# # # The Nim Compiler # (c) Copyright 2015 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # import pathutils template setX(k, field) {.dirty.} = var s: seq[TFullReg] move(s, cast[seq[TFullReg]](a.slots)) if s[a.ra].kind != k: myreset(s[a.ra]) s[a.ra].kind = k s[a.ra].field = v proc setResult*(a: VmArgs; v: BiggestInt) = setX(rkInt, intVal) proc setResult*(a: VmArgs; v: BiggestFloat) = setX(rkFloat, floatVal) proc setResult*(a: VmArgs; v: bool) = let v = v.ord setX(rkInt, intVal) proc setResult*(a: VmArgs; v: string) = var s: seq[TFullReg] move(s, cast[seq[TFullReg]](a.slots)) if s[a.ra].kind != rkNode: myreset(s[a.ra]) s[a.ra].kind = rkNode s[a.ra].node = newNode(nkStrLit) s[a.ra].node.strVal = v proc setResult*(a: VmArgs; n: PNode) = var s: seq[TFullReg] move(s, cast[seq[TFullReg]](a.slots)) if s[a.ra].kind != rkNode: myreset(s[a.ra]) s[a.ra].kind = rkNode s[a.ra].node = n proc setResult*(a: VmArgs; v: AbsoluteDir) = setResult(a, v.string) proc setResult*(a: VmArgs; v: seq[string]) = var s: seq[TFullReg] move(s, cast[seq[TFullReg]](a.slots)) if s[a.ra].kind != rkNode: myreset(s[a.ra]) s[a.ra].kind = rkNode var n = newNode(nkBracket) for x in v: n.add newStrNode(nkStrLit, x) s[a.ra].node = n template getX(k, field) {.dirty.} = doAssert i < a.rc-1 let s = cast[seq[TFullReg]](a.slots) doAssert s[i+a.rb+1].kind == k result = s[i+a.rb+1].field proc getInt*(a: VmArgs; i: Natural): BiggestInt = getX(rkInt, intVal) proc getBool*(a: VmArgs; i: Natural): bool = getInt(a, i) != 0 proc getFloat*(a: VmArgs; i: Natural): BiggestFloat = getX(rkFloat, floatVal) proc getString*(a: VmArgs; i: Natural): string = doAssert i < a.rc-1 let s = cast[seq[TFullReg]](a.slots) doAssert s[i+a.rb+1].kind == rkNode result = s[i+a.rb+1].node.strVal proc getNode*(a: VmArgs; i: Natural): PNode = doAssert i < a.rc-1 let s = cast[seq[TFullReg]](a.slots) doAssert s[i+a.rb+1].kind == rkNode result = s[i+a.rb+1].node