Using spark to read in a CSV file to pandas
is quite a roundabout method for achieving the end goal of reading a CSV file into memory.
It seems like you might be misunderstanding the use cases of the technologies in play here.
Spark is for distributed computing (though it can be used locally). It's generally far too heavyweight to be used for simply reading in a CSV file.
In your example, the sc.textFile
method will simply give you a spark RDD that is effectively a list of text lines. This likely isn't what you want. No type inference will be performed, so if you want to sum a column of numbers in your CSV file, you won't be able to because they are still strings as far as Spark is concerned.
Just use pandas.read_csv
and read the whole CSV into memory. Pandas will automatically infer the type of each column. Spark doesn't do this.
Now to answer your questions:
Does it store the Pandas object to local memory:
Yes. toPandas()
will convert the Spark DataFrame into a Pandas DataFrame, which is of course in memory.
Does Pandas low-level computation handled all by Spark
No. Pandas runs its own computations, there's no interplay between spark and pandas, there's simply some API compatibility.
Does it exposed all pandas dataframe functionality?
No. For example, Series
objects have an interpolate
method which isn't available in PySpark Column
objects. There are many many methods and functions that are in the pandas API that are not in the PySpark API.
Can I convert it toPandas and just be done with it, without so much touching DataFrame API?
Absolutely. In fact, you probably shouldn't even use Spark at all in this case. pandas.read_csv
will likely handle your use case unless you're working with a huge amount of data.
Try to solve your problem with simple, low-tech, easy-to-understand libraries, and only go to something more complicated as you need it. Many times, you won't need the more complex technology.