@@ -26,7 +26,7 @@ def simple_plot():
2626
2727 # 生成画布,并设定标题
2828 plt .figure (figsize = (8 , 6 ), dpi = 80 )
29- plt .title ("plot title " , fontproperties = myfont )
29+ plt .title ("可视化标题 " , fontproperties = myfont )
3030 plt .grid (True )
3131
3232 # 设置X轴
@@ -62,31 +62,31 @@ def simple_advanced_plot():
6262
6363 # 生成画布, 并设定标题
6464 plt .figure (figsize = (8 , 6 ), dpi = 80 )
65- plt .title ("plot title" )
65+ plt .title ("可视化标题" , fontproperties = myfont )
6666 plt .grid (True )
6767
6868 # 画图的另外一种方式
6969 ax_1 = plt .subplot (111 )
70- ax_1 .plot (x , y_cos , color = "blue" , linewidth = 2.0 , linestyle = "--" , label = "cos in left " )
71- ax_1 .legend (loc = "upper left" , shadow = True )
70+ ax_1 .plot (x , y_cos , color = "blue" , linewidth = 2.0 , linestyle = "--" , label = "左cos " )
71+ ax_1 .legend (loc = "upper left" , prop = myfont , shadow = True )
7272
7373 # 设置Y轴(左边)
74- ax_1 .set_ylabel ("y label for cos in left" )
74+ ax_1 .set_ylabel ("左cos的y轴" , fontproperties = myfont )
7575 ax_1 .set_ylim (- 1.0 , 1.0 )
7676 ax_1 .set_yticks (np .linspace (- 1 , 1 , 9 , endpoint = True ))
7777
7878 # 画图的另外一种方式
7979 ax_2 = ax_1 .twinx ()
80- ax_2 .plot (x , y_sin , color = "green" , linewidth = 2.0 , linestyle = "-" , label = "sin in right " )
81- ax_2 .legend (loc = "upper right" , shadow = True )
80+ ax_2 .plot (x , y_sin , color = "green" , linewidth = 2.0 , linestyle = "-" , label = "右sin " )
81+ ax_2 .legend (loc = "upper right" , prop = myfont , shadow = True )
8282
8383 # 设置Y轴(右边)
84- ax_2 .set_ylabel ("y label for sin in right" )
84+ ax_2 .set_ylabel ("右sin的y轴" , fontproperties = myfont )
8585 ax_2 .set_ylim (- 2.0 , 2.0 )
8686 ax_2 .set_yticks (np .linspace (- 2 , 2 , 9 , endpoint = True ))
8787
8888 # 设置X轴(共同)
89- ax_1 .set_xlabel ("x label" )
89+ ax_1 .set_xlabel ("x轴" , fontproperties = myfont )
9090 ax_1 .set_xlim (- 4.0 , 4.0 )
9191 ax_1 .set_xticks (np .linspace (- 4 , 4 , 9 , endpoint = True ))
9292
@@ -111,11 +111,10 @@ def subplot_plot():
111111
112112 # 子图的生成方式
113113 plt .subplot (2 , 2 , num + 1 )
114- plt .title ("subplot %d" % (num + 1 ))
114+ plt .title ("子图 %d" % (num + 1 ), fontproperties = myfont )
115115 plt .plot (x , y , style_list [num ])
116116
117117 # 图形显示
118- plt .grid (True )
119118 plt .show ()
120119 return
121120# subplot_plot()
@@ -130,16 +129,16 @@ def bar_plot():
130129 means_women = (25 , 32 , 34 , 20 , 25 )
131130
132131 # 设置标题
133- plt .title ("plot title" )
132+ plt .title ("可视化标题" , fontproperties = myfont )
134133
135134 # 设置相关参数
136135 index = np .arange (len (means_men ))
137136 bar_width = 0.35
138137
139138 # 画柱状图
140- plt .bar (index , means_men , width = bar_width , alpha = 0.2 , color = "b" , label = "Men " )
141- plt .bar (index + bar_width , means_women , width = bar_width , alpha = 0.8 , color = "r" , label = "Women " )
142- plt .legend (loc = "upper right" , shadow = True )
139+ plt .bar (index , means_men , width = bar_width , alpha = 0.2 , color = "b" , label = "男生 " )
140+ plt .bar (index + bar_width , means_women , width = bar_width , alpha = 0.8 , color = "r" , label = "女生 " )
141+ plt .legend (loc = "upper right" , prop = myfont , shadow = True )
143142
144143 # 设置柱状图标示
145144 for x , y in zip (index , means_men ):
@@ -149,9 +148,9 @@ def bar_plot():
149148
150149 # 设置刻度范围/坐标轴名称等
151150 plt .ylim (0 , 45 )
152- plt .xlabel ("Group" )
153- plt .ylabel ("Scores" )
154- plt .xticks (index + (bar_width / 2 ), ("A " , "B " , "C " , "D " , "E" ) )
151+ plt .xlabel ("分组Group" , fontproperties = myfont )
152+ plt .ylabel ("得分Scores" , fontproperties = myfont )
153+ plt .xticks (index + (bar_width / 2 ), ("A组 " , "B组 " , "C组 " , "D组 " , "E组" ), fontproperties = myfont )
155154
156155 # 图形显示
157156 plt .show ()
@@ -248,7 +247,7 @@ def table_plot():
248247 ])
249248
250249 # 设置标题
251- plt .title ("plot title" )
250+ plt .title ("可视化标题" , fontproperties = myfont )
252251
253252 # 设置相关参数
254253 index = np .arange (len (data [0 ]))
@@ -259,11 +258,11 @@ def table_plot():
259258
260259 # 依次画图,并更新底部位置
261260 for i in range (len (data )):
262- plt .bar (index , data [i ], width = 0.5 , color = color_index [i ], bottom = bottom , alpha = 0.7 , label = "label %d" % i )
261+ plt .bar (index , data [i ], width = 0.5 , color = color_index [i ], bottom = bottom , alpha = 0.7 , label = "标签 %d" % i )
263262 bottom += data [i ]
264263
265264 # 设置图例位置
266- plt .legend (loc = "upper left" , shadow = True )
265+ plt .legend (loc = "upper left" , prop = myfont , shadow = True )
267266
268267 # 图形显示
269268 plt .show ()
@@ -280,17 +279,17 @@ def histograms_plot():
280279 x = mu + sigma * np .random .randn (10000 )
281280
282281 # 设置标题
283- plt .title ("plot title" )
282+ plt .title ("可视化标题" , fontproperties = myfont )
284283
285284 # 画直方图, 并返回相关结果
286- n , bins , patches = plt .hist (x , bins = 50 , normed = 1 , cumulative = False , color = "green" , alpha = 0.6 , label = "hist " )
285+ n , bins , patches = plt .hist (x , bins = 50 , normed = 1 , cumulative = False , color = "green" , alpha = 0.6 , label = "直方图 " )
287286
288287 # 根据直方图返回的结果, 画折线图
289288 y = mlab .normpdf (bins , mu , sigma )
290- plt .plot (bins , y , "r--" , label = "line " )
289+ plt .plot (bins , y , "r--" , label = "线条 " )
291290
292291 # 设置图例位置
293- plt .legend (loc = "upper left" , shadow = True )
292+ plt .legend (loc = "upper left" , prop = myfont , shadow = True )
294293
295294 # 图形显示
296295 plt .show ()
@@ -304,17 +303,19 @@ def pie_plot():
304303 """
305304 # 生成测试数据
306305 sizes = [15 , 30 , 45 , 10 ]
307- labels = ["Frogs" , "Hogs " , "Dogs" , "Logs" ]
306+ labels = ["Frogs" , "中文 " , "Dogs" , "Logs" ]
308307 colors = ["yellowgreen" , "gold" , "lightskyblue" , "lightcoral" ]
309308
310309 # 设置标题
311- plt .title ("plot title" )
310+ plt .title ("可视化标题" , fontproperties = myfont )
312311
313312 # 设置突出参数
314313 explode = [0 , 0.05 , 0 , 0 ]
315314
316315 # 画饼状图
317- plt .pie (sizes , explode = explode , labels = labels , colors = colors , autopct = "%1.1f%%" , shadow = True , startangle = 90 )
316+ patches , l_text , p_text = plt .pie (sizes , explode = explode , labels = labels , colors = colors , autopct = "%1.1f%%" , shadow = True , startangle = 90 )
317+ for text in l_text :
318+ text .set_fontproperties (myfont )
318319 plt .axis ("equal" )
319320
320321 # 图形显示
@@ -333,7 +334,7 @@ def scatter_plot():
333334 y_index = np .random .random (point_count )
334335
335336 # 设置标题
336- plt .title ("plot title" )
337+ plt .title ("可视化标题" , fontproperties = myfont )
337338
338339 # 设置相关参数
339340 color_list = np .random .random (point_count )
@@ -357,7 +358,7 @@ def fill_plot():
357358 y = np .sin (x )
358359
359360 # 设置标题
360- plt .title ("plot title" )
361+ plt .title ("可视化标题" , fontproperties = myfont )
361362
362363 # 画图
363364 plt .plot (x , y , color = "blue" , alpha = 1.00 )
@@ -377,7 +378,7 @@ def radar_plot():
377378 radar plot
378379 """
379380 # 生成测试数据
380- labels = np .array (["A " , "B " , "C " , "D " , "E " , "F " ])
381+ labels = np .array (["A组 " , "B组 " , "C组 " , "D组 " , "E组 " , "F组 " ])
381382 data = np .array ([68 , 83 , 90 , 77 , 89 , 73 ])
382383 theta = np .linspace (0 , 2 * np .pi , len (data ), endpoint = False )
383384
@@ -387,10 +388,10 @@ def radar_plot():
387388
388389 # 画图方式
389390 plt .subplot (111 , polar = True )
390- plt .title ("plot title" )
391+ plt .title ("可视化标题" , fontproperties = myfont )
391392
392393 # 设置"theta grid"/"radar grid"
393- plt .thetagrids (theta * (180 / np .pi ), labels = labels )
394+ plt .thetagrids (theta * (180 / np .pi ), labels = labels , fontproperties = myfont )
394395 plt .rgrids (np .arange (20 , 100 , 20 ), labels = np .arange (20 , 100 , 20 ), angle = 0 )
395396 plt .ylim (0 , 100 )
396397
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