The txtq package helps parallel R processes send messages to each other. Let’s say Process A and Process B are working on a parallel task together. First, both processes grab the queue.
path <- tempfile() # Define a path to your queue.
path # In real life, temp files go away when the session exits, so be careful.
#> [1] "/tmp/RtmpUI7iip/file207d77e0594b"
q <- txtq(path) # Create a new queue or recover an existing one.
q$validate() # Check if the queue is corrupted.The queue uses text files to keep track of your data.
list.files(q$path()) # The queue's underlying text files live in this folder.
#> [1] "db" "head" "lock" "total"
q$list() # You have not pushed any messages yet.
#> [1] title message time
#> <0 rows> (or 0-length row.names)Then, Process A sends instructions to Process B.
q$push(title = "Hello", message = "process B.")
q$push(
title = c("Calculate", "Calculate"),
message = c("sqrt(4)", "sqrt(16)")
)
q$push(title = "Send back", message = "the sum.")You can inspect the contents of the queue from either process.
q$list()
#> title message time
#> 1 Hello process B. 2020-06-22 20:37:33.556957 -0400 GMT
#> 2 Calculate sqrt(4) 2020-06-22 20:37:33.558541 -0400 GMT
#> 3 Calculate sqrt(16) 2020-06-22 20:37:33.558541 -0400 GMT
#> 4 Send back the sum. 2020-06-22 20:37:33.559714 -0400 GMT
q$list(1) # You can specify the number of messages to list.
#> title message time
#> 1 Hello process B. 2020-06-22 20:37:33.556957 -0400 GMT
q$count()
#> [1] 4As Process A is pushing the messages, Process B can consume them.
q$pop(2) # If you pass 2, you are assuming the queue has >=2 messages.
#> title message time
#> 1 Hello process B. 2020-06-22 20:37:33.556957 -0400 GMT
#> 2 Calculate sqrt(4) 2020-06-22 20:37:33.558541 -0400 GMTThose popped messages are not technically in the queue any longer.
q$list()
#> title message time
#> 1 Calculate sqrt(16) 2020-06-22 20:37:33.558541 -0400 GMT
#> 2 Send back the sum. 2020-06-22 20:37:33.559714 -0400 GMT
q$count() # Number of messages technically in the queue.
#> [1] 2But we still have a full log of all the messages that were ever sent.
q$log()
#> title message time
#> 1 Hello process B. 2020-06-22 20:37:33.556957 -0400 GMT
#> 2 Calculate sqrt(4) 2020-06-22 20:37:33.558541 -0400 GMT
#> 3 Calculate sqrt(16) 2020-06-22 20:37:33.558541 -0400 GMT
#> 4 Send back the sum. 2020-06-22 20:37:33.559714 -0400 GMT
q$total() # Number of messages that were ever queued.
#> [1] 4Let’s let Process B get the rest of the instructions.
q$pop() # q$pop() with no arguments just pops one message.
#> title message time
#> 1 Calculate sqrt(16) 2020-06-22 20:37:33.558541 -0400 GMT
q$pop() # Call q$pop(-1) to pop all the messages at once.
#> title message time
#> 1 Send back the sum. 2020-06-22 20:37:33.559714 -0400 GMTNow let’s say Process B follows the instructions in the messages. The last step is to send the results back to Process A.
Process A can now see the results.
The queue can grow large if you are not careful. Popped messages are kept in the database file.
q$push(title = "not", message = "popped")
q$count()
#> [1] 1
q$total()
#> [1] 6
q$list()
#> title message time
#> 1 not popped 2020-06-22 20:37:33.635787 -0400 GMT
q$log()
#> title message time
#> 1 Hello process B. 2020-06-22 20:37:33.556957 -0400 GMT
#> 2 Calculate sqrt(4) 2020-06-22 20:37:33.558541 -0400 GMT
#> 3 Calculate sqrt(16) 2020-06-22 20:37:33.558541 -0400 GMT
#> 4 Send back the sum. 2020-06-22 20:37:33.559714 -0400 GMT
#> 5 Results 6 2020-06-22 20:37:33.618624 -0400 GMT
#> 6 not popped 2020-06-22 20:37:33.635787 -0400 GMTTo keep the database file from getting too big, you can clean out the popped messages.
q$clean()
q$count()
#> [1] 1
q$total()
#> [1] 1
q$list()
#> title message time
#> 1 not popped 2020-06-22 20:37:33.652802 -0400 GMT
q$log()
#> title message time
#> 1 not popped 2020-06-22 20:37:33.652802 -0400 GMTYou can also reset the queue to remove all messages, popped or not.
q$reset()
q$count()
#> [1] 0
q$total()
#> [1] 0
q$list()
#> [1] title message time
#> <0 rows> (or 0-length row.names)
q$log()
#> [1] title message time
#> <0 rows> (or 0-length row.names)When you are done, you can destroy the files in the queue.
This entire time, the queue was locked when either process was trying to create, access, or modify it. That way, the results stay correct even when multiple processes try to read or change the data at the same time.
You can import a txtq into another txtq. The unpopped messages are grouped together and sorted by timestamp. Same goes for the popped messages.
q_from <- txtq(tempfile())
q_to <- txtq(tempfile())
q_from$push(title = "from", message = "popped")
q_from$push(title = "from", message = "unpopped")
q_to$push(title = "to", message = "popped")
q_to$push(title = "to", message = "unpopped")
q_from$pop()
#> title message time
#> 1 from popped 2020-06-22 20:37:33.705359 -0400 GMT
q_to$pop()
#> title message time
#> 1 to popped 2020-06-22 20:37:33.708038 -0400 GMT
q_to$import(q_from)
q_to$list()
#> title message time
#> 1 from unpopped 2020-06-22 20:37:33.719725 -0400 GMT
#> 2 to unpopped 2020-06-22 20:37:33.719725 -0400 GMT
q_to$log()
#> title message time
#> 1 from popped 2020-06-22 20:37:33.719725 -0400 GMT
#> 2 to popped 2020-06-22 20:37:33.719725 -0400 GMT
#> 3 from unpopped 2020-06-22 20:37:33.719725 -0400 GMT
#> 4 to unpopped 2020-06-22 20:37:33.719725 -0400 GMTGábor Csárdi’s liteq package offers essentially the same functionality implemented with SQLite. It has a some additional features, such as the ability to detect crashed workers and re-queue failed messages, but it was in an early stage of development at the time txtq was released.
There is a plethora of message queues beyond R, most notably ZeroMQ and RabbitMQ. In fact, Jeroen Ooms and Whit Armstrong maintain rzmq, a package to work with ZeroMQ from R. Even in this landscape, txtq has advantages.
txtq user interface is friendly, and its internals are simple. No prior knowledge of sockets or message-passing is required.txtq is lightweight, R-focused, and easy to install. It only depends on R and a few packages on CRAN.txtq it is file-based,
q$log() and q$list().q$list() while your work is running.