Below is my code that I'd like some help with. I am having to run it over 1,300,000 rows meaning it takes up to 40 minutes to insert ~300,000 rows.

I figure bulk insert is the route to go to speed it up? Or is it because I'm iterating over the rows via for data in reader: portion?

#Opens the prepped csv file
with open (os.path.join(newpath,outfile), 'r') as f:
    #hooks csv reader to file
    reader = csv.reader(f)
    #pulls out the columns (which match the SQL table)
    columns = next(reader)
    #trims any extra spaces
    columns = [x.strip(' ') for x in columns]
    #starts SQL statement
    query = 'bulk insert into SpikeData123({0}) values ({1})'
    #puts column names in SQL query 'query'
    query = query.format(','.join(columns), ','.join('?' * len(columns)))

    print 'Query is: %s' % query
    #starts curser from cnxn (which works)
    cursor = cnxn.cursor()
    #uploads everything by row
    for data in reader:
        cursor.execute(query, data)

I am dynamically picking my column headers on purpose (as I would like to create the most pythonic code possible).

SpikeData123 is the table name.

  • Once you know your code is working fine, remove the print it should make it faster. – zulqarnain Apr 14 '15 at 22:19

BULK INSERT will almost certainly be much faster than reading the source file row-by-row and doing a regular INSERT for each row. However, both BULK INSERT and BCP have a significant limitation regarding CSV files in that they cannot handle text qualifiers (ref: here). That is, if your CSV file does not have qualified text strings in it ...

1,Gord Thompson,2015-04-15
2,Bob Loblaw,2015-04-07

... then you can BULK INSERT it, but if it contains text qualifiers (because some text values contains commas) ...

1,"Thompson, Gord",2015-04-15
2,"Loblaw, Bob",2015-04-07

... then BULK INSERT cannot handle it. Still, it might be faster overall to pre-process such a CSV file into a pipe-delimited file ...

1|Thompson, Gord|2015-04-15
2|Loblaw, Bob|2015-04-07

... or a tab-delimited file (where represents the tab character) ...

1→Thompson, Gord→2015-04-15
2→Loblaw, Bob→2015-04-07

... and then BULK INSERT that file. For the latter (tab-delimited) file the BULK INSERT code would look something like this:

import pypyodbc
conn_str = "DSN=myDb_SQLEXPRESS;"
cnxn = pypyodbc.connect(conn_str)
crsr = cnxn.cursor()
sql = """
BULK INSERT myDb.dbo.SpikeData123
FROM 'C:\\__tmp\\biTest.txt' WITH (

Note: As mentioned in a comment, executing a BULK INSERT statement is only applicable if the SQL Server instance can directly read the source file. For cases where the source file is on a remote client, see this answer.

  • Thank you Gord! I need some follow up help but I wanted to say thank you! – TangoAlee Apr 16 '15 at 14:30
  • 7
    I know this is an old post, but this solution only works if the file resides on the same server as SQL Server (or on a location where the SQL Server's service user is able to see). So if the file resides on my workstation and the SQL Server is elsewhere thans this solution will not work – Gabor Sep 20 '17 at 9:29
  • 1
    @Gabor - Good point. See this answer for an alternative. – Gord Thompson Nov 1 '17 at 14:33
  • Nice. Do you know if it works the same manner with sqlalchemy as well? (as behind the scene it uses pyodbc, for me the answer would be yes, but you never know...:-) ) – Gabor Nov 1 '17 at 17:14
  • @Gabor - fast_executemany is a very recent addition to pyodbc and it is "off" by default (for compatibility with drivers that don't properly support the internal ODBC mechanisms that it uses) so I doubt that SQLAlchemy takes advantage of it yet. You may want to ask them about it. – Gord Thompson Nov 1 '17 at 17:38

As noted in a comment to another answer, the T-SQL BULK INSERT command will only work if the file to be imported is on the same machine as the SQL Server instance or is in an SMB/CIFS network location that the SQL Server instance can read. Thus it may not be applicable in the case where the source file is on a remote client.

pyodbc 4.0.19 added a Cursor#fast_executemany feature which may be helpful in that case. fast_executemany is "off" by default, and the following test code ...

cnxn = pyodbc.connect(conn_str, autocommit=True)
crsr = cnxn.cursor()
crsr.execute("TRUNCATE TABLE fast_executemany_test")

sql = "INSERT INTO fast_executemany_test (txtcol) VALUES (?)"
params = [(f'txt{i:06d}',) for i in range(1000)]
t0 = time.time()
crsr.executemany(sql, params)
print(f'{time.time() - t0:.1f} seconds')

... took approximately 22 seconds to execute on my test machine. Simply adding crsr.fast_executemany = True ...

cnxn = pyodbc.connect(conn_str, autocommit=True)
crsr = cnxn.cursor()
crsr.execute("TRUNCATE TABLE fast_executemany_test")

crsr.fast_executemany = True  # new in pyodbc 4.0.19

sql = "INSERT INTO fast_executemany_test (txtcol) VALUES (?)"
params = [(f'txt{i:06d}',) for i in range(1000)]
t0 = time.time()
crsr.executemany(sql, params)
print(f'{time.time() - t0:.1f} seconds')

... reduced the execution time to just over 1 second.

  • 2
    How would you insert from a DataFrame using this method? I tried df.values.tolist() as the VALUES section of the SQL query, but that didn't work. Also, where would the .txt. or .csv file actually go in your answer? – Cameron Taylor Dec 13 '17 at 22:52
  • @CameronTaylor (1) re: DataFrame - You may need to convert the values from numpy objects to native Python types as illustrated in this answer. (2) re: CSV file location - It would need to be someplace that your Python application can read. From there you would pull the information into memory, create a list of tuples, and then call .executemany. – Gord Thompson Dec 14 '17 at 14:51
  • for fast_executemany +1 – ilyas Jan 19 '18 at 17:02
  • 2
    @CameronTaylor - See this answer for details on using fast_executemany with pandas (via SQLAlchemy). – Gord Thompson Feb 16 '18 at 13:55
  • thank you, Gord - extremely helpful – Cameron Taylor Feb 16 '18 at 16:23

yes bulk insert is right path for loading large files into a DB. At a glance I would say that the reason it takes so long is as you mentioned you are looping over each row of data from the file which effectively means are removing the benefits of using a bulk insert and making it like a normal insert. Just remember that as it's name implies that it is used to insert chucks of data. I would remove loop and try again.

Also I'd double check your syntax for bulk insert as it doesn't look correct to me. check the sql that is generated by pyodbc as I have a feeling that it might only be executing a normal insert

Alternatively if it is still slow I would try using bulk insert directly from sql and either load the whole file into a temp table with bulk insert then insert the relevant column into the right tables. or use a mix of bulk insert and bcp to get the specific columns inserted or OPENROWSET.

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