You have three main options for converting types in pandas:

`to_numeric()`

- provides functionality to safely convert non-numeric types (e.g. strings) to a suitable numeric type. (See also `to_datetime()`

and `to_timedelta()`

.)

`astype()`

- convert (almost) any type to (almost) any other type (even if it's not necessarily sensible to do so). Also allows you to convert to categorial types (very useful).

`infer_objects()`

- a utility method to convert object columns holding Python objects to a pandas type if possible.

Read on for more detailed explanations and usage of each of these methods.

# 1. `to_numeric()`

The best way to convert one or more columns of a DataFrame to numeric values is to use `pandas.to_numeric()`

.

This function will try to change non-numeric objects (such as strings) into integers or floating point numbers as appropriate.

## Basic usage

The input to `to_numeric()`

is a Series or a single column of a DataFrame.

```
>>> s = pd.Series(["8", 6, "7.5", 3, "0.9"]) # mixed string and numeric values
>>> s
0 8
1 6
2 7.5
3 3
4 0.9
dtype: object
>>> pd.to_numeric(s) # convert everything to float values
0 8.0
1 6.0
2 7.5
3 3.0
4 0.9
dtype: float64
```

As you can see, a new Series is returned. Remember to assign this output to a variable or column name to continue using it:

```
# convert Series
my_series = pd.to_numeric(my_series)
# convert column "a" of a DataFrame
df["a"] = pd.to_numeric(df["a"])
```

You can also use it to convert multiple columns of a DataFrame via the `apply()`

method:

```
# convert all columns of DataFrame
df = df.apply(pd.to_numeric) # convert all columns of DataFrame
# convert just columns "a" and "b"
df[["a", "b"]] = df[["a", "b"]].apply(pd.to_numeric)
```

As long as your values can all be converted, that's probably all you need.

## Error handling

But what if some values can't be converted to a numeric type?

`to_numeric()`

also takes an `errors`

keyword argument that allows you to force non-numeric values to be `NaN`

, or simply ignore columns containing these values.

Here's an example using a Series of strings `s`

which has the object dtype:

```
>>> s = pd.Series(['1', '2', '4.7', 'pandas', '10'])
>>> s
0 1
1 2
2 4.7
3 pandas
4 10
dtype: object
```

The default behaviour is to raise if it can't convert a value. In this case, it can't cope with the string 'pandas':

```
>>> pd.to_numeric(s) # or pd.to_numeric(s, errors='raise')
ValueError: Unable to parse string
```

Rather than fail, we might want 'pandas' to be considered a missing/bad numeric value. We can coerce invalid values to `NaN`

as follows using the `errors`

keyword argument:

```
>>> pd.to_numeric(s, errors='coerce')
0 1.0
1 2.0
2 4.7
3 NaN
4 10.0
dtype: float64
```

The third option for `errors`

is just to ignore the operation if an invalid value is encountered:

```
>>> pd.to_numeric(s, errors='ignore')
# the original Series is returned untouched
```

This last option is particularly useful when you want to convert your entire DataFrame, but don't not know which of our columns can be converted reliably to a numeric type. In that case just write:

```
df.apply(pd.to_numeric, errors='ignore')
```

The function will be applied to each column of the DataFrame. Columns that can be converted to a numeric type will be converted, while columns that cannot (e.g. they contain non-digit strings or dates) will be left alone.

## Downcasting

By default, conversion with `to_numeric()`

will give you either a `int64`

or `float64`

dtype (or whatever integer width is native to your platform).

That's usually what you want, but what if you wanted to save some memory and use a more compact dtype, like `float32`

, or `int8`

?

`to_numeric()`

gives you the option to downcast to either 'integer', 'signed', 'unsigned', 'float'. Here's an example for a simple series `s`

of integer type:

```
>>> s = pd.Series([1, 2, -7])
>>> s
0 1
1 2
2 -7
dtype: int64
```

Downcasting to 'integer' uses the smallest possible integer that can hold the values:

```
>>> pd.to_numeric(s, downcast='integer')
0 1
1 2
2 -7
dtype: int8
```

Downcasting to 'float' similarly picks a smaller than normal floating type:

```
>>> pd.to_numeric(s, downcast='float')
0 1.0
1 2.0
2 -7.0
dtype: float32
```

# 2. `astype()`

The `astype()`

method enables you to be explicit about the dtype you want your DataFrame or Series to have. It's very versatile in that you can try and go from one type to the any other.

## Basic usage

Just pick a type: you can use a NumPy dtype (e.g. `np.int16`

), some Python types (e.g. bool), or pandas-specific types (like the categorical dtype).

Call the method on the object you want to convert and `astype()`

will try and convert it for you:

```
# convert all DataFrame columns to the int64 dtype
df = df.astype(int)
# convert column "a" to int64 dtype and "b" to complex type
df = df.astype({"a": int, "b": complex})
# convert Series to float16 type
s = s.astype(np.float16)
# convert Series to Python strings
s = s.astype(str)
# convert Series to categorical type - see docs for more details
s = s.astype('category')
```

Notice I said "try" - if `astype()`

does not know how to convert a value in the Series or DataFrame, it will raise an error. For example if you have a `NaN`

or `inf`

value you'll get an error trying to convert it to an integer.

As of pandas 0.20.0, this error can be suppressed by passing `errors='ignore'`

. Your original object will be return untouched.

## Be careful

`astype()`

is powerful, but it will sometimes convert values "incorrectly". For example:

```
>>> s = pd.Series([1, 2, -7])
>>> s
0 1
1 2
2 -7
dtype: int64
```

These are small integers, so how about converting to an unsigned 8-bit type to save memory?

```
>>> s.astype(np.uint8)
0 1
1 2
2 249
dtype: uint8
```

The conversion worked, but the -7 was wrapped round to become 249 (i.e. 2^{8} - 7)!

Trying to downcast using `pd.to_numeric(s, downcast='unsigned')`

instead could help prevent this error.

# 3. `infer_objects()`

Version 0.21.0 of pandas introduced the method `infer_objects()`

for converting columns of a DataFrame that have an object datatype to a more specific type (soft conversions).

For example, here's a DataFrame with two columns of object type. One holds actual integers and the other holds strings representing integers:

```
>>> df = pd.DataFrame({'a': [7, 1, 5], 'b': ['3','2','1']}, dtype='object')
>>> df.dtypes
a object
b object
dtype: object
```

Using `infer_objects()`

, you can change the type of column 'a' to int64:

```
>>> df = df.infer_objects()
>>> df.dtypes
a int64
b object
dtype: object
```

Column 'b' has been left alone since its values were strings, not integers. If you wanted to try and force the conversion of both columns to an integer type, you could use `df.astype(int)`

instead.