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。

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。

使用apply和zip将比Series方式快3倍。

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

测试结果如下:

Separate df.apply(): 

    100 loops, best of 3: 1.43 ms per loop

Return Series: 

    100 loops, best of 3: 2.61 ms per loop

Return tuple:

    1000 loops, best of 3: 819 µs per loop

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)

这是一种非常快速的方法，用apply和。只需将多个值作为列表返回，然后使用to_list()

import pandas as pd

dat = [ [i, 10*i] for i in range(100000)]

df = pd.DataFrame(dat, columns = ["a","b"])

def add_and_div(x):
    add = x + 3
    div = x / 3
    return [add, div]

start = time.time()
df[['c','d']] = df['a'].apply(lambda x: add_and_div(x)).to_list()
end = time.time()

print(end-start) # output: 0.27606

顶部答案之间的性能差异很大，Jesse和famaral42已经讨论过这个问题，但是值得分享顶部答案之间的公平比较，并详细说明Jesse答案中一个微妙但重要的细节:传递给函数的参数也会影响性能。

(Python 3.7.4, Pandas 1.0.3)

import pandas as pd
import locale
import timeit


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


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


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


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

以下是调查结果:

# 1 - Accepted (Nels11 Answer) - (pass series, return series):
9.82 ms ± 377 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

# 2 - Pandafied (jaumebonet Answer) - (pass series, return tuple):
2.34 ms ± 48.6 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

# 3 - Tuples (pass series, return tuple then zip):
1.36 ms ± 62.8 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)

# 4 - Tuples (Jesse Answer) - (pass value, return tuple then zip):
752 µs ± 18.5 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)

请注意，返回元组是最快的方法，但作为参数传入的内容也会影响性能。代码中的差异很小，但性能的提高是显著的。

测试#4(传入单个值)的速度是测试#3(传入一系列值)的两倍，尽管执行的操作表面上是相同的。

但还有更多……

# 1a - Accepted (Nels11 Answer) - (pass series, return series, new columns exist):
3.23 ms ± 141 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

# 2a - Pandafied (jaumebonet Answer) - (pass series, return tuple, new columns exist):
2.31 ms ± 39.3 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

# 3a - Tuples (pass series, return tuple then zip, new columns exist):
1.36 ms ± 58.4 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)

# 4a - Tuples (Jesse Answer) - (pass value, return tuple then zip, new columns exist):
694 µs ± 3.9 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)

在某些情况下(#1a和#4a)，将函数应用到已经存在输出列的DataFrame比从函数中创建输出列更快。

下面是运行测试的代码:

# Paste and run the following in ipython console. It will not work if you run it from a .py file.
print('\nAccepted Answer (pass series, return series, new columns dont exist):')
df_test = create_new_df_test()
%timeit result = df_test.apply(sizes_pass_series_return_series, axis=1)
print('Accepted Answer (pass series, return series, new columns exist):')
df_test = create_new_df_test()
df_test = pd.concat([df_test, pd.DataFrame(columns=['size_kb', 'size_mb', 'size_gb'])])
%timeit result = df_test.apply(sizes_pass_series_return_series, axis=1)

print('\nPandafied (pass series, return tuple, new columns dont exist):')
df_test = create_new_df_test()
%timeit df_test[['size_kb', 'size_mb', 'size_gb']] = df_test.apply(sizes_pass_series_return_tuple, axis=1, result_type="expand")
print('Pandafied (pass series, return tuple, new columns exist):')
df_test = create_new_df_test()
df_test = pd.concat([df_test, pd.DataFrame(columns=['size_kb', 'size_mb', 'size_gb'])])
%timeit df_test[['size_kb', 'size_mb', 'size_gb']] = df_test.apply(sizes_pass_series_return_tuple, axis=1, result_type="expand")

print('\nTuples (pass series, return tuple then zip, new columns dont exist):')
df_test = create_new_df_test()
%timeit df_test['size_kb'],  df_test['size_mb'], df_test['size_gb'] = zip(*df_test.apply(sizes_pass_series_return_tuple, axis=1))
print('Tuples (pass series, return tuple then zip, new columns exist):')
df_test = create_new_df_test()
df_test = pd.concat([df_test, pd.DataFrame(columns=['size_kb', 'size_mb', 'size_gb'])])
%timeit df_test['size_kb'],  df_test['size_mb'], df_test['size_gb'] = zip(*df_test.apply(sizes_pass_series_return_tuple, axis=1))

print('\nTuples (pass value, return tuple then zip, new columns dont exist):')
df_test = create_new_df_test()
%timeit df_test['size_kb'],  df_test['size_mb'], df_test['size_gb'] = zip(*df_test['size'].apply(sizes_pass_value_return_tuple))
print('Tuples (pass value, return tuple then zip, new columns exist):')
df_test = create_new_df_test()
df_test = pd.concat([df_test, pd.DataFrame(columns=['size_kb', 'size_mb', 'size_gb'])])
%timeit df_test['size_kb'],  df_test['size_mb'], df_test['size_gb'] = zip(*df_test['size'].apply(sizes_pass_value_return_tuple))