I have a pandas DataFrame with a column of string values. I need to select rows based on partial string matches.

Something like this idiom:

re.search(pattern, cell_in_question) 

returning a boolean. I am familiar with the syntax of df[df['A'] == "hello world"] but can't seem to find a way to do the same with a partial string match, say 'hello'.


18 Answers 18


Vectorized string methods (i.e. Series.str) let you do the following:


This is available in pandas 0.8.1 and up.

  • 8
    How do we go about "Hello" and "Britain" if I want to find them with "OR" condition.
    – LonelySoul
    Commented Jun 27, 2013 at 16:41
  • 139
    Since str.* methods treat the input pattern as a regular expression, you can use df[df['A'].str.contains("Hello|Britain")]
    – Garrett
    Commented Jun 27, 2013 at 19:20
  • 18
    Is it possible to convert .str.contains to use .query() api?
    – zyxue
    Commented Mar 1, 2017 at 17:25
  • 6
    @zyxue Select rows by partial string query with pandas Commented Jul 5, 2017 at 18:01
  • 10
    df[df['value'].astype(str).str.contains('1234.+')] for filtering out non-string-type columns. Commented Feb 13, 2018 at 20:22

I am using pandas 0.14.1 on macos in ipython notebook. I tried the proposed line above:


and got an error:

cannot index with vector containing NA / NaN values

but it worked perfectly when an "==True" condition was added, like this:

  • 19
    df[df['A'].astype(str).str.contains("Hello|Britain")] worked as well Commented Feb 5, 2020 at 15:05
  • 2
    Another solution would be: ``` df[df["A"].str.contains("Hello|Britain") == True] ```
    – Allan
    Commented Sep 15, 2021 at 19:36

How do I select by partial string from a pandas DataFrame?

This post is meant for readers who want to

  • search for a substring in a string column (the simplest case) as in df1[df1['col'].str.contains(r'foo(?!$)')]
  • search for multiple substrings (similar to isin), e.g., with df4[df4['col'].str.contains(r'foo|baz')]
  • match a whole word from text (e.g., "blue" should match "the sky is blue" but not "bluejay"), e.g., with df3[df3['col'].str.contains(r'\bblue\b')]
  • match multiple whole words
  • Understand the reason behind "ValueError: cannot index with vector containing NA / NaN values" and correct it with str.contains('pattern',na=False)

...and would like to know more about what methods should be preferred over others.

(P.S.: I've seen a lot of questions on similar topics, I thought it would be good to leave this here.)

Friendly disclaimer, this is post is long.

Basic Substring Search

# setup
df1 = pd.DataFrame({'col': ['foo', 'foobar', 'bar', 'baz']})

0     foo
1  foobar
2     bar
3     baz

str.contains can be used to perform either substring searches or regex based search. The search defaults to regex-based unless you explicitly disable it.

Here is an example of regex-based search,

# find rows in `df1` which contain "foo" followed by something

1  foobar

Sometimes regex search is not required, so specify regex=False to disable it.

#select all rows containing "foo"
df1[df1['col'].str.contains('foo', regex=False)]
# same as df1[df1['col'].str.contains('foo')] but faster.
0     foo
1  foobar

Performance wise, regex search is slower than substring search:

df2 = pd.concat([df1] * 1000, ignore_index=True)

%timeit df2[df2['col'].str.contains('foo')]
%timeit df2[df2['col'].str.contains('foo', regex=False)]

6.31 ms ± 126 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)
2.8 ms ± 241 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

Avoid using regex-based search if you don't need it.

Addressing ValueErrors
Sometimes, performing a substring search and filtering on the result will result in

ValueError: cannot index with vector containing NA / NaN values

This is usually because of mixed data or NaNs in your object column,

s = pd.Series(['foo', 'foobar', np.nan, 'bar', 'baz', 123])

0     True
1     True
2      NaN
3     True
4    False
5      NaN
dtype: object

# ---------------------------------------------------------------------------
# ValueError                                Traceback (most recent call last)

Anything that is not a string cannot have string methods applied on it, so the result is NaN (naturally). In this case, specify na=False to ignore non-string data,

s.str.contains('foo|bar', na=False)

0     True
1     True
2    False
3     True
4    False
5    False
dtype: bool

How do I apply this to multiple columns at once?
The answer is in the question. Use DataFrame.apply:

# `axis=1` tells `apply` to apply the lambda function column-wise.
df.apply(lambda col: col.str.contains('foo|bar', na=False), axis=1)

       A      B
0   True   True
1   True  False
2  False   True
3   True  False
4  False  False
5  False  False

All of the solutions below can be "applied" to multiple columns using the column-wise apply method (which is OK in my book, as long as you don't have too many columns).

If you have a DataFrame with mixed columns and want to select only the object/string columns, take a look at select_dtypes.

Multiple Substring Search

This is most easily achieved through a regex search using the regex OR pipe.

# Slightly modified example.
df4 = pd.DataFrame({'col': ['foo abc', 'foobar xyz', 'bar32', 'baz 45']})

0     foo abc
1  foobar xyz
2       bar32
3      baz 45


0     foo abc
1  foobar xyz
3      baz 45

You can also create a list of terms, then join them:

terms = ['foo', 'baz']

0     foo abc
1  foobar xyz
3      baz 45

Sometimes, it is wise to escape your terms in case they have characters that can be interpreted as regex metacharacters. If your terms contain any of the following characters...

. ^ $ * + ? { } [ ] \ | ( )

Then, you'll need to use re.escape to escape them:

import re
df4[df4['col'].str.contains('|'.join(map(re.escape, terms)))]

0     foo abc
1  foobar xyz
3      baz 45

re.escape has the effect of escaping the special characters so they're treated literally.

# '\\.foo\\^'

Matching Entire Word(s)

By default, the substring search searches for the specified substring/pattern regardless of whether it is full word or not. To only match full words, we will need to make use of regular expressions here—in particular, our pattern will need to specify word boundaries (\b).

For example,

df3 = pd.DataFrame({'col': ['the sky is blue', 'bluejay by the window']})

0        the sky is blue
1  bluejay by the window

Now consider,


0        the sky is blue
1  bluejay by the window



0  the sky is blue

Multiple Whole Word Search

Similar to the above, except we add a word boundary (\b) to the joined pattern.

p = r'\b(?:{})\b'.format('|'.join(map(re.escape, terms)))

0  foo abc
3   baz 45

Where p looks like this,

# '\\b(?:foo|baz)\\b'

A Great Alternative: Use List Comprehensions!

Because you can! And you should! They are usually a little bit faster than string methods, because string methods are hard to vectorise and usually have loopy implementations.

Instead of,

df1[df1['col'].str.contains('foo', regex=False)]

Use the in operator inside a list comp,

df1[['foo' in x for x in df1['col']]]

0  foo abc
1   foobar

Instead of,

regex_pattern = r'foo(?!$)'

Use re.compile (to cache your regex) + Pattern.search inside a list comp,

p = re.compile(regex_pattern, flags=re.IGNORECASE)
df1[[bool(p.search(x)) for x in df1['col']]]

1  foobar

If "col" has NaNs, then instead of

df1[df1['col'].str.contains(regex_pattern, na=False)]


def try_search(p, x):
        return bool(p.search(x))
    except TypeError:
        return False

p = re.compile(regex_pattern)
df1[[try_search(p, x) for x in df1['col']]]

1  foobar

More Options for Partial String Matching: np.char.find, np.vectorize, DataFrame.query.

In addition to str.contains and list comprehensions, you can also use the following alternatives.

Supports substring searches (read: no regex) only.

df4[np.char.find(df4['col'].values.astype(str), 'foo') > -1]

0     foo abc
1  foobar xyz

This is a wrapper around a loop, but with lesser overhead than most pandas str methods.

f = np.vectorize(lambda haystack, needle: needle in haystack)
f(df1['col'], 'foo')
# array([ True,  True, False, False])

df1[f(df1['col'], 'foo')]

0  foo abc
1   foobar

Regex solutions possible:

regex_pattern = r'foo(?!$)'
p = re.compile(regex_pattern)
f = np.vectorize(lambda x: pd.notna(x) and bool(p.search(x)))

1  foobar

Supports string methods through the python engine. This offers no visible performance benefits, but is nonetheless useful to know if you need to dynamically generate your queries.

df1.query('col.str.contains("foo")', engine='python')

0     foo
1  foobar

More information on query and eval family of methods can be found at Dynamically evaluate an expression from a formula in Pandas.

Recommended Usage Precedence

  1. (First) str.contains, for its simplicity and ease handling NaNs and mixed data
  2. List comprehensions, for its performance (especially if your data is purely strings)
  3. np.vectorize
  4. (Last) df.query
  • 1
    Could you edit in the correct method to use when searching for a string in two or more columns? Basically: any(needle in haystack for needling in ['foo', 'bar'] and haystack in (df['col'], df['col2'])) and variations I tried all choke (it complains about any() and rightly so... But the doc is blissfully unclear as to how to do such a query. Commented Jul 16, 2019 at 11:37
  • 1
    @DenisdeBernardy df[['col1', 'col2']].apply(lambda x: x.str.contains('foo|bar')).any(axis=1)
    – cs95
    Commented Jul 28, 2019 at 6:30
  • 1
    @00schneider r in this case is used to indicate a raw string literal. These make it easier to write regular expression strings. stackoverflow.com/q/2081640
    – cs95
    Commented Aug 13, 2019 at 13:11
  • 1
    @arno_v That's good to hear, looks like pandas performance is improving!
    – cs95
    Commented Aug 5, 2021 at 9:53
  • 1
    Extremely helpful !! Especially the 'import re' features are game changers. Chapeau! Commented Sep 7, 2021 at 18:35

If anyone wonders how to perform a related problem: "Select column by partial string"


df.filter(like='hello')  # select columns which contain the word hello

And to select rows by partial string matching, pass axis=0 to filter:

# selects rows which contain the word hello in their index label
df.filter(like='hello', axis=0)  
  • 8
    This can be distilled to: df.loc[:, df.columns.str.contains('a')]
    – elPastor
    Commented Jun 17, 2017 at 21:53
  • 21
    which can be further distilled to df.filter(like='a')
    – Ted Petrou
    Commented Oct 25, 2017 at 2:57
  • this should be an own question + answer, already 50 people searched for it...
    – PV8
    Commented Jan 9, 2020 at 9:35
  • 2
    @PV8 question already exists: stackoverflow.com/questions/31551412/…. But when I search on google for "pandas Select column by partial string", this thread appears first Commented Jan 9, 2020 at 9:37

Quick note: if you want to do selection based on a partial string contained in the index, try the following:

  • 5
    You can just df[df.index.to_series().str.contains('LLChit')]
    – Yury Bayda
    Commented May 8, 2015 at 21:27
  • 1
    to be even more concise, to_series is not needed: df[df.index.str.contains('Hello|Britain')]
    – tdy
    Commented Nov 2, 2021 at 12:05

Should you need to do a case insensitive search for a string in a pandas dataframe column:

df[df['A'].str.contains("hello", case=False)]

Say you have the following DataFrame:

>>> df = pd.DataFrame([['hello', 'hello world'], ['abcd', 'defg']], columns=['a','b'])
>>> df
       a            b
0  hello  hello world
1   abcd         defg

You can always use the in operator in a lambda expression to create your filter.

>>> df.apply(lambda x: x['a'] in x['b'], axis=1)
0     True
1    False
dtype: bool

The trick here is to use the axis=1 option in the apply to pass elements to the lambda function row by row, as opposed to column by column.

  • How do I modify above to say that x['a'] exists only in beginning of x['b']? Commented Oct 18, 2016 at 20:23
  • 1
    apply is a bad idea here in terms of performance and memory. See this answer.
    – cs95
    Commented Mar 25, 2019 at 10:27

You can try considering them as string as :

  • 1
    Thank you a lot, your answer helped me a lot as I was struggling to filter a dataframe via a column where the data was of bool type. Your solution helped me do the filter I needed. +1 for you. Commented Jun 10, 2021 at 20:11

Suppose we have a column named "ENTITY" in the dataframe df. We can filter our df,to have the entire dataframe df, wherein rows of "entity" column doesn't contain "DM" by using a mask as follows:

mask = df['ENTITY'].str.contains('DM')

df = df.loc[~(mask)].copy(deep=True)

Here's what I ended up doing for partial string matches. If anyone has a more efficient way of doing this please let me know.

def stringSearchColumn_DataFrame(df, colName, regex):
    newdf = DataFrame()
    for idx, record in df[colName].iteritems():

        if re.search(regex, record):
            newdf = concat([df[df[colName] == record], newdf], ignore_index=True)

    return newdf
  • 3
    Should be 2x to 3x faster if you compile regex before loop: regex = re.compile(regex) and then if regex.search(record)
    – MarkokraM
    Commented Apr 10, 2014 at 13:56
  • 1
    @MarkokraM docs.python.org/3.6/library/re.html#re.compile says that the most recent regexs are cached for you, so you don't need to compile yourself.
    – Teepeemm
    Commented Jun 20, 2018 at 19:36
  • Do not use iteritems to iterate over a DataFrame. It ranks last in terms of pandorability and performance
    – cs95
    Commented Mar 25, 2019 at 10:26
  • iterating over dataframes defeats the entire purpose of pandas. Use Garrett's solution instead
    – dhruvm
    Commented Jul 22, 2020 at 2:12

Using contains didn't work well for my string with special characters. Find worked though.

df[df['A'].str.find("hello") != -1]

A more generalised example - if looking for parts of a word OR specific words in a string:

df = pd.DataFrame([('cat andhat', 1000.0), ('hat', 2000000.0), ('the small dog', 1000.0), ('fog', 330000.0),('pet', 330000.0)], columns=['col1', 'col2'])

Specific parts of sentence or word:

searchfor = '.*cat.*hat.*|.*the.*dog.*'

Creat column showing the affected rows (can always filter out as necessary)

df["TrueFalse"]=df['col1'].str.contains(searchfor, regex=True)

    col1             col2           TrueFalse
0   cat andhat       1000.0         True
1   hat              2000000.0      False
2   the small dog    1000.0         True
3   fog              330000.0       False
4   pet 3            30000.0        False

Maybe you want to search for some text in all columns of the Pandas dataframe, and not just in the subset of them. In this case, the following code will help.

df[df.apply(lambda row: row.astype(str).str.contains('String To Find').any(), axis=1)]

Warning. This method is relatively slow, albeit convenient.


Somewhat similar to @cs95's answer, but here you don't need to specify an engine:

df[df['A'].str.contains("hello", case=False)]
  • 2
    Please consider adding an explanation to your code how it works and how it answers the OP's question.
    – buddemat
    Commented Oct 10, 2022 at 6:12

There are answers before this which accomplish the asked feature, anyway I would like to show the most generally way:


This way let's you get the column you look for whatever the way is wrote.

( Obviusly, you have to write the proper regex expression for each case )

  • 1
    This filters on the column headers. It isn't general, it's incorrect.
    – cs95
    Commented Jun 23, 2019 at 5:18
  • @MicheldeRuiter that's still incorrect, that'd filter on index labels instead!
    – cs95
    Commented Dec 30, 2019 at 18:35

My 2c worth:

I did the following:

sale_method = pd.DataFrame(model_data['Sale Method'].str.upper())
sale_method['sale_classification'] = \
    np.where(sale_method['Sale Method'].isin(['PRIVATE']),
             np.where(sale_method['Sale Method']

query API

As mentioned in other answers, you can use query to filter rows by making a call to str.contains inside the expression. A good thing about it is that unlike boolean indexing, you won't get the pesky SettingWithCopyWarning after using it. You can also pass the pattern defined locally (or elsewhere) using @. Also useful kwargs:

  • case=False: performs case insensitive search
  • na=False: fill in False for missing values e.g. NaN, NA, None etc.
df = pd.DataFrame({'col': ['foo', 'foobar', 'bar', 'baZ', pd.NA]})
pat = r'f|z'
df.query('col.str.contains(@pat, case=False, na=False)')    # case-insensitive and return False if NaN

# or pass it as `local_dict`
df.query('col.str.contains(@pattern, case=False, na=False)', local_dict={'pattern': r'f|z'})

As shown above, you can handle NaN values in the column by passing na=False. This is less error-prone (and faster) than converting the column to str dtype or doing some other boolean checks as done in some answers on this page.


Since Python string methods are not optimized, it's often faster to drop down to vanilla Python and perform whatever task you have using an explicit loop. So if you want good performance, use list comprehension rather than the vectorized str.contains. As you can see from the following benchmark (tested on Python 3.12.0 and pandas 2.1.1), str.contains while terse, is about 20% slower than a list comprehension (even with the ternary operator for NaN handling). Since str.contains is a loop implementation anyway, this gap exists for whatever size the DataFrame is.

import re
import pandas as pd
df = pd.DataFrame({'col': ['foo', 'foobar', 'bar', 'baZ', pd.NA]*100000})
pat = re.compile(r'f|z', flags=re.I)

%timeit df[df['col'].str.contains(pat, na=False)]
# 375 ms ± 15.4 ms per loop (mean ± std. dev. of 7 runs, 10 loops each)
%timeit df[[bool(pat.search(x)) if (x==x) is True else False for x in df['col'].tolist()]]
# 318 ms ± 14 ms per loop (mean ± std. dev. of 7 runs, 10 loops each)

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