162 lines
5.7 KiB
Rust
162 lines
5.7 KiB
Rust
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extern crate rand;
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extern crate timely;
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extern crate differential_dataflow;
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use rand::{Rng, SeedableRng, StdRng};
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use timely::dataflow::operators::*;
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use differential_dataflow::AsCollection;
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use differential_dataflow::operators::*;
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use differential_dataflow::input::InputSession;
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// mod loglikelihoodratio;
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fn main() {
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// define a new timely dataflow computation.
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timely::execute_from_args(std::env::args().skip(6), move |worker| {
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// capture parameters of the experiment.
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let users: usize = std::env::args().nth(1).unwrap().parse().unwrap();
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let items: usize = std::env::args().nth(2).unwrap().parse().unwrap();
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let scale: usize = std::env::args().nth(3).unwrap().parse().unwrap();
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let batch: usize = std::env::args().nth(4).unwrap().parse().unwrap();
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let noisy: bool = std::env::args().nth(5).unwrap() == "noisy";
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let index = worker.index();
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let peers = worker.peers();
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let (input, probe) = worker.dataflow(|scope| {
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// input of (user, item) collection.
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let (input, occurrences) = scope.new_input();
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let occurrences = occurrences.as_collection();
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//TODO adjust code to only work with upper triangular half of cooccurrence matrix
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/* Compute the cooccurrence matrix C = A'A from the binary interaction matrix A. */
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let cooccurrences =
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occurrences
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.join_map(&occurrences, |_user, &item_a, &item_b| (item_a, item_b))
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.filter(|&(item_a, item_b)| item_a != item_b)
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.count();
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/* compute the rowsums of C indicating how often we encounter individual items. */
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let row_sums =
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occurrences
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.map(|(_user, item)| item)
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.count();
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// row_sums.inspect(|record| println!("[row_sums] {:?}", record));
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/* Join the cooccurrence pairs with the corresponding row sums. */
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let mut cooccurrences_with_row_sums = cooccurrences
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.map(|((item_a, item_b), num_cooccurrences)| (item_a, (item_b, num_cooccurrences)))
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.join_map(&row_sums, |&item_a, &(item_b, num_cooccurrences), &row_sum_a| {
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assert!(row_sum_a > 0);
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(item_b, (item_a, num_cooccurrences, row_sum_a))
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})
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.join_map(&row_sums, |&item_b, &(item_a, num_cooccurrences, row_sum_a), &row_sum_b| {
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assert!(row_sum_a > 0);
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assert!(row_sum_b > 0);
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(item_a, (item_b, num_cooccurrences, row_sum_a, row_sum_b))
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});
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// cooccurrences_with_row_sums
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// .inspect(|record| println!("[cooccurrences_with_row_sums] {:?}", record));
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// //TODO compute top-k "similar items" per item
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// /* Compute LLR scores for each item pair. */
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// let llr_scores = cooccurrences_with_row_sums.map(
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// |(item_a, (item_b, num_cooccurrences, row_sum_a, row_sum_b))| {
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// println!(
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// "[llr_scores] item_a={} item_b={}, num_cooccurrences={} row_sum_a={} row_sum_b={}",
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// item_a, item_b, num_cooccurrences, row_sum_a, row_sum_b);
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// let k11: isize = num_cooccurrences;
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// let k12: isize = row_sum_a as isize - k11;
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// let k21: isize = row_sum_b as isize - k11;
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// let k22: isize = 10000 - k12 - k21 + k11;
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// let llr_score = loglikelihoodratio::log_likelihood_ratio(k11, k12, k21, k22);
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// ((item_a, item_b), llr_score)
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// });
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if noisy {
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cooccurrences_with_row_sums =
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cooccurrences_with_row_sums
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.inspect(|x| println!("change: {:?}", x));
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}
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let probe =
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cooccurrences_with_row_sums
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.probe();
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/*
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// produce the (item, item) collection
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let cooccurrences = occurrences
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.join_map(&occurrences, |_user, &item_a, &item_b| (item_a, item_b));
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// count the occurrences of each item.
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let counts = cooccurrences
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.map(|(item_a,_)| item_a)
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.count();
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// produce ((item1, item2), count1, count2, count12) tuples
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let cooccurrences_with_counts = cooccurrences
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.join_map(&counts, |&item_a, &item_b, &count_item_a| (item_b, (item_a, count_item_a)))
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.join_map(&counts, |&item_b, &(item_a, count_item_a), &count_item_b| {
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((item_a, item_b), count_item_a, count_item_b)
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});
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let probe = cooccurrences_with_counts
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.inspect(|x| println!("change: {:?}", x))
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.probe();
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*/
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(input, probe)
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});
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let seed: &[_] = &[1, 2, 3, index];
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let mut rng1: StdRng = SeedableRng::from_seed(seed); // rng for edge additions
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let mut rng2: StdRng = SeedableRng::from_seed(seed); // rng for edge deletions
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let mut input = InputSession::from(input);
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for count in 0 .. scale {
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if count % peers == index {
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let user = rng1.gen_range(0, users);
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let item = rng1.gen_range(0, items);
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// println!("[INITIAL INPUT] ({}, {})", user, item);
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input.insert((user, item));
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}
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}
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// load the initial data up!
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while probe.less_than(input.time()) { worker.step(); }
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for round in 1 .. {
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for element in (round * batch) .. ((round + 1) * batch) {
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if element % peers == index {
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// advance the input timestamp.
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input.advance_to(round * batch);
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// insert a new item.
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let user = rng1.gen_range(0, users);
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let item = rng1.gen_range(0, items);
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if noisy { println!("[INPUT: insert] ({}, {})", user, item); }
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input.insert((user, item));
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// remove an old item.
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let user = rng2.gen_range(0, users);
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let item = rng2.gen_range(0, items);
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if noisy { println!("[INPUT: remove] ({}, {})", user, item); }
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input.remove((user, item));
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}
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}
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input.advance_to(round * batch);
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input.flush();
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while probe.less_than(input.time()) { worker.step(); }
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}
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}).unwrap();
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}
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