# pandas docstring guide¶

A Python docstring is a string used to document a Python module, class, function or method, so programmers can understand what it does without having to read the details of the implementation.

Also, it is a common practice to generate online (html) documentation automatically from docstrings. Sphinx serves this purpose.

Next example gives an idea on how a docstring looks like:

def add(num1, num2):
"""

This function simply wraps the + operator, and does not
do anything interesting, except for illustrating what is
the docstring of a very simple function.

Parameters
----------
num1 : int
num2 : int

Returns
-------
int
The sum of num1 and num2

--------
subtract : Subtract one integer from another

Examples
--------
4
25
0
"""
return num1 + num2


Some standards exist about docstrings, so they are easier to read, and they can be exported to other formats such as html or pdf.

The first conventions every Python docstring should follow are defined in PEP-257.

As PEP-257 is quite open, and some other standards exist on top of it. In the case of pandas, the numpy docstring convention is followed. The conventions is explained in this document:

numpydoc is a Sphinx extension to support the numpy docstring convention.

The standard uses reStructuredText (reST). reStructuredText is a markup language that allows encoding styles in plain text files. Documentation about reStructuredText can be found in:

Pandas has some helpers for sharing docstrings between related classes, see Sharing Docstrings.

The rest of this document will summarize all the above guides, and will provide additional convention specific to the pandas project.

## Writing a docstring¶

### General rules¶

Docstrings must be defined with three double-quotes. No blank lines should be left before or after the docstring. The text starts in the next line after the opening quotes. The closing quotes have their own line (meaning that they are not at the end of the last sentence).

In rare occasions reST styles like bold text or itallics will be used in docstrings, but is it common to have inline code, which is presented between backticks. It is considered inline code:

• The name of a parameter
• Python code, a module, function, built-in, type, literal… (e.g. os, list, numpy.abs, datetime.date, True)
• A pandas class (in the form :class:pandas.Series)
• A pandas method (in the form :meth:pandas.Series.sum)
• A pandas function (in the form :func:pandas.to_datetime)

Note

To display only the last component of the linked class, method or function, prefix it with ~. For example, :class:~pandas.Series will link to pandas.Series but only display the last part, Series as the link text. See Sphinx cross-referencing syntax for details.

Good:

def add_values(arr):
"""
Add the values in arr.

This is equivalent to Python sum of :meth:pandas.Series.sum.

Some sections are omitted here for simplicity.
"""
return sum(arr)


def func():

"""Some function.

With several mistakes in the docstring.

It has a blank like after the signature def func():.

The text 'Some function' should go in the line after the
opening quotes of the docstring, not in the same line.

There is a blank line between the docstring and the first line
of code foo = 1.

The closing quotes should be in the next line, not in this one."""

foo = 1
bar = 2
return foo + bar


### Section 1: Short summary¶

The short summary is a single sentence that expresses what the function does in a concise way.

The short summary must start with a capital letter, end with a dot, and fit in a single line. It needs to express what the object does without providing details. For functions and methods, the short summary must start with an infinitive verb.

Good:

def astype(dtype):
"""
Cast Series type.

This section will provide further details.
"""
pass


def astype(dtype):
"""
Casts Series type.

Verb in third-person of the present simple, should be infinitive.
"""
pass

def astype(dtype):
"""
Method to cast Series type.

"""
pass

def astype(dtype):
"""
Cast Series type

Missing dot at the end.
"""
pass

def astype(dtype):
"""
Cast Series type from its current type to the new type defined in
the parameter dtype.

Summary is too verbose and doesn't fit in a single line.
"""
pass


### Section 2: Extended summary¶

The extended summary provides details on what the function does. It should not go into the details of the parameters, or discuss implementation notes, which go in other sections.

A blank line is left between the short summary and the extended summary. And every paragraph in the extended summary is finished by a dot.

The extended summary should provide details on why the function is useful and their use cases, if it is not too generic.

def unstack():
"""
Pivot a row index to columns.

When using a multi-index, a level can be pivoted so each value in
the index becomes a column. This is especially useful when a subindex
is repeated for the main index, and data is easier to visualize as a
pivot table.

The index level will be automatically removed from the index when added
as columns.
"""
pass


### Section 3: Parameters¶

The details of the parameters will be added in this section. This section has the title “Parameters”, followed by a line with a hyphen under each letter of the word “Parameters”. A blank line is left before the section title, but not after, and not between the line with the word “Parameters” and the one with the hyphens.

After the title, each parameter in the signature must be documented, including *args and **kwargs, but not self.

The parameters are defined by their name, followed by a space, a colon, another space, and the type (or types). Note that the space between the name and the colon is important. Types are not defined for *args and **kwargs, but must be defined for all other parameters. After the parameter definition, it is required to have a line with the parameter description, which is indented, and can have multiple lines. The description must start with a capital letter, and finish with a dot.

For keyword arguments with a default value, the default will be listed after a comma at the end of the type. The exact form of the type in this case will be “int, default 0”. In some cases it may be useful to explain what the default argument means, which can be added after a comma “int, default -1, meaning all cpus”.

In cases where the default value is None, meaning that the value will not be used. Instead of “str, default None”, it is preferred to write “str, optional”. When None is a value being used, we will keep the form “str, default None”. For example, in df.to_csv(compression=None), None is not a value being used, but means that compression is optional, and no compression is being used if not provided. In this case we will use str, optional. Only in cases like func(value=None) and None is being used in the same way as 0 or foo would be used, then we will specify “str, int or None, default None”.

Good:

class Series:
def plot(self, kind, color='blue', **kwargs):
"""
Generate a plot.

Render the data in the Series as a matplotlib plot of the
specified kind.

Parameters
----------
kind : str
Kind of matplotlib plot.
color : str, default 'blue'
Color name or rgb code.
**kwargs
These parameters will be passed to the matplotlib plotting
function.
"""
pass


class Series:
def plot(self, kind, **kwargs):
"""
Generate a plot.

Render the data in the Series as a matplotlib plot of the
specified kind.

Note the blank line between the parameters title and the first
parameter. Also, note that after the name of the parameter kind
and before the colon, a space is missing.

capital letter, and do not finish with a dot.

Finally, the **kwargs parameter is missing.

Parameters
----------

kind: str
kind of matplotlib plot
"""
pass


#### Parameter types¶

When specifying the parameter types, Python built-in data types can be used directly (the Python type is preferred to the more verbose string, integer, boolean, etc):

• int
• float
• str
• bool

For complex types, define the subtypes. For dict and tuple, as more than one type is present, we use the brackets to help read the type (curly brackets for dict and normal brackets for tuple):

• list of int
• dict of {str : int}
• tuple of (str, int, int)
• tuple of (str,)
• set of str

In case where there are just a set of values allowed, list them in curly brackets and separated by commas (followed by a space). If the values are ordinal and they have an order, list them in this order. Otherwise, list the default value first, if there is one:

• {0, 10, 25}
• {‘low’, ‘medium’, ‘high’}
• {‘cat’, ‘dog’, ‘bird’}

If the type is defined in a Python module, the module must be specified:

• datetime.date
• datetime.datetime
• decimal.Decimal

If the type is in a package, the module must be also specified:

• numpy.ndarray
• scipy.sparse.coo_matrix

If the type is a pandas type, also specify pandas except for Series and DataFrame:

• Series
• DataFrame
• pandas.Index
• pandas.Categorical
• pandas.SparseArray

If the exact type is not relevant, but must be compatible with a numpy array, array-like can be specified. If Any type that can be iterated is accepted, iterable can be used:

• array-like
• iterable

If more than one type is accepted, separate them by commas, except the last two types, that need to be separated by the word ‘or’:

• int or float
• float, decimal.Decimal or None
• str or list of str

If None is one of the accepted values, it always needs to be the last in the list.

For axis, the convention is to use something like:

• axis : {0 or ‘index’, 1 or ‘columns’, None}, default None

### Section 4: Returns or Yields¶

If the method returns a value, it will be documented in this section. Also if the method yields its output.

The title of the section will be defined in the same way as the “Parameters”. With the names “Returns” or “Yields” followed by a line with as many hyphens as the letters in the preceding word.

The documentation of the return is also similar to the parameters. But in this case, no name will be provided, unless the method returns or yields more than one value (a tuple of values).

The types for “Returns” and “Yields” are the same as the ones for the “Parameters”. Also, the description must finish with a dot.

For example, with a single value:

def sample():
"""
Generate and return a random number.

The value is sampled from a continuous uniform distribution between
0 and 1.

Returns
-------
float
Random number generated.
"""
return random.random()


With more than one value:

def random_letters():
"""
Generate and return a sequence of random letters.

The length of the returned string is also random, and is also
returned.

Returns
-------
length : int
Length of the returned string.
letters : str
String of random letters.
"""
length = random.randint(1, 10)
letters = ''.join(random.choice(string.ascii_lowercase)
for i in range(length))
return length, letters


If the method yields its value:

def sample_values():
"""
Generate an infinite sequence of random numbers.

The values are sampled from a continuous uniform distribution between
0 and 1.

Yields
------
float
Random number generated.
"""
while True:
yield random.random()


This section is used to let users know about pandas functionality related to the one being documented. In rare cases, if no related methods or functions can be found at all, this section can be skipped.

An obvious example would be the head() and tail() methods. As tail() does the equivalent as head() but at the end of the Series or DataFrame instead of at the beginning, it is good to let the users know about it.

To give an intuition on what can be considered related, here there are some examples:

• loc and iloc, as they do the same, but in one case providing indices and in the other positions
• max and min, as they do the opposite
• iterrows, itertuples and iteritems, as it is easy that a user looking for the method to iterate over columns ends up in the method to iterate over rows, and vice-versa
• fillna and dropna, as both methods are used to handle missing values
• read_csv and to_csv, as they are complementary
• merge and join, as one is a generalization of the other
• astype and pandas.to_datetime, as users may be reading the documentation of astype to know how to cast as a date, and the way to do it is with pandas.to_datetime
• where is related to numpy.where, as its functionality is based on it

When deciding what is related, you should mainly use your common sense and think about what can be useful for the users reading the documentation, especially the less experienced ones.

When relating to other libraries (mainly numpy), use the name of the module first (not an alias like np). If the function is in a module which is not the main one, like scipy.sparse, list the full module (e.g. scipy.sparse.coo_matrix).

This section, as the previous, also has a header, “See Also” (note the capital S and A). Also followed by the line with hyphens, and preceded by a blank line.

After the header, we will add a line for each related method or function, followed by a space, a colon, another space, and a short description that illustrated what this method or function does, why is it relevant in this context, and what are the key differences between the documented function and the one referencing. The description must also finish with a dot.

Note that in “Returns” and “Yields”, the description is located in the following line than the type. But in this section it is located in the same line, with a colon in between. If the description does not fit in the same line, it can continue in the next ones, but it has to be indented in them.

For example:

class Series:
"""
Return the first 5 elements of the Series.

This function is mainly useful to preview the values of the
Series without displaying the whole of it.

Returns
-------
Series
Subset of the original series with the 5 first values.

--------
Series.tail : Return the last 5 elements of the Series.
Series.iloc : Return a slice of the elements in the Series,
which can also be used to return the first or last n.
"""
return self.iloc[:5]


### Section 6: Notes¶

This is an optional section used for notes about the implementation of the algorithm. Or to document technical aspects of the function behavior.

Feel free to skip it, unless you are familiar with the implementation of the algorithm, or you discover some counter-intuitive behavior while writing the examples for the function.

This section follows the same format as the extended summary section.

### Section 7: Examples¶

This is one of the most important sections of a docstring, even if it is placed in the last position. As often, people understand concepts better with examples, than with accurate explanations.

Examples in docstrings, besides illustrating the usage of the function or method, must be valid Python code, that in a deterministic way returns the presented output, and that can be copied and run by users.

They are presented as a session in the Python terminal. >>> is used to present code. is used for code continuing from the previous line. Output is presented immediately after the last line of code generating the output (no blank lines in between). Comments describing the examples can be added with blank lines before and after them.

The way to present examples is as follows:

1. Import required libraries (except numpy and pandas)
2. Create the data required for the example
3. Show a very basic example that gives an idea of the most common use case
4. Add examples with explanations that illustrate how the parameters can be used for extended functionality

A simple example could be:

class Series:
"""
Return the first elements of the Series.

This function is mainly useful to preview the values of the
Series without displaying the whole of it.

Parameters
----------
n : int
Number of values to return.

Return
------
pandas.Series
Subset of the original series with the n first values.

--------
tail : Return the last n elements of the Series.

Examples
--------
>>> s = pd.Series(['Ant', 'Bear', 'Cow', 'Dog', 'Falcon',
...                'Lion', 'Monkey', 'Rabbit', 'Zebra'])
0   Ant
1   Bear
2   Cow
3   Dog
4   Falcon
dtype: object

With the n parameter, we can change the number of returned rows:

0   Ant
1   Bear
2   Cow
dtype: object
"""
return self.iloc[:n]


The examples should be as concise as possible. In cases where the complexity of the function requires long examples, is recommended to use blocks with headers in bold. Use double star ** to make a text bold, like in **this example**.

#### Conventions for the examples¶

Code in examples is assumed to always start with these two lines which are not shown:

import numpy as np
import pandas as pd


Any other module used in the examples must be explicitly imported, one per line (as recommended in PEP-8) and avoiding aliases. Avoid excessive imports, but if needed, imports from the standard library go first, followed by third-party libraries (like matplotlib).

When illustrating examples with a single Series use the name s, and if illustrating with a single DataFrame use the name df. For indices, idx is the preferred name. If a set of homogeneous Series or DataFrame is used, name them s1, s2, s3… or df1, df2, df3… If the data is not homogeneous, and more than one structure is needed, name them with something meaningful, for example df_main and df_to_join.

Data used in the example should be as compact as possible. The number of rows is recommended to be around 4, but make it a number that makes sense for the specific example. For example in the head method, it requires to be higher than 5, to show the example with the default values. If doing the mean, we could use something like [1, 2, 3], so it is easy to see that the value returned is the mean.

For more complex examples (groupping for example), avoid using data without interpretation, like a matrix of random numbers with columns A, B, C, D… And instead use a meaningful example, which makes it easier to understand the concept. Unless required by the example, use names of animals, to keep examples consistent. And numerical properties of them.

When calling the method, keywords arguments head(n=3) are preferred to positional arguments head(3).

Good:

class Series:
def mean(self):
"""
Compute the mean of the input.

Examples
--------
>>> s = pd.Series([1, 2, 3])
>>> s.mean()
2
"""
pass

def fillna(self, value):
"""
Replace missing values by value.

Examples
--------
>>> s = pd.Series([1, np.nan, 3])
>>> s.fillna(0)
[1, 0, 3]
"""
pass

def groupby_mean(self):
"""
Group by index and return mean.

Examples
--------
>>> s = pd.Series([380., 370., 24., 26],
...               name='max_speed',
...               index=['falcon', 'falcon', 'parrot', 'parrot'])
>>> s.groupby_mean()
index
falcon    375.0
parrot     25.0
Name: max_speed, dtype: float64
"""
pass

def contains(self, pattern, case_sensitive=True, na=numpy.nan):
"""
Return whether each value contains pattern.

In this case, we are illustrating how to use sections, even
if the example is simple enough and does not require them.

Examples
--------
>>> s = pd.Series('Antelope', 'Lion', 'Zebra', numpy.nan)
>>> s.contains(pattern='a')
0    False
1    False
2     True
3      NaN
dtype: bool

**Case sensitivity**

With case_sensitive set to False we can match a with both
a and A:

>>> s.contains(pattern='a', case_sensitive=False)
0     True
1    False
2     True
3      NaN
dtype: bool

**Missing values**

We can fill missing values in the output using the na parameter:

>>> s.contains(pattern='a', na=False)
0    False
1    False
2     True
3    False
dtype: bool
"""
pass


def method(foo=None, bar=None):
"""
A sample DataFrame method.

Do not import numpy and pandas.

Try to use meaningful data, when it makes the example easier
to understand.

Try to avoid positional arguments like in df.method(1). They
can be all right if previously defined with a meaningful name,
like in present_value(interest_rate), but avoid them otherwise.

When presenting the behavior with different parameters, do not place
all the calls one next to the other. Instead, add a short sentence
explaining what the example shows.

Examples
--------
>>> import numpy as np
>>> import pandas as pd
>>> df = pd.DataFrame(numpy.random.randn(3, 3),
...                   columns=('a', 'b', 'c'))
>>> df.method(1)
21
>>> df.method(bar=14)
123
"""
pass


#### Tips for getting your examples pass the doctests¶

Getting the examples pass the doctests in the validation script can sometimes be tricky. Here are some attention points:

• Import all needed libraries (except for pandas and numpy, those are already imported as import pandas as pd and import numpy as np) and define all variables you use in the example.

• Try to avoid using random data. However random data might be OK in some cases, like if the function you are documenting deals with probability distributions, or if the amount of data needed to make the function result meaningful is too much, such that creating it manually is very cumbersome. In those cases, always use a fixed random seed to make the generated examples predictable. Example:

>>> np.random.seed(42)
>>> df = pd.DataFrame({'normal': np.random.normal(100, 5, 20)})

• If you have a code snippet that wraps multiple lines, you need to use ‘…’ on the continued lines:

>>> df = pd.DataFrame([[1, 2, 3], [4, 5, 6]], index=['a', 'b', 'c'],
...                   columns=['A', 'B'])

• If you want to show a case where an exception is raised, you can do:

>>> pd.to_datetime(["712-01-01"])
Traceback (most recent call last):
OutOfBoundsDatetime: Out of bounds nanosecond timestamp: 712-01-01 00:00:00


It is essential to include the “Traceback (most recent call last):”, but for the actual error only the error name is sufficient.

• If there is a small part of the result that can vary (e.g. a hash in an object represenation), you can use ... to represent this part.

If you want to show that s.plot() returns a matplotlib AxesSubplot object, this will fail the doctest

>>> s.plot()
<matplotlib.axes._subplots.AxesSubplot at 0x7efd0c0b0690>


However, you can do (notice the comment that needs to be added)

>>> s.plot()
<matplotlib.axes._subplots.AxesSubplot at ...>


#### Plots in examples¶

There are some methods in pandas returning plots. To render the plots generated by the examples in the documentation, the .. plot:: directive exists.

To use it, place the next code after the “Examples” header as shown below. The plot will be generated automatically when building the documentation.

class Series:
def plot(self):
"""
Generate a plot with the Series data.

Examples
--------

.. plot::
:context: close-figs

>>> s = pd.Series([1, 2, 3])
>>> s.plot()
"""
pass


## Sharing Docstrings¶

Pandas has a system for sharing docstrings, with slight variations, between classes. This helps us keep docstrings consistent, while keeping things clear for the user reading. It comes at the cost of some complexity when writing.

Each shared docstring will have a base template with variables, like %(klass)s. The variables filled in later on using the Substitution decorator. Finally, docstrings can be appended to with the Appender decorator.

In this example, we’ll create a parent docstring normally (this is like pandas.core.generic.NDFrame. Then we’ll have two children (like pandas.core.series.Series and pandas.core.frame.DataFrame). We’ll substitute the children’s class names in this docstring.

class Parent:
def my_function(self):
"""Apply my function to %(klass)s."""
...

class ChildA(Parent):
@Substitution(klass="ChildA")
@Appender(Parent.my_function.__doc__)
def my_function(self):
...

class ChildB(Parent):
@Substitution(klass="ChildB")
@Appender(Parent.my_function.__doc__)
def my_function(self):
...


The resulting docstrings are

>>> print(Parent.my_function.__doc__)
Apply my function to %(klass)s.
>>> print(ChildA.my_function.__doc__)
Apply my function to ChildA.
>>> print(ChildB.my_function.__doc__)
Apply my function to ChildB.


Notice two things:

1. We “append” the parent docstring to the children docstrings, which are initially empty.
2. Python decorators are applied inside out. So the order is Append then Substitution, even though Substitution comes first in the file.

Our files will often contain a module-level _shared_doc_kwargs with some common substitution values (things like klass, axes, etc).

You can substitute and append in one shot with something like

@Appender(template % _shared_doc_kwargs)
def my_function(self):
...


where template may come from a module-level _shared_docs dictionary mapping function names to docstrings. Wherever possible, we prefer using Appender and Substitution, since the docstring-writing processes is slightly closer to normal.

See pandas.core.generic.NDFrame.fillna for an example template, and pandas.core.series.Series.fillna and pandas.core.generic.frame.fillna for the filled versions.

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