## Nim-Codex ## Copyright (c) 2023 Status Research & Development GmbH ## Licensed under either of ## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) ## * MIT license ([LICENSE-MIT](LICENSE-MIT)) ## at your option. ## This file may not be copied, modified, or distributed except according to ## those terms. ## import std/enumerate import std/parseutils import std/options import pkg/chronos import ./utils/asyncheapqueue import ./utils/fileutils import ./utils/asynciter export asyncheapqueue, fileutils, asynciter, chronos func divUp*[T: SomeInteger](a, b : T): T = ## Division with result rounded up (rather than truncated as in 'div') assert(b != T(0)) if a==T(0): T(0) else: ((a - T(1)) div b) + T(1) func roundUp*[T](a, b : T): T = ## Round up 'a' to the next value divisible by 'b' divUp(a,b) * b proc orElse*[A](a, b: Option[A]): Option[A] = if (a.isSome()): a else: b template findIt*(s, pred: untyped): untyped = ## Returns the index of the first object matching a predicate, or -1 if no ## object matches it. runnableExamples: type MyType = object att: int var s = @[MyType(att: 1), MyType(att: 2), MyType(att: 3)] doAssert s.findIt(it.att == 2) == 1 doAssert s.findIt(it.att == 4) == -1 var index = -1 for i, it {.inject.} in enumerate(items(s)): if pred: index = i break index proc allFuturesThrowing*[T](args: varargs[Future[T]]): Future[void] = # TODO: Copied from previous libp2p # Comes with warnings: Can this hide errors? var futs: seq[Future[T]] for fut in args: futs &= fut proc call() {.async.} = var first: ref CatchableError = nil futs = await allFinished(futs) for fut in futs: if fut.failed: let err = fut.readError() if err of Defect: raise err else: if err of CancelledError: raise err if isNil(first): first = err if not isNil(first): raise first return call() when not declared(parseDuration): # Odd code formatting to minimize diff v. mainLine const Whitespace = {' ', '\t', '\v', '\r', '\l', '\f'} func toLowerAscii(c: char): char = if c in {'A'..'Z'}: char(uint8(c) xor 0b0010_0000'u8) else: c func parseDuration*(s: string, size: var Duration): int = ## Parse a size qualified by simple time into `Duration`. ## runnableExamples: var res: Duration # caller must still know if 'b' refers to bytes|bits doAssert parseDuration("10H", res) == 3 doAssert res == initDuration(hours=10) doAssert parseDuration("64m", res) == 6 doAssert res == initDuration(minutes=64) doAssert parseDuration("7m/block", res) == 2 # '/' stops parse doAssert res == initDuration(minutes=7) # 1 shl 30, forced binary metric doAssert parseDuration("3d", res) == 2 # '/' stops parse doAssert res == initDuration(days=3) # 1 shl 30, forced binary metric const prefix = "s" & "mhdw" # byte|bit & lowCase metric-ish prefixes const timeScale = [1.0, 60.0, 3600.0, 86_400.0, 604_800.0] var number: float var scale = 1.0 result = parseFloat(s, number) if number < 0: # While parseFloat accepts negatives .. result = 0 #.. we do not since sizes cannot be < 0 else: let start = result # Save spot to maybe unwind white to EOS while result < s.len and s[result] in Whitespace: inc result if result < s.len: # Illegal starting char => unity if (let si = prefix.find(s[result].toLowerAscii); si >= 0): inc result # Now parse the scale scale = timeScale[si] else: # Unwind result advancement when there.. result = start #..is no unit to the end of `s`. var sizeF = number * scale + 0.5 # Saturate to int64.high when too big size = seconds(int(sizeF))