I have the following program that has been running for about two hours and has maybe 1/4 more to go. My questions are below the code:
import csv input_csv = "LOCATION_ID.csv" input2 = "CITIES.csv" output_csv = "OUTPUT_CITIES.csv" with open(input_csv, "rb") as infile: input_fields = ("ID", "CITY_DECODED", "CITY", "STATE", "COUNTRY", "SPELL1", "SPELL2", "SPELL3") reader = csv.DictReader(infile, fieldnames = input_fields) with open(input2, "rb") as infile2: input_fields2 = ("Latitude", "Longitude", "City") reader2 = csv.DictReader(infile2, fieldnames = input_fields2) next(reader2) words =  for next_row in reader2: words.append(next_row["City"]) with open(output_csv, "wb") as outfile: output_fields = ("EXISTS","ID", "CITY_DECODED", "CITY", "STATE", "COUNTRY", "SPELL1", "SPELL2", "SPELL3") writer = csv.DictWriter(outfile, fieldnames = output_fields) writer.writerow(dict((h,h) for h in output_fields)) next(reader) for next_row in reader: search_term = next_row["CITY_DECODED"] #I think the problem is here where I run through every city #in "words", even though all I want to know is if the city #in "search_term" exists in "words for item in words: if search_term in words: next_row["EXISTS"] = 1 writer.writerow(next_row)
I have a few questions here:
1 Given that input_csv has 14k rows and input2 has only 6k rows, why does this take so long? I understand that the inner-most for loop (beginning "for item in words:") is inefficient (see qtn 3), but I'm hoping for more of an intuitive/image of what is happening behind the scenes so that I (and hopefully other SO-users) can avoid make this same mistake on other of our programs.
2 If I want this code to continue to run, how does this relate to my leaving the computer and it going to sleep/hibernating? Will the program stop at that point, but start up again on its own when the computer is in use again? I'm really wondering how the compiler once running a program interacts with the operating system and what is means for a computer to "go to sleep" as it relates to a python program.
and 3 What is a more efficient implementation of this code? I'm not wrong in thinking it shouldn't take more than a few minutes to do this, right?
Thanks very much!