1394

How do I create an empty DataFrame, then add rows, one by one?

I created an empty DataFrame:

df = pd.DataFrame(columns=('lib', 'qty1', 'qty2'))

Then I can add a new row at the end and fill a single field with:

df = df._set_value(index=len(df), col='qty1', value=10.0)

It works for only one field at a time. What is a better way to add new row to df?

12
  • 98
    Note this is a very inefficient way to build a large DataFrame; new arrays have to be created (copying over the existing data) when you append a row. May 23, 2012 at 13:46
  • 8
    @WesMcKinney: Thx, that's really good to know. Is it very fast to add columns to huge tables?
    – max
    Aug 28, 2012 at 4:27
  • 7
    If it is too inefficient for you, you may preallocate an additional row and then update it. Apr 19, 2013 at 19:54
  • 43
    Hey you... yes, you... I see what you're up to... you want to run this inside a loop and iteratively add rows to an empty DataFrame, don't you... well, don't! Jul 13, 2020 at 12:52
  • 4
    I might understand this can be in general wrong but, what about real-time processing? So say I have some data that comes in every second and I have a thread that just wants to fill a dataframe and have another even-based thread that goes and look at the dataframe? I find this use case valid and where that solution is applicable to Nov 20, 2020 at 17:24

32 Answers 32

907

You can use df.loc[i], where the row with index i will be what you specify it to be in the dataframe.

>>> import pandas as pd
>>> from numpy.random import randint

>>> df = pd.DataFrame(columns=['lib', 'qty1', 'qty2'])
>>> for i in range(5):
>>>     df.loc[i] = ['name' + str(i)] + list(randint(10, size=2))

>>> df
     lib qty1 qty2
0  name0    3    3
1  name1    2    4
2  name2    2    8
3  name3    2    1
4  name4    9    6
8
  • 41
    Consider adding the index to preallocate memory (see my answer)
    – FooBar
    Jul 23, 2014 at 14:22
  • 73
    .loc is referencing the index column, so if you're working with a pre-existing DataFrame with an index that isn't a continous sequence of integers starting with 0 (as in your example), .loc will overwrite existing rows, or insert rows, or create gaps in your index. A more robust (but not fool-proof) approach for appending an existing nonzero-length dataframe would be: df.loc[df.index.max() + 1] = [randint(... or prepopulating the index as @FooBar suggested.
    – hobs
    Sep 25, 2015 at 23:21
  • 8
    @hobs df.index.max() is nan when the DataFrame is empty.
    – flow2k
    Apr 24, 2019 at 1:30
  • 3
    @flow2k good catch! Only solution I can think of is a try accept (on the first row insertion only) with a pd.DataFrame() constructor call. Do you know any better ways?
    – hobs
    Apr 24, 2019 at 21:31
  • 17
    @hobs One solution I thought of is using the ternary operator: df.loc[0 if pd.isnull(df.index.max()) else df.index.max() + 1]
    – flow2k
    Apr 25, 2019 at 21:17
794

In case you can get all data for the data frame upfront, there is a much faster approach than appending to a data frame:

  1. Create a list of dictionaries in which each dictionary corresponds to an input data row.
  2. Create a data frame from this list.

I had a similar task for which appending to a data frame row by row took 30 min, and creating a data frame from a list of dictionaries completed within seconds.

rows_list = []
for row in input_rows:
    dict1 = {}
    # get input row in dictionary format
    # key = col_name
    dict1.update(blah..) 

    rows_list.append(dict1)

df = pd.DataFrame(rows_list)               
18
  • 74
    I've moved to doing this as well for any situation where I can't get all the data up front. The speed difference is astonishing. Aug 13, 2014 at 12:19
  • 80
    Copying from pandas docs: It is worth noting however, that concat (and therefore append) makes a full copy of the data, and that constantly reusing this function can create a significant performance hit. If you need to use the operation over several datasets, use a list comprehension. (pandas.pydata.org/pandas-docs/stable/…)
    – thikonom
    Dec 25, 2015 at 22:01
  • 9
    This works great! Except when I created the data frame, the columns names were all in the wrong order... Aug 9, 2016 at 21:36
  • 7
    @user5359531 You can use ordered dict in that case
    – ShikharDua
    Aug 10, 2016 at 20:31
  • 34
    @user5359531 You can manually specify the columns and the order will be preserved. pd.DataFrame(rows_list, columns=['C1', 'C2','C3']) will do the trick Jan 27, 2017 at 22:26
444

In the case of adding a lot of rows to dataframe, I am interested in performance. So I tried the four most popular methods and checked their speed.

Performance

  1. Using .append (NPE's answer)
  2. Using .loc (fred's answer)
  3. Using .loc with preallocating (FooBar's answer)
  4. Using dict and create DataFrame in the end (ShikharDua's answer)

Runtime results (in seconds):

Approach 1000 rows 5000 rows 10 000 rows
.append 0.69 3.39 6.78
.loc without prealloc 0.74 3.90 8.35
.loc with prealloc 0.24 2.58 8.70
dict 0.012 0.046 0.084

So I use addition through the dictionary for myself.


Code:

import pandas as pd
import numpy as np
import time

del df1, df2, df3, df4
numOfRows = 1000
# append
startTime = time.perf_counter()
df1 = pd.DataFrame(np.random.randint(100, size=(5,5)), columns=['A', 'B', 'C', 'D', 'E'])
for i in range( 1,numOfRows-4):
    df1 = df1.append( dict( (a,np.random.randint(100)) for a in ['A','B','C','D','E']), ignore_index=True)
print('Elapsed time: {:6.3f} seconds for {:d} rows'.format(time.perf_counter() - startTime, numOfRows))
print(df1.shape)

# .loc w/o prealloc
startTime = time.perf_counter()
df2 = pd.DataFrame(np.random.randint(100, size=(5,5)), columns=['A', 'B', 'C', 'D', 'E'])
for i in range( 1,numOfRows):
    df2.loc[i]  = np.random.randint(100, size=(1,5))[0]
print('Elapsed time: {:6.3f} seconds for {:d} rows'.format(time.perf_counter() - startTime, numOfRows))
print(df2.shape)

# .loc with prealloc
df3 = pd.DataFrame(index=np.arange(0, numOfRows), columns=['A', 'B', 'C', 'D', 'E'] )
startTime = time.perf_counter()
for i in range( 1,numOfRows):
    df3.loc[i]  = np.random.randint(100, size=(1,5))[0]
print('Elapsed time: {:6.3f} seconds for {:d} rows'.format(time.perf_counter() - startTime, numOfRows))
print(df3.shape)

# dict
startTime = time.perf_counter()
row_list = []
for i in range (0,5):
    row_list.append(dict( (a,np.random.randint(100)) for a in ['A','B','C','D','E']))
for i in range( 1,numOfRows-4):
    dict1 = dict( (a,np.random.randint(100)) for a in ['A','B','C','D','E'])
    row_list.append(dict1)

df4 = pd.DataFrame(row_list, columns=['A','B','C','D','E'])
print('Elapsed time: {:6.3f} seconds for {:d} rows'.format(time.perf_counter() - startTime, numOfRows))
print(df4.shape)

P.S.: I believe my realization isn't perfect, and maybe there is some optimization that could be done.

14
  • 5
    The use of df2.index.max() for .loc needlessly increases computational complexity. Simple df2.loc[i] = ... would do. For me it reduced the time from 10s to 8.64s
    – krassowski
    Jan 23, 2019 at 20:44
  • 1
    @Mikhail_Sam For the last, dict approach, what's the rationale behind using two loops, for i in range (0,5): and for i in range( 1,numOfRows-4):?
    – flow2k
    Sep 29, 2019 at 9:03
  • 2
    Just wanted to throw out another comment as to why the Dict to Pandas DataFrame is a better way. In my experimentation with a dataset that has multiple different data types in the table, using the Pandas append methods destroy the typing, whereas using a Dict, and only creating the DataFrame from it ONCE, seems to keep the original datatypes intact. Dec 4, 2019 at 14:23
  • 1
    I think the dict approach should be renamed the list.append approach (and append into df.append), it is faster because it relies on a list row_list.append() and then creates a dataframe from that list instead of appending data directly on the dataframe with df1.append(). Both methods use dictionaries, the point is using list() vs pd.DataFrame() when populating data row by row. Oct 18, 2020 at 13:42
  • 1
    You should also use timeit.timeit for micro-benchmarks to avoid some common benchmarking issues.
    – qwr
    Jul 28, 2023 at 17:10
355

You could use pandas.concat(). For details and examples, see Merge, join, and concatenate.

For example:

def append_row(df, row):
    return pd.concat([
                df, 
                pd.DataFrame([row], columns=row.index)]
           ).reset_index(drop=True)

df = pd.DataFrame(columns=('lib', 'qty1', 'qty2'))
new_row = pd.Series({'lib':'A', 'qty1':1, 'qty2': 2})

df = append_row(df, new_row)
5
  • 7
    Hi, so what is the answer for the methods using append() or concat(). I have the same problem, but still trying to figuring it out.
    – notilas
    Aug 20, 2014 at 22:52
  • 152
    This is the right answer, but it isn't a very good answer (almost link only).
    – jwg
    May 18, 2016 at 14:34
  • 5
    I think @fred's answer is more correct. IIUC the problem with this answer is that it needlessly copies the entire DataFrame every time a row is appended. Using the .loc mechanism that can be avoided, especially if you're careful. Mar 16, 2017 at 16:03
  • 7
    But if you want to use DataFrame.append(), you have to make sure your row data is also a DataFrame in the first place, not a list. Sep 8, 2017 at 12:46
  • 3
    DataFrame.append() is deprecated since version 1.4.0, use only pandas.concat() in future like pandas.concat([DF1, DF2])
    – 3r1c
    May 16, 2022 at 14:41
314

from pandas >= 2.0, append has been removed!

DataFrame.append was deprecated in version 1.4 and removed from the pandas API entirely in version 2.0.

See the docs on Deprecations as well as this github issue that originally proposed its deprecation.

If you are running pandas version 2.0 or later, you will likely run into the following error:

AttributeError: 'DataFrame' object has no attribute 'append' for DataFrame

Keep reading if you would like to learn about more idiomatic alternatives to append.


NEVER grow a DataFrame!

Yes, people have already explained that you should NEVER grow a DataFrame, and that you should append your data to a list and convert it to a DataFrame once at the end. But do you understand why?

Here are the most important reasons, taken from my post here.

  1. It is always cheaper/faster to append to a list and create a DataFrame in one go.
  2. Lists take up less memory and are a much lighter data structure to work with, append, and remove.
  3. dtypes are automatically inferred for your data. On the flip side, creating an empty frame of NaNs will automatically make them object, which is bad.
  4. An index is automatically created for you, instead of you having to take care to assign the correct index to the row you are appending.

This is The Right Way™ to accumulate your data

data = []
for a, b, c in some_function_that_yields_data():
    data.append([a, b, c])

df = pd.DataFrame(data, columns=['A', 'B', 'C'])

Note that if some_function_that_yields_data() returns smaller DataFrames, you can accumulate individual DataFrames inside a list and then make a single call to pd.concat at the end.

These options are horrible

  1. append or concat inside a loop

    append and concat aren't inherently bad in isolation. The problem starts when you iteratively call them inside a loop - this results in quadratic memory usage.

    # Creates empty DataFrame and appends
    df = pd.DataFrame(columns=['A', 'B', 'C'])
    for a, b, c in some_function_that_yields_data():
        df = df.append({'A': i, 'B': b, 'C': c}, ignore_index=True)  
        # This is equally bad:
        # df = pd.concat(
        #       [df, pd.Series({'A': i, 'B': b, 'C': c})], 
        #       ignore_index=True)
    
  2. Empty DataFrame of NaNs

    Never create a DataFrame of NaNs as the columns are initialized with object (slow, un-vectorizable dtype).

    # Creates DataFrame of NaNs and overwrites values.
    df = pd.DataFrame(columns=['A', 'B', 'C'], index=range(5))
    for a, b, c in some_function_that_yields_data():
        df.loc[len(df)] = [a, b, c]
    

The Proof is in the Pudding

Timing these methods is the fastest way to see just how much they differ in terms of their memory and utility.

enter image description here

Benchmarking code for reference.


It's posts like this that remind me why I'm a part of this community. People understand the importance of teaching folks getting the right answer with the right code, not the right answer with wrong code. Now you might argue that it is not an issue to use loc or append if you're only adding a single row to your DataFrame. However, people often look to this question to add more than just one row - often the requirement is to iteratively add a row inside a loop using data that comes from a function (see related question). In that case it is important to understand that iteratively growing a DataFrame is not a good idea.

10
  • 10
    Fair enough. Are there any solution in case you need (or would like) a dataframe, but all your samples really do come one after the other? (Typically online learning or active learning) Sep 8, 2020 at 15:52
  • This doesn't factor in the case where one needs the dataframe after every append(). In that case, the dataframe gets copied anyway, so the df.loc method is faster Sep 17, 2020 at 10:45
  • 1
    @DevAggarwal incorrect, loc also creates a copy each time. Please see the graph timings in my answer. Append and loc_append are equally bad. I've also shared my code and process so you're free to convince yourself. Sep 17, 2020 at 16:36
  • Aplogies should have been clearer. Kindly create the dataframe from intermediate list inside the for loop, here -- gist.github.com/Coldsp33d/… Sep 17, 2020 at 17:10
  • 1
    how if the data come from another dataframe? Nov 16, 2022 at 3:02
133

If you know the number of entries ex ante, you should preallocate the space by also providing the index (taking the data example from a different answer):

import pandas as pd
import numpy as np
# we know we're gonna have 5 rows of data
numberOfRows = 5
# create dataframe
df = pd.DataFrame(index=np.arange(0, numberOfRows), columns=('lib', 'qty1', 'qty2') )

# now fill it up row by row
for x in np.arange(0, numberOfRows):
    #loc or iloc both work here since the index is natural numbers
    df.loc[x] = [np.random.randint(-1,1) for n in range(3)]
In[23]: df
Out[23]: 
   lib  qty1  qty2
0   -1    -1    -1
1    0     0     0
2   -1     0    -1
3    0    -1     0
4   -1     0     0

Speed comparison

In[30]: %timeit tryThis() # function wrapper for this answer
In[31]: %timeit tryOther() # function wrapper without index (see, for example, @fred)
1000 loops, best of 3: 1.23 ms per loop
100 loops, best of 3: 2.31 ms per loop

And - as from the comments - with a size of 6000, the speed difference becomes even larger:

Increasing the size of the array (12) and the number of rows (500) makes the speed difference more striking: 313ms vs 2.29s

2
  • 6
    Great answer. This should be the norm so that row space doesn't have to allocated incrementally.
    – ely
    Oct 9, 2014 at 18:32
  • 9
    Increasing the size of the array(12) and the number of rows(500) makes the speed difference more striking: 313ms vs 2.29s
    – Tickon
    Apr 2, 2015 at 10:55
94
mycolumns = ['A', 'B']
df = pd.DataFrame(columns=mycolumns)
rows = [[1,2],[3,4],[5,6]]
for row in rows:
    df.loc[len(df)] = row
3
  • 3
    This! I've been searching for quite a while, and this is the first post that really shows how to assign particular values to a row! Bonus question: Which is the syntax for column-name/value pairs? I guess it must be something using a dict, but I can't seem to get it right.
    – Eike P.
    Mar 9, 2016 at 0:00
  • 9
    this is not efficient as it actually copies the entire DataFrame when you extend it.
    – waterproof
    Jul 25, 2019 at 16:42
  • consider doing len(df.index) instead.
    – PatrickT
    Nov 3, 2021 at 16:39
81

You can append a single row as a dictionary using the ignore_index option.

>>> f = pandas.DataFrame(data = {'Animal':['cow','horse'], 'Color':['blue', 'red']})
>>> f
  Animal Color
0    cow  blue
1  horse   red
>>> f.append({'Animal':'mouse', 'Color':'black'}, ignore_index=True)
  Animal  Color
0    cow   blue
1  horse    red
2  mouse  black
4
  • 47
    You might also mention that f.append(<stuff>) creates a new object, rather than simply appending to the current object in place, so if you're trying to append to a dataframe in a script, you need to say f = f.append(<stuff>)
    – Blairg23
    May 28, 2016 at 3:57
  • 2
    is there a way to do this in place?
    – lol
    Nov 8, 2016 at 3:48
  • 1
    @lol no. see github.com/pandas-dev/pandas/issues/2801 - the underlying arrays can't be extended so they have to be copied.
    – waterproof
    Jul 25, 2019 at 16:42
  • 1
    I prefer this method because it is very SQL-like (not dependent on indices semantically) and I use it whenever possible.
    – Gene M
    Jul 31, 2020 at 21:45
79

For efficient appending, see How to add an extra row to a pandas dataframe and Setting With Enlargement.

Add rows through loc/ix on non existing key index data. For example:

In [1]: se = pd.Series([1,2,3])

In [2]: se
Out[2]:
0    1
1    2
2    3
dtype: int64

In [3]: se[5] = 5.

In [4]: se
Out[4]:
0    1.0
1    2.0
2    3.0
5    5.0
dtype: float64

Or:

In [1]: dfi = pd.DataFrame(np.arange(6).reshape(3,2),
   .....:                 columns=['A','B'])
   .....:

In [2]: dfi
Out[2]:
   A  B
0  0  1
1  2  3
2  4  5

In [3]: dfi.loc[:,'C'] = dfi.loc[:,'A']

In [4]: dfi
Out[4]:
   A  B  C
0  0  1  0
1  2  3  2
2  4  5  4
In [5]: dfi.loc[3] = 5

In [6]: dfi
Out[6]:
   A  B  C
0  0  1  0
1  2  3  2
2  4  5  4
3  5  5  5
3
  • 1
    The users asked for implement (add a new row). Here we see how to add a row in a defined index or add a column. Feb 21, 2019 at 15:38
  • 1
    any benchmarks on how this works out compared to the dict method
    – PirateApp
    Mar 6, 2019 at 17:15
  • this is not efficient as it actually copies the entire DataFrame.
    – waterproof
    Jul 25, 2019 at 16:41
48

For the sake of a Pythonic way:

res = pd.DataFrame(columns=('lib', 'qty1', 'qty2'))
res = res.append([{'qty1':10.0}], ignore_index=True)
print(res.head())

   lib  qty1  qty2
0  NaN  10.0   NaN
0
38

You can also build up a list of lists and convert it to a dataframe -

import pandas as pd

columns = ['i','double','square']
rows = []

for i in range(6):
    row = [i, i*2, i*i]
    rows.append(row)

df = pd.DataFrame(rows, columns=columns)

giving

    i   double  square
0   0   0   0
1   1   2   1
2   2   4   4
3   3   6   9
4   4   8   16
5   5   10  25
22

If you always want to add a new row at the end, use this:

df.loc[len(df)] = ['name5', 9, 0]
1
  • 1
    This presumes that the index of the dataframe is numbered AND that it is perfectly sequential. Using df.reset_index() could resolve this, but as it stands it may actually overwrite an existing row.
    – autonopy
    Jul 20, 2022 at 18:13
18

I figured out a simple and nice way:

>>> df
     A  B  C
one  1  2  3
>>> df.loc["two"] = [4,5,6]
>>> df
     A  B  C
one  1  2  3
two  4  5  6

Note the caveat with performance as noted in the comments.

1
  • 3
    Note that this will copy the entire DataFrame under the hood. The underlying arrays can't be extended so they have to be copied.
    – waterproof
    Jul 25, 2019 at 16:43
17

Instead of a list of dictionaries as in ShikharDua's answer (row-based), we can also represent our table as a dictionary of lists (column-based), where each list stores one column (in row-order), given we know our columns beforehand. At the end we construct our DataFrame once.

In both cases, the dictionary keys are always the column names. Row order is stored implicitly as order in a list. For c columns and n rows, this uses one dictionary of c lists (of length n), versus one list of n dictionaries (with c entries). The list-of-dictionaries method has each dictionary storing all keys redundantly and requires creating a new dictionary for every row. Here we only append to lists, which overall is the same time complexity (adding entries to list and dictionary are both amortized constant time) but may have less time and space overhead due to lists being simpler than dictionaries.

# Current data
data = {"Animal":["cow", "horse"], "Color":["blue", "red"]}

# Adding a new row (be careful to ensure every column gets another value)
data["Animal"].append("mouse")
data["Color"].append("black")

# At the end, construct our DataFrame
df = pd.DataFrame(data)
#   Animal  Color
# 0    cow   blue
# 1  horse    red
# 2  mouse  black
1
  • I found this method to be the most convenient to use, as you never have to worry about column order when appending new values.
    – Shajirr
    Jul 16, 2023 at 14:19
14

This is not an answer to the OP question, but a toy example to illustrate ShikharDua's answer which I found very useful.

While this fragment is trivial, in the actual data I had 1,000s of rows, and many columns, and I wished to be able to group by different columns and then perform the statistics below for more than one target column. So having a reliable method for building the data frame one row at a time was a great convenience. Thank you ShikharDua!

import pandas as pd

BaseData = pd.DataFrame({ 'Customer' : ['Acme','Mega','Acme','Acme','Mega','Acme'],
                          'Territory'  : ['West','East','South','West','East','South'],
                          'Product'  : ['Econ','Luxe','Econ','Std','Std','Econ']})
BaseData

columns = ['Customer','Num Unique Products', 'List Unique Products']

rows_list=[]
for name, group in BaseData.groupby('Customer'):
    RecordtoAdd={} #initialise an empty dict
    RecordtoAdd.update({'Customer' : name}) #
    RecordtoAdd.update({'Num Unique Products' : len(pd.unique(group['Product']))})
    RecordtoAdd.update({'List Unique Products' : pd.unique(group['Product'])})

    rows_list.append(RecordtoAdd)

AnalysedData = pd.DataFrame(rows_list)

print('Base Data : \n',BaseData,'\n\n Analysed Data : \n',AnalysedData)
13

You can use a generator object to create a Dataframe, which will be more memory efficient over the list.

num = 10

# Generator function to generate generator object
def numgen_func(num):
    for i in range(num):
        yield ('name_{}'.format(i), (i*i), (i*i*i))

# Generator expression to generate generator object (Only once data get populated, can not be re used)
numgen_expression = (('name_{}'.format(i), (i*i), (i*i*i)) for i in range(num) )

df = pd.DataFrame(data=numgen_func(num), columns=('lib', 'qty1', 'qty2'))

To add raw to existing DataFrame you can use append method.

df = df.append([{ 'lib': "name_20", 'qty1': 20, 'qty2': 400  }])
9

Create a new record (data frame) and add to old_data_frame.

Pass a list of values and the corresponding column names to create a new_record (data_frame):

new_record = pd.DataFrame([[0, 'abcd', 0, 1, 123]], columns=['a', 'b', 'c', 'd', 'e'])

old_data_frame = pd.concat([old_data_frame, new_record])
7

Here is the way to add/append a row in a Pandas DataFrame:

def add_row(df, row):
    df.loc[-1] = row
    df.index = df.index + 1
    return df.sort_index()

add_row(df, [1,2,3])

It can be used to insert/append a row in an empty or populated Pandas DataFrame.

1
  • 1
    this is adding with index in descending order Oct 13, 2018 at 17:33
4

If you want to add a row at the end, append it as a list:

valuestoappend = [va1, val2, val3]
res = res.append(pd.Series(valuestoappend, index = ['lib', 'qty1', 'qty2']), ignore_index = True)
3

Another way to do it (probably not very performant):

# add a row
def add_row(df, row):
    colnames = list(df.columns)
    ncol = len(colnames)
    assert ncol == len(row), "Length of row must be the same as width of DataFrame: %s" % row
    return df.append(pd.DataFrame([row], columns=colnames))

You can also enhance the DataFrame class like this:

import pandas as pd
def add_row(self, row):
    self.loc[len(self.index)] = row
pd.DataFrame.add_row = add_row
3

All you need is loc[df.shape[0]] or loc[len(df)]


# Assuming your df has 4 columns (str, int, str, bool)
df.loc[df.shape[0]] = ['col1Value', 100, 'col3Value', False] 

or

df.loc[len(df)] = ['col1Value', 100, 'col3Value', False] 
3

You can concatenate two DataFrames for this. I basically came across this problem to add a new row to an existing DataFrame with a character index (not numeric).

So, I input the data for a new row in a duct() and index in a list.

new_dict = {put input for new row here}
new_list = [put your index here]

new_df = pd.DataFrame(data=new_dict, index=new_list)

df = pd.concat([existing_df, new_df])
1
3
initial_data = {'lib': np.array([1,2,3,4]), 'qty1': [1,2,3,4], 'qty2': [1,2,3,4]}

df = pd.DataFrame(initial_data)

df

lib    qty1    qty2
0    1    1    1
1    2    2    2
2    3    3    3
3    4    4    4

val_1 = [10]
val_2 = [14]
val_3 = [20]

df.append(pd.DataFrame({'lib': val_1, 'qty1': val_2, 'qty2': val_3}))

lib    qty1    qty2
0    1    1    1
1    2    2    2
2    3    3    3
3    4    4    4
0    10    14    20

You can use a for loop to iterate through values or can add arrays of values.

val_1 = [10, 11, 12, 13]
val_2 = [14, 15, 16, 17]
val_3 = [20, 21, 22, 43]

df.append(pd.DataFrame({'lib': val_1, 'qty1': val_2, 'qty2': val_3}))

lib    qty1    qty2
0    1    1    1
1    2    2    2
2    3    3    3
3    4    4    4
0    10    14    20
1    11    15    21
2    12    16    22
3    13    17    43
1
  • 1
    An explanation for the first part would be in order. And why isn't there a "for" loop in the example code when it is talked about? Can you make it more clear? Please respond by editing your answer, not here in comments (without "Edit:", "Update:", or similar - the answer should appear as if it was written today). Jul 14, 2021 at 10:14
1

Make it simple. By taking a list as input which will be appended as a row in the data-frame:

import pandas as pd
res = pd.DataFrame(columns=('lib', 'qty1', 'qty2'))
for i in range(5):
    res_list = list(map(int, input().split()))
    res = res.append(pd.Series(res_list, index=['lib', 'qty1', 'qty2']), ignore_index=True)
0
0

If you have a data frame df and want to add a list new_list as a new row to df, you can simply do:

df.loc[len(df)] = new_list

If you want to add a new data frame new_df under data frame df, then you can use:

df.append(new_df)
0

We often see the construct df.loc[subscript] = … to assign to one DataFrame row. Mikhail_Sam posted benchmarks containing, among others, this construct as well as the method using dict and create DataFrame in the end. He found the latter to be the fastest by far.

But if we replace the df3.loc[i] = … (with preallocated DataFrame) in his code with df3.values[i] = …, the outcome changes significantly, in that that method performs similar to the one using dict. So we should more often take the use of df.values[subscript] = … into consideration. However note that .values takes a zero-based subscript, which may be different from the DataFrame.index.

1
0

pandas.DataFrame.append

DataFrame.append(self, other, ignore_index=False, verify_integrity=False, sort=False) → 'DataFrame'

Code

df = pd.DataFrame([[1, 2], [3, 4]], columns=list('AB'))
df2 = pd.DataFrame([[5, 6], [7, 8]], columns=list('AB'))
df.append(df2)

With ignore_index set to True:

df.append(df2, ignore_index=True)
1
  • 1
    It is not clear why the first two lines are not literal code. Brevity is good, but can you elaborate in your answer, e.g. by adding some supporting text? But without "Edit:", "Update:", or similar - the answer should appear as if it was written today. Jul 14, 2021 at 10:05
0

Before going to add a row, we have to convert the dataframe to a dictionary. There you can see the keys as columns in the dataframe and the values of the columns are again stored in the dictionary, but there the key for every column is the index number in the dataframe.

That idea makes me to write the below code.

df2 = df.to_dict()
values = ["s_101", "hyderabad", 10, 20, 16, 13, 15, 12, 12, 13, 25, 26, 25, 27, "good", "bad"] # This is the total row that we are going to add
i = 0
for x in df.columns:   # Here df.columns gives us the main dictionary key
    df2[x][101] = values[i]   # Here the 101 is our index number. It is also the key of the sub dictionary
    i += 1
0

If all data in your Dataframe has the same dtype you might use a NumPy array. You can write rows directly into the predefined array and convert it to a dataframe at the end. It seems to be even faster than converting a list of dicts.

import pandas as pd
import numpy as np
from string import ascii_uppercase

startTime = time.perf_counter()
numcols, numrows = 5, 10000
npdf = np.ones((numrows, numcols))
for row in range(numrows):
    npdf[row, 0:] = np.random.randint(0, 100, (1, numcols))
df5 = pd.DataFrame(npdf, columns=list(ascii_uppercase[:numcols]))
print('Elapsed time: {:6.3f} seconds for {:d} rows'.format(time.perf_counter() - startTime, numOfRows))
print(df5.shape)
1
  • Re "It seems to be even faster": Can you quantify that (by editing (changing) your answer)? What order are we talking about? 10% faster? 100% faster? 10 times faster? 1,000,000 times faster? At what scale (it could quadratic/exponential)? Jul 14, 2021 at 10:25
0

Here are the 3 regularly mentioned options and their shortcomings for adding

  • a single row (not multiple rows)
  • optimized for readability (not for runtime performance, e.g. allow copy the DataFrame even though not preferred)
  • columns can have different dtypes
  • keep the dtype of all columns
  • the index can have any form, e.g. 'holes' in an integer series
  • keep the dtype of the df.index

The code setup:

df = pd.DataFrame({'carId': [1, 4, 7], 'maxSpeed': [1.1, 4.4, 7.7]})
df = df.astype({
    'carId': np.uint16,
    'maxSpeed': np.float32,
})
df.set_index('carId', drop=False, inplace=True)
assert df.index.dtype == np.uint64

# the row to add
additional_row = [9, 9.9]
assert len(df.columns) == len(additional_row)
original_dtypes = df.dtypes
original_index_dtype = df.index.dtype

1) pd.concat()

df_new_row = pd.DataFrame([additional_row], columns=df.columns)
newDf = pd.concat([df, df_new_row])
assert df.dtypes.equals(newDf.dtypes)  # fails: carId is np.int64 and maxSpeed is np.float64
assert newDf.dtypes.equals(original_dtypes)  # fails: newDf.index.dype is np.float64

2) df.loc[]

df.loc[additional_row[0], :] = additional_row
assert df.index.dtype == original_index_dtype
assert df.dtypes.equals(original_dtypes)  # fails: carId and maxSpeed are np.float64

3) df.append()

depreciated since pandas 1.4.0

solution

df.loc[] leaves the df.index intact, so I typically convert the types of the columns:

df.loc[additional_row[0], :] = additional_row
df = df.astype(original_dtypes)
assert df.index.dtype == original_index_dtype
assert df.dtypes.equals(original_dtypes)

Note that df.astype() creates a copy of the df. df.astype(copy=False) avoids this if you can accept the side effects of the copy parameter.

If you do not want to set the index explicitly, use e.g. df.loc[df.index.max() + 1, :] = additional_row. Note that df.index.max() fails if df is empty.

Unfortunately, How to add an extra row to a pandas dataframe has been marked as duplicate and points to this question. The title of this post "by appending one row at a time" implies that regularly adding multiple lines to a DataFrame is a good idea. I agree with many previous comments that there are probably not many uses cases for this. However, adding a single row to a DataFrame occurs more often, even though it's still an edge case.

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