pandas.eval

pandas.eval(expr, parser='pandas', engine=None, truediv=<object object>, local_dict=None, global_dict=None, resolvers=(), level=0, target=None, inplace=False)[source]

Evaluate a Python expression as a string using various backends.

The following arithmetic operations are supported: +, -, *, /, **, %, // (python engine only) along with the following boolean operations: | (or), & (and), and ~ (not). Additionally, the 'pandas' parser allows the use of and, or, and not with the same semantics as the corresponding bitwise operators. Series and DataFrame objects are supported and behave as they would with plain ol’ Python evaluation.

Parameters
exprstr

The expression to evaluate. This string cannot contain any Python statements, only Python expressions.

parser{‘pandas’, ‘python’}, default ‘pandas’

The parser to use to construct the syntax tree from the expression. The default of 'pandas' parses code slightly different than standard Python. Alternatively, you can parse an expression using the 'python' parser to retain strict Python semantics. See the enhancing performance documentation for more details.

engine{‘python’, ‘numexpr’}, default ‘numexpr’

The engine used to evaluate the expression. Supported engines are

  • None : tries to use numexpr, falls back to python

  • 'numexpr': This default engine evaluates pandas objects using

    numexpr for large speed ups in complex expressions with large frames.

  • 'python': Performs operations as if you had eval’d in top

    level python. This engine is generally not that useful.

More backends may be available in the future.

truedivbool, optional

Whether to use true division, like in Python >= 3.

Deprecated since version 1.0.0.

local_dictdict or None, optional

A dictionary of local variables, taken from locals() by default.

global_dictdict or None, optional

A dictionary of global variables, taken from globals() by default.

resolverslist of dict-like or None, optional

A list of objects implementing the __getitem__ special method that you can use to inject an additional collection of namespaces to use for variable lookup. For example, this is used in the query() method to inject the DataFrame.index and DataFrame.columns variables that refer to their respective DataFrame instance attributes.

levelint, optional

The number of prior stack frames to traverse and add to the current scope. Most users will not need to change this parameter.

targetobject, optional, default None

This is the target object for assignment. It is used when there is variable assignment in the expression. If so, then target must support item assignment with string keys, and if a copy is being returned, it must also support .copy().

inplacebool, default False

If target is provided, and the expression mutates target, whether to modify target inplace. Otherwise, return a copy of target with the mutation.

Returns
ndarray, numeric scalar, DataFrame, Series, or None

The completion value of evaluating the given code or None if inplace=True.

Raises
ValueError

There are many instances where such an error can be raised:

  • target=None, but the expression is multiline.

  • The expression is multiline, but not all them have item assignment. An example of such an arrangement is this:

    a = b + 1 a + 2

    Here, there are expressions on different lines, making it multiline, but the last line has no variable assigned to the output of a + 2.

  • inplace=True, but the expression is missing item assignment.

  • Item assignment is provided, but the target does not support string item assignment.

  • Item assignment is provided and inplace=False, but the target does not support the .copy() method

See also

DataFrame.query

Evaluates a boolean expression to query the columns of a frame.

DataFrame.eval

Evaluate a string describing operations on DataFrame columns.

Notes

The dtype of any objects involved in an arithmetic % operation are recursively cast to float64.

See the enhancing performance documentation for more details.

Examples

>>> df = pd.DataFrame({"animal": ["dog", "pig"], "age": [10, 20]})
>>> df
  animal  age
0    dog   10
1    pig   20

We can add a new column using pd.eval:

>>> pd.eval("double_age = df.age * 2", target=df)
  animal  age  double_age
0    dog   10          20
1    pig   20          40