如何在 HoloViews plot 上添加关于节点的可变数量的自定义 hover 字段? (python 和散景后端)
[英]How can I add a variable number of custom hover fields, with respect to node, on a HoloViews plot? (python and bokeh backend)
问题描述
I'm working on getting interactive networks so I can send datasets around to collaborators.
我正在开发交互式网络,以便将数据集发送给合作者。 I've found that HoloViews is the most intuitive option for interactive networks.我发现HoloViews是交互式网络最直观的选择。 I'm using Bokeh for the backend not for any reason other than that's what the tutorial above used and I'm pretty familiar with it.我将Bokeh用于后端不是出于任何原因,除了上面的教程使用的而且我非常熟悉它。
I've gotten the hover tool to work for my network and it looks great.我已经获得了适用于我的网络的 hover 工具,它看起来很棒。 Below is an adaptation of the methodology using the iris dataset for the sake of this post.为了这篇文章,下面是使用 iris 数据集的方法的改编。
What I'm having trouble with is getting custom hover fields in addition to the ones already shown.除了已经显示的字段之外,我遇到的问题是获取自定义 hover 字段。 For example, I want all the nodes to have the [Node, Species] fields from the df_nodes DataFrame.例如,我希望所有节点都具有df_nodes DataFrame 中的[Node, Species]字段。 However, in the second part of the code underneath the figure I generate custom fields per node that range from 0-5 categories.但是,在图下方代码的第二部分中,我为每个节点生成了自定义字段,范围为 0-5 个类别。 I would like to append this onto the existing Hover options.我想把 append 这个放到现有的 Hover 选项上。
For example, iris_1 would have the following where * indicates what is already there and # indicates what needs to be added:例如, iris_1将具有以下内容,其中*表示已经存在的内容, #表示需要添加的内容:
* Node iris_1
* Species Setosa
# Category_2 0.734694
# Category_9 0.489796
# Category_8 0.469388
# Category_4 0.122449
iris_2 would only have [Node, Species] since it has 0 categories (if you index the node_to_custom dictionary you will see that). iris_2只有[Node, Species]因为它有 0 个类别(如果你索引node_to_custom字典,你会看到)。 iris_3 will have the [Node, Species, Category_4, Category_5] fields. iris_3将具有[Node, Species, Category_4, Category_5]字段。
How can I add a variable number of custom hover fields, with respect to node, on a HoloViews plot?如何在 HoloViews plot 上添加关于节点的可变数量的自定义 hover 字段? Preferably with Bokeh but if Plot.ly is the better option for this, then let's do it.最好使用散景,但如果 Plot.ly 是更好的选择,那么让我们这样做。
I tried doing line breaks but they didn't render.我尝试换行,但它们没有渲染。 Though, that was supposed to be a hack and not what I actually wanted.不过,这应该是一种黑客行为,而不是我真正想要的。
# Iris
import pandas as pd
import networkx as nx
import holoviews as hv
from holoviews import opts
hv.extension('bokeh')
defaults = dict(width=500, height=500)
hv.opts.defaults(
opts.EdgePaths(**defaults),
opts.Graph(**defaults),
opts.Nodes(**defaults),
)
X_iris = pd.DataFrame({'sepal_length': {'iris_0': 5.1, 'iris_1': 4.9, 'iris_2': 4.7, 'iris_3': 4.6, 'iris_4': 5.0, 'iris_5': 5.4, 'iris_6': 4.6, 'iris_7': 5.0, 'iris_8': 4.4, 'iris_9': 4.9, 'iris_10': 5.4, 'iris_11': 4.8, 'iris_12': 4.8, 'iris_13': 4.3, 'iris_14': 5.8, 'iris_15': 5.7, 'iris_16': 5.4, 'iris_17': 5.1, 'iris_18': 5.7, 'iris_19': 5.1, 'iris_20': 5.4, 'iris_21': 5.1, 'iris_22': 4.6, 'iris_23': 5.1, 'iris_24': 4.8, 'iris_25': 5.0, 'iris_26': 5.0, 'iris_27': 5.2, 'iris_28': 5.2, 'iris_29': 4.7, 'iris_30': 4.8, 'iris_31': 5.4, 'iris_32': 5.2, 'iris_33': 5.5, 'iris_34': 4.9, 'iris_35': 5.0, 'iris_36': 5.5, 'iris_37': 4.9, 'iris_38': 4.4, 'iris_39': 5.1, 'iris_40': 5.0, 'iris_41': 4.5, 'iris_42': 4.4, 'iris_43': 5.0, 'iris_44': 5.1, 'iris_45': 4.8, 'iris_46': 5.1, 'iris_47': 4.6, 'iris_48': 5.3, 'iris_49': 5.0, 'iris_50': 7.0, 'iris_51': 6.4, 'iris_52': 6.9, 'iris_53': 5.5, 'iris_54': 6.5, 'iris_55': 5.7, 'iris_56': 6.3, 'iris_57': 4.9, 'iris_58': 6.6, 'iris_59': 5.2, 'iris_60': 5.0, 'iris_61': 5.9, 'iris_62': 6.0, 'iris_63': 6.1, 'iris_64': 5.6, 'iris_65': 6.7, 'iris_66': 5.6, 'iris_67': 5.8, 'iris_68': 6.2, 'iris_69': 5.6, 'iris_70': 5.9, 'iris_71': 6.1, 'iris_72': 6.3, 'iris_73': 6.1, 'iris_74': 6.4, 'iris_75': 6.6, 'iris_76': 6.8, 'iris_77': 6.7, 'iris_78': 6.0, 'iris_79': 5.7, 'iris_80': 5.5, 'iris_81': 5.5, 'iris_82': 5.8, 'iris_83': 6.0, 'iris_84': 5.4, 'iris_85': 6.0, 'iris_86': 6.7, 'iris_87': 6.3, 'iris_88': 5.6, 'iris_89': 5.5, 'iris_90': 5.5, 'iris_91': 6.1, 'iris_92': 5.8, 'iris_93': 5.0, 'iris_94': 5.6, 'iris_95': 5.7, 'iris_96': 5.7, 'iris_97': 6.2, 'iris_98': 5.1, 'iris_99': 5.7, 'iris_100': 6.3, 'iris_101': 5.8, 'iris_102': 7.1, 'iris_103': 6.3, 'iris_104': 6.5, 'iris_105': 7.6, 'iris_106': 4.9, 'iris_107': 7.3, 'iris_108': 6.7, 'iris_109': 7.2, 'iris_110': 6.5, 'iris_111': 6.4, 'iris_112': 6.8, 'iris_113': 5.7, 'iris_114': 5.8, 'iris_115': 6.4, 'iris_116': 6.5, 'iris_117': 7.7, 'iris_118': 7.7, 'iris_119': 6.0, 'iris_120': 6.9, 'iris_121': 5.6, 'iris_122': 7.7, 'iris_123': 6.3, 'iris_124': 6.7, 'iris_125': 7.2, 'iris_126': 6.2, 'iris_127': 6.1, 'iris_128': 6.4, 'iris_129': 7.2, 'iris_130': 7.4, 'iris_131': 7.9, 'iris_132': 6.4, 'iris_133': 6.3, 'iris_134': 6.1, 'iris_135': 7.7, 'iris_136': 6.3, 'iris_137': 6.4, 'iris_138': 6.0, 'iris_139': 6.9, 'iris_140': 6.7, 'iris_141': 6.9, 'iris_142': 5.8, 'iris_143': 6.8, 'iris_144': 6.7, 'iris_145': 6.7, 'iris_146': 6.3, 'iris_147': 6.5, 'iris_148': 6.2, 'iris_149': 5.9}, 'sepal_width': {'iris_0': 3.5, 'iris_1': 3.0, 'iris_2': 3.2, 'iris_3': 3.1, 'iris_4': 3.6, 'iris_5': 3.9, 'iris_6': 3.4, 'iris_7': 3.4, 'iris_8': 2.9, 'iris_9': 3.1, 'iris_10': 3.7, 'iris_11': 3.4, 'iris_12': 3.0, 'iris_13': 3.0, 'iris_14': 4.0, 'iris_15': 4.4, 'iris_16': 3.9, 'iris_17': 3.5, 'iris_18': 3.8, 'iris_19': 3.8, 'iris_20': 3.4, 'iris_21': 3.7, 'iris_22': 3.6, 'iris_23': 3.3, 'iris_24': 3.4, 'iris_25': 3.0, 'iris_26': 3.4, 'iris_27': 3.5, 'iris_28': 3.4, 'iris_29': 3.2, 'iris_30': 3.1, 'iris_31': 3.4, 'iris_32': 4.1, 'iris_33': 4.2, 'iris_34': 3.1, 'iris_35': 3.2, 'iris_36': 3.5, 'iris_37': 3.6, 'iris_38': 3.0, 'iris_39': 3.4, 'iris_40': 3.5, 'iris_41': 2.3, 'iris_42': 3.2, 'iris_43': 3.5, 'iris_44': 3.8, 'iris_45': 3.0, 'iris_46': 3.8, 'iris_47': 3.2, 'iris_48': 3.7, 'iris_49': 3.3, 'iris_50': 3.2, 'iris_51': 3.2, 'iris_52': 3.1, 'iris_53': 2.3, 'iris_54': 2.8, 'iris_55': 2.8, 'iris_56': 3.3, 'iris_57': 2.4, 'iris_58': 2.9, 'iris_59': 2.7, 'iris_60': 2.0, 'iris_61': 3.0, 'iris_62': 2.2, 'iris_63': 2.9, 'iris_64': 2.9, 'iris_65': 3.1, 'iris_66': 3.0, 'iris_67': 2.7, 'iris_68': 2.2, 'iris_69': 2.5, 'iris_70': 3.2, 'iris_71': 2.8, 'iris_72': 2.5, 'iris_73': 2.8, 'iris_74': 2.9, 'iris_75': 3.0, 'iris_76': 2.8, 'iris_77': 3.0, 'iris_78': 2.9, 'iris_79': 2.6, 'iris_80': 2.4, 'iris_81': 2.4, 'iris_82': 2.7, 'iris_83': 2.7, 'iris_84': 3.0, 'iris_85': 3.4, 'iris_86': 3.1, 'iris_87': 2.3, 'iris_88': 3.0, 'iris_89': 2.5, 'iris_90': 2.6, 'iris_91': 3.0, 'iris_92': 2.6, 'iris_93': 2.3, 'iris_94': 2.7, 'iris_95': 3.0, 'iris_96': 2.9, 'iris_97': 2.9, 'iris_98': 2.5, 'iris_99': 2.8, 'iris_100': 3.3, 'iris_101': 2.7, 'iris_102': 3.0, 'iris_103': 2.9, 'iris_104': 3.0, 'iris_105': 3.0, 'iris_106': 2.5, 'iris_107': 2.9, 'iris_108': 2.5, 'iris_109': 3.6, 'iris_110': 3.2, 'iris_111': 2.7, 'iris_112': 3.0, 'iris_113': 2.5, 'iris_114': 2.8, 'iris_115': 3.2, 'iris_116': 3.0, 'iris_117': 3.8, 'iris_118': 2.6, 'iris_119': 2.2, 'iris_120': 3.2, 'iris_121': 2.8, 'iris_122': 2.8, 'iris_123': 2.7, 'iris_124': 3.3, 'iris_125': 3.2, 'iris_126': 2.8, 'iris_127': 3.0, 'iris_128': 2.8, 'iris_129': 3.0, 'iris_130': 2.8, 'iris_131': 3.8, 'iris_132': 2.8, 'iris_133': 2.8, 'iris_134': 2.6, 'iris_135': 3.0, 'iris_136': 3.4, 'iris_137': 3.1, 'iris_138': 3.0, 'iris_139': 3.1, 'iris_140': 3.1, 'iris_141': 3.1, 'iris_142': 2.7, 'iris_143': 3.2, 'iris_144': 3.3, 'iris_145': 3.0, 'iris_146': 2.5, 'iris_147': 3.0, 'iris_148': 3.4, 'iris_149': 3.0}, 'petal_length': {'iris_0': 1.4, 'iris_1': 1.4, 'iris_2': 1.3, 'iris_3': 1.5, 'iris_4': 1.4, 'iris_5': 1.7, 'iris_6': 1.4, 'iris_7': 1.5, 'iris_8': 1.4, 'iris_9': 1.5, 'iris_10': 1.5, 'iris_11': 1.6, 'iris_12': 1.4, 'iris_13': 1.1, 'iris_14': 1.2, 'iris_15': 1.5, 'iris_16': 1.3, 'iris_17': 1.4, 'iris_18': 1.7, 'iris_19': 1.5, 'iris_20': 1.7, 'iris_21': 1.5, 'iris_22': 1.0, 'iris_23': 1.7, 'iris_24': 1.9, 'iris_25': 1.6, 'iris_26': 1.6, 'iris_27': 1.5, 'iris_28': 1.4, 'iris_29': 1.6, 'iris_30': 1.6, 'iris_31': 1.5, 'iris_32': 1.5, 'iris_33': 1.4, 'iris_34': 1.5, 'iris_35': 1.2, 'iris_36': 1.3, 'iris_37': 1.4, 'iris_38': 1.3, 'iris_39': 1.5, 'iris_40': 1.3, 'iris_41': 1.3, 'iris_42': 1.3, 'iris_43': 1.6, 'iris_44': 1.9, 'iris_45': 1.4, 'iris_46': 1.6, 'iris_47': 1.4, 'iris_48': 1.5, 'iris_49': 1.4, 'iris_50': 4.7, 'iris_51': 4.5, 'iris_52': 4.9, 'iris_53': 4.0, 'iris_54': 4.6, 'iris_55': 4.5, 'iris_56': 4.7, 'iris_57': 3.3, 'iris_58': 4.6, 'iris_59': 3.9, 'iris_60': 3.5, 'iris_61': 4.2, 'iris_62': 4.0, 'iris_63': 4.7, 'iris_64': 3.6, 'iris_65': 4.4, 'iris_66': 4.5, 'iris_67': 4.1, 'iris_68': 4.5, 'iris_69': 3.9, 'iris_70': 4.8, 'iris_71': 4.0, 'iris_72': 4.9, 'iris_73': 4.7, 'iris_74': 4.3, 'iris_75': 4.4, 'iris_76': 4.8, 'iris_77': 5.0, 'iris_78': 4.5, 'iris_79': 3.5, 'iris_80': 3.8, 'iris_81': 3.7, 'iris_82': 3.9, 'iris_83': 5.1, 'iris_84': 4.5, 'iris_85': 4.5, 'iris_86': 4.7, 'iris_87': 4.4, 'iris_88': 4.1, 'iris_89': 4.0, 'iris_90': 4.4, 'iris_91': 4.6, 'iris_92': 4.0, 'iris_93': 3.3, 'iris_94': 4.2, 'iris_95': 4.2, 'iris_96': 4.2, 'iris_97': 4.3, 'iris_98': 3.0, 'iris_99': 4.1, 'iris_100': 6.0, 'iris_101': 5.1, 'iris_102': 5.9, 'iris_103': 5.6, 'iris_104': 5.8, 'iris_105': 6.6, 'iris_106': 4.5, 'iris_107': 6.3, 'iris_108': 5.8, 'iris_109': 6.1, 'iris_110': 5.1, 'iris_111': 5.3, 'iris_112': 5.5, 'iris_113': 5.0, 'iris_114': 5.1, 'iris_115': 5.3, 'iris_116': 5.5, 'iris_117': 6.7, 'iris_118': 6.9, 'iris_119': 5.0, 'iris_120': 5.7, 'iris_121': 4.9, 'iris_122': 6.7, 'iris_123': 4.9, 'iris_124': 5.7, 'iris_125': 6.0, 'iris_126': 4.8, 'iris_127': 4.9, 'iris_128': 5.6, 'iris_129': 5.8, 'iris_130': 6.1, 'iris_131': 6.4, 'iris_132': 5.6, 'iris_133': 5.1, 'iris_134': 5.6, 'iris_135': 6.1, 'iris_136': 5.6, 'iris_137': 5.5, 'iris_138': 4.8, 'iris_139': 5.4, 'iris_140': 5.6, 'iris_141': 5.1, 'iris_142': 5.1, 'iris_143': 5.9, 'iris_144': 5.7, 'iris_145': 5.2, 'iris_146': 5.0, 'iris_147': 5.2, 'iris_148': 5.4, 'iris_149': 5.1}, 'petal_width': {'iris_0': 0.2, 'iris_1': 0.2, 'iris_2': 0.2, 'iris_3': 0.2, 'iris_4': 0.2, 'iris_5': 0.4, 'iris_6': 0.3, 'iris_7': 0.2, 'iris_8': 0.2, 'iris_9': 0.1, 'iris_10': 0.2, 'iris_11': 0.2, 'iris_12': 0.1, 'iris_13': 0.1, 'iris_14': 0.2, 'iris_15': 0.4, 'iris_16': 0.4, 'iris_17': 0.3, 'iris_18': 0.3, 'iris_19': 0.3, 'iris_20': 0.2, 'iris_21': 0.4, 'iris_22': 0.2, 'iris_23': 0.5, 'iris_24': 0.2, 'iris_25': 0.2, 'iris_26': 0.4, 'iris_27': 0.2, 'iris_28': 0.2, 'iris_29': 0.2, 'iris_30': 0.2, 'iris_31': 0.4, 'iris_32': 0.1, 'iris_33': 0.2, 'iris_34': 0.2, 'iris_35': 0.2, 'iris_36': 0.2, 'iris_37': 0.1, 'iris_38': 0.2, 'iris_39': 0.2, 'iris_40': 0.3, 'iris_41': 0.3, 'iris_42': 0.2, 'iris_43': 0.6, 'iris_44': 0.4, 'iris_45': 0.3, 'iris_46': 0.2, 'iris_47': 0.2, 'iris_48': 0.2, 'iris_49': 0.2, 'iris_50': 1.4, 'iris_51': 1.5, 'iris_52': 1.5, 'iris_53': 1.3, 'iris_54': 1.5, 'iris_55': 1.3, 'iris_56': 1.6, 'iris_57': 1.0, 'iris_58': 1.3, 'iris_59': 1.4, 'iris_60': 1.0, 'iris_61': 1.5, 'iris_62': 1.0, 'iris_63': 1.4, 'iris_64': 1.3, 'iris_65': 1.4, 'iris_66': 1.5, 'iris_67': 1.0, 'iris_68': 1.5, 'iris_69': 1.1, 'iris_70': 1.8, 'iris_71': 1.3, 'iris_72': 1.5, 'iris_73': 1.2, 'iris_74': 1.3, 'iris_75': 1.4, 'iris_76': 1.4, 'iris_77': 1.7, 'iris_78': 1.5, 'iris_79': 1.0, 'iris_80': 1.1, 'iris_81': 1.0, 'iris_82': 1.2, 'iris_83': 1.6, 'iris_84': 1.5, 'iris_85': 1.6, 'iris_86': 1.5, 'iris_87': 1.3, 'iris_88': 1.3, 'iris_89': 1.3, 'iris_90': 1.2, 'iris_91': 1.4, 'iris_92': 1.2, 'iris_93': 1.0, 'iris_94': 1.3, 'iris_95': 1.2, 'iris_96': 1.3, 'iris_97': 1.3, 'iris_98': 1.1, 'iris_99': 1.3, 'iris_100': 2.5, 'iris_101': 1.9, 'iris_102': 2.1, 'iris_103': 1.8, 'iris_104': 2.2, 'iris_105': 2.1, 'iris_106': 1.7, 'iris_107': 1.8, 'iris_108': 1.8, 'iris_109': 2.5, 'iris_110': 2.0, 'iris_111': 1.9, 'iris_112': 2.1, 'iris_113': 2.0, 'iris_114': 2.4, 'iris_115': 2.3, 'iris_116': 1.8, 'iris_117': 2.2, 'iris_118': 2.3, 'iris_119': 1.5, 'iris_120': 2.3, 'iris_121': 2.0, 'iris_122': 2.0, 'iris_123': 1.8, 'iris_124': 2.1, 'iris_125': 1.8, 'iris_126': 1.8, 'iris_127': 1.8, 'iris_128': 2.1, 'iris_129': 1.6, 'iris_130': 1.9, 'iris_131': 2.0, 'iris_132': 2.2, 'iris_133': 1.5, 'iris_134': 1.4, 'iris_135': 2.3, 'iris_136': 2.4, 'iris_137': 1.8, 'iris_138': 1.8, 'iris_139': 2.1, 'iris_140': 2.4, 'iris_141': 2.3, 'iris_142': 1.9, 'iris_143': 2.3, 'iris_144': 2.5, 'iris_145': 2.3, 'iris_146': 1.9, 'iris_147': 2.0, 'iris_148': 2.3, 'iris_149': 1.8}})
y_iris = pd.Series({'iris_0': 'setosa', 'iris_1': 'setosa', 'iris_2': 'setosa', 'iris_3': 'setosa', 'iris_4': 'setosa', 'iris_5': 'setosa', 'iris_6': 'setosa', 'iris_7': 'setosa', 'iris_8': 'setosa', 'iris_9': 'setosa', 'iris_10': 'setosa', 'iris_11': 'setosa', 'iris_12': 'setosa', 'iris_13': 'setosa', 'iris_14': 'setosa', 'iris_15': 'setosa', 'iris_16': 'setosa', 'iris_17': 'setosa', 'iris_18': 'setosa', 'iris_19': 'setosa', 'iris_20': 'setosa', 'iris_21': 'setosa', 'iris_22': 'setosa', 'iris_23': 'setosa', 'iris_24': 'setosa', 'iris_25': 'setosa', 'iris_26': 'setosa', 'iris_27': 'setosa', 'iris_28': 'setosa', 'iris_29': 'setosa', 'iris_30': 'setosa', 'iris_31': 'setosa', 'iris_32': 'setosa', 'iris_33': 'setosa', 'iris_34': 'setosa', 'iris_35': 'setosa', 'iris_36': 'setosa', 'iris_37': 'setosa', 'iris_38': 'setosa', 'iris_39': 'setosa', 'iris_40': 'setosa', 'iris_41': 'setosa', 'iris_42': 'setosa', 'iris_43': 'setosa', 'iris_44': 'setosa', 'iris_45': 'setosa', 'iris_46': 'setosa', 'iris_47': 'setosa', 'iris_48': 'setosa', 'iris_49': 'setosa', 'iris_50': 'versicolor', 'iris_51': 'versicolor', 'iris_52': 'versicolor', 'iris_53': 'versicolor', 'iris_54': 'versicolor', 'iris_55': 'versicolor', 'iris_56': 'versicolor', 'iris_57': 'versicolor', 'iris_58': 'versicolor', 'iris_59': 'versicolor', 'iris_60': 'versicolor', 'iris_61': 'versicolor', 'iris_62': 'versicolor', 'iris_63': 'versicolor', 'iris_64': 'versicolor', 'iris_65': 'versicolor', 'iris_66': 'versicolor', 'iris_67': 'versicolor', 'iris_68': 'versicolor', 'iris_69': 'versicolor', 'iris_70': 'versicolor', 'iris_71': 'versicolor', 'iris_72': 'versicolor', 'iris_73': 'versicolor', 'iris_74': 'versicolor', 'iris_75': 'versicolor', 'iris_76': 'versicolor', 'iris_77': 'versicolor', 'iris_78': 'versicolor', 'iris_79': 'versicolor', 'iris_80': 'versicolor', 'iris_81': 'versicolor', 'iris_82': 'versicolor', 'iris_83': 'versicolor', 'iris_84': 'versicolor', 'iris_85': 'versicolor', 'iris_86': 'versicolor', 'iris_87': 'versicolor', 'iris_88': 'versicolor', 'iris_89': 'versicolor', 'iris_90': 'versicolor', 'iris_91': 'versicolor', 'iris_92': 'versicolor', 'iris_93': 'versicolor', 'iris_94': 'versicolor', 'iris_95': 'versicolor', 'iris_96': 'versicolor', 'iris_97': 'versicolor', 'iris_98': 'versicolor', 'iris_99': 'versicolor', 'iris_100': 'virginica', 'iris_101': 'virginica', 'iris_102': 'virginica', 'iris_103': 'virginica', 'iris_104': 'virginica', 'iris_105': 'virginica', 'iris_106': 'virginica', 'iris_107': 'virginica', 'iris_108': 'virginica', 'iris_109': 'virginica', 'iris_110': 'virginica', 'iris_111': 'virginica', 'iris_112': 'virginica', 'iris_113': 'virginica', 'iris_114': 'virginica', 'iris_115': 'virginica', 'iris_116': 'virginica', 'iris_117': 'virginica', 'iris_118': 'virginica', 'iris_119': 'virginica', 'iris_120': 'virginica', 'iris_121': 'virginica', 'iris_122': 'virginica', 'iris_123': 'virginica', 'iris_124': 'virginica', 'iris_125': 'virginica', 'iris_126': 'virginica', 'iris_127': 'virginica', 'iris_128': 'virginica', 'iris_129': 'virginica', 'iris_130': 'virginica', 'iris_131': 'virginica', 'iris_132': 'virginica', 'iris_133': 'virginica', 'iris_134': 'virginica', 'iris_135': 'virginica', 'iris_136': 'virginica', 'iris_137': 'virginica', 'iris_138': 'virginica', 'iris_139': 'virginica', 'iris_140': 'virginica', 'iris_141': 'virginica', 'iris_142': 'virginica', 'iris_143': 'virginica', 'iris_144': 'virginica', 'iris_145': 'virginica', 'iris_146': 'virginica', 'iris_147': 'virginica', 'iris_148': 'virginica', 'iris_149': 'virginica'})
c_iris = pd.Series({'setosa': '#66c2a5', 'versicolor': '#fc8d62', 'virginica': '#8da0cb'})
# Get edge to weight mapping
weights = X_iris.T.corr().stack()
weights.index = weights.index.map(frozenset)
print(weights.size)
# 22500 = 150**2
# Get rid of diagonal b/c the weights are non-informative
weights = weights[weights.index.map(lambda nodes: len(nodes) == 2)]
print(weights.size)
# 22350 = 150**2 - 150
# Get non-redundant edges ([upper/lower]triangle)
weights = pd.Series(weights.to_dict() )
print(weights.size)
# 11175 = (150**2 - 150)/2
# Create graph
tol = 0.99
graph = nx.Graph()
for edge, w in weights.abs().items(): # For sake of demonstration, just take absolute value though I wouldn't normally do this
if w > tol:
graph.add_edge(*edge, weight=w)
# Get positions
pos = nx.circular_layout(graph)#, seed=0)
# Prepare nodes for HoloViews
df_nodes = pd.DataFrame(pos, index=list("xy")).T
df_nodes.index.name = "Node"
df_nodes["Species"] = y_iris
df_nodes = df_nodes.reset_index()[["x","y", "Node", "Species"]]
df_nodes.head()
# x y Node Species
# 0 0.002421 -0.765592 iris_1 setosa
# 1 0.116149 -0.721862 iris_0 setosa
# 2 0.012620 -0.730962 iris_2 setosa
# 3 0.053972 -0.611302 iris_3 setosa
# 4 0.049840 -0.687669 iris_4 setosa
# Prepare edges for HoloViews
df_edges = list()
for node_a, node_b, edge_data in graph.edges(data=True):
df_edges.append([node_a, node_b, edge_data["weight"]])
df_edges = pd.DataFrame(df_edges, columns=["start", "end", "weight"])
df_edges.head()
# start end weight
# 0 iris_1 iris_0 0.995999
# 1 iris_1 iris_2 0.996607
# 2 iris_1 iris_3 0.997397
# 3 iris_1 iris_4 0.992233
# 4 iris_1 iris_5 0.993592
hv_nodes = hv.Nodes(df_nodes)
hv_graph = hv.Graph((df_edges, hv_nodes), label='Iris Dataset')
hv_graph.opts(cmap=c_iris.to_dict(), node_size=10, edge_line_width="weight",
node_line_color='white', node_color='Species', xaxis=None, yaxis=None)
# Custom mapping
categories = list(map(lambda i: "Category_{}".format(i), range(10)))
range_of_values = np.linspace(0,1)
node_to_custom = dict()
for i, node in enumerate(graph.nodes()):
rng = np.random.RandomState(i)
# Get a random number of categories (real data will not be this obviously)
number_of_categories = rng.choice([0,1,2,3,4,5], size=1)[0]
# Grab N categories w/o replacement
categories_wrt_node = rng.choice(categories, size=number_of_categories, replace=False)
# Get values ranging from [0,1] for those categories
values_wrt_categories = rng.choice(range_of_values, size=number_of_categories )
# Get a mapping between categories and values
categories_to_values = pd.Series(dict(zip(categories_wrt_node, values_wrt_categories)), dtype=float)
# Get non-zero values, sort, and store
node_to_custom[node] = categories_to_values[lambda v: v > 0].sort_values(ascending=False)
# Example of {key:value} showing {node:series}
list(node_to_custom.items())[0]
# ('iris_1',
# Category_2 0.734694
# Category_9 0.489796
# Category_8 0.469388
# Category_4 0.122449
# dtype: float64)
1 个解决方案
解决方案1
0 2021-04-19 16:16:31
I don't have a definitive answer to your question, but maybe I can still help.我对你的问题没有明确的答案,但也许我仍然可以提供帮助。
To the best of my knowledge, Holoviews doesn't support variable number of tooltips.据我所知,Holoviews 不支持可变数量的工具提示。 What it does support are custom tooltips.它支持的是自定义工具提示。
Custom tooltips look like this:自定义工具提示如下所示:
# each tuple will be a row in the tooltip
tooltips = [
('Name', '@name'),
('Symbol', '@symbol'),
('CPK', '$color[hex, swatch]:CPK')
]
custom_hover_tool = HoverTool(tooltips=tooltips)
points.opts(tools=[custom_hover_tool])
Example from here:来自这里的示例:
http://holoviews.org/user_guide/Plotting_with_Bokeh.html http://holoviews.org/user_guide/Plotting_with_Bokeh.html
More details on the usable $variables and @variables:有关可用的 $variables 和 @variables 的更多详细信息:
https://docs.bokeh.org/en/latest/docs/user_guide/tools.html#hovertool https://docs.bokeh.org/en/latest/docs/user_guide/tools.html#hovertool
So if this could be good enough for you, you could aggregate your categorical data into a string for each record like "Category_2: 0.734694, Category_9: 0.489796..." and display that as a row in the tooltip with a label like "Categories:".因此,如果这对您来说足够好,您可以将您的分类数据聚合到每个记录的字符串中,例如“Category_2:0.734694,Category_9:0.489796 ...”,并将其显示为工具提示中的一行,并带有 label,例如“Categories :"。
But the tooltips variable actually can be an HTML template too, something like this:但tooltips变量实际上也可以是 HTML 模板,如下所示:
tooltips = """
<div class="row">
<div class="col label">Node</div>
<div class="col value">@name</div>
</div>
<div class="row">
<div class="col label">Species</div>
<div class="col value">@species</div>
</div>
@categories{safe}
"""
The {safe} part forces the tooltip to display the content of that variable as HTML content. {safe}部分强制工具提示将该变量的内容显示为 HTML 内容。 So this time you have to previously aggregate your categorical data into a data column that already contains the final HTML code for every record, so for your example record it should look like this:因此,这一次您必须预先将分类数据聚合到一个数据列中,该数据列已经包含每条记录的最终 HTML 代码,因此对于您的示例记录,它应该如下所示:
'\
<div class="row">\
<div class="col label">Category_2:</div>\
<div class="col value">0.734694</div>\
</div>\
<div class="row">\
<div class="col label">Category_9:</div>\
<div class="col value">0.489796</div>\
</div>\
...\
'
(Most likely you would have two for loops inside each other, one for every node and another for every category in it, and only adding one "row" at the time, but something like this would be the end result for each node.) (很可能你会在彼此内部有两个 for 循环,一个用于每个节点,另一个用于其中的每个类别,并且一次只添加一个“行”,但这样的结果将是每个节点的最终结果。)
If you use the exact same HTML/CSS structure in both code blocks, they should be merged seamlessly.如果您在两个代码块中使用完全相同的 HTML/CSS 结构,它们应该可以无缝合并。
Treat these code blocks as mockups just to demonstrate the idea as I just improvised them here without testing, but I hope it helps.将这些代码块视为模型只是为了演示这个想法,因为我只是在没有测试的情况下即兴创作它们,但我希望它有所帮助。 Let me know if you tried it and show me a working example if you got stuck with it and I try to go into the details.如果您尝试过,请告诉我,如果您坚持使用它,请告诉我一个工作示例,我会尝试 go 详细介绍。
声明:本站的技术帖子网页,遵循CC BY-SA 4.0协议,如果您需要转载,请注明本站网址或者原文地址。任何问题请咨询:yoyou2525@163.com.