrays, if the `i`, `j`, `k` arrays
are not supplied. For general use of `mesh3d` it is
preferred that `i`, `j`, `k` are supplied. If "-1",
Delaunay triangulation is used, which is mainly
suitable if the mesh is a single, more or less layer
surface that is perpendicular to `delaunayaxis`. In
case the `delaunayaxis` intersects the mesh surface at
more than one point it will result triangles that are
very long in the dimension of `delaunayaxis`. If ">0",
the alpha-shape algorithm is used. In this case, the
positive `alphahull` value signals the use of the
alpha-shape algorithm, _and_ its value acts as the
parameter for the mesh fitting. If 0, the convex-hull
algorithm is used. It is suitable for convex bodies or
if the intention is to enclose the `x`, `y` and `z`
point set into a convex hull.
autocolorscale
Determines whether the colorscale is a default palette
(`autocolorscale: true`) or the palette determined by
`colorscale`. In case `colorscale` is unspecified or
`autocolorscale` is true, the default palette will be
chosen according to whether numbers in the `color`
array are all positive, all negative or mixed.
cauto
Determines whether or not the color domain is computed
with respect to the input data (here `intensity`) or
the bounds set in `cmin` and `cmax` Defaults to `false`
when `cmin` and `cmax` are set by the user.
cmax
Sets the upper bound of the color domain. Value should
have the same units as `intensity` and if set, `cmin`
must be set as well.
cmid
Sets the mid-point of the color domain by scaling
`cmin` and/or `cmax` to be equidistant to this point.
Value should have the same units as `intensity`. Has no
effect when `cauto` is `false`.
cmin
Sets the lower bound of the color domain. Value should
have the same units as `intensity` and if set, `cmax`
must be set as well.
color
Sets the color of the whole mesh
coloraxis
Sets a reference to a shared color axis. References to
these shared color axes are "coloraxis", "coloraxis2",
"coloraxis3", etc. Settings for these shared color axes
are set in the layout, under `layout.coloraxis`,
`layout.coloraxis2`, etc. Note that multiple color
scales can be linked to the same color axis.
colorbar
:class:`plotly.graph_objects.mesh3d.ColorBar` instance
or dict with compatible properties
colorscale
Sets the colorscale. The colorscale must be an array
containing arrays mapping a normalized value to an rgb,
rgba, hex, hsl, hsv, or named color string. At minimum,
a mapping for the lowest (0) and highest (1) values are
required. For example, `[[0, 'rgb(0,0,255)'], [1,
'rgb(255,0,0)']]`. To control the bounds of the
colorscale in color space, use `cmin` and `cmax`.
Alternatively, `colorscale` may be a palette name
string of the following list: Blackbody,Bluered,Blues,C
ividis,Earth,Electric,Greens,Greys,Hot,Jet,Picnic,Portl
and,Rainbow,RdBu,Reds,Viridis,YlGnBu,YlOrRd.
contour
:class:`plotly.graph_objects.mesh3d.Contour` 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`.
delaunayaxis
Sets the Delaunay axis, which is the axis that is
perpendicular to the surface of the Delaunay
triangulation. It has an effect if `i`, `j`, `k` are
not provided and `alphahull` is set to indicate
Delaunay triangulation.
facecolor
Sets the color of each face Overrides "color" and
"vertexcolor".
facecolorsrc
Sets the source reference on Chart Studio Cloud for
`facecolor`.
flatshading
Determines whether or not normal smoothing is applied
to the meshes, creating meshes with an angular, low-
poly look via flat reflections.
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.mesh3d.Hoverlabel`
instance or dict with compatible properties
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`.
i
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "first" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `i[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `i` represents a point in space, which
is the first vertex of a triangle.
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`.
intensity
Sets the intensity values for vertices or cells as
defined by `intensitymode`. It can be used for plotting
fields on meshes.
intensitymode
Determines the source of `intensity` values.
intensitysrc
Sets the source reference on Chart Studio Cloud for
`intensity`.
isrc
Sets the source reference on Chart Studio Cloud for
`i`.
j
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "second" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `j[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `j` represents a point in space, which
is the second vertex of a triangle.
jsrc
Sets the source reference on Chart Studio Cloud for
`j`.
k
A vector of vertex indices, i.e. integer values between
0 and the length of the vertex vectors, representing
the "third" vertex of a triangle. For example, `{i[m],
j[m], k[m]}` together represent face m (triangle m) in
the mesh, where `k[m] = n` points to the triplet
`{x[n], y[n], z[n]}` in the vertex arrays. Therefore,
each element in `k` represents a point in space, which
is the third vertex of a triangle.
ksrc
Sets the source reference on Chart Studio Cloud for
`k`.
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.mesh3d.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.
lighting
:class:`plotly.graph_objects.mesh3d.Lighting` instance
or dict with compatible properties
lightposition
:class:`plotly.graph_objects.mesh3d.Lightposition`
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.
opacity
Sets the opacity of the surface. Please note that in
the case of using high `opacity` values for example a
value greater than or equal to 0.5 on two surfaces (and
0.25 with four surfaces), an overlay of multiple
transparent surfaces may not perfectly be sorted in
depth by the webgl API. This behavior may be improved
in the near future and is subject to change.
reversescale
Reverses the color mapping if true. If true, `cmin`
will correspond to the last color in the array and
`cmax` will correspond to the first color.
scene
Sets a reference between this trace's 3D coordinate
system and a 3D scene. If "scene" (the default value),
the (x,y,z) coordinates refer to `layout.scene`. If
"scene2", the (x,y,z) coordinates refer to
`layout.scene2`, and so on.
showlegend
Determines whether or not an item corresponding to this
trace is shown in the legend.
showscale
Determines whether or not a colorbar is displayed for
this trace.
stream
:class:`plotly.graph_objects.mesh3d.Stream` instance or
dict with compatible properties
text
Sets the text elements associated with the vertices. If
trace `hoverinfo` contains a "text" flag and
"hovertext" is not set, these elements will be seen in
the hover labels.
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.
vertexcolor
Sets the color of each vertex Overrides "color". While
Red, green and blue colors are in the range of 0 and
255; in the case of having vertex color data in RGBA
format, the alpha color should be normalized to be
between 0 and 1.
vertexcolorsrc
Sets the source reference on Chart Studio Cloud for
`vertexcolor`.
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).
x
Sets the X coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
xcalendar
Sets the calendar system to use with `x` date data.
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 coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
ycalendar
Sets the calendar system to use with `y` date data.
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`.
z
Sets the Z coordinates of the vertices. The nth element
of vectors `x`, `y` and `z` jointly represent the X, Y
and Z coordinates of the nth vertex.
zcalendar
Sets the calendar system to use with `z` date data.
zhoverformat
Sets the hover text formatting rulefor `z` 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 `zaxis.hoverformat`.
zsrc
Sets the source reference on Chart Studio Cloud for
`z`.
Returns
-------
Mesh3d
"""
super(Mesh3d, self).__init__("mesh3d")
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.Mesh3d
constructor must be a dict or
an instance of :class:`plotly.graph_objs.Mesh3d`"""
)
# 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("alphahull", None)
_v = alphahull if alphahull is not None else _v
if _v is not None:
self["alphahull"] = _v
_v = arg.pop("autocolorscale", None)
_v = autocolorscale if autocolorscale is not None else _v
if _v is not None:
self["autocolorscale"] = _v
_v = arg.pop("cauto", None)
_v = cauto if cauto is not None else _v
if _v is not None:
self["cauto"] = _v
_v = arg.pop("cmax", None)
_v = cmax if cmax is not None else _v
if _v is not None:
self["cmax"] = _v
_v = arg.pop("cmid", None)
_v = cmid if cmid is not None else _v
if _v is not None:
self["cmid"] = _v
_v = arg.pop("cmin", None)
_v = cmin if cmin is not None else _v
if _v is not None:
self["cmin"] = _v
_v = arg.pop("color", None)
_v = color if color is not None else _v
if _v is not None:
self["color"] = _v
_v = arg.pop("coloraxis", None)
_v = coloraxis if coloraxis is not None else _v
if _v is not None:
self["coloraxis"] = _v
_v = arg.pop("colorbar", None)
_v = colorbar if colorbar is not None else _v
if _v is not None:
self["colorbar"] = _v
_v = arg.pop("colorscale", None)
_v = colorscale if colorscale is not None else _v
if _v is not None:
self["colorscale"] = _v
_v = arg.pop("contour", None)
_v = contour if contour is not None else _v
if _v is not None:
self["contour"] = _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("delaunayaxis", None)
_v = delaunayaxis if delaunayaxis is not None else _v
if _v is not None:
self["delaunayaxis"] = _v
_v = arg.pop("facecolor", None)
_v = facecolor if facecolor is not None else _v
if _v is not None:
self["facecolor"] = _v
_v = arg.pop("facecolorsrc", None)
_v = facecolorsrc if facecolorsrc is not None else _v
if _v is not None:
self["facecolorsrc"] = _v
_v = arg.pop("flatshading", None)
_v = flatshading if flatshading is not None else _v
if _v is not None:
self["flatshading"] = _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("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("i", None)
_v = i if i is not None else _v
if _v is not None:
self["i"] = _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("intensity", None)
_v = intensity if intensity is not None else _v
if _v is not None:
self["intensity"] = _v
_v = arg.pop("intensitymode", None)
_v = intensitymode if intensitymode is not None else _v
if _v is not None:
self["intensitymode"] = _v
_v = arg.pop("intensitysrc", None)
_v = intensitysrc if intensitysrc is not None else _v
if _v is not None:
self["intensitysrc"] = _v
_v = arg.pop("isrc", None)
_v = isrc if isrc is not None else _v
if _v is not None:
self["isrc"] = _v
_v = arg.pop("j", None)
_v = j if j is not None else _v
if _v is not None:
self["j"] = _v
_v = arg.pop("jsrc", None)
_v = jsrc if jsrc is not None else _v
if _v is not None:
self["jsrc"] = _v
_v = arg.pop("k", None)
_v = k if k is not None else _v
if _v is not None:
self["k"] = _v
_v = arg.pop("ksrc", None)
_v = ksrc if ksrc is not None else _v
if _v is not None:
self["ksrc"] = _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("lighting", None)
_v = lighting if lighting is not None else _v
if _v is not None:
self["lighting"] = _v
_v = arg.pop("lightposition", None)
_v = lightposition if lightposition is not None else _v
if _v is not None:
self["lightposition"] = _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("opacity", None)
_v = opacity if opacity is not None else _v
if _v is not None:
self["opacity"] = _v
_v = arg.pop("reversescale", None)
_v = reversescale if reversescale is not None else _v
if _v is not None:
self["reversescale"] = _v
_v = arg.pop("scene", None)
_v = scene if scene is not None else _v
if _v is not None:
self["scene"] = _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("showscale", None)
_v = showscale if showscale is not None else _v
if _v is not None:
self["showscale"] = _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("vertexcolor", None)
_v = vertexcolor if vertexcolor is not None else _v
if _v is not None:
self["vertexcolor"] = _v
_v = arg.pop("vertexcolorsrc", None)
_v = vertexcolorsrc if vertexcolorsrc is not None else _v
if _v is not None:
self["vertexcolorsrc"] = _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("x", None)
_v = x if x is not None else _v
if _v is not None:
self["x"] = _v
_v = arg.pop("xcalendar", None)
_v = xcalendar if xcalendar is not None else _v
if _v is not None:
self["xcalendar"] = _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("ycalendar", None)
_v = ycalendar if ycalendar is not None else _v
if _v is not None:
self["ycalendar"] = _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
_v = arg.pop("z", None)
_v = z if z is not None else _v
if _v is not None:
self["z"] = _v
_v = arg.pop("zcalendar", None)
_v = zcalendar if zcalendar is not None else _v
if _v is not None:
self["zcalendar"] = _v
_v = arg.pop("zhoverformat", None)
_v = zhoverformat if zhoverformat is not None else _v
if _v is not None:
self["zhoverformat"] = _v
_v = arg.pop("zsrc", None)
_v = zsrc if zsrc is not None else _v
if _v is not None:
self["zsrc"] = _v
# Read-only literals
# ------------------
self._props["type"] = "mesh3d"
arg.pop("type", None)
# Process unknown kwargs
# ----------------------
self._process_kwargs(**dict(arg, **kwargs))
# Reset skip_invalid
# ------------------
self._skip_invalid = False
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