[python] 词云:wordcloud包的安装使用原理(源码分析)中文词云生成代码重写
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1. 词云简介
词云,又称文字云、标签云,是对文本数据中出现频率较高的“关键词”在视觉上的突出呈现,形成关键词的渲染形成类似云一样的彩色图片,从而一眼就可以领略文本数据的主要表达意思。常见于博客、微博、文章分析等。
除了网上现成的Wordle、Tagxedo、Tagul、Tagcrowd等词云制作工具,在python中也可以用wordcloud包比较轻松地实现(官网、github项目):
from wordcloud import WordCloud import matplotlib.pyplot as plt # Read the whole text. text = open(\'constitution.txt\').read() # Generate a word cloud image wordcloud = WordCloud().generate(text) # Display the generated image: # the matplotlib way: plt.imshow(wordcloud, interpolation=\'bilinear\') plt.axis("off")
生成的词云如下:
还可以设置图片作为mask:
alice_mask = np.array(Image.open(path.join(d, "alice_mask.png"))) wc = WordCloud(background_color="white", max_words=2000, mask=alice_mask, stopwords=stopwords, contour_width=3, contour_color=\'steelblue\') wc.generate(text)
2. 安装
pip install wordcloud
3. 根据源码分析wordcloud的实现原理
总的来说,wordcloud做的是三件事:
(1) 文本预处理
(2) 词频统计
(3) 将高频词以图片形式进行彩色渲染
从上面的代码可以看到,用 wordcloud.generate(text) 就完成了这三项工作。
源码:
def generate(self, text): """Generate wordcloud from text. The input "text" is expected to be a natural text. If you pass a sorted list of words, words will appear in your output twice. To remove this duplication, set ``collocations=False``. Alias to generate_from_text. Calls process_text and generate_from_frequencies. Returns ------- self """ return self.generate_from_text(text) def generate_from_text(self, text): """Generate wordcloud from text. The input "text" is expected to be a natural text. If you pass a sorted list of words, words will appear in your output twice. To remove this duplication, set ``collocations=False``. Calls process_text and generate_from_frequencies. ..versionchanged:: 1.2.2 Argument of generate_from_frequencies() is not return of process_text() any more. Returns ------- self """ words = self.process_text(text) self.generate_from_frequencies(words) return self
它的调用顺序是:
generate(self, text) => self.generate_from_text(text) => words = self.process_text(text) self.generate_from_frequencies(words)
其中 process_text(text) 对应的是文本预处理和词频统计,而 generate_from_frequencies(words) 对应的是根据词频中生成词云。
(1) process_text(text) 主要是进行分词和去噪。
具体地,它做了以下操作:
- 检测文本编码
- 分词(根据规则进行tokenize)、保留单词字符(A-Za-z0-9_)和单引号(\')、去除单字符
- 去除停用词
- 去除后缀(\'s) -- 针对英文
- 去除纯数字
- 统计一元和二元词频计数(unigrams_and_bigrams) -- 可选
返回的结果是一个字典 dict(string, int) ,表示的是分词后的token以及对应出现的次数。
这里有一些需要注意的地方,文章后面会再提到。
源码如下:
def process_text(self, text): """Splits a long text into words, eliminates the stopwords. Parameters ---------- text : string The text to be processed. Returns ------- words : dict (string, int) Word tokens with associated frequency. ..versionchanged:: 1.2.2 Changed return type from list of tuples to dict. Notes ----- There are better ways to do word tokenization, but I don\'t want to include all those things. """ stopwords = set([i.lower() for i in self.stopwords]) flags = (re.UNICODE if sys.version < \'3\' and type(text) is unicode else 0) regexp = self.regexp if self.regexp is not None else r"\\w[\\w\']+" words = re.findall(regexp, text, flags) # remove stopwords words = [word for word in words if word.lower() not in stopwords] # remove \'s words = [word[:-2] if word.lower().endswith("\'s") else word for word in words] # remove numbers words = [word for word in words if not word.isdigit()] if self.collocations: word_counts = unigrams_and_bigrams(words, self.normalize_plurals) else: word_counts, _ = process_tokens(words, self.normalize_plurals) return word_counts
(2) generate_from_frequencies(words) 主要是根据上一步的结果生成词云分布。
具体地,它做了以下操作:
- 对词计数结果进行排序,并归一化(normalized)到0~1之间,得到词频
- 创建图像并确定font_size初始值
- 给self.words_赋值,记录的是出现频率最高的前max_words个词,以及对应的归一化后的词频,即dict(token, normalized_frequency)
- 画出灰度图:词频越大,font_size越大;根据生成的随机数来决定字的水平/垂直方向
- 若随机数小于self.prefer_horizontal则为水平方向,否则为垂直方向;
- 如果空间不足,优先考虑旋转方向,其次考虑将字体变小
- 给self.layout_赋值,记录的是词和词频、字体大小、位置、方向、以及颜色,即list(zip(frequencies, font_sizes, positions, orientations, colors))
可以看到,这个函数的主要目的在于得到self.layout_的值,记录了要生成词云分布图所需要的信息。
后面wordcloud.to_file(filename)或者plt.imshow(wordcloud)会把结果以图像的形式呈现出来。其中to_file()函数就会先检测是否已经给self.layout_赋值,如果没有的话会报错。
源码如下:
def generate_from_frequencies(self, frequencies, max_font_size=None): """Create a word_cloud from words and frequencies. Parameters ---------- frequencies : dict from string to float A contains words and associated frequency. max_font_size : int Use this font-size instead of self.max_font_size Returns ------- self """ # make sure frequencies are sorted and normalized frequencies = sorted(frequencies.items(), key=itemgetter(1), reverse=True) if len(frequencies) <= 0: raise ValueError("We need at least 1 word to plot a word cloud, " "got %d." % len(frequencies)) frequencies = frequencies[:self.max_words] # largest entry will be 1 max_frequency = float(frequencies[0][1]) frequencies = [(word, freq / max_frequency) for word, freq in frequencies] if self.random_state is not None: random_state = self.random_state else: random_state = Random() if self.mask is not None: mask = self.mask width = mask.shape[1] height = mask.shape[0] if mask.dtype.kind == \'f\': warnings.warn("mask image should be unsigned byte between 0" " and 255. Got a float array") if mask.ndim == 2: boolean_mask = mask == 255 elif mask.ndim == 3: # if all channels are white, mask out boolean_mask = np.all(mask[:, :, :3] == 255, axis=-1) else: raise ValueError("Got mask of invalid shape: %s" % str(mask.shape)) else: boolean_mask = None height, width = self.height, self.width occupancy = IntegralOccupancyMap(height, width, boolean_mask) # create image img_grey = Image.new("L", (width, height)) draw = ImageDraw.Draw(img_grey) img_array = np.asarray(img_grey) font_sizes, positions, orientations, colors = [], [], [], [] last_freq = 1. if max_font_size is None: # if not provided use default font_size max_font_size = self.max_font_size if max_font_size is None: # figure out a good font size by trying to draw with # just the first two words if len(frequencies) == 1: # we only have one word. We make it big! font_size = self.height else: self.generate_from_frequencies(dict(frequencies[:2]), max_font_size=self.height) # find font sizes sizes = [x[1] for x in self.layout_] try: font_size = int(2 * sizes[0] * sizes[1] / (sizes[0] + sizes[1])) # quick fix for if self.layout_ contains less than 2 values # on very small images it can be empty except IndexError: try: font_size = sizes[0] except IndexError: raise ValueError(\'canvas size is too small\') else: font_size = max_font_size # we set self.words_ here because we called generate_from_frequencies # above... hurray for good design? self.words_ = dict(frequencies) # start drawing grey image for word, freq in frequencies: # select the font size rs = self.relative_scaling if rs != 0: font_size = int(round((rs * (freq / float(last_freq)) + (1 - rs)) * font_size)) if random_state.random() < self.prefer_horizontal: orientation = None else: orientation = Image.ROTATE_90 tried_other_orientation = False while True: # try to find a position font = ImageFont.truetype(self.font_path, font_size) # transpose font optionally transposed_font = ImageFont.TransposedFont( font, orientation=orientation) # get size of resulting text box_size = draw.textsize(word, font=transposed_font) # find possible places using integral image: result = occupancy.sample_position(box_size[1] + self.margin, box_size[0] + self.margin, random_state) if result is not None or font_size < self.min_font_size: # either we found a place or font-size went too small break # if we didn\'t find a place, make font smaller # but first try to rotate! if not tried_other_orientation and self.prefer_horizontal < 1: orientation = (Image.ROTATE_90 if orientation is None else Image.ROTATE_90) tried_other_orientation = True else: font_size -= self.font_step orientation = None if font_size < self.min_font_size: # we were unable to draw any more break x, y = np.array(result) + self.margin // 2 # actually draw the text draw.text((y, x), word, fill="white", font=transposed_font) positions.append((x, y)) orientations.append(orientation) font_sizes.append(font_size) colors.append(self.color_func(word, font_size=font_size, position=(x, y), orientation=orientation, random_state=random_state, font_path=self.font_path)) # recompute integral image if self.mask is None: img_array = np.asarray(img_grey) else: img_array = np.asarray(img_grey) + boolean_mask # recompute bottom right # the order of the cumsum\'s is important for speed ?! occupancy.update(img_array, x, y) last_freq = freq self.layout_ = list(zip(frequencies, font_sizes, positions, orientations, colors)) return self
4. 应用到中文语料应该要注意的点
wordcloud包是由Andreas Mueller在2015-03-20发布1.0.0版本,现在最新的是2018-03-13发布的1.4.1版本。
英文语料可以直接输入到wordcloud中,但是对于中文语料,仅仅用wordcloud不能直接生成中文词云图。
原因:
英文单词以空格分隔,而我们从前面process_text(text)看到源码中是直接用正则表达式(默认为r"\\w[\\w\']+")进行处理:
In : re.findall(r"\\w[\\w\']+", "It\'s Monday today.") Out: ["It\'s", \'Monday\', \'today\']
但是中文里面词与词之间一般不用字符分隔:
In : re.findall(r"\\w[\\w\']+", "今天天气不错,蓝天白云,还有温暖的阳光 哈 哈哈") Out: [\'今天天气不错\', \'蓝天白云\', \'还有温暖的阳光\', \'哈哈\']
可以看出,原生的wordcloud是为英文服务的,去除标点符号(单符号\'除外)并分割成token;
而应用到中文语料上的时候,注意要先分好词,再用空格分隔连接成字符串,最后输入到wordcloud。
另外要注意的是,无论是对英文还是中文,默认是把单字符剔除掉(因为 regexp = self.regexp if self.regexp is not None else r"\\w[\\w\']+" ),如果想要保留单字符,将regexp参数讲表达式设置为 r"\\w[\\w\']*" 即可。
from wordcloud import WordCloud from scipy.misc import imread def generate_wordcloud(text, max_words=200, pic_path=None): """ 生成词云 :param text: 一段以空格为间断的字符串 :param max_words: 词数目上限 :param pic_path: 输出图片路径 :return: """ mk = imread("tuoyuan.jpg") wc = WordCloud(font_path="/usr/share/fonts/myfonts/msyh.ttf", background_color="white", max_words=max_words, mask=mk, width=1000, height=500, max_font_size=100, prefer_horizontal=0.95, collocations=False) wc.generate(text=text) if pic_path: wc.to_file(pic_path) else: plt.imshow(wc) plt.axis("off") plt.show() return wc.words_ def run_wordcloud(corpus, max_words, pic_path=None): text = " ".join([" ".join(line) for line in corpus]) # 将分词后的结果用空格连接 word2weight = generate_wordcloud(text=text, max_words=max_words, pic_path=pic_path) word2weight_sorted = sorted(word2weight.items(), key=lambda x: x[1], reverse=True) logging.info([(k, float("%.5f" % v)) for k, v in word2weight_sorted])
更多参考:word_cloud/examples/wordcloud_cn.py
5. 重写代码
用词云是为了直观地看语料的关键信息,在本人的实际工作应用中,主要目的在于获取关键信息,而不太关注界面的呈现方式。
所以在了解wordcloud源码实现原理之后,决定自己用代码实现。
一方面,使得代码的实现更公开透明,在效率相当的情况下尽量避免使用第三方库,效果可控,甚至还可以提升效率;
另一方面,能结合实际情况更灵活地处理问题。
针对中文的预处理,可以和分词结合一起完成。这里主要进行:分词和词性标注、小写化、去停用词、去数字、去单字符、以及保留指定词性。
import jieba import jieba.posseg as pseg class Utils(object): def __init__(self, utils_data=None): self.stopwords = self.init_utils(utils_data) self.pos_save = { "n", "an", "Ng", "nr", "ns", "nt", "nz", "vn", "un", # 名 "v", "vg", "vd", # 动 "a", "ag", "ad", # 形 "j", "l", "i", "z", "b", "g", "s", "h", # j简称略语、l习用语、i成语、z状态词、b区别词、g语素、s处所词、h前接成分 "zg", "eng", "x"} # 未知(自定义词) def _init_utils(self, utils_data): for wd in utils_data["user_dict"]: jieba.add_word(wd) return set(utils_data["stopwords"]) def _token_filter(self, token): # 去停用词; 去数字; 去单字 return token not in self.stopwords and not token.isdigit() and len(token) >= 2 def _token_filter_with_flag(self, pair_word_flag): # 保留指定词性 return self.token_filter(pair_word_flag.word) and pair_word_flag.flag in self.pos_save def cut(self, text): return list(filter(self._token_filter, list(jieba.cut(text.lower())))) # 分词; 小写化; def cut_with_flag(self, text): pairs = list(filter(self._token_filter_with_flag, list(pseg.cut(text.lower())))) # 分词和词性标注; 小写化; return [p.word for p in pairs]
做完文本分词和其它预处理之后,直接统计词及对应的出现次数即可。为了更直观,这里输出的是词计数,而不是归一化后的词频。排序结果与wordcloud等同。
def word_count(corpus, n_gram=1, n=None): counter = Counter() if n_gram == 1: for line in corpus: counter.update(line) elif n_gram == 2: for line in corpus: size = len(line) counter.update(["%s_%s" % (line[idx], line[idx + 1]) for idx in range(size) if idx + 1 < size]) # 有序 else: logging.info("[Error] Invalid value of param n_gram: %s (only 1 or 2 accepted)" % n_gram) return counter.most_common(n=n)
另外还可以统计高频词的共现情况、把高频词/词共现反向映射到对应的句子等等,便于从高频词层面到高频句子类型层面的归纳。
参考:
https://pypi.org/project/wordcloud/
https://github.com/amueller/word_cloud
http://python.jobbole.com/87496/
https://www.jianshu.com/p/ead991a08563
https://blog.csdn.net/qq_34739497/article/details/78285972
https://www.cnblogs.com/sunnyeveryday/p/7043399.html
https://www.cnblogs.com/naraka/p/8992058.html
https://www.cnblogs.com/franklv/p/6995150.html
https://blog.csdn.net/Tang_Chuanlin/article/details/79862505
https://www.cnblogs.com/zjutlitao/archive/2016/08/04/5734876.html
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