I have a large set of csv files (file_1.csv, file_2.csv), separated by time period, that cant be fit into memory. Each file will be in the format mentioned below.

| instrument | time | code     | val           |
| 10         | t1   | c1_at_t1 | v_of_c1_at_t1 |
| 10         | t1   | c2_at_t1 | v_of_c2_at_t1 |
| 10         | t2   | c1_at_t2 | v_of_c1_at_t2 |
| 10         | t2   | c3_at_t2 | v_of_c3_at_t2 |
| 11         | t1   | c4_at_t1 | v_of_c4_at_t1 |
| 11         | t1   | c5_at_t1 | v_of_c5_at_t1 |
| 12         | t2   | c6_at_t2 | v_of_c6_at_t2 |
| 13         | t3   | c9_at_t3 | v_of_c9_at_t3 |

Each file is about instrument logs that are consistent in their format. There are set of instruments which can emit different codes(code) at a given timestamp(time). The value of that code at a given time for a given instrument is saved in val column

I would like to split each file (ex: file_1.csv) using the instrument column(ex: 10) and then join the files extracted for the instrument (ex: 10) across all files (file_1.csv, file_2.csv)

I am thinking about using dask groupby operation on the instrument column. Is there any alternative or better approach to do it instead of using groupby or better way to extract the files by instrument?

Code that I have written to do the above operation is

import glob
import dask.dataframe as dd
from dask.distributed import Client

client = Client()

def read_files(files):

    files = glob.glob(files)

    for f in files:

        df = dd.read_csv(f, blocksize='256MB')
        unique_inst = df['instrument'].unique()
        gb = df.groupby('instrument')  

        for v in unique_inst:


Once I have the files in f'{v}_{f[:-4]}.parquet' format, I can concat them using pandas extracted from all the files (file_1.csv, file_2.csv)

The final file for instrument 10 should be something like below where the observations at t7, t9 are concatenated from observations for instrument 10 in other files

time | code     | val           |
t1   | c1_at_t1 | v_of_c1_at_t1 |
t1   | c2_at_t1 | v_of_c2_at_t1 |
t2   | c1_at_t2 | v_of_c1_at_t2 |
t2   | c3_at_t2 | v_of_c3_at_t2 |
t7   | c4_at_t7 | v_of_c4_at_t7 |
t9   | c5_at_t9 | v_of_c5_at_t9 |
  • It's not clear to me if a single file likefile1.csv fitting in memory? – rpanai Nov 21 '19 at 12:10
  • None of the csv files can be fit into memory as the size of each file is more 100 GB – codecodercoding Nov 21 '19 at 14:59
  • Wow this changes things a bit. Questions: 1. what are the datatypes? 2. for one file only where df is a dask.dataframe is df.groupby(""instrument")["val"].sum().compute() giving you a memory error? – rpanai Nov 21 '19 at 15:11
  • Sorry if my first statement in the question caused any confusion as I mentioned that large csv files cant be fit into memory. All the column values are stored as strings in the csvs. I can do df.groupby(""instrument")["val"].sum().compute(), but each column is a string, sum will concatenate the column values – codecodercoding Nov 21 '19 at 15:40
  • Is it normal that value is a str or you eventually need to transform to float? What about time and instrument? Converting type will help you to save lot of memory. – rpanai Nov 21 '19 at 16:14

I'm not exactly sure what you need to achieve but I don't think you need any group by for your problem. It seems to me a simple filtering issue.

You can just loop over all your files and create new instrument files and append on those.

Also I don't have example files to experiment but I think you can also just use pandas with chunksize to read large csv files.


import pandas as pd
import glob
import os

# maybe play around to get better performance 
chunksize = 1000000

files = glob.glob('./file_*.csv')
for f in files:

     for chunk in pd.read_csv(f, chunksize=chunksize):
         u_inst = chunk['instrument'].unique()

         for inst in u_inst:
             # filter instrument data
            inst_df = chunk[chunk.instrument == inst]
            # filter columns
            inst_df = inst_df[['time', 'code', 'val']]
            # append to instrument file
            # only write header if not exist yet
            inst_file = f'./instrument_{inst}.csv'
            file_exist = os.path.isfile(inst_file)
            inst_df.to_csv(inst_file, mode='a', header=not file_exist)
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  • Thanks. One caveat of this approach is that we are looping through each chunk however number of u_inst are available. What is your opinion on reading each line and appending it to the correct inst_file ? or using the same approach mentioned above with chunksize of 1 – codecodercoding Dec 2 '19 at 18:14
  • The bottleneck in such operations is usually IO. A bigger chunk size allows to read more at once to your memory. The filtering itself on the chunk is a lookup and is super fast. Therefore I would recommend to use a large chunk size. Maybe even larger what I proposed. I would be surprised if chunksize 1 would result in good results. – mjspier Dec 3 '19 at 8:29
  • I tried the same approach with chunksize =1. The process is very slow compared to reading in chunks and then filtering by inst – codecodercoding Dec 4 '19 at 18:22

In case every single file fits in memory you can try this:

import dask.dataframe as dd
import pandas as pd
import numpy as np
import os

Generate dummy files

fldr_in = "test_in"
fldr_out = "test_out"

N = int(1e6)
for i in range(10):
    fn = f"{fldr_in}/file{i}.csv"
    os.makedirs(os.path.dirname(fn), exist_ok=True)
    df = pd.DataFrame({"instrument":np.random.randint(10,100,N),
    df.to_csv(fn, index=False)

Define function

The following function save to parquet for every single instrument in the path fldr_out/instrument=i/fileN.csv

def fun(x, fn, fldr_out):
    inst = x.instrument.unique()[0]
    filename = os.path.basename(fn)
    fn_out = f"{fldr_out}/instrument={inst}/{filename}"
    fn_out = fn_out.replace(".csv", ".parquet")
    os.makedirs(os.path.dirname(fn_out), exist_ok=True)
    x.drop("instrument", axis=1)\
     .to_parquet(fn_out, index=False)

and you can use it with a group by

for f in files:
    fn = f"{fldr_in}/{f}"
    df = pd.read_csv(fn)
    df.groupby("instrument").apply(lambda x: fun(x, fn, fldr_out))

Performing Analysis with dask

Now you can use dask to read the results and perform your analysis

df = dd.read_parquet(fldr_out)
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