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- #
- #
- # The Nim Compiler
- # (c) Copyright 2012 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # this unit handles Nim sets; it implements symbolic sets
- import
- ast, astalgo, lineinfos, bitsets, types, options
- when defined(nimPreviewSlimSystem):
- import std/assertions
- proc inSet*(s: PNode, elem: PNode): bool =
- assert s.kind == nkCurly
- if s.kind != nkCurly:
- #internalError(s.info, "inSet")
- return false
- for i in 0..<s.len:
- if s[i].kind == nkRange:
- if leValue(s[i][0], elem) and
- leValue(elem, s[i][1]):
- return true
- else:
- if sameValue(s[i], elem):
- return true
- result = false
- proc overlap*(a, b: PNode): bool =
- if a.kind == nkRange:
- if b.kind == nkRange:
- # X..Y and C..D overlap iff (X <= D and C <= Y)
- result = leValue(a[0], b[1]) and
- leValue(b[0], a[1])
- else:
- result = leValue(a[0], b) and leValue(b, a[1])
- else:
- if b.kind == nkRange:
- result = leValue(b[0], a) and leValue(a, b[1])
- else:
- result = sameValue(a, b)
- proc someInSet*(s: PNode, a, b: PNode): bool =
- # checks if some element of a..b is in the set s
- assert s.kind == nkCurly
- if s.kind != nkCurly:
- #internalError(s.info, "SomeInSet")
- return false
- for i in 0..<s.len:
- if s[i].kind == nkRange:
- if leValue(s[i][0], b) and leValue(b, s[i][1]) or
- leValue(s[i][0], a) and leValue(a, s[i][1]):
- return true
- else:
- # a <= elem <= b
- if leValue(a, s[i]) and leValue(s[i], b):
- return true
- result = false
- proc toBitSet*(conf: ConfigRef; s: PNode): TBitSet =
- result = @[]
- var first: Int128 = Zero
- var j: Int128 = Zero
- first = firstOrd(conf, s.typ.elementType)
- bitSetInit(result, int(getSize(conf, s.typ)))
- for i in 0..<s.len:
- if s[i].kind == nkRange:
- j = getOrdValue(s[i][0], first)
- while j <= getOrdValue(s[i][1], first):
- bitSetIncl(result, toInt64(j - first))
- inc(j)
- else:
- bitSetIncl(result, toInt64(getOrdValue(s[i]) - first))
- proc toTreeSet*(conf: ConfigRef; s: TBitSet, settype: PType, info: TLineInfo): PNode =
- var
- a, b, e, first: BiggestInt # a, b are interval borders
- elemType: PType
- n: PNode
- elemType = settype[0]
- first = firstOrd(conf, elemType).toInt64
- result = newNodeI(nkCurly, info)
- result.typ() = settype
- result.info = info
- e = 0
- while e < s.len * ElemSize:
- if bitSetIn(s, e):
- a = e
- b = e
- while true:
- inc(b)
- if (b >= s.len * ElemSize) or not bitSetIn(s, b): break
- dec(b)
- let aa = newIntTypeNode(a + first, elemType)
- aa.info = info
- if a == b:
- result.add aa
- else:
- n = newNodeI(nkRange, info)
- n.typ() = elemType
- n.add aa
- let bb = newIntTypeNode(b + first, elemType)
- bb.info = info
- n.add bb
- result.add n
- e = b
- inc(e)
- template nodeSetOp(a, b: PNode, op: untyped) {.dirty.} =
- var x = toBitSet(conf, a)
- let y = toBitSet(conf, b)
- op(x, y)
- result = toTreeSet(conf, x, a.typ, a.info)
- proc unionSets*(conf: ConfigRef; a, b: PNode): PNode = nodeSetOp(a, b, bitSetUnion)
- proc diffSets*(conf: ConfigRef; a, b: PNode): PNode = nodeSetOp(a, b, bitSetDiff)
- proc intersectSets*(conf: ConfigRef; a, b: PNode): PNode = nodeSetOp(a, b, bitSetIntersect)
- proc symdiffSets*(conf: ConfigRef; a, b: PNode): PNode = nodeSetOp(a, b, bitSetSymDiff)
- proc containsSets*(conf: ConfigRef; a, b: PNode): bool =
- let x = toBitSet(conf, a)
- let y = toBitSet(conf, b)
- result = bitSetContains(x, y)
- proc equalSets*(conf: ConfigRef; a, b: PNode): bool =
- let x = toBitSet(conf, a)
- let y = toBitSet(conf, b)
- result = bitSetEquals(x, y)
- proc complement*(conf: ConfigRef; a: PNode): PNode =
- var x = toBitSet(conf, a)
- for i in 0..high(x): x[i] = not x[i]
- result = toTreeSet(conf, x, a.typ, a.info)
- proc deduplicate*(conf: ConfigRef; a: PNode): PNode =
- let x = toBitSet(conf, a)
- result = toTreeSet(conf, x, a.typ, a.info)
- proc cardSet*(conf: ConfigRef; a: PNode): BiggestInt =
- let x = toBitSet(conf, a)
- result = bitSetCard(x)
- proc setHasRange*(s: PNode): bool =
- assert s.kind == nkCurly
- if s.kind != nkCurly:
- return false
- for i in 0..<s.len:
- if s[i].kind == nkRange:
- return true
- result = false
- proc emptyRange*(a, b: PNode): bool =
- result = not leValue(a, b) # a > b iff not (a <= b)
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