几何形状#
如何在 Python 中制作 SVG 形状。线、圆、矩形和路径的示例。
向 Figure 添加线条和多边形#
小技巧
两种方法的区别
作为一般规则,有两种向 Figure 添加形状(线或多边形)的方法:
轨迹:
scatter系列(例如scatter、scatter3d、scattergeo等)的轨迹类型,可以使用mode="lines"绘制,并且可以选择支持fill="self"属性,因此可用于在 Figure 上绘制开放或封闭的形状。形状:可以使用
fig.add_shape()将独立的线、椭圆和矩形添加到 Figure 中,它们可以绝对定位在 Figure 内,也可以相对于 2D 笛卡尔子图的轴定位,即在数据坐标中。
备注
在 Plotly 水平线、垂线和矩形 中介绍了一些特殊的方法(如 add_hline、add_vline、add_hrect 和 add_vrect)用于绘制水平或垂直线或矩形的常见情况,这些线或矩形固定在一个轴上的数据坐标并在另一个轴上绝对定位。
用散点图轨迹绘制形状#
有两种绘制填充形状的方法:散点图轨迹和 layout.shapes 主要用于 2D 子图,并定义要绘制的形状类型,可以是矩形、圆形、直线或路径(自定义 SVG 路径)。您还可以使用 scatterpolar、scattergeo、scattermapbox 在任何类型的子图上绘制填充形状。要将区域设置为用纯色填充,您需要定义 Scatter.fill=”toself” 将轨迹的端点连接成一个封闭的形状。如果 mode="lines"(默认值 "lines+markers"),那么您需要在序列的初始点重复一个形状,以获得一个封闭的形状。
import plotly.graph_objects as go
go.FigureWidget();
fig = go.Figure(go.Scatter(x=[0, 1, 2, 0],
y=[0, 2, 0, 0],
fill="toself",
mode="lines+markers"))
fig.show()
您可以通过添加 更多的跟踪 或使用 None 中断该系列来获得更多的形状。
import plotly.graph_objects as go
fig = go.Figure(go.Scatter(x=[0, 1, 2, 0, None, 3, 3, 5, 5, 3],
y=[0, 2, 0, 0, None, 0.5, 1.5, 1.5, 0.5, 0.5],
fill="toself"))
fig
相对于 Axis 数据定位的垂直和水平线#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[2, 3.5, 6],
y=[1, 1.5, 1],
text=["垂直线",
"水平虚线",
"对角虚线"],
mode="text",
))
# Set axes ranges
fig.update_xaxes(range=[0, 7])
fig.update_yaxes(range=[0, 2.5])
# Add shapes
fig.add_shape(type="line",
x0=1, y0=0, x1=1, y1=2,
line=dict(color="RoyalBlue", width=3))
fig.add_shape(type="line",
x0=2, y0=2, x1=5, y1=2,
line=dict(
color="LightSeaGreen",
width=4,
dash="dashdot",))
fig.add_shape(type="line",
x0=4, y0=0, x1=6, y1=2,
line=dict(
color="MediumPurple",
width=4,
dash="dot",))
fig.update_shapes(dict(xref='x', yref='y'))
fig.show()
相对于 Plot 和 Axis 数据定位的线#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[2, 6], y=[1, 1],
text=["Line positioned relative to the plot",
"Line positioned relative to the axes"],
mode="text",
))
# Set axes ranges
fig.update_xaxes(range=[0, 8])
fig.update_yaxes(range=[0, 2])
fig.add_shape(type="line",
xref="x", yref="y",
x0=4, y0=0, x1=8, y1=1,
line=dict(
color="LightSeaGreen",
width=3))
fig.add_shape(type="line",
xref="paper", yref="paper",
x0=0, y0=0, x1=0.5, y1=0.5,
line=dict(
color="DarkOrange",
width=3))
fig.show()
相对于 Axis 数据定位的矩形#
import plotly.graph_objects as go
fig = go.Figure()
fig.add_trace(go.Scatter(
x=[1.5, 4.5],
y=[0.75, 0.75],
text=["Unfilled Rectangle", "Filled Rectangle"],
mode="text",
))
# Set axes properties
fig.update_xaxes(range=[0, 7], showgrid=False)
fig.update_yaxes(range=[0, 3.5])
# Add shapes
fig.add_shape(type="rect",
x0=1, y0=1, x1=2, y1=3,
line=dict(color="RoyalBlue"),
)
fig.add_shape(type="rect",
x0=3, y0=1, x1=6, y1=2,
line=dict(
color="RoyalBlue",
width=2,
),
fillcolor="LightSkyBlue",
)
fig.update_shapes(dict(xref='x', yref='y'))
fig.show()
相对于 Plot 和轴数据的矩形定位#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[1.5, 3],
y=[2.5, 2.5],
text=["Rectangle reference to the plot",
"Rectangle reference to the axes"],
mode="text",
))
# Set axes properties
fig.update_xaxes(range=[0, 4])
fig.update_yaxes(range=[0, 4])
# Add shapes
fig.add_shape(type="rect",
xref="x", yref="y",
x0=2.5, y0=0,
x1=3.5, y1=2,
line=dict(
color="RoyalBlue",
width=3,
),
fillcolor="LightSkyBlue",
)
fig.add_shape(type="rect",
xref="paper", yref="paper",
x0=0.25, y0=0,
x1=0.5, y1=0.5,
line=dict(
color="LightSeaGreen",
width=3,
),
fillcolor="PaleTurquoise",
)
fig.show()
相对于轴的位置和长度放置矩形#
通过将字符串 ' domain' 添加到shape 的 xref 或 yref 属性中的 axis 引用中,可以将 shape 放置到相对于轴的位置。下面的代码在 x 轴上放置了一个矩形,该矩形从左边开始,在 x 轴上从 60% 开始,在 70% 结束,从底部开始,在 y 轴上从 80% 开始,在 90% 结束。
import plotly.graph_objects as go
import plotly.express as px
df = px.data.wind()
fig = px.scatter(df, y="frequency")
fig.update_layout(xaxis=dict(domain=[0, 0.5]), yaxis=dict(domain=[0.25, 0.75]))
# Add a shape whose x and y coordinates refer to the domains of the x and y axes
fig.add_shape(type="rect",
xref="x domain", yref="y domain",
x0=0.6, x1=0.7, y0=0.8, y1=0.9,
)
fig.show()
高亮显示矩形形状的时间序列区域#
备注
有一些特殊的方法 add_hline、add_vline、add_hrect 和 add_vrect,用于绘制固定在一个轴上的数据坐标上的水平或垂直的线或矩形,这些线或矩形位于另一个轴绝对位置上。
import plotly.graph_objects as go
fig = go.Figure()
# Add scatter trace for line
fig.add_trace(go.Scatter(
x=["2015-02-01", "2015-02-02", "2015-02-03", "2015-02-04", "2015-02-05",
"2015-02-06", "2015-02-07", "2015-02-08", "2015-02-09", "2015-02-10",
"2015-02-11", "2015-02-12", "2015-02-13", "2015-02-14", "2015-02-15",
"2015-02-16", "2015-02-17", "2015-02-18", "2015-02-19", "2015-02-20",
"2015-02-21", "2015-02-22", "2015-02-23", "2015-02-24", "2015-02-25",
"2015-02-26", "2015-02-27", "2015-02-28"],
y=[-14, -17, -8, -4, -7, -10, -12, -14, -12, -7, -11, -7, -18, -14, -14,
-16, -13, -7, -8, -14, -8, -3, -9, -9, -4, -13, -9, -6],
mode="lines",
name="temperature"
))
# Add shape regions
fig.add_vrect(
x0="2015-02-04", x1="2015-02-06",
fillcolor="LightSalmon", opacity=0.5,
layer="below", line_width=0,
),
fig.add_vrect(
x0="2015-02-20", x1="2015-02-22",
fillcolor="LightSalmon", opacity=0.5,
layer="below", line_width=0,
)
fig.show()
相对于轴数据定位的圆#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[1.5, 3.5],
y=[0.75, 2.5],
text=["Unfilled Circle",
"Filled Circle"],
mode="text",
))
# Set axes properties
fig.update_xaxes(range=[0, 4.5], zeroline=False)
fig.update_yaxes(range=[0, 4.5])
# Add circles
fig.add_shape(type="circle",
xref="x", yref="y",
x0=1, y0=1, x1=3, y1=3,
line_color="LightSeaGreen",
)
fig.add_shape(type="circle",
xref="x", yref="y",
fillcolor="PaleTurquoise",
x0=3, y0=3, x1=4, y1=4,
line_color="LightSeaGreen",
)
# Set figure size
fig.update_layout(width=800, height=800)
fig.show()
高亮使用圆形形状的散点簇#
import plotly.graph_objects as go
import numpy as np
np.random.seed(1)
# Generate data
x0 = np.random.normal(2, 0.45, 300)
y0 = np.random.normal(2, 0.45, 300)
x1 = np.random.normal(6, 0.4, 200)
y1 = np.random.normal(6, 0.4, 200)
# Create figure
fig = go.Figure()
# Add scatter traces
fig.add_trace(go.Scatter(x=x0, y=y0, mode="markers"))
fig.add_trace(go.Scatter(x=x1, y=y1, mode="markers"))
# Add shapes
fig.add_shape(type="circle",
xref="x", yref="y",
x0=min(x0), y0=min(y0),
x1=max(x0), y1=max(y0),
opacity=0.2,
fillcolor="blue",
line_color="blue",
)
fig.add_shape(type="circle",
xref="x", yref="y",
x0=min(x1), y0=min(y1),
x1=max(x1), y1=max(y1),
opacity=0.2,
fillcolor="orange",
line_color="orange",
)
# Hide legend
fig.update_layout(showlegend=False)
fig.show()
带有圆形形状的维恩图#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[1, 1.75, 2.5],
y=[1, 1, 1],
text=["$A$", "$A+B$", "$B$"],
mode="text",
textfont=dict(
color="black",
size=18,
family="Arail",
)
))
# Update axes properties
fig.update_xaxes(
showticklabels=False,
showgrid=False,
zeroline=False,
)
fig.update_yaxes(
showticklabels=False,
showgrid=False,
zeroline=False,
)
# Add circles
fig.add_shape(type="circle",
line_color="blue", fillcolor="blue",
x0=0, y0=0, x1=2, y1=2
)
fig.add_shape(type="circle",
line_color="gray", fillcolor="gray",
x0=1.5, y0=0, x1=3.5, y1=2
)
fig.update_shapes(opacity=0.3, xref="x", yref="y")
fig.update_layout(
margin=dict(l=20, r=20, b=100),
height=600, width=800,
plot_bgcolor="white"
)
fig.show()
向子图添加形状#
在这里,我们使用 make_subplots 创建的不同轴 (x1, x2) 作为参考系,以便在子图中绘制形状。
import plotly.graph_objects as go
from plotly.subplots import make_subplots
# Create Subplots
fig = make_subplots(rows=2, cols=2)
fig.add_trace(go.Scatter(x=[2, 6], y=[1,1]), row=1, col=1)
fig.add_trace(go.Bar(x=[1,2,3], y=[4,5,6]), row=1, col=2)
fig.add_trace(go.Scatter(x=[10,20], y=[40,50]), row=2, col=1)
fig.add_trace(go.Bar(x=[11,13,15], y=[8,11,20]), row=2, col=2)
# Add shapes
fig.update_layout(
shapes=[
dict(type="line", xref="x", yref="y",
x0=3, y0=0.5, x1=5, y1=0.8, line_width=3),
dict(type="rect", xref="x2", yref='y2',
x0=4, y0=2, x1=5, y1=6),
dict(type="rect", xref="x3", yref="y3",
x0=10, y0=20, x1=15, y1=30),
dict(type="circle", xref="x4", yref="y4",
x0=5, y0=12, x1=10, y1=18)])
fig.show()
添加相同的形状到多个子绘图#
通过使用 row 和 col 参数中的 'all' 关键字,可以将相同的形状添加到多个 facet。例如
import plotly.express as px
df = px.data.tips()
fig = px.scatter(df, x="total_bill", y="tip", facet_row="smoker", facet_col="sex")
# Adds a rectangle to all facets
fig.add_shape(
dict(type="rect", x0=25, x1=35, y0=4, y1=6, line_color="purple"),
row="all",
col="all",
)
# Adds a line to all the rows of the second column
fig.add_shape(
dict(type="line", x0=20, x1=25, y0=5, y1=6, line_color="yellow"), row="all", col=2
)
# Adds a circle to all the columns of the first row
fig.add_shape(
dict(type="circle", x0=10, y0=2, x1=20, y1=7), row=1, col="all", line_color="green"
)
fig.show()
SVG 路径#
import plotly.graph_objects as go
fig = go.Figure()
# Create scatter trace of text labels
fig.add_trace(go.Scatter(
x=[2, 1, 8, 8],
y=[0.25, 9, 2, 6],
text=["Filled Triangle",
"Filled Polygon",
"Quadratic Bezier Curves",
"Cubic Bezier Curves"],
mode="text",
))
# Update axes properties
fig.update_xaxes(
range=[0, 9],
zeroline=False,
)
fig.update_yaxes(
range=[0, 11],
zeroline=False,
)
# Add shapes
fig.update_layout(
shapes=[
# Quadratic Bezier Curves
dict(
type="path",
path="M 4,4 Q 6,0 8,4",
line_color="RoyalBlue",
),
# Cubic Bezier Curves
dict(
type="path",
path="M 1,4 C 2,8 6,4 8,8",
line_color="MediumPurple",
),
# filled Triangle
dict(
type="path",
path=" M 1 1 L 1 3 L 4 1 Z",
fillcolor="LightPink",
line_color="Crimson",
),
# filled Polygon
dict(
type="path",
path=" M 3,7 L2,8 L2,9 L3,10, L4,10 L5,9 L5,8 L4,7 Z",
fillcolor="PaleTurquoise",
line_color="LightSeaGreen",
),
]
)
fig.show()