1 files changed, 126 insertions, 24 deletions

diff --git a/lib/pure/collections/queues.nim b/lib/pure/collections/queues.nim
index b9bf33bff..d0fc8f1ca 100644
--- a/lib/pure/collections/queues.nim
+++ b/lib/pure/collections/queues.nim
@@ -11,6 +11,22 @@
 ## Note: For inter thread communication use
 ## a `Channel <channels.html>`_ instead.
 
+proc englishOrdinal(n: SomeInteger): string =
+  # Temporary proc. Needs to be moved somewhere else as it can be reused in
+  # other places too.
+  # If this accepted number strings instead and only gave out the letters it
+  # would be more flexible, permitting things like 1.100.000th, 34,545,321st
+  # but it would be harder and more error prone to use.
+  let num = $n
+  if num.len > 1 and num[^2] == '1':
+    return num & "th"
+  else:
+    case num[^1]
+    of '1': return num & "st"
+    of '2': return num & "nd"
+    of '3': return num & "rd"
+    else: return num & "th"
+
 import math
 
 type
@@ -20,44 +36,103 @@ type
 
 {.deprecated: [TQueue: Queue].}
 
-proc initQueue*[T](initialSize=4): Queue[T] =
+proc initQueue*[T](initialSize: int = 4): Queue[T] =
   ## creates a new queue. `initialSize` needs to be a power of 2.
   assert isPowerOfTwo(initialSize)
   result.mask = initialSize-1
   newSeq(result.data, initialSize)
 
-proc len*[T](q: Queue[T]): int =
+proc len*[T](q: Queue[T]): int {.inline.}=
   ## returns the number of elements of `q`.
   result = q.count
 
+proc low*[T](q: Queue[T]): int {.inline.}=
+  ## returns the index of the oldest element of `q` (always 0).
+  result = 0
+
+proc high*[T](q: Queue[T]): int {.inline.}=
+  ## returns the index of the last element inserted on `q` (equivalent to
+  ## `q.len - 1`).
+  result = q.count - 1
+
+proc front*[T](q: Queue[T]): T {.inline.}=
+  ## returns the oldest element of `q`. Equivalent to `q.pop()` but does not
+  ## remove it from the queue.
+  assert q.count > 0
+  result = q.data[q.rd]
+
+proc back*[T](q: Queue[T]): T {.inline.} =
+  ## returns the newest element of `q` but does not remove it from the queue.
+  assert q.count > 0
+  result = q.data[q.wr - 1]
+
+template xBoundsCheck(q, i) =
+  # Bounds check for the array like acceses.
+  when compileOption("boundChecks"):  # d:release should disable this.
+    if i > q.high:  # x < q.low is taken care by the Natural parameter
+      raise newException(IndexError,
+                         "You tried to access the " & englishOrdinal(i+1) &
+                         " element of the queue but it has only " &
+                         $q.len &  " elements.")
+  discard
+
+proc `[]`*[T](q: Queue[T], i: Natural) : T {.inline.} =
+  ## Acess the i-th element of `q` by order of insertion.
+  ## q[0] is the oldest (the next one q.pop() will extract),
+  ## q[^1] is the newest (last one added to the queue).
+  xBoundsCheck(q, i)
+  return q.data[q.rd + i and q.mask]
+
+proc `[]`*[T](q: var Queue[T], i: Natural): var T {.inline.} =
+  ## Acess the i-th element of `q` and returns a mutable
+  ## reference to it.
+  xBoundsCheck(q, i)
+  return q.data[q.rd + i and q.mask]
+
+proc `[]=`* [T] (q: var Queue[T], i: Natural, val : T) {.inline.} =
+  ## Change the i-th element of `q`.
+  xBoundsCheck(q, i)
+  q.data[q.rd + i and q.mask] = val
+
 iterator items*[T](q: Queue[T]): T =
   ## yields every element of `q`.
   var i = q.rd
-  var c = q.count
-  while c > 0:
-    dec c
+  for c in 0 ..< q.count:
     yield q.data[i]
     i = (i + 1) and q.mask
 
 iterator mitems*[T](q: var Queue[T]): var T =
   ## yields every element of `q`.
   var i = q.rd
-  var c = q.count
-  while c > 0:
-    dec c
+  for c in 0 ..< q.count:
     yield q.data[i]
     i = (i + 1) and q.mask
 
+iterator pairs*[T](q: Queue[T]): tuple[key: int, val: T] =
+  ## yields every (position, value) of `q`.
+  var i = q.rd
+  for c in 0 ..< q.count:
+    yield (c, q.data[i])
+    i = (i + 1) and q.mask
+
+proc contains*[T](q: Queue[T], item: T): bool {.inline.} =
+  ## Returns true if `item` is in `q` or false if not found. Usually used
+  ## via the ``in`` operator. It is the equivalent of ``q.find(item) >= 0``.
+  ##
+  ## .. code-block:: Nim
+  ##   if x in q:
+  ##     assert q.contains x
+  for e in q:
+    if e == item: return true
+  return false
+
 proc add*[T](q: var Queue[T], item: T) =
   ## adds an `item` to the end of the queue `q`.
   var cap = q.mask+1
   if q.count >= cap:
-    var n: seq[T]
-    newSeq(n, cap*2)
-    var i = 0
-    for x in items(q):
-      shallowCopy(n[i], x)
-      inc i
+    var n {.noinit.} = newSeq[T](cap*2)
+    for i, x in q:
+      shallowCopy(n[i], x)  # does not use copyMem because the GC.
     shallowCopy(q.data, n)
     q.mask = cap*2 - 1
     q.wr = q.count
@@ -66,21 +141,25 @@ proc add*[T](q: var Queue[T], item: T) =
   q.data[q.wr] = item
   q.wr = (q.wr + 1) and q.mask
 
-proc enqueue*[T](q: var Queue[T], item: T) =
-  ## alias for the ``add`` operation.
-  add(q, item)
-
-proc dequeue*[T](q: var Queue[T]): T =
-  ## removes and returns the first element of the queue `q`.
+proc pop*[T](q: var Queue[T]): T =
+  ## removes and returns the first (oldest) element of the queue `q`.
   assert q.count > 0
   dec q.count
   result = q.data[q.rd]
   q.rd = (q.rd + 1) and q.mask
 
+proc enqueue*[T](q: var Queue[T], item: T) =
+  ## alias for the ``add`` operation.
+  q.add(item)
+
+proc dequeue*[T](q: var Queue[T]): T =
+  ## alias for the ``pop`` operation.
+  q.pop()
+
 proc `$`*[T](q: Queue[T]): string =
   ## turns a queue into its string representation.
   result = "["
-  for x in items(q):
+  for x in q:
     if result.len > 1: result.add(", ")
     result.add($x)
   result.add("]")
@@ -89,14 +168,37 @@ when isMainModule:
   var q = initQueue[int]()
   q.add(123)
   q.add(9)
-  q.add(4)
-  var first = q.dequeue
+  q.enqueue(4)
+  var first = q.dequeue()
   q.add(56)
   q.add(6)
-  var second = q.dequeue
+  var second = q.pop()
   q.add(789)
 
   assert first == 123
   assert second == 9
   assert($q == "[4, 56, 6, 789]")
 
+  assert q[0] == q.front and q.front == 4
+  assert q[^1] == q.back and q.back == 789
+  q[0] = 42
+  q[^1] = 7
+  assert q[q.low] == 42
+  assert q[q.high] == 7
+
+  assert 6 in q and 789 notin q
+  assert q.find(6) >= 0
+  assert q.find(789) < 0
+
+  for i in -2 .. 10:
+    if i in q:
+      assert q.contains(i) and q.find(i) >= 0
+    else:
+      assert(not q.contains(i) and q.find(i) < 0)
+
+  when compileOption("boundChecks"):
+    try:
+      echo q[99]
+      assert false
+    except IndexError:
+      discard