initial implementation

2021-07-18 22:07:37 -07:00
8 changed files with 114 additions and 302 deletions
--- a/combinators.nim
+++ b/combinators.nim
@ -1,5 +1,5 @@
 import algorithm, random, sugar
-import faststack, fixedseq, game
+import fixedseq, game
 proc nextPermutation(x: var FixedSeq): bool =
--- a/config.nims
+++ b/config.nims
@ -1,5 +1,5 @@
-# --threads: on
+--threads: on
-# --d: release
+--d: release
-# --opt: speed
+--opt: speed
-# --passC: -flto
+--passC: -flto
-# --passL: -flto
+--passL: -flto
--- a/fastrand.nim
+++ b/fastrand.nim
@ -0,0 +1,52 @@
 import random, math
 import times, std/monotimes, strformat, strutils
 proc formatNum(n: SomeNumber): string =
  let s = $(n.round)
  let t = s[0 .. s.len - 3]
  var count = 1
  for i in countdown(t.high, 0):
    result.insert($t[i], 0)
    if count mod 3 == 0 and i != 0:
      result.insert(",", 0)
    count += 1
 proc formatRate(n: Natural, d: Duration): string =
  result = formatNum(1_000_000'f64 * n.float64 / d.inMicroseconds.float64)
 proc fastRand(r: var Rand, x: Natural): uint64 =
  # return ((r.next shr 32) * x.uint64) shr 32
  let x = x.uint64
  if x <= (uint64.high shl 32):
    return ((r.next shr 32) * x.uint64) shr 32
  else:
    return r.next mod x.uint64
 proc testFastRand(num = 1_000_000_000): Duration =
  var r = initRand(rand(int64))
  let start = getMonoTime()
  for i in 1 .. num:
    discard r.fastRand(5)
  result = getMonoTime() - start
  # echo "fastrand execution rate: ",  1000 * num / dur.inMilliseconds.int, " generated per second."
 proc testStdRand(num = 1_000_000_000): Duration =
  var r = initRand(rand(int64))
  let start = getMonoTime()
  for i in 1 .. num:
    discard r.rand(4)
  result = getMonoTime() - start
  # echo "std rand execution rate: ", 1000 * num / dur.inMilliseconds.int, " generated per second."
 randomize()
 let runs = 100_000_000
 let fr = testFastRand(runs)
 echo "fastrand execution rate: ", formatNum(1_000_000 * runs / fr.inMicroseconds.int)
 let sr = testStdRand(runs)
 echo "standard execution rate: ", formatNum(1_000_000 * runs / sr.inMicroseconds.int)
--- a/faststack.nim
+++ b/faststack.nim
@ -1,204 +0,0 @@
 import bitops, strutils, random
 proc show(i: SomeInteger, bitlength = 16) =
  echo BiggestInt(i).toBin(bitlength)
 type
  Color* = enum
    cRed, cGreen, cBlue, cYellow, cPurple
  ColorStack* = object
    data: uint16
    len*: uint8
 const
  masks = [
    0'u16, # dummy value just to get the indices right
    0b0_000_000_000_000_111,
    0b0_000_000_000_111_111,
    0b0_000_000_111_111_111,
    0b0_000_111_111_111_111,
    0b0_111_111_111_111_111,
  ]
  allColors* = ColorStack(len: 5, data: 0b0_000_001_010_011_100)
 template offset(s: ColorStack, idx: Natural): uint8 =
  # Compute the bit offset for a given index. 
  # Dependent on the stack's length.
  (s.len - 1 - idx.uint8) * 3
  # items are stored from left to right but right-aligned, so we
  # need to shift right to access anything other than the last
 template offset(s: ColorStack, idx: BackwardsIndex): uint8 =
  # for backwards index, we are still shifting right but
  # the lower the index the less we have to shift
  (idx.uint8 - 1) * 3
 proc add*(s: var ColorStack, c: Color) =
  # e.g. if stack is 0b0000000000000100:
  # and color is 0b00000011
  # shift: 0b0000000000100000
  # bitor: 0b0000000000100000 and 0b00000011
  # results in 0b0000000000100011
  s.data = (s.data shl 3).bitor(cast[uint8](c))
  inc s.len
 proc high*(s: ColorStack): uint8 = s.len - 1
 proc low*(s: ColorStack): uint8 = 0 # just... always 0, I guess
 proc `[]`*(s: ColorStack, i: uint8 | BackwardsIndex): Color =
  # shift, then mask everything but the three rightmost bits
  result = Color(
    (s.data shr s.offset(i)) and masks[1]
  )
 proc `[]=`*(s: var ColorStack, i: uint8 | BackwardsIndex, c: Color) =
  let offset = s.offset(i)
  s.data = (s.data and bitnot(masks[1] shl offset)) or (c.uint16 shl offset)
 iterator items*(s: ColorStack): Color =
  # s.len is unsigned so it will wrap around if we do s.len - 1 in that case
  if s.len != 0:
    for i in countdown(s.len - 1, 0'u8):
      yield Color((s.data shr (i * 3)) and masks[1])
 iterator pairs*(s: ColorStack): (uint8, Color) =
  var count = 0'u8
  for color in s:
    yield (count, color)
    inc count
 proc find*(s: ColorStack, needle: Color): int8 =
  for i in 0'u8 .. s.high:
    if s[i] == needle:
      return i.int8
  return -1
 proc moveSubstack*(src, dst: var ColorStack, startIdx: uint8) =
  if startIdx >= src.len:
    raise newException(IndexDefect, "index " & $startIdx & " is out of bounds.")
  # Moves a sub-stack from the top of src to the top of dst
  # shift the dst stack by the length of the substack to make room
  let nToMove = src.len - startIdx
  let shift = nToMove * 3
  dst.data = dst.data shl shift
  # then we mask the source data to present only the items 
  # being moved, and OR that with the shifted dst data
  dst.data = dst.data or (src.data and masks[nToMove])
  dst.len += nToMove
  # then we shift the source to get rid of the moved items
  src.data = src.data shr shift
  src.len -= nToMove
 proc moveSubstackPre*(src, dst: var ColorStack, startIdx: uint8) =
  if startIdx >= src.len:
    raise newException(IndexDefect, "index " & $startIdx & " is out of bounds.")
  # Moves a sub-stack from the top of src to the bottom of dst
  let nToMove = src.len - startIdx
  # shift src to position the substack above its destination,
  # get rid of everything to the left of the substack,
  # and OR that with the existing dst data
  let newLen = dst.len + nToMove
  dst.data = dst.data or ( (src.data shl (dst.len * 3)) and masks[newLen] )
  dst.len = newLen
  # get rid of the substack we just moved
  src.data = src.data shr (nToMove * 3)
  src.len -= nToMove
 proc swap*(s: var ColorStack, i1, i2: uint8) =
  # Swap the values at two indices in the stack
  if i1 == i2: return
  # i1 and i2 are unsigned, so we have to watch out for underflows
  let diff = if i1 > i2:
    (i1 - i2) * 3
  else:
    (i2 - i1) * 3
  # take masks[1] from above (rightmost position) and shift to position of i1.
  # then do the same for i2, and OR them together.
  let mask = (masks[1] shl s.offset(i1)) or (masks[1] shl s.offset(i2))
  # get rid of everything but the two values we're swapping
  let masked = s.data and mask
  # shift by the distance between values in both directions, combine, then mask
  let swapped = ((masked shl diff) or (masked shr diff)) and mask
  # finally, AND with the inverse of mask so that only the values being 
  # swapped are erased, and combine that with the swapped values
  s.data = (s.data and mask.bitnot) or swapped
 proc shuffle*(r: var Rand, s: var ColorStack) =
  # Fisher-Yates shuffle
  for i in countdown(s.high, 1'u8):
    let j = r.rand(i).uint8
    if j != i:
      s.swap(i, j)
 proc reverse*(s: var ColorStack, first, last: uint8) =
  var x = first
  var y = last
  while x < y:
    s.swap(x, y)
    inc x
    dec y
 iterator asInt*(s: ColorStack): int8 =
  for i in 0'u8 .. s.high:
    yield int8(s[i]) # now we do have to convert
 proc `$`*(s: ColorStack): string =
  result = "St@["
  for c in s:
    if result[^1] != '[':
      result.add(", ")
    result.add($c)
  result.add("]")
 proc check(s: ColorStack) =
  # ensure length is accurate
  var d = s.data
  for i in 0'u8 .. 4'u8:
    if (d and masks[1]) > 4:
      raise newException(RangeDefect, "Value out of range.")
    if d > 0 and i >= s.len:
      raise newException(RangeDefect, "Invalid length.")
    else:
      d = d shr 3
 when isMainModule:
  var one: ColorStack
  one.add(cRed)
  one.add(cGreen)
  one.add(cBlue)
  one.add(cYellow)
  one.add(cPurple)
  var two: ColorStack
  one.moveSubstack(two, 2)
  echo one, " ", one.len
  echo two, " ", two.len
  echo two.find(cRed)
--- a/game.nim
+++ b/game.nim
@ -1,26 +1,25 @@
 import hashes, options
-import fixedseq, faststack
+import fixedseq
 export faststack.Color, faststack.ColorStack, faststack.allColors
-# type
+type
-#   Color* = enum
+  Color* = enum
-#     cRed, cGreen, cBlue, cYellow, cPurple
+    cRed, cGreen, cBlue, cYellow, cPurple
-#   ColorStack* = FixedSeq[5, Color, int8]
+  ColorStack* = FixedSeq[5, Color, int8]
-# proc initColorStack*: ColorStack =
+proc initColorStack*: ColorStack =
-#   result.initFixedSeq
+  result.initFixedSeq
-# proc getAllColors: ColorStack = 
+proc getAllColors: ColorStack = 
-#   var i = 0'u8
+  var i = 0
-#   for c in Color.low .. Color.high:
+  for c in Color.low .. Color.high:
-#     result[i] = c
+    result[i] = c
 const 
  allColors* = getAllColors()
  colorNames: array[Color, string] =
    ["Red", "Green", "Blue", "Yellow", "Purple"]
  colorAbbrevs: array[Color, char] = ['R', 'G', 'B', 'Y', 'P']
@ -83,8 +82,8 @@ proc hash*(b: Board): Hash =
 proc init*(b: var Board) =
-  # for sq in b.squares.mitems:
+  for sq in b.squares.mitems:
-  #   sq.camels.initFixedSeq
+    sq.camels.initFixedSeq
  b.initialized = true
@ -113,7 +112,7 @@ proc setState*(b: var Board;
  b.leader = some(leadCamel)
-proc diceRemaining*(b: Board): FixedSeq[5, Color, int8] =
+proc diceRemaining*(b: Board): ColorStack =
  result.initFixedSeq
  for color, isRolled in b.diceRolled:
    if not isRolled: result.add(color)
@ -141,11 +140,11 @@ proc advance*(b: var Board, die: Die) =
    endPos += int(t)
    if t == tBackward: prepend = true
-  let stackStart = b[startPos].camels.find(color).uint8
+  let stackStart = b[startPos].camels.find(color)
  if prepend:
    b[startPos].camels.moveSubstackPre(b[endPos].camels, stackStart)
    let stackLen = b[startPos].camels.len - stackStart
-    for i in 0'u8 ..< stackLen:
+    for i in 0 ..< stackLen:
      # we know how many camels we added to the bottom, so set the position for each of those
      b.camels[b[endPos].camels[i]] = endPos
  else:
--- a/simulation.nim
+++ b/simulation.nim
@ -1,5 +1,5 @@
 import cpuinfo, math, options, random, tables
-import combinators, game, faststack, fixedseq
+import combinators, game, fixedseq
 type
@ -38,7 +38,7 @@ proc percents*(scores: ScoreSet): WinPercents =
 # ======================
 iterator legEndStates(b: Board): Board =
-  var diceRemaining: FixedSeq[5, Color, int8]
+  var diceRemaining: ColorStack
  diceRemaining.initFixedSeq
  for i, c in b.diceRolled:
    if not c: diceRemaining.add(i)
@ -59,39 +59,6 @@ proc getLegScores*(b: Board): ScoreSet =
 # Full-game simulations
 # =====================
 # get rid of this later
 import strutils
 proc showSpaces*(b: Board; start, stop: Natural): string =
  let numSpaces = stop - start + 1
  let width = 4 * numSpaces - 1
  var lines: array[7, string]
  # start by building up an empty board
  for i in 0 .. 6: # gotta initialize the strings
    lines[i] = newString(width)
    for c in lines[i].mitems:
      c = ' '
  # fill in the dividers
  lines[5] = repeat("=== ", numSpaces - 1)
  lines[5].add("===")
  # now populate the board
  for sp in 0 ..< numSpaces:
    # fill in the square numbers
    let squareNum = sp + start
    let cellMid = 4 * sp + 1
    for i, chr in $squareNum:
      lines[6][cellMid + i] = chr
    # fill in the camel stacks
    for i, color in b.squares[squareNum].camels:
      let lineNum = 4 - i # lines go to 6, but bottom 2 are reserved
      let repr = '|' & color.abbrev & '|'
      for j, chr in repr:
        lines[lineNum][cellMid - 1 + j] = chr
  result = lines.join("\n")
 # get rid of this later
 proc randomGame*(b: Board, r: var Rand): Color =
  var projection = b
  while true:
--- a/test.nim
+++ b/test.nim
@ -1,32 +1,7 @@
-import math, random, strformat, times, std/monotimes
+import math, random, strformat, times
 import fixedseq, game, simulation, ui
 type
  TestResults = object
    ops: int
    time: Duration
 proc summarize(tr: TestResults) =
  let secs = tr.time.inMilliseconds.float / 1000
  stdout.write("Test completed:\n")
  stdout.write("  " & $tr.ops, " operations in " & $round(secs, 2) & " seconds\n")
  stdout.write("  " & $round(tr.ops.float / secs, 2) & " operations per second")
  stdout.flushFile()
 template executionTime(body: untyped): Duration =
  let start = getMonoTime()
  body
  getMonoTime() - start
 proc getRand(): Rand =
  randomize()
  result = initRand(rand(int64))
 proc randomDice(r: var Rand): seq[tuple[c: Color, p: int]] = 
  for c in Color:
    let v = r.rand(1..3)
@ -43,15 +18,18 @@ proc newRandomGame(r: var Rand): Board =
  result.setState(dice, [])
-proc games(nTests, nSamples: SomeInteger, parallel = true): TestResults =
+proc testGames(n: SomeInteger = 100): auto =
-  var r = getRand()
+  var r = initRand(rand(int64))
-  var scores: ScoreSet
+  let dice = randomDice(r)
-  for i in 1 .. nTests:
+  var b: Board
-    let b = newRandomGame(r)
+  b.init
-    let dur = executionTime:
+  b.setState(dice, [])
-        let s = b.randomGames(nSamples, parallel = parallel)
+  b.display(1, 5)
-    result.ops += s.sum()
+
-    result.time += dur
+  let startTime = cpuTime()
  let scores = b.randomGames(n)
  result = cpuTime() - startTime
  scores.display()
 proc testLegs(n: Natural = 100): auto =
@ -94,4 +72,24 @@ proc testSpread(nTests, nSamples: Natural) =
 when isMainModule:
-  games(10, 10_000_000).summarize()
+  randomize()
  var r = initRand(rand(int64))
  let b = newRandomGame(r)
  b.display(1, 5)
  echo b.showSpaces(1, 16)
  let scores = b.getLegScores
  echo scores.showPercents
  # let start_states = 2_000
  # let executionTime = testLegs(start_states)
  # echo "Execution time: ", executionTime
  # echo "Leg simulations per second: ", float(start_states * 29_160) / executionTime
  # for i in 1 .. 1:
  #   let num_games = 100_000_005
  #   let executionTime = testGames(num_games)
  #   echo "Execution time: ", executionTime
  #   echo "Full-game simulations per second: ", float(num_games) / executionTime
  #   echo ""
  # testSpread(100, 1_000_000)
--- a/ui.nim
+++ b/ui.nim
@ -1,5 +1,5 @@
 import os, math, strutils, strformat
-import faststack, fixedseq, game, simulation
+import fixedseq, game, simulation
 const help =