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Developer Advocate
Developer Advocate
In the previous post, I showed how I have done the setup of the environment I am planning to use for this series to explain the new multi-model functionality of hana_ml 2.6 in the context of my demo used in this year's SAP TechEd's DAT108 session.

Dataframes -- a bit of the background

The SAP HANA DataFrame is the central concept we need to understand in hana_ml.

If you worked intensively with data wrangling and analysis using programming languages, then you might have worked with dataframes already in R, or in Python thanks to Pandas library, or in Julia thanks to DataFrames.jl package.

In simple terms, these dataframes are two-in-one: (1) a structure storing the data in a client, (2) a rich number of sometimes very sophisticated methods that can be applied to this structure to understand and to manipulate this data.

SAP HANA DataFrame...

Now, when it comes to the HANA DataFrame in hana_ml:

  1. a dataframe object does not store physical data, but it does store the HANA SQL SELECT statement backing the dataframe,

  2. most methods are designed to not bring data from the database to a client unless explicitly requested, e.g. via collect() method,

  3. HANA DataFrame API is tightly coupled with Pandas: data from Pandas dataframe can be persisted as an SAP HANA database object, and -- on the other hand -- results of running operations on SAP HANA data are usually returned in a format of a Pandas dataframe.

It all means that all the heavy lifting, like data processing or ML algorithms, are executed in the SAP HANA database: right where the data is stored. Data is not moved between a DB server and a client where Python code is executed. It follows the SAP HANA principle of bringing a code to the data, not data to the code.

...and its relationship with Python Pandas

It means as well, that as a developer using hana_ml you should have some basic understanding of the Pandas module.

I would recommend checking official Pandas getting started tutorials:, but if anyone knows the better place for starters please share in the comments below. Personally, I found "10 Minutes to pandas" the most confusing 60(!) minutes, when I went through this 😄

But what I would certainly recommend to everyone coming from an SQL background is checking:

Some preparation work...

...before we move on.

Upgrade hana_ml if needed

The new update of the hana_ml 2.6 has been released since my previous post was published last week. I can see it using:
pip search hana

which I can run:

  • from my laptops command line docker exec hmlsandbox01 pip search hana

  • from Jupyter notebook's cell !pip search hana, or

  • simply using a terminal within Jupyter.

So, to upgrade the module let's run:

pip install --upgrade hana-ml

in any of the ways mentioned above, e.g. in a Jupyter's terminal.

Install Python shapely module

Shapely is a Python package for the manipulation and analysis of planar geometric objects. It is used by hana_ml to support geospatial data manipulation, but must be separately installed manually to avoid errors like "name 'wkb' is not defined" or "ModuleNotFoundError: No module named 'shapely'." It is a known limitation and should be fixed in the next patch of hana_ml.

To install shapely please follow:

In my environment, I just executed installation using Jupyter's terminal.
pip install shapely

Ok, it is time for coding!

JupyterLab is a client I use for this exercise, so I will create a new notebook 01 Dataframes.ipynb.

Read the files with the data using Pandas

In most production scenarios hana_ml will be used against some large volumes of data already stored in SAP HANA on-prem or in SAP HANA Cloud. But in our case of starting with the empty trial instance of SAP HANA Cloud, we need to load some data first. Actually, I showed already how to quickly load CSV files into SAP HANA in my post Quickly load data with hana_ml....

For my SAP TechEd demo, I wanted data that would be good to show multi-model processing -- spatial and graph -- so I used a dataset provided by Kelvin Lawrence at representing a network of connections between airports. At the time of writing this post, the data represents the status from January 2020 -- before the situation changed dramatically for airlines and airports. But let us focus on the data and processing here.
import pandas

I will use dfp_ notation for Pandas dataframes.

Let's check the shape (number of columns and rows) of these Pandas dataframes.
print('Size of nodes dataframe: {}'.format(dfp_nodes.shape))
print('Size of edges dataframe: {}'.format(dfp_edges.shape))

Nodes dataframe has 3742 rows with 16 columns, while edges dataframe has 57574 records with 5 columns.

Data analysis and wrangling with Pandas

Let's reshape this data before persisting in SAP HANA Cloud and for that, we first need to understand our dataset.

What are the columns and their types in the dfp_nodes dataframes?

Ok, there is a column ~label, so what are the node labels?

As you can see there are some columns (like type:string) as well as some rows (like those labeled continet or version) that we do not need. Additionally, all columns have either some special characters (like ~) or data types (like :object) as part of their names that we do not need. Plus some of the columns have some data types too generic for their real content. And ideally, we need column names in all capitals for SAP HANA.

Let's fix all these by creating a new Pandas dataframe dfp_ports and check it!
.drop(['~label','type:string','author:string','date:string'], axis=1)


And let's do the same for the edges dataset by saving required columns, rows, and data types into a new dataframe dfp_edges.


dfp_routes=dfp_edges[dfp_edges['~label'].isin(['route'])].drop(['~label'], axis=1).copy()


Switch to using HANAML database user

With the new database user HANAML created in the previous post let's switch to using it for further exercises.
import hana_ml


hana_cloud_host, hana_cloud_port=hana_cloud_endpoint.split(":")

password='Super$ecr3t!', #Should be your user's password 😉


The last statement shows that the schema of HANAML does not have any tables yet. So, let's save the data from Pandas dataframes to SAP HANA tables using hana_ml.
dfp_ports, "PORTS",

dfp_routes, 'ROUTES',

I will use dfh_ notation for HANA DataFrame variables.

We can see that two tables have been created in db user's schema in the SAP HANA.

And we can check data in these tables using collect() method of the HANA dataframe.

I did a few things (intentionally) that should hurt the eyes of programmers using Python and Pandas for a while. If you are one of those, please leave your improvement suggestions in the comments below!

For everyone else, please stay tuned as we will look at dataframes a bit closer in the next post.

Stay healthy ❤️
-Vitaliy (aka @Sygyzmundovych)