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AzSuicideDataVisualization/.venv/Lib/site-packages/plotly/graph_objs/layout/_shape.py
Ayxan d660f2a4ca first commit
2022-05-23 00:16:32 +04:00

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from plotly.basedatatypes import BaseLayoutHierarchyType as _BaseLayoutHierarchyType
import copy as _copy
class Shape(_BaseLayoutHierarchyType):
# class properties
# --------------------
_parent_path_str = "layout"
_path_str = "layout.shape"
_valid_props = {
"editable",
"fillcolor",
"fillrule",
"layer",
"line",
"name",
"opacity",
"path",
"templateitemname",
"type",
"visible",
"x0",
"x1",
"xanchor",
"xref",
"xsizemode",
"y0",
"y1",
"yanchor",
"yref",
"ysizemode",
}
# editable
# --------
@property
def editable(self):
"""
Determines whether the shape could be activated for edit or
not. Has no effect when the older editable shapes mode is
enabled via `config.editable` or `config.edits.shapePosition`.
The 'editable' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["editable"]
@editable.setter
def editable(self, val):
self["editable"] = val
# fillcolor
# ---------
@property
def fillcolor(self):
"""
Sets the color filling the shape's interior. Only applies to
closed shapes.
The 'fillcolor' property is a color and may be specified as:
- A hex string (e.g. '#ff0000')
- An rgb/rgba string (e.g. 'rgb(255,0,0)')
- An hsl/hsla string (e.g. 'hsl(0,100%,50%)')
- An hsv/hsva string (e.g. 'hsv(0,100%,100%)')
- A named CSS color:
aliceblue, antiquewhite, aqua, aquamarine, azure,
beige, bisque, black, blanchedalmond, blue,
blueviolet, brown, burlywood, cadetblue,
chartreuse, chocolate, coral, cornflowerblue,
cornsilk, crimson, cyan, darkblue, darkcyan,
darkgoldenrod, darkgray, darkgrey, darkgreen,
darkkhaki, darkmagenta, darkolivegreen, darkorange,
darkorchid, darkred, darksalmon, darkseagreen,
darkslateblue, darkslategray, darkslategrey,
darkturquoise, darkviolet, deeppink, deepskyblue,
dimgray, dimgrey, dodgerblue, firebrick,
floralwhite, forestgreen, fuchsia, gainsboro,
ghostwhite, gold, goldenrod, gray, grey, green,
greenyellow, honeydew, hotpink, indianred, indigo,
ivory, khaki, lavender, lavenderblush, lawngreen,
lemonchiffon, lightblue, lightcoral, lightcyan,
lightgoldenrodyellow, lightgray, lightgrey,
lightgreen, lightpink, lightsalmon, lightseagreen,
lightskyblue, lightslategray, lightslategrey,
lightsteelblue, lightyellow, lime, limegreen,
linen, magenta, maroon, mediumaquamarine,
mediumblue, mediumorchid, mediumpurple,
mediumseagreen, mediumslateblue, mediumspringgreen,
mediumturquoise, mediumvioletred, midnightblue,
mintcream, mistyrose, moccasin, navajowhite, navy,
oldlace, olive, olivedrab, orange, orangered,
orchid, palegoldenrod, palegreen, paleturquoise,
palevioletred, papayawhip, peachpuff, peru, pink,
plum, powderblue, purple, red, rosybrown,
royalblue, rebeccapurple, saddlebrown, salmon,
sandybrown, seagreen, seashell, sienna, silver,
skyblue, slateblue, slategray, slategrey, snow,
springgreen, steelblue, tan, teal, thistle, tomato,
turquoise, violet, wheat, white, whitesmoke,
yellow, yellowgreen
Returns
-------
str
"""
return self["fillcolor"]
@fillcolor.setter
def fillcolor(self, val):
self["fillcolor"] = val
# fillrule
# --------
@property
def fillrule(self):
"""
Determines which regions of complex paths constitute the
interior. For more info please visit
https://developer.mozilla.org/en-
US/docs/Web/SVG/Attribute/fill-rule
The 'fillrule' property is an enumeration that may be specified as:
- One of the following enumeration values:
['evenodd', 'nonzero']
Returns
-------
Any
"""
return self["fillrule"]
@fillrule.setter
def fillrule(self, val):
self["fillrule"] = val
# layer
# -----
@property
def layer(self):
"""
Specifies whether shapes are drawn below or above traces.
The 'layer' property is an enumeration that may be specified as:
- One of the following enumeration values:
['below', 'above']
Returns
-------
Any
"""
return self["layer"]
@layer.setter
def layer(self, val):
self["layer"] = val
# line
# ----
@property
def line(self):
"""
The 'line' property is an instance of Line
that may be specified as:
- An instance of :class:`plotly.graph_objs.layout.shape.Line`
- A dict of string/value properties that will be passed
to the Line constructor
Supported dict properties:
color
Sets the line color.
dash
Sets the dash style of lines. Set to a dash
type string ("solid", "dot", "dash",
"longdash", "dashdot", or "longdashdot") or a
dash length list in px (eg "5px,10px,2px,2px").
width
Sets the line width (in px).
Returns
-------
plotly.graph_objs.layout.shape.Line
"""
return self["line"]
@line.setter
def line(self, val):
self["line"] = val
# name
# ----
@property
def name(self):
"""
When used in a template, named items are created in the output
figure in addition to any items the figure already has in this
array. You can modify these items in the output figure by
making your own item with `templateitemname` matching this
`name` alongside your modifications (including `visible: false`
or `enabled: false` to hide it). Has no effect outside of a
template.
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 shape.
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
# path
# ----
@property
def path(self):
"""
For `type` "path" - a valid SVG path with the pixel values
replaced by data values in `xsizemode`/`ysizemode` being
"scaled" and taken unmodified as pixels relative to `xanchor`
and `yanchor` in case of "pixel" size mode. There are a few
restrictions / quirks only absolute instructions, not relative.
So the allowed segments are: M, L, H, V, Q, C, T, S, and Z arcs
(A) are not allowed because radius rx and ry are relative. In
the future we could consider supporting relative commands, but
we would have to decide on how to handle date and log axes.
Note that even as is, Q and C Bezier paths that are smooth on
linear axes may not be smooth on log, and vice versa. no
chained "polybezier" commands - specify the segment type for
each one. On category axes, values are numbers scaled to the
serial numbers of categories because using the categories
themselves there would be no way to describe fractional
positions On data axes: because space and T are both normal
components of path strings, we can't use either to separate
date from time parts. Therefore we'll use underscore for this
purpose: 2015-02-21_13:45:56.789
The 'path' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["path"]
@path.setter
def path(self, val):
self["path"] = val
# templateitemname
# ----------------
@property
def templateitemname(self):
"""
Used to refer to a named item in this array in the template.
Named items from the template will be created even without a
matching item in the input figure, but you can modify one by
making an item with `templateitemname` matching its `name`,
alongside your modifications (including `visible: false` or
`enabled: false` to hide it). If there is no template or no
matching item, this item will be hidden unless you explicitly
show it with `visible: true`.
The 'templateitemname' property is a string and must be specified as:
- A string
- A number that will be converted to a string
Returns
-------
str
"""
return self["templateitemname"]
@templateitemname.setter
def templateitemname(self, val):
self["templateitemname"] = val
# type
# ----
@property
def type(self):
"""
Specifies the shape type to be drawn. If "line", a line is
drawn from (`x0`,`y0`) to (`x1`,`y1`) with respect to the axes'
sizing mode. If "circle", a circle is drawn from
((`x0`+`x1`)/2, (`y0`+`y1`)/2)) with radius (|(`x0`+`x1`)/2 -
`x0`|, |(`y0`+`y1`)/2 -`y0`)|) with respect to the axes' sizing
mode. If "rect", a rectangle is drawn linking (`x0`,`y0`),
(`x1`,`y0`), (`x1`,`y1`), (`x0`,`y1`), (`x0`,`y0`) with respect
to the axes' sizing mode. If "path", draw a custom SVG path
using `path`. with respect to the axes' sizing mode.
The 'type' property is an enumeration that may be specified as:
- One of the following enumeration values:
['circle', 'rect', 'path', 'line']
Returns
-------
Any
"""
return self["type"]
@type.setter
def type(self, val):
self["type"] = val
# visible
# -------
@property
def visible(self):
"""
Determines whether or not this shape is visible.
The 'visible' property must be specified as a bool
(either True, or False)
Returns
-------
bool
"""
return self["visible"]
@visible.setter
def visible(self, val):
self["visible"] = val
# x0
# --
@property
def x0(self):
"""
Sets the shape's starting x position. See `type` and
`xsizemode` for more info.
The 'x0' property accepts values of any type
Returns
-------
Any
"""
return self["x0"]
@x0.setter
def x0(self, val):
self["x0"] = val
# x1
# --
@property
def x1(self):
"""
Sets the shape's end x position. See `type` and `xsizemode` for
more info.
The 'x1' property accepts values of any type
Returns
-------
Any
"""
return self["x1"]
@x1.setter
def x1(self, val):
self["x1"] = val
# xanchor
# -------
@property
def xanchor(self):
"""
Only relevant in conjunction with `xsizemode` set to "pixel".
Specifies the anchor point on the x axis to which `x0`, `x1`
and x coordinates within `path` are relative to. E.g. useful to
attach a pixel sized shape to a certain data value. No effect
when `xsizemode` not set to "pixel".
The 'xanchor' property accepts values of any type
Returns
-------
Any
"""
return self["xanchor"]
@xanchor.setter
def xanchor(self, val):
self["xanchor"] = val
# xref
# ----
@property
def xref(self):
"""
Sets the shape's x coordinate axis. If set to a x axis id (e.g.
"x" or "x2"), the `x` position refers to a x coordinate. If set
to "paper", the `x` position refers to the distance from the
left of the plotting area in normalized coordinates where 0 (1)
corresponds to the left (right). If set to a x axis ID followed
by "domain" (separated by a space), the position behaves like
for "paper", but refers to the distance in fractions of the
domain length from the left of the domain of that axis: e.g.,
*x2 domain* refers to the domain of the second x axis and a x
position of 0.5 refers to the point between the left and the
right of the domain of the second x axis. If the axis `type` is
"log", then you must take the log of your desired range. If the
axis `type` is "date", then you must convert the date to unix
time in milliseconds.
The 'xref' property is an enumeration that may be specified as:
- One of the following enumeration values:
['paper']
- A string that matches one of the following regular expressions:
['^x([2-9]|[1-9][0-9]+)?( domain)?$']
Returns
-------
Any
"""
return self["xref"]
@xref.setter
def xref(self, val):
self["xref"] = val
# xsizemode
# ---------
@property
def xsizemode(self):
"""
Sets the shapes's sizing mode along the x axis. If set to
"scaled", `x0`, `x1` and x coordinates within `path` refer to
data values on the x axis or a fraction of the plot area's
width (`xref` set to "paper"). If set to "pixel", `xanchor`
specifies the x position in terms of data or plot fraction but
`x0`, `x1` and x coordinates within `path` are pixels relative
to `xanchor`. This way, the shape can have a fixed width while
maintaining a position relative to data or plot fraction.
The 'xsizemode' property is an enumeration that may be specified as:
- One of the following enumeration values:
['scaled', 'pixel']
Returns
-------
Any
"""
return self["xsizemode"]
@xsizemode.setter
def xsizemode(self, val):
self["xsizemode"] = val
# y0
# --
@property
def y0(self):
"""
Sets the shape's starting y position. See `type` and
`ysizemode` for more info.
The 'y0' property accepts values of any type
Returns
-------
Any
"""
return self["y0"]
@y0.setter
def y0(self, val):
self["y0"] = val
# y1
# --
@property
def y1(self):
"""
Sets the shape's end y position. See `type` and `ysizemode` for
more info.
The 'y1' property accepts values of any type
Returns
-------
Any
"""
return self["y1"]
@y1.setter
def y1(self, val):
self["y1"] = val
# yanchor
# -------
@property
def yanchor(self):
"""
Only relevant in conjunction with `ysizemode` set to "pixel".
Specifies the anchor point on the y axis to which `y0`, `y1`
and y coordinates within `path` are relative to. E.g. useful to
attach a pixel sized shape to a certain data value. No effect
when `ysizemode` not set to "pixel".
The 'yanchor' property accepts values of any type
Returns
-------
Any
"""
return self["yanchor"]
@yanchor.setter
def yanchor(self, val):
self["yanchor"] = val
# yref
# ----
@property
def yref(self):
"""
Sets the annotation's y coordinate axis. If set to a y axis id
(e.g. "y" or "y2"), the `y` position refers to a y coordinate.
If set to "paper", the `y` position refers to the distance from
the bottom of the plotting area in normalized coordinates where
0 (1) corresponds to the bottom (top). If set to a y axis ID
followed by "domain" (separated by a space), the position
behaves like for "paper", but refers to the distance in
fractions of the domain length from the bottom of the domain of
that axis: e.g., *y2 domain* refers to the domain of the second
y axis and a y position of 0.5 refers to the point between the
bottom and the top of the domain of the second y axis.
The 'yref' property is an enumeration that may be specified as:
- One of the following enumeration values:
['paper']
- A string that matches one of the following regular expressions:
['^y([2-9]|[1-9][0-9]+)?( domain)?$']
Returns
-------
Any
"""
return self["yref"]
@yref.setter
def yref(self, val):
self["yref"] = val
# ysizemode
# ---------
@property
def ysizemode(self):
"""
Sets the shapes's sizing mode along the y axis. If set to
"scaled", `y0`, `y1` and y coordinates within `path` refer to
data values on the y axis or a fraction of the plot area's
height (`yref` set to "paper"). If set to "pixel", `yanchor`
specifies the y position in terms of data or plot fraction but
`y0`, `y1` and y coordinates within `path` are pixels relative
to `yanchor`. This way, the shape can have a fixed height while
maintaining a position relative to data or plot fraction.
The 'ysizemode' property is an enumeration that may be specified as:
- One of the following enumeration values:
['scaled', 'pixel']
Returns
-------
Any
"""
return self["ysizemode"]
@ysizemode.setter
def ysizemode(self, val):
self["ysizemode"] = val
# Self properties description
# ---------------------------
@property
def _prop_descriptions(self):
return """\
editable
Determines whether the shape could be activated for
edit or not. Has no effect when the older editable
shapes mode is enabled via `config.editable` or
`config.edits.shapePosition`.
fillcolor
Sets the color filling the shape's interior. Only
applies to closed shapes.
fillrule
Determines which regions of complex paths constitute
the interior. For more info please visit
https://developer.mozilla.org/en-
US/docs/Web/SVG/Attribute/fill-rule
layer
Specifies whether shapes are drawn below or above
traces.
line
:class:`plotly.graph_objects.layout.shape.Line`
instance or dict with compatible properties
name
When used in a template, named items are created in the
output figure in addition to any items the figure
already has in this array. You can modify these items
in the output figure by making your own item with
`templateitemname` matching this `name` alongside your
modifications (including `visible: false` or `enabled:
false` to hide it). Has no effect outside of a
template.
opacity
Sets the opacity of the shape.
path
For `type` "path" - a valid SVG path with the pixel
values replaced by data values in
`xsizemode`/`ysizemode` being "scaled" and taken
unmodified as pixels relative to `xanchor` and
`yanchor` in case of "pixel" size mode. There are a few
restrictions / quirks only absolute instructions, not
relative. So the allowed segments are: M, L, H, V, Q,
C, T, S, and Z arcs (A) are not allowed because radius
rx and ry are relative. In the future we could consider
supporting relative commands, but we would have to
decide on how to handle date and log axes. Note that
even as is, Q and C Bezier paths that are smooth on
linear axes may not be smooth on log, and vice versa.
no chained "polybezier" commands - specify the segment
type for each one. On category axes, values are numbers
scaled to the serial numbers of categories because
using the categories themselves there would be no way
to describe fractional positions On data axes: because
space and T are both normal components of path strings,
we can't use either to separate date from time parts.
Therefore we'll use underscore for this purpose:
2015-02-21_13:45:56.789
templateitemname
Used to refer to a named item in this array in the
template. Named items from the template will be created
even without a matching item in the input figure, but
you can modify one by making an item with
`templateitemname` matching its `name`, alongside your
modifications (including `visible: false` or `enabled:
false` to hide it). If there is no template or no
matching item, this item will be hidden unless you
explicitly show it with `visible: true`.
type
Specifies the shape type to be drawn. If "line", a line
is drawn from (`x0`,`y0`) to (`x1`,`y1`) with respect
to the axes' sizing mode. If "circle", a circle is
drawn from ((`x0`+`x1`)/2, (`y0`+`y1`)/2)) with radius
(|(`x0`+`x1`)/2 - `x0`|, |(`y0`+`y1`)/2 -`y0`)|) with
respect to the axes' sizing mode. If "rect", a
rectangle is drawn linking (`x0`,`y0`), (`x1`,`y0`),
(`x1`,`y1`), (`x0`,`y1`), (`x0`,`y0`) with respect to
the axes' sizing mode. If "path", draw a custom SVG
path using `path`. with respect to the axes' sizing
mode.
visible
Determines whether or not this shape is visible.
x0
Sets the shape's starting x position. See `type` and
`xsizemode` for more info.
x1
Sets the shape's end x position. See `type` and
`xsizemode` for more info.
xanchor
Only relevant in conjunction with `xsizemode` set to
"pixel". Specifies the anchor point on the x axis to
which `x0`, `x1` and x coordinates within `path` are
relative to. E.g. useful to attach a pixel sized shape
to a certain data value. No effect when `xsizemode` not
set to "pixel".
xref
Sets the shape's x coordinate axis. If set to a x axis
id (e.g. "x" or "x2"), the `x` position refers to a x
coordinate. If set to "paper", the `x` position refers
to the distance from the left of the plotting area in
normalized coordinates where 0 (1) corresponds to the
left (right). If set to a x axis ID followed by
"domain" (separated by a space), the position behaves
like for "paper", but refers to the distance in
fractions of the domain length from the left of the
domain of that axis: e.g., *x2 domain* refers to the
domain of the second x axis and a x position of 0.5
refers to the point between the left and the right of
the domain of the second x axis. If the axis `type` is
"log", then you must take the log of your desired
range. If the axis `type` is "date", then you must
convert the date to unix time in milliseconds.
xsizemode
Sets the shapes's sizing mode along the x axis. If set
to "scaled", `x0`, `x1` and x coordinates within `path`
refer to data values on the x axis or a fraction of the
plot area's width (`xref` set to "paper"). If set to
"pixel", `xanchor` specifies the x position in terms of
data or plot fraction but `x0`, `x1` and x coordinates
within `path` are pixels relative to `xanchor`. This
way, the shape can have a fixed width while maintaining
a position relative to data or plot fraction.
y0
Sets the shape's starting y position. See `type` and
`ysizemode` for more info.
y1
Sets the shape's end y position. See `type` and
`ysizemode` for more info.
yanchor
Only relevant in conjunction with `ysizemode` set to
"pixel". Specifies the anchor point on the y axis to
which `y0`, `y1` and y coordinates within `path` are
relative to. E.g. useful to attach a pixel sized shape
to a certain data value. No effect when `ysizemode` not
set to "pixel".
yref
Sets the annotation's y coordinate axis. If set to a y
axis id (e.g. "y" or "y2"), the `y` position refers to
a y coordinate. If set to "paper", the `y` position
refers to the distance from the bottom of the plotting
area in normalized coordinates where 0 (1) corresponds
to the bottom (top). If set to a y axis ID followed by
"domain" (separated by a space), the position behaves
like for "paper", but refers to the distance in
fractions of the domain length from the bottom of the
domain of that axis: e.g., *y2 domain* refers to the
domain of the second y axis and a y position of 0.5
refers to the point between the bottom and the top of
the domain of the second y axis.
ysizemode
Sets the shapes's sizing mode along the y axis. If set
to "scaled", `y0`, `y1` and y coordinates within `path`
refer to data values on the y axis or a fraction of the
plot area's height (`yref` set to "paper"). If set to
"pixel", `yanchor` specifies the y position in terms of
data or plot fraction but `y0`, `y1` and y coordinates
within `path` are pixels relative to `yanchor`. This
way, the shape can have a fixed height while
maintaining a position relative to data or plot
fraction.
"""
def __init__(
self,
arg=None,
editable=None,
fillcolor=None,
fillrule=None,
layer=None,
line=None,
name=None,
opacity=None,
path=None,
templateitemname=None,
type=None,
visible=None,
x0=None,
x1=None,
xanchor=None,
xref=None,
xsizemode=None,
y0=None,
y1=None,
yanchor=None,
yref=None,
ysizemode=None,
**kwargs,
):
"""
Construct a new Shape object
Parameters
----------
arg
dict of properties compatible with this constructor or
an instance of :class:`plotly.graph_objs.layout.Shape`
editable
Determines whether the shape could be activated for
edit or not. Has no effect when the older editable
shapes mode is enabled via `config.editable` or
`config.edits.shapePosition`.
fillcolor
Sets the color filling the shape's interior. Only
applies to closed shapes.
fillrule
Determines which regions of complex paths constitute
the interior. For more info please visit
https://developer.mozilla.org/en-
US/docs/Web/SVG/Attribute/fill-rule
layer
Specifies whether shapes are drawn below or above
traces.
line
:class:`plotly.graph_objects.layout.shape.Line`
instance or dict with compatible properties
name
When used in a template, named items are created in the
output figure in addition to any items the figure
already has in this array. You can modify these items
in the output figure by making your own item with
`templateitemname` matching this `name` alongside your
modifications (including `visible: false` or `enabled:
false` to hide it). Has no effect outside of a
template.
opacity
Sets the opacity of the shape.
path
For `type` "path" - a valid SVG path with the pixel
values replaced by data values in
`xsizemode`/`ysizemode` being "scaled" and taken
unmodified as pixels relative to `xanchor` and
`yanchor` in case of "pixel" size mode. There are a few
restrictions / quirks only absolute instructions, not
relative. So the allowed segments are: M, L, H, V, Q,
C, T, S, and Z arcs (A) are not allowed because radius
rx and ry are relative. In the future we could consider
supporting relative commands, but we would have to
decide on how to handle date and log axes. Note that
even as is, Q and C Bezier paths that are smooth on
linear axes may not be smooth on log, and vice versa.
no chained "polybezier" commands - specify the segment
type for each one. On category axes, values are numbers
scaled to the serial numbers of categories because
using the categories themselves there would be no way
to describe fractional positions On data axes: because
space and T are both normal components of path strings,
we can't use either to separate date from time parts.
Therefore we'll use underscore for this purpose:
2015-02-21_13:45:56.789
templateitemname
Used to refer to a named item in this array in the
template. Named items from the template will be created
even without a matching item in the input figure, but
you can modify one by making an item with
`templateitemname` matching its `name`, alongside your
modifications (including `visible: false` or `enabled:
false` to hide it). If there is no template or no
matching item, this item will be hidden unless you
explicitly show it with `visible: true`.
type
Specifies the shape type to be drawn. If "line", a line
is drawn from (`x0`,`y0`) to (`x1`,`y1`) with respect
to the axes' sizing mode. If "circle", a circle is
drawn from ((`x0`+`x1`)/2, (`y0`+`y1`)/2)) with radius
(|(`x0`+`x1`)/2 - `x0`|, |(`y0`+`y1`)/2 -`y0`)|) with
respect to the axes' sizing mode. If "rect", a
rectangle is drawn linking (`x0`,`y0`), (`x1`,`y0`),
(`x1`,`y1`), (`x0`,`y1`), (`x0`,`y0`) with respect to
the axes' sizing mode. If "path", draw a custom SVG
path using `path`. with respect to the axes' sizing
mode.
visible
Determines whether or not this shape is visible.
x0
Sets the shape's starting x position. See `type` and
`xsizemode` for more info.
x1
Sets the shape's end x position. See `type` and
`xsizemode` for more info.
xanchor
Only relevant in conjunction with `xsizemode` set to
"pixel". Specifies the anchor point on the x axis to
which `x0`, `x1` and x coordinates within `path` are
relative to. E.g. useful to attach a pixel sized shape
to a certain data value. No effect when `xsizemode` not
set to "pixel".
xref
Sets the shape's x coordinate axis. If set to a x axis
id (e.g. "x" or "x2"), the `x` position refers to a x
coordinate. If set to "paper", the `x` position refers
to the distance from the left of the plotting area in
normalized coordinates where 0 (1) corresponds to the
left (right). If set to a x axis ID followed by
"domain" (separated by a space), the position behaves
like for "paper", but refers to the distance in
fractions of the domain length from the left of the
domain of that axis: e.g., *x2 domain* refers to the
domain of the second x axis and a x position of 0.5
refers to the point between the left and the right of
the domain of the second x axis. If the axis `type` is
"log", then you must take the log of your desired
range. If the axis `type` is "date", then you must
convert the date to unix time in milliseconds.
xsizemode
Sets the shapes's sizing mode along the x axis. If set
to "scaled", `x0`, `x1` and x coordinates within `path`
refer to data values on the x axis or a fraction of the
plot area's width (`xref` set to "paper"). If set to
"pixel", `xanchor` specifies the x position in terms of
data or plot fraction but `x0`, `x1` and x coordinates
within `path` are pixels relative to `xanchor`. This
way, the shape can have a fixed width while maintaining
a position relative to data or plot fraction.
y0
Sets the shape's starting y position. See `type` and
`ysizemode` for more info.
y1
Sets the shape's end y position. See `type` and
`ysizemode` for more info.
yanchor
Only relevant in conjunction with `ysizemode` set to
"pixel". Specifies the anchor point on the y axis to
which `y0`, `y1` and y coordinates within `path` are
relative to. E.g. useful to attach a pixel sized shape
to a certain data value. No effect when `ysizemode` not
set to "pixel".
yref
Sets the annotation's y coordinate axis. If set to a y
axis id (e.g. "y" or "y2"), the `y` position refers to
a y coordinate. If set to "paper", the `y` position
refers to the distance from the bottom of the plotting
area in normalized coordinates where 0 (1) corresponds
to the bottom (top). If set to a y axis ID followed by
"domain" (separated by a space), the position behaves
like for "paper", but refers to the distance in
fractions of the domain length from the bottom of the
domain of that axis: e.g., *y2 domain* refers to the
domain of the second y axis and a y position of 0.5
refers to the point between the bottom and the top of
the domain of the second y axis.
ysizemode
Sets the shapes's sizing mode along the y axis. If set
to "scaled", `y0`, `y1` and y coordinates within `path`
refer to data values on the y axis or a fraction of the
plot area's height (`yref` set to "paper"). If set to
"pixel", `yanchor` specifies the y position in terms of
data or plot fraction but `y0`, `y1` and y coordinates
within `path` are pixels relative to `yanchor`. This
way, the shape can have a fixed height while
maintaining a position relative to data or plot
fraction.
Returns
-------
Shape
"""
super(Shape, self).__init__("shapes")
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.layout.Shape
constructor must be a dict or
an instance of :class:`plotly.graph_objs.layout.Shape`"""
)
# 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("editable", None)
_v = editable if editable is not None else _v
if _v is not None:
self["editable"] = _v
_v = arg.pop("fillcolor", None)
_v = fillcolor if fillcolor is not None else _v
if _v is not None:
self["fillcolor"] = _v
_v = arg.pop("fillrule", None)
_v = fillrule if fillrule is not None else _v
if _v is not None:
self["fillrule"] = _v
_v = arg.pop("layer", None)
_v = layer if layer is not None else _v
if _v is not None:
self["layer"] = _v
_v = arg.pop("line", None)
_v = line if line is not None else _v
if _v is not None:
self["line"] = _v
_v = arg.pop("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("path", None)
_v = path if path is not None else _v
if _v is not None:
self["path"] = _v
_v = arg.pop("templateitemname", None)
_v = templateitemname if templateitemname is not None else _v
if _v is not None:
self["templateitemname"] = _v
_v = arg.pop("type", None)
_v = type if type is not None else _v
if _v is not None:
self["type"] = _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("x0", None)
_v = x0 if x0 is not None else _v
if _v is not None:
self["x0"] = _v
_v = arg.pop("x1", None)
_v = x1 if x1 is not None else _v
if _v is not None:
self["x1"] = _v
_v = arg.pop("xanchor", None)
_v = xanchor if xanchor is not None else _v
if _v is not None:
self["xanchor"] = _v
_v = arg.pop("xref", None)
_v = xref if xref is not None else _v
if _v is not None:
self["xref"] = _v
_v = arg.pop("xsizemode", None)
_v = xsizemode if xsizemode is not None else _v
if _v is not None:
self["xsizemode"] = _v
_v = arg.pop("y0", None)
_v = y0 if y0 is not None else _v
if _v is not None:
self["y0"] = _v
_v = arg.pop("y1", None)
_v = y1 if y1 is not None else _v
if _v is not None:
self["y1"] = _v
_v = arg.pop("yanchor", None)
_v = yanchor if yanchor is not None else _v
if _v is not None:
self["yanchor"] = _v
_v = arg.pop("yref", None)
_v = yref if yref is not None else _v
if _v is not None:
self["yref"] = _v
_v = arg.pop("ysizemode", None)
_v = ysizemode if ysizemode is not None else _v
if _v is not None:
self["ysizemode"] = _v
# Process unknown kwargs
# ----------------------
self._process_kwargs(**dict(arg, **kwargs))
# Reset skip_invalid
# ------------------
self._skip_invalid = False
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