目前的一些回复还可以，但我想提供另一种可能更“泛化”的选项。这适用于我目前的熊猫0.23(不确定它是否适用于以前的版本):

import pandas as pd

df_test = pd.DataFrame([
  {'dir': '/Users/uname1', 'size': 994933},
  {'dir': '/Users/uname2', 'size': 109338711},
])

def sizes(s):
  a = locale.format_string("%.1f", s['size'] / 1024.0, grouping=True) + ' KB'
  b = locale.format_string("%.1f", s['size'] / 1024.0 ** 2, grouping=True) + ' MB'
  c = locale.format_string("%.1f", s['size'] / 1024.0 ** 3, grouping=True) + ' GB'
  return a, b, c

df_test[['size_kb', 'size_mb', 'size_gb']] = df_test.apply(sizes, axis=1, result_type="expand")

注意，诀窍在于apply的result_type参数，该参数将其结果展开为可以直接分配给新/旧列的DataFrame。

通常，为了返回多个值，我就是这样做的

def gimmeMultiple(group):
    x1 = 1
    x2 = 2
    return array([[1, 2]])
def gimmeMultipleDf(group):
    x1 = 1
    x2 = 2
    return pd.DataFrame(array([[1,2]]), columns=['x1', 'x2'])
df['size'].astype(int).apply(gimmeMultiple)
df['size'].astype(int).apply(gimmeMultipleDf)

返回一个数据帧肯定有它的好处，但有时不是必需的。您可以查看apply()返回的内容，并对函数进行一些操作;)

简单明了:

def func(item_df):
  return [1,'Label 1'] if item_df['col_0'] > 0 else [0,'Label 0']
 
my_df[['col_1','col2']] = my_df.apply(func, axis=1,result_type='expand')

只是另一种可读的方式。这段代码将添加三个新列及其值，在apply函数中返回不带使用参数的序列。

def sizes(s):

    val_kb = locale.format("%.1f", s['size'] / 1024.0, grouping=True) + ' KB'
    val_mb = locale.format("%.1f", s['size'] / 1024.0 ** 2, grouping=True) + ' MB'
    val_gb = locale.format("%.1f", s['size'] / 1024.0 ** 3, grouping=True) + ' GB'
    return pd.Series([val_kb,val_mb,val_gb],index=['size_kb','size_mb','size_gb'])

df[['size_kb','size_mb','size_gb']] = df.apply(lambda x: sizes(x) , axis=1)

一个来自https://pandas.pydata.org/pandas-docs/stable/generated/pandas.DataFrame.apply.html的通用示例

df.apply(lambda x: pd.Series([1, 2], index=['foo', 'bar']), axis=1)

#foo  bar
#0    1    2
#1    1    2
#2    1    2

You can go 40+ times faster than the top answers here if you do your math in numpy instead. Adapting @Rocky K's top two answers. The main difference is running on an actual df of 120k rows. Numpy is way faster at math when you apply your functions array-wise (instead of applying a function value-wise). The best answer is by far the third one because it uses numpy for the math. Also notice that it only calculates 1024**2 and 1024**3 once each instead of once for each row, saving 240k calculations. Here are the timings on my machine:

Tuples (pass value, return tuple then zip, new columns dont exist):
Runtime: 10.935037851333618 

Tuples (pass value, return tuple then zip, new columns exist):
Runtime: 11.120025157928467 

Use numpy for math portions:
Runtime: 0.24799370765686035

以下是我用来计算这些时间的脚本(改编自Rocky K):

import numpy as np
import pandas as pd
import locale
import time

size = np.random.random(120000) * 1000000000
data = pd.DataFrame({'Size': size})

def sizes_pass_value_return_tuple(value):
    a = locale.format_string("%.1f", value / 1024.0, grouping=True) + ' KB'
    b = locale.format_string("%.1f", value / 1024.0 ** 2, grouping=True) + ' MB'
    c = locale.format_string("%.1f", value / 1024.0 ** 3, grouping=True) + ' GB'
    return a, b, c

print('\nTuples (pass value, return tuple then zip, new columns dont exist):')
df1 = data.copy()
start = time.time()
df1['size_kb'],  df1['size_mb'], df1['size_gb'] = zip(*df1['Size'].apply(sizes_pass_value_return_tuple))
end = time.time()
print('Runtime:', end - start, '\n')

print('Tuples (pass value, return tuple then zip, new columns exist):')
df2 = data.copy()
start = time.time()
df2 = pd.concat([df2, pd.DataFrame(columns=['size_kb', 'size_mb', 'size_gb'])])
df2['size_kb'],  df2['size_mb'], df2['size_gb'] = zip(*df2['Size'].apply(sizes_pass_value_return_tuple))
end = time.time()
print('Runtime:', end - start, '\n')

print('Use numpy for math portions:')
df3 = data.copy()
start = time.time()
df3['size_kb'] = (df3.Size.values / 1024).round(1)
df3['size_kb'] = df3.size_kb.astype(str) + ' KB'
df3['size_mb'] = (df3.Size.values / 1024 ** 2).round(1)
df3['size_mb'] = df3.size_mb.astype(str) + ' MB'
df3['size_gb'] = (df3.Size.values / 1024 ** 3).round(1)
df3['size_gb'] = df3.size_gb.astype(str) + ' GB'
end = time.time()
print('Runtime:', end - start, '\n')

您可以从包含新数据的应用函数返回一个Series，从而避免需要迭代三次。将axis=1传递给apply函数，将函数的大小应用到数据框架的每一行，返回一个要添加到新数据框架的序列。这个序列s包含新的值，以及原始数据。

def sizes(s):
    s['size_kb'] = locale.format("%.1f", s['size'] / 1024.0, grouping=True) + ' KB'
    s['size_mb'] = locale.format("%.1f", s['size'] / 1024.0 ** 2, grouping=True) + ' MB'
    s['size_gb'] = locale.format("%.1f", s['size'] / 1024.0 ** 3, grouping=True) + ' GB'
    return s

df_test = df_test.append(rows_list)
df_test = df_test.apply(sizes, axis=1)