You can't mutate a DataTable
from 2 different threads; it will error. DataTable
makes no attempt to be thread-safe. So: don't do that. Just do this from one thread. Most likely you are limited by IO, so you should just do it on a single thread as a stream. It looks like you're processing text data. You seem to have a string[]
for lines, perhaps File.ReadAllLines()
? Well, that is very bad here:
- it forces it all to load into memory
- you have to wait for it all to load into memory
- CSV is a multi-line format; it is not guaranteed that 1 line == 1 row
What you should do is use something like the CsvReader from code project, but even if you want to just use one line at a time, use a StreamReader:
using(var file = File.OpenText(path)) {
string line;
while((line = file.ReadLine()) != null) {
// process this line
alResult = CSVParser(line, txtDelimiter, txtQualifier);
for (int i = 0; i < alResult.Count; i++)
{
drRow[i] = alResult[i];
}
dtResult.Rows.Add(drRow);
}
}
This will not be faster using Parallel
, so I have not attempted to do so. IO is your bottleneck here. Locking would be an option, but it isn't going to help you massively.
As an unrelated aside, I notice that alResult
is not declared inside the loop. That means that in your original code alResult
is a captured variable that is shared between all the loop iterations - which means you are already overwriting each row horribly.
Edit: illustration of why Parallel
is not relevant for reading 1,000,000 lines from a file:
Approach 1: use ReadAllLines
to load the lines, then use Parallel
to process them; this costs [fixed time] for the physical file IO, and then we parallelise. The CPU work is minimal, and we've basically spent [fixed time]. However, we've added a lot of threading overhead and memory overhead, and we couldn't even start until all the file was loaded.
Approach 2: use a streaming API; read each one line by line - processing each line and adding it. The cost here is basically again: [fixed time] for the actual IO bandwidth to load the file. But; we now have no threading overhead, no sync conflicts, no huge memory to allocate, and we start filling the table right away.
Approach 3: If you really wanted, a third approach would be a reader/writer queue, with one dedicated thread processing file IO and enqueueing the lines, and a second that does the DataTable
. Frankly, it is a lot more moving parts, and the second thread will spend 95% of its time waiting for data from the file; stick to Approach 2!
Parallel
- it is thelinii[index]
. Loading all the lines at once is a killer for performance.