Python 如何从输入中过滤表情符号，以便在MySQL中保存<；5.5?

我有一个Django应用程序，它从Twitter的API获取推特数据，并将其保存在MySQL数据库中。据我所知（我仍在琢磨字符编码的细节），我在任何地方都使用UTF-8，包括MySQL编码和排序规则，除了tweet包含Emoji字符（我知道使用四字节编码）时，它工作正常。试图保存它们时，Django会发出以下警告：

/home/biggleszx/.virtualenvs/myvirtualenv/lib/python2.6/site packages/django/db/backends/mysql/base.py:86：警告：第1行“text”列的字符串值不正确：'\xF0\x9F\x98\xAD I..' 返回self.cursor.execute（查询，参数）

我使用的是MySQL 5.1，所以除非我升级到5.5，否则使用就不是一个选项，我宁愿现在还不升级到5.5（同样从我所读到的内容来看，Django对此的支持还没有完全准备好，尽管这可能不再准确）。我还看到建议在受影响的列上使用BLOB而不是文本，我也不希望这样做，因为我认为这会损害性能

那么，我的问题是，假设我不太在意tweet内容的100%保存，有没有一种方法可以过滤掉所有表情符号，并用非多字节字符替换它们，比如古老的

白色中小型正方形（U+25FD）

？考虑到我目前的设置，我认为这是保存数据的最简单方法，不过如果我错过了另一个明显的解决方案，我很乐意听到

仅供参考，我正在Ubuntu 10.04.4 LTS上使用Python 2.6.5

sys.maxunicode

是1114111，因此它是UCS-4版本

---

谢谢你的阅读。

所以这已经被回答了好几次了，我只是没有找到合适的Google fu来查找存在的问题

多亏了，这个解决方案来自正则表达式的世界，特别是这段代码（基于他对上面第一个链接的回答）：

重新导入
尝试：
#UCS-4
高点=重新编译（u'[\U00010000-\U0010ffff]'）
除重复错误外：
#UCS-2
高点=重新编译（u'[\uD800-\uDBFF][\uDC00-\uDFFF]'）
#mytext=u“”
mytext=highpoints.sub（u'\u25FD'，mytext）

我要替换的字符是

白色中小型正方形（U+25FD）

，仅供参考，但可以是任何东西

对于像我这样不熟悉UCS的人来说，这是一个Unicode转换系统，给定的Python版本将包括对UCS-2或UCS-4变体的支持，每个变体都有不同的字符支持上限

添加了这段代码后，字符串似乎在MySQL 5.1中保持得很好

---

希望这能帮助其他处于同样情况的人

我尝试了BigglesZX提出的解决方案，但它并不是为了表达内心的表情(❤) 在阅读了[emoji的wikipedia文章][1]之后，我发现正则表达式并没有覆盖所有的emoji，同时也覆盖了其他非emoji的unicode范围

以下代码创建了5个正则表达式，涵盖标准中的5个表情块：

emoji_symbols_pictograms = re.compile(u'[\U0001f300-\U0001f5fF]')
emoji_emoticons = re.compile(u'[\U0001f600-\U0001f64F]')
emoji_transport_maps = re.compile(u'[\U0001f680-\U0001f6FF]')
emoji_symbols = re.compile(u'[\U00002600-\U000026FF]')
emoji_dingbats = re.compile(u'[\U00002700-\U000027BF]')

这些块可合并为三个块（UCS-4）：

其在UCS-2中的等价物为：

emoji_block0 = re.compile(u'[\u2600-\u27BF]')
emoji_block1 = compile(u'[\uD83C][\uDF00-\uDFFF]')
emoji_block1b = compile(u'[\uD83D][\uDC00-\uDE4F]')
emoji_block2 = re.compile(u'[\uD83D][\uDE80-\uDEFF]')

最后，我们可以定义一个正则表达式，将所有情况放在一起：

import re
try:
    # UCS-4
    highpoints = re.compile(u'([\U00002600-\U000027BF])|([\U0001f300-\U0001f64F])|([\U0001f680-\U0001f6FF])')
except re.error:
    # UCS-2
    highpoints = re.compile(u'([\u2600-\u27BF])|([\uD83C][\uDF00-\uDFFF])|([\uD83D][\uDC00-\uDE4F])|([\uD83D][\uDE80-\uDEFF])')
# mytext = u'<some string containing 4-byte chars>'
mytext = highpoints.sub(u'\u25FD', mytext)

重新导入
尝试：
#UCS-4
高点=重新编译（u'（[\U00002600-\U000027BF]）|（[\U0001f300-\U0001f64F]）|（[\U0001f680-\U0001f6FF]））
除重复错误外：
#UCS-2
高点=重新编译（u'（[\u2600-\u27BF]）|（[\uD83C][\uDF00-\uDFFF]）|（[\uD83D][\uDC00-\uDE4F]）|（[\uD83D][\uDE80-\uDEFF]））
#mytext=u“”
mytext=highpoints.sub（u'\u25FD'，mytext）

我发现了另一个能够识别表情符号的常规表达式。 此正则表达式由instagram Engineering博客上的团队提供

u"(?<!&)#(\w|(?:[\xA9\xAE\u203C\u2049\u2122\u2139\u2194-\u2199\u21A9\u21AA\u231A\u231B\u2328\u2388\u23CF\u23E9-\u23F3\u23F8-\u23FA\u24C2\u25AA\u25AB\u25B6\u25C0\u25FB-\u25FE\u2600-\u2604\u260E\u2611\u2614\u2615\u2618\u261D\u2620\u2622\u2623\u2626\u262A\u262E\u262F\u2638-\u263A\u2648-\u2653\u2660\u2663\u2665\u2666\u2668\u267B\u267F\u2692-\u2694\u2696\u2697\u2699\u269B\u269C\u26A0\u26A1\u26AA\u26AB\u26B0\u26B1\u26BD\u26BE\u26C4\u26C5\u26C8\u26CE\u26CF\u26D1\u26D3\u26D4\u26E9\u26EA\u26F0-\u26F5\u26F7-\u26FA\u26FD\u2702\u2705\u2708-\u270D\u270F\u2712\u2714\u2716\u271D\u2721\u2728\u2733\u2734\u2744\u2747\u274C\u274E\u2753-\u2755\u2757\u2763\u2764\u2795-\u2797\u27A1\u27B0\u27BF\u2934\u2935\u2B05-\u2B07\u2B1B\u2B1C\u2B50\u2B55\u3030\u303D\u3297\u3299]|\uD83C[\uDC04\uDCCF\uDD70\uDD71\uDD7E\uDD7F\uDD8E\uDD91-\uDD9A\uDE01\uDE02\uDE1A\uDE2F\uDE32-\uDE3A\uDE50\uDE51\uDF00-\uDF21\uDF24-\uDF93\uDF96\uDF97\uDF99-\uDF9B\uDF9E-\uDFF0\uDFF3-\uDFF5\uDFF7-\uDFFF]|\uD83D[\uDC00-\uDCFD\uDCFF-\uDD3D\uDD49-\uDD4E\uDD50-\uDD67\uDD6F\uDD70\uDD73-\uDD79\uDD87\uDD8A-\uDD8D\uDD90\uDD95\uDD96\uDDA5\uDDA8\uDDB1\uDDB2\uDDBC\uDDC2-\uDDC4\uDDD1-\uDDD3\uDDDC-\uDDDE\uDDE1\uDDE3\uDDEF\uDDF3\uDDFA-\uDE4F\uDE80-\uDEC5\uDECB-\uDED0\uDEE0-\uDEE5\uDEE9\uDEEB\uDEEC\uDEF0\uDEF3]|\uD83E[\uDD10-\uDD18\uDD80-\uDD84\uDDC0]|(?:0\u20E3|1\u20E3|2\u20E3|3\u20E3|4\u20E3|5\u20E3|6\u20E3|7\u20E3|8\u20E3|9\u20E3|#\u20E3|\\*\u20E3|\uD83C(?:\uDDE6\uD83C(?:\uDDEB|\uDDFD|\uDDF1|\uDDF8|\uDDE9|\uDDF4|\uDDEE|\uDDF6|\uDDEC|\uDDF7|\uDDF2|\uDDFC|\uDDE8|\uDDFA|\uDDF9|\uDDFF|\uDDEA)|\uDDE7\uD83C(?:\uDDF8|\uDDED|\uDDE9|\uDDE7|\uDDFE|\uDDEA|\uDDFF|\uDDEF|\uDDF2|\uDDF9|\uDDF4|\uDDE6|\uDDFC|\uDDFB|\uDDF7|\uDDF3|\uDDEC|\uDDEB|\uDDEE|\uDDF6|\uDDF1)|\uDDE8\uD83C(?:\uDDF2|\uDDE6|\uDDFB|\uDDEB|\uDDF1|\uDDF3|\uDDFD|\uDDF5|\uDDE8|\uDDF4|\uDDEC|\uDDE9|\uDDF0|\uDDF7|\uDDEE|\uDDFA|\uDDFC|\uDDFE|\uDDFF|\uDDED)|\uDDE9\uD83C(?:\uDDFF|\uDDF0|\uDDEC|\uDDEF|\uDDF2|\uDDF4|\uDDEA)|\uDDEA\uD83C(?:\uDDE6|\uDDE8|\uDDEC|\uDDF7|\uDDEA|\uDDF9|\uDDFA|\uDDF8|\uDDED)|\uDDEB\uD83C(?:\uDDF0|\uDDF4|\uDDEF|\uDDEE|\uDDF7|\uDDF2)|\uDDEC\uD83C(?:\uDDF6|\uDDEB|\uDDE6|\uDDF2|\uDDEA|\uDDED|\uDDEE|\uDDF7|\uDDF1|\uDDE9|\uDDF5|\uDDFA|\uDDF9|\uDDEC|\uDDF3|\uDDFC|\uDDFE|\uDDF8|\uDDE7)|\uDDED\uD83C(?:\uDDF7|\uDDF9|\uDDF2|\uDDF3|\uDDF0|\uDDFA)|\uDDEE\uD83C(?:\uDDF4|\uDDE8|\uDDF8|\uDDF3|\uDDE9|\uDDF7|\uDDF6|\uDDEA|\uDDF2|\uDDF1|\uDDF9)|\uDDEF\uD83C(?:\uDDF2|\uDDF5|\uDDEA|\uDDF4)|\uDDF0\uD83C(?:\uDDED|\uDDFE|\uDDF2|\uDDFF|\uDDEA|\uDDEE|\uDDFC|\uDDEC|\uDDF5|\uDDF7|\uDDF3)|\uDDF1\uD83C(?:\uDDE6|\uDDFB|\uDDE7|\uDDF8|\uDDF7|\uDDFE|\uDDEE|\uDDF9|\uDDFA|\uDDF0|\uDDE8)|\uDDF2\uD83C(?:\uDDF4|\uDDF0|\uDDEC|\uDDFC|\uDDFE|\uDDFB|\uDDF1|\uDDF9|\uDDED|\uDDF6|\uDDF7|\uDDFA|\uDDFD|\uDDE9|\uDDE8|\uDDF3|\uDDEA|\uDDF8|\uDDE6|\uDDFF|\uDDF2|\uDDF5|\uDDEB)|\uDDF3\uD83C(?:\uDDE6|\uDDF7|\uDDF5|\uDDF1|\uDDE8|\uDDFF|\uDDEE|\uDDEA|\uDDEC|\uDDFA|\uDDEB|\uDDF4)|\uDDF4\uD83C\uDDF2|\uDDF5\uD83C(?:\uDDEB|\uDDF0|\uDDFC|\uDDF8|\uDDE6|\uDDEC|\uDDFE|\uDDEA|\uDDED|\uDDF3|\uDDF1|\uDDF9|\uDDF7|\uDDF2)|\uDDF6\uD83C\uDDE6|\uDDF7\uD83C(?:\uDDEA|\uDDF4|\uDDFA|\uDDFC|\uDDF8)|\uDDF8\uD83C(?:\uDDFB|\uDDF2|\uDDF9|\uDDE6|\uDDF3|\uDDE8|\uDDF1|\uDDEC|\uDDFD|\uDDF0|\uDDEE|\uDDE7|\uDDF4|\uDDF8|\uDDED|\uDDE9|\uDDF7|\uDDEF|\uDDFF|\uDDEA|\uDDFE)|\uDDF9\uD83C(?:\uDDE9|\uDDEB|\uDDFC|\uDDEF|\uDDFF|\uDDED|\uDDF1|\uDDEC|\uDDF0|\uDDF4|\uDDF9|\uDDE6|\uDDF3|\uDDF7|\uDDF2|\uDDE8|\uDDFB)|\uDDFA\uD83C(?:\uDDEC|\uDDE6|\uDDF8|\uDDFE|\uDDF2|\uDDFF)|\uDDFB\uD83C(?:\uDDEC|\uDDE8|\uDDEE|\uDDFA|\uDDE6|\uDDEA|\uDDF3)|\uDDFC\uD83C(?:\uDDF8|\uDDEB)|\uDDFD\uD83C\uDDF0|\uDDFE\uD83C(?:\uDDF9|\uDDEA)|\uDDFF\uD83C(?:\uDDE6|\uDDF2|\uDDFC))))[\ufe00-\ufe0f\u200d]?)+

u“（？）？
资料来源：

注意：我添加了另一个答案，因为这个答案与我之前的答案不完全相同。
我使用的是json编码器函数对输入进行编码

此函数用于json.dumps上的dict编码（将其转换为字符串）。（因此，我们需要对响应进行一些编辑-删除'）

这使我能够将表情符号保存到mysql，并（在web上）呈现它：

UTF8可以对非BMP字符进行编码。@SLaks:是的，但是
UTF8
MySQL字符集无法存储这些字符，因为它只使用了3个字节。我多年来一直在使用不完整的正则表达式，但这个扩展的正则表达式似乎工作得很好，为新的表情提供了更多的覆盖范围。这里缺少标志表情。这些是由两个区域指示器符号的p，它们都在块\U0001F1E6-\U0001F1FF中。
import re
try:
    # UCS-4
    highpoints = re.compile(u'([\U00002600-\U000027BF])|([\U0001f300-\U0001f64F])|([\U0001f680-\U0001f6FF])')
except re.error:
    # UCS-2
    highpoints = re.compile(u'([\u2600-\u27BF])|([\uD83C][\uDF00-\uDFFF])|([\uD83D][\uDC00-\uDE4F])|([\uD83D][\uDE80-\uDEFF])')
# mytext = u'<some string containing 4-byte chars>'
mytext = highpoints.sub(u'\u25FD', mytext)

u"(?<!&)#(\w|(?:[\xA9\xAE\u203C\u2049\u2122\u2139\u2194-\u2199\u21A9\u21AA\u231A\u231B\u2328\u2388\u23CF\u23E9-\u23F3\u23F8-\u23FA\u24C2\u25AA\u25AB\u25B6\u25C0\u25FB-\u25FE\u2600-\u2604\u260E\u2611\u2614\u2615\u2618\u261D\u2620\u2622\u2623\u2626\u262A\u262E\u262F\u2638-\u263A\u2648-\u2653\u2660\u2663\u2665\u2666\u2668\u267B\u267F\u2692-\u2694\u2696\u2697\u2699\u269B\u269C\u26A0\u26A1\u26AA\u26AB\u26B0\u26B1\u26BD\u26BE\u26C4\u26C5\u26C8\u26CE\u26CF\u26D1\u26D3\u26D4\u26E9\u26EA\u26F0-\u26F5\u26F7-\u26FA\u26FD\u2702\u2705\u2708-\u270D\u270F\u2712\u2714\u2716\u271D\u2721\u2728\u2733\u2734\u2744\u2747\u274C\u274E\u2753-\u2755\u2757\u2763\u2764\u2795-\u2797\u27A1\u27B0\u27BF\u2934\u2935\u2B05-\u2B07\u2B1B\u2B1C\u2B50\u2B55\u3030\u303D\u3297\u3299]|\uD83C[\uDC04\uDCCF\uDD70\uDD71\uDD7E\uDD7F\uDD8E\uDD91-\uDD9A\uDE01\uDE02\uDE1A\uDE2F\uDE32-\uDE3A\uDE50\uDE51\uDF00-\uDF21\uDF24-\uDF93\uDF96\uDF97\uDF99-\uDF9B\uDF9E-\uDFF0\uDFF3-\uDFF5\uDFF7-\uDFFF]|\uD83D[\uDC00-\uDCFD\uDCFF-\uDD3D\uDD49-\uDD4E\uDD50-\uDD67\uDD6F\uDD70\uDD73-\uDD79\uDD87\uDD8A-\uDD8D\uDD90\uDD95\uDD96\uDDA5\uDDA8\uDDB1\uDDB2\uDDBC\uDDC2-\uDDC4\uDDD1-\uDDD3\uDDDC-\uDDDE\uDDE1\uDDE3\uDDEF\uDDF3\uDDFA-\uDE4F\uDE80-\uDEC5\uDECB-\uDED0\uDEE0-\uDEE5\uDEE9\uDEEB\uDEEC\uDEF0\uDEF3]|\uD83E[\uDD10-\uDD18\uDD80-\uDD84\uDDC0]|(?:0\u20E3|1\u20E3|2\u20E3|3\u20E3|4\u20E3|5\u20E3|6\u20E3|7\u20E3|8\u20E3|9\u20E3|#\u20E3|\\*\u20E3|\uD83C(?:\uDDE6\uD83C(?:\uDDEB|\uDDFD|\uDDF1|\uDDF8|\uDDE9|\uDDF4|\uDDEE|\uDDF6|\uDDEC|\uDDF7|\uDDF2|\uDDFC|\uDDE8|\uDDFA|\uDDF9|\uDDFF|\uDDEA)|\uDDE7\uD83C(?:\uDDF8|\uDDED|\uDDE9|\uDDE7|\uDDFE|\uDDEA|\uDDFF|\uDDEF|\uDDF2|\uDDF9|\uDDF4|\uDDE6|\uDDFC|\uDDFB|\uDDF7|\uDDF3|\uDDEC|\uDDEB|\uDDEE|\uDDF6|\uDDF1)|\uDDE8\uD83C(?:\uDDF2|\uDDE6|\uDDFB|\uDDEB|\uDDF1|\uDDF3|\uDDFD|\uDDF5|\uDDE8|\uDDF4|\uDDEC|\uDDE9|\uDDF0|\uDDF7|\uDDEE|\uDDFA|\uDDFC|\uDDFE|\uDDFF|\uDDED)|\uDDE9\uD83C(?:\uDDFF|\uDDF0|\uDDEC|\uDDEF|\uDDF2|\uDDF4|\uDDEA)|\uDDEA\uD83C(?:\uDDE6|\uDDE8|\uDDEC|\uDDF7|\uDDEA|\uDDF9|\uDDFA|\uDDF8|\uDDED)|\uDDEB\uD83C(?:\uDDF0|\uDDF4|\uDDEF|\uDDEE|\uDDF7|\uDDF2)|\uDDEC\uD83C(?:\uDDF6|\uDDEB|\uDDE6|\uDDF2|\uDDEA|\uDDED|\uDDEE|\uDDF7|\uDDF1|\uDDE9|\uDDF5|\uDDFA|\uDDF9|\uDDEC|\uDDF3|\uDDFC|\uDDFE|\uDDF8|\uDDE7)|\uDDED\uD83C(?:\uDDF7|\uDDF9|\uDDF2|\uDDF3|\uDDF0|\uDDFA)|\uDDEE\uD83C(?:\uDDF4|\uDDE8|\uDDF8|\uDDF3|\uDDE9|\uDDF7|\uDDF6|\uDDEA|\uDDF2|\uDDF1|\uDDF9)|\uDDEF\uD83C(?:\uDDF2|\uDDF5|\uDDEA|\uDDF4)|\uDDF0\uD83C(?:\uDDED|\uDDFE|\uDDF2|\uDDFF|\uDDEA|\uDDEE|\uDDFC|\uDDEC|\uDDF5|\uDDF7|\uDDF3)|\uDDF1\uD83C(?:\uDDE6|\uDDFB|\uDDE7|\uDDF8|\uDDF7|\uDDFE|\uDDEE|\uDDF9|\uDDFA|\uDDF0|\uDDE8)|\uDDF2\uD83C(?:\uDDF4|\uDDF0|\uDDEC|\uDDFC|\uDDFE|\uDDFB|\uDDF1|\uDDF9|\uDDED|\uDDF6|\uDDF7|\uDDFA|\uDDFD|\uDDE9|\uDDE8|\uDDF3|\uDDEA|\uDDF8|\uDDE6|\uDDFF|\uDDF2|\uDDF5|\uDDEB)|\uDDF3\uD83C(?:\uDDE6|\uDDF7|\uDDF5|\uDDF1|\uDDE8|\uDDFF|\uDDEE|\uDDEA|\uDDEC|\uDDFA|\uDDEB|\uDDF4)|\uDDF4\uD83C\uDDF2|\uDDF5\uD83C(?:\uDDEB|\uDDF0|\uDDFC|\uDDF8|\uDDE6|\uDDEC|\uDDFE|\uDDEA|\uDDED|\uDDF3|\uDDF1|\uDDF9|\uDDF7|\uDDF2)|\uDDF6\uD83C\uDDE6|\uDDF7\uD83C(?:\uDDEA|\uDDF4|\uDDFA|\uDDFC|\uDDF8)|\uDDF8\uD83C(?:\uDDFB|\uDDF2|\uDDF9|\uDDE6|\uDDF3|\uDDE8|\uDDF1|\uDDEC|\uDDFD|\uDDF0|\uDDEE|\uDDE7|\uDDF4|\uDDF8|\uDDED|\uDDE9|\uDDF7|\uDDEF|\uDDFF|\uDDEA|\uDDFE)|\uDDF9\uD83C(?:\uDDE9|\uDDEB|\uDDFC|\uDDEF|\uDDFF|\uDDED|\uDDF1|\uDDEC|\uDDF0|\uDDF4|\uDDF9|\uDDE6|\uDDF3|\uDDF7|\uDDF2|\uDDE8|\uDDFB)|\uDDFA\uD83C(?:\uDDEC|\uDDE6|\uDDF8|\uDDFE|\uDDF2|\uDDFF)|\uDDFB\uD83C(?:\uDDEC|\uDDE8|\uDDEE|\uDDFA|\uDDE6|\uDDEA|\uDDF3)|\uDDFC\uD83C(?:\uDDF8|\uDDEB)|\uDDFD\uD83C\uDDF0|\uDDFE\uD83C(?:\uDDF9|\uDDEA)|\uDDFF\uD83C(?:\uDDE6|\uDDF2|\uDDFC))))[\ufe00-\ufe0f\u200d]?)+

# encode input 
from json.encoder import py_encode_basestring_ascii
name = py_encode_basestring_ascii(name)[1:-1]

# save
YourModel.name = name
name.save()