123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358 |
- #
- #
- # Nim's Runtime Library
- # (c) Copyright 2012 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # string & sequence handling procedures needed by the code generator
- # strings are dynamically resized, have a length field
- # and are zero-terminated, so they can be casted to C
- # strings easily
- # we don't use refcounts because that's a behaviour
- # the programmer may not want
- proc dataPointer(a: PGenericSeq, elemAlign: int): pointer =
- cast[pointer](cast[int](a) +% align(GenericSeqSize, elemAlign))
- proc dataPointer(a: PGenericSeq, elemAlign, elemSize, index: int): pointer =
- cast[pointer](cast[int](a) +% align(GenericSeqSize, elemAlign) +% (index*%elemSize))
- proc resize(old: int): int {.inline.} =
- if old <= 0: result = 4
- elif old < 65536: result = old * 2
- else: result = old * 3 div 2 # for large arrays * 3/2 is better
- when declared(allocAtomic):
- template allocStr(size: untyped): untyped =
- cast[NimString](allocAtomic(size))
- template allocStrNoInit(size: untyped): untyped =
- cast[NimString](boehmAllocAtomic(size))
- elif defined(gcRegions):
- template allocStr(size: untyped): untyped =
- cast[NimString](newStr(addr(strDesc), size, true))
- template allocStrNoInit(size: untyped): untyped =
- cast[NimString](newStr(addr(strDesc), size, false))
- else:
- template allocStr(size: untyped): untyped =
- cast[NimString](newObj(addr(strDesc), size))
- template allocStrNoInit(size: untyped): untyped =
- cast[NimString](newObjNoInit(addr(strDesc), size))
- proc rawNewStringNoInit(space: int): NimString =
- let s = max(space, 7)
- result = allocStrNoInit(sizeof(TGenericSeq) + s + 1)
- result.reserved = s
- when defined(gogc):
- result.elemSize = 1
- proc rawNewString(space: int): NimString {.compilerproc.} =
- result = rawNewStringNoInit(space)
- result.len = 0
- result.data[0] = '\0'
- proc mnewString(len: int): NimString {.compilerproc.} =
- result = rawNewStringNoInit(len)
- result.len = len
- zeroMem(addr result.data[0], len + 1)
- proc copyStrLast(s: NimString, start, last: int): NimString {.compilerproc.} =
- # This is not used by most recent versions of the compiler anymore, but
- # required for bootstrapping purposes.
- let start = max(start, 0)
- if s == nil: return nil
- let len = min(last, s.len-1) - start + 1
- result = rawNewStringNoInit(len)
- result.len = len
- copyMem(addr(result.data), addr(s.data[start]), len)
- result.data[len] = '\0'
- proc copyStr(s: NimString, start: int): NimString {.compilerproc.} =
- # This is not used by most recent versions of the compiler anymore, but
- # required for bootstrapping purposes.
- if s == nil: return nil
- result = copyStrLast(s, start, s.len-1)
- proc nimToCStringConv(s: NimString): cstring {.compilerproc, nonReloadable, inline.} =
- if s == nil or s.len == 0: result = cstring""
- else: result = cast[cstring](addr s.data)
- proc toNimStr(str: cstring, len: int): NimString {.compilerproc.} =
- result = rawNewStringNoInit(len)
- result.len = len
- copyMem(addr(result.data), str, len)
- result.data[len] = '\0'
- proc cstrToNimstr(str: cstring): NimString {.compilerRtl.} =
- if str == nil: NimString(nil)
- else: toNimStr(str, str.len)
- proc copyString(src: NimString): NimString {.compilerRtl.} =
- if src != nil:
- if (src.reserved and seqShallowFlag) != 0:
- result = src
- else:
- result = rawNewStringNoInit(src.len)
- result.len = src.len
- copyMem(addr(result.data), addr(src.data), src.len + 1)
- sysAssert((seqShallowFlag and result.reserved) == 0, "copyString")
- when defined(nimShallowStrings):
- if (src.reserved and strlitFlag) != 0:
- result.reserved = (result.reserved and not strlitFlag) or seqShallowFlag
- proc newOwnedString(src: NimString; n: int): NimString =
- result = rawNewStringNoInit(n)
- result.len = n
- copyMem(addr(result.data), addr(src.data), n)
- result.data[n] = '\0'
- proc copyStringRC1(src: NimString): NimString {.compilerRtl.} =
- if src != nil:
- if (src.reserved and seqShallowFlag) != 0:
- result = src
- when declared(incRef):
- incRef(usrToCell(result))
- else:
- when declared(newObjRC1) and not defined(gcRegions):
- var s = src.len
- if s < 7: s = 7
- result = cast[NimString](newObjRC1(addr(strDesc), sizeof(TGenericSeq) +
- s+1))
- result.reserved = s
- when defined(gogc):
- result.elemSize = 1
- else:
- result = rawNewStringNoInit(src.len)
- result.len = src.len
- copyMem(addr(result.data), addr(src.data), src.len + 1)
- sysAssert((seqShallowFlag and result.reserved) == 0, "copyStringRC1")
- when defined(nimShallowStrings):
- if (src.reserved and strlitFlag) != 0:
- result.reserved = (result.reserved and not strlitFlag) or seqShallowFlag
- proc copyDeepString(src: NimString): NimString {.inline.} =
- if src != nil:
- result = rawNewStringNoInit(src.len)
- result.len = src.len
- copyMem(addr(result.data), addr(src.data), src.len + 1)
- proc addChar(s: NimString, c: char): NimString =
- # is compilerproc!
- if s == nil:
- result = rawNewStringNoInit(1)
- result.len = 0
- else:
- result = s
- if result.len >= result.space:
- let r = resize(result.space)
- result = rawNewStringNoInit(r)
- result.len = s.len
- copyMem(addr result.data[0], unsafeAddr(s.data[0]), s.len+1)
- result.reserved = r
- result.data[result.len] = c
- result.data[result.len+1] = '\0'
- inc(result.len)
- # These routines should be used like following:
- # <Nim code>
- # s &= "Hello " & name & ", how do you feel?"
- #
- # <generated C code>
- # {
- # s = resizeString(s, 6 + name->len + 17);
- # appendString(s, strLit1);
- # appendString(s, strLit2);
- # appendString(s, strLit3);
- # }
- #
- # <Nim code>
- # s = "Hello " & name & ", how do you feel?"
- #
- # <generated C code>
- # {
- # string tmp0;
- # tmp0 = rawNewString(6 + name->len + 17);
- # appendString(s, strLit1);
- # appendString(s, strLit2);
- # appendString(s, strLit3);
- # s = tmp0;
- # }
- #
- # <Nim code>
- # s = ""
- #
- # <generated C code>
- # s = rawNewString(0);
- proc resizeString(dest: NimString, addlen: int): NimString {.compilerRtl.} =
- if dest == nil:
- result = rawNewString(addlen)
- elif dest.len + addlen <= dest.space:
- result = dest
- else: # slow path:
- let sp = max(resize(dest.space), dest.len + addlen)
- result = rawNewStringNoInit(sp)
- result.len = dest.len
- copyMem(addr result.data[0], unsafeAddr(dest.data[0]), dest.len+1)
- result.reserved = sp
- #result = rawNewString(sp)
- #copyMem(result, dest, dest.len + sizeof(TGenericSeq))
- # DO NOT UPDATE LEN YET: dest.len = newLen
- proc appendString(dest, src: NimString) {.compilerproc, inline.} =
- if src != nil:
- copyMem(addr(dest.data[dest.len]), addr(src.data), src.len + 1)
- inc(dest.len, src.len)
- proc appendChar(dest: NimString, c: char) {.compilerproc, inline.} =
- dest.data[dest.len] = c
- dest.data[dest.len+1] = '\0'
- inc(dest.len)
- proc setLengthStr(s: NimString, newLen: int): NimString {.compilerRtl.} =
- let n = max(newLen, 0)
- if s == nil:
- result = mnewString(n)
- elif n <= s.space:
- result = s
- else:
- let sp = max(resize(s.space), n)
- result = rawNewStringNoInit(sp)
- result.len = s.len
- copyMem(addr result.data[0], unsafeAddr(s.data[0]), s.len)
- zeroMem(addr result.data[s.len], n - s.len)
- result.reserved = sp
- result.len = n
- result.data[n] = '\0'
- # ----------------- sequences ----------------------------------------------
- proc incrSeq(seq: PGenericSeq, elemSize, elemAlign: int): PGenericSeq {.compilerproc.} =
- # increments the length by one:
- # this is needed for supporting ``add``;
- #
- # add(seq, x) generates:
- # seq = incrSeq(seq, sizeof(x));
- # seq[seq->len-1] = x;
- result = seq
- if result.len >= result.space:
- let r = resize(result.space)
- result = cast[PGenericSeq](growObj(result, align(GenericSeqSize, elemAlign) + elemSize * r))
- result.reserved = r
- inc(result.len)
- proc incrSeqV2(seq: PGenericSeq, elemSize, elemAlign: int): PGenericSeq {.compilerproc.} =
- # incrSeq version 2
- result = seq
- if result.len >= result.space:
- let r = resize(result.space)
- result = cast[PGenericSeq](growObj(result, align(GenericSeqSize, elemAlign) + elemSize * r))
- result.reserved = r
- proc incrSeqV3(s: PGenericSeq, typ: PNimType): PGenericSeq {.compilerproc.} =
- if s == nil:
- result = cast[PGenericSeq](newSeq(typ, 1))
- result.len = 0
- else:
- result = s
- if result.len >= result.space:
- let r = resize(result.space)
- result = cast[PGenericSeq](newSeq(typ, r))
- result.len = s.len
- copyMem(dataPointer(result, typ.base.align), dataPointer(s, typ.base.align), s.len * typ.base.size)
- # since we steal the content from 's', it's crucial to set s's len to 0.
- s.len = 0
- proc setLengthSeq(seq: PGenericSeq, elemSize, elemAlign, newLen: int): PGenericSeq {.
- compilerRtl, inl.} =
- result = seq
- if result.space < newLen:
- let r = max(resize(result.space), newLen)
- result = cast[PGenericSeq](growObj(result, align(GenericSeqSize, elemAlign) + elemSize * r))
- result.reserved = r
- elif newLen < result.len:
- # we need to decref here, otherwise the GC leaks!
- when not defined(boehmGC) and not defined(nogc) and
- not defined(gcMarkAndSweep) and not defined(gogc) and
- not defined(gcRegions):
- if ntfNoRefs notin extGetCellType(result).base.flags:
- for i in newLen..result.len-1:
- forAllChildrenAux(dataPointer(result, elemAlign, elemSize, i),
- extGetCellType(result).base, waZctDecRef)
- # XXX: zeroing out the memory can still result in crashes if a wiped-out
- # cell is aliased by another pointer (ie proc parameter or a let variable).
- # This is a tough problem, because even if we don't zeroMem here, in the
- # presence of user defined destructors, the user will expect the cell to be
- # "destroyed" thus creating the same problem. We can destroy the cell in the
- # finalizer of the sequence, but this makes destruction non-deterministic.
- zeroMem(dataPointer(result, elemAlign, elemSize, newLen), (result.len-%newLen) *% elemSize)
- result.len = newLen
- proc setLengthSeqV2(s: PGenericSeq, typ: PNimType, newLen: int): PGenericSeq {.
- compilerRtl.} =
- sysAssert typ.kind == tySequence, "setLengthSeqV2: type is not a seq"
- if s == nil:
- result = cast[PGenericSeq](newSeq(typ, newLen))
- else:
- let elemSize = typ.base.size
- let elemAlign = typ.base.align
- if s.space < newLen:
- let r = max(resize(s.space), newLen)
- result = cast[PGenericSeq](newSeq(typ, r))
- copyMem(dataPointer(result, elemAlign), dataPointer(s, elemAlign), s.len * elemSize)
- # since we steal the content from 's', it's crucial to set s's len to 0.
- s.len = 0
- elif newLen < s.len:
- result = s
- # we need to decref here, otherwise the GC leaks!
- when not defined(boehmGC) and not defined(nogc) and
- not defined(gcMarkAndSweep) and not defined(gogc) and
- not defined(gcRegions):
- if ntfNoRefs notin typ.base.flags:
- for i in newLen..result.len-1:
- forAllChildrenAux(dataPointer(result, elemAlign, elemSize, i),
- extGetCellType(result).base, waZctDecRef)
- # XXX: zeroing out the memory can still result in crashes if a wiped-out
- # cell is aliased by another pointer (ie proc parameter or a let variable).
- # This is a tough problem, because even if we don't zeroMem here, in the
- # presence of user defined destructors, the user will expect the cell to be
- # "destroyed" thus creating the same problem. We can destroy the cell in the
- # finalizer of the sequence, but this makes destruction non-deterministic.
- zeroMem(dataPointer(result, elemAlign, elemSize, newLen), (result.len-%newLen) *% elemSize)
- else:
- result = s
- zeroMem(dataPointer(result, elemAlign, elemSize, result.len), (newLen-%result.len) *% elemSize)
- result.len = newLen
- func capacity*(self: string): int {.inline.} =
- ## Returns the current capacity of the string.
- # See https://github.com/nim-lang/RFCs/issues/460
- runnableExamples:
- var str = newStringOfCap(cap = 42)
- str.add "Nim"
- assert str.capacity == 42
- let str = cast[NimString](self)
- result = if str != nil: str.space else: 0
- func capacity*[T](self: seq[T]): int {.inline.} =
- ## Returns the current capacity of the seq.
- # See https://github.com/nim-lang/RFCs/issues/460
- runnableExamples:
- var lst = newSeqOfCap[string](cap = 42)
- lst.add "Nim"
- assert lst.capacity == 42
- let sek = cast[PGenericSeq](self)
- result = if sek != nil: sek.space else: 0
|