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Malebolgia creates new spawns. Structured concurrency. Thread pools and related APIs.

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malebolgia

"The master told me what I had to do. He speaks to me and I know his name. He calls himself Malebolgia."

Malebolgia creates new spawns.

It is a powerful library in Nim that simplifies the implementation of concurrent and parallel programming. It provides a straightforward approach to expressing parallelism using the spawn construct and ensures synchronization using barriers.

Ideas / Goals

  • Works well on embedded devices.
  • Bounded memory consumption: Solves the "backpressure" problem as a side effect.
  • Only support "structured" concurrency.

Features

  • Detach the notion of "wait for all tasks" from the notion of a "thread pool".
  • Detects simple "read/write" and "write/write" conflicts.
  • Builtin support for cancelation and timeouts.
  • Small: Less than 300 lines of Nim code, no dependencies.
  • Low energy consumption.
  • Fast: Wins some benchmarks (crawler; DFS), shows acceptable performance for others (fib).

Example

This program demonstrates the parallel execution of the depth-first search algorithm using Malebolgia. By utilizing the spawn and awaitAll features, the program can efficiently distribute the workload across multiple threads, enabling faster computation:

import malebolgia

proc dfs(depth, breadth: int): int {.gcsafe.} =
  if depth == 0: return 1

  # The seq where we collect the results of the subtasks:
  var sums = newSeq[int](breadth)

  # Create a Master object for task coordination:
  var m = createMaster()

  # Synchronize all spawned tasks using an AwaitAll block:
  m.awaitAll:
    for i in 0 ..< breadth:
      # Spawn subtasks recursively, store the result in `sums[i]`:
      m.spawn dfs(depth - 1, breadth) -> sums[i]

  result = 0
  for i in 0 ..< breadth:
    result += sums[i] # No `sync(sums[i])` required

let answer = dfs(8, 8)
echo answer

Notice the absence of a FlowVar[T] concept. Malebolgia does not offer FlowVars because they are not required. Instead the barrier within awaitAll synchronizes.

Compile this with nim c -d:ThreadPoolSize=8 -d:FixedChanSize=16 dfs.nim.

Tuning

There are two parameters that influence the efficiency of Malebolgia:

  1. ThreadPoolSize: Usually this should be the number of CPU cores, but for IO bound programs it can be much higher.
  2. FixedChanSize: The fixed size of the communication channel(s). The default value is usually good enough.

Exception handling

If a spawned task raises an exception, the master object notices and rethrows the exception after awaitAll. If multiple tasks raise an exception only the first exception is kept and rethrown.

Cancelation

Cancelation is available by calling cancel on the master object:

import malebolgia

proc foo = echo "foo"
proc bar(s: string) = echo "bar ", s

var m = createMaster()
m.awaitAll:
  m.spawn foo()
  for i in 0..<1000:
    m.spawn bar($i)
    if i == 300:
      # cancel after 300 iterations:
      m.cancel()

Timeouts

createMaster supports an optional timeout parameter. The timeout covers all created tasks that belong to the created master. Long running tasks can query master.cancelled to see if they should stop.

import std / times
import malebolgia

proc bar(s: string) = echo "bar ", s

var m = createMaster(initDuration(milliseconds=500))
m.awaitAll:
  for i in 0..<1000:
    m.spawn bar($i)
  if not m.cancelled:
    # if not cancelled, run even more:
    for i in 1000..<2000:
      m.spawn bar($i)

MasterHandle

A Master object cannot be passed to subroutines, but a MasterHandle can be passed to subroutines. In order to create a MasterHandle use the getHandle proc:

import malebolgia

proc g(m: MasterHandle; i: int) {.gcsafe.} =
  if i < 800:
    echo "BEGIN G"
    m.spawn g(m, i+1)
    echo "END G"

proc main =
  var m = createMaster()
  m.awaitAll:
    m.spawn g(getHandle(m), 0)

main()

A MasterHandle does not support the awaitAll operation but it can spawn new tasks and supports cancelation. Thus a MasterHandle object cannot be used to break the structured concurrency abstraction.

Lockers

The Locker[T] type wraps a data structure of type T with a lock and enables these types to be passed to a spawned operation. The data structure allows shared access and mutation:

import std / [strutils, tables]
import malebolgia
import malebolgia / lockers

proc countWords(filename: string; results: Locker[CountTable[string]]) =
  for w in splitWhitespace(readFile(filename)):
    lock results as r:
      r.inc w

proc main() =
  var m = createMaster()
  var results = initLocker initCountTable[string]()

  m.awaitAll:
    m.spawn countWords("README.md", results)
    m.spawn countWords("malebolgia.nimble", results)

  unprotected results as r:
    r.sort()
    echo r

main()

Mutable parameters and data sharing

Currently var T parameters are unfortunately not supported but it is easy to work around this limitation: Since the parallelism is "structured" we can take the address of a variable declared outside of the awaitAll block and pass it safely to a spawned operation:

import std / [strutils, tables]
import malebolgia
import malebolgia / ticketlocks

proc countWords(filename: string; results: ptr CountTable[string]; L: ptr TicketLock) =
  for w in splitWhitespace(readFile(filename)):
    withLock L[]:
      results[].inc w

proc main =
  var m = createMaster()
  var results = initCountTable[string]()
  var L = initTicketLock() # protects `results`

  m.awaitAll:
    m.spawn countWords("temp.nim", addr results, addr L)
    m.spawn countWords("tester.nim", addr results, addr L)

  results.sort()
  echo results

main()

In general such a parameter needs to be protected by a lock. We use Malebolgia's TicketLock here which does not require annoying deinitLock calls.

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