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- #
- #
- # Nim's Runtime Library
- # (c) Copyright 2019 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- #[
- In this new runtime we simplify the object layouts a bit: The runtime type
- information is only accessed for the objects that have it and it's always
- at offset 0 then. The ``ref`` object header is independent from the
- runtime type and only contains a reference count.
- ]#
- when defined(gcOrc):
- const
- rcIncrement = 0b10000 # so that lowest 4 bits are not touched
- rcMask = 0b1111
- rcShift = 4 # shift by rcShift to get the reference counter
- else:
- const
- rcIncrement = 0b1000 # so that lowest 3 bits are not touched
- rcMask = 0b111
- rcShift = 3 # shift by rcShift to get the reference counter
- type
- RefHeader = object
- rc: int # the object header is now a single RC field.
- # we could remove it in non-debug builds for the 'owned ref'
- # design but this seems unwise.
- when defined(gcOrc):
- rootIdx: int # thanks to this we can delete potential cycle roots
- # in O(1) without doubly linked lists
- when defined(nimArcDebug) or defined(nimArcIds):
- refId: int
- Cell = ptr RefHeader
- template head(p: pointer): Cell =
- cast[Cell](cast[int](p) -% sizeof(RefHeader))
- const
- traceCollector = defined(traceArc)
- when defined(nimArcDebug):
- include cellsets
- const traceId = 20 # 1037
- var gRefId: int
- var freedCells: CellSet
- elif defined(nimArcIds):
- var gRefId: int
- const traceId = -1
- proc nimNewObj(size, alignment: int): pointer {.compilerRtl.} =
- let hdrSize = align(sizeof(RefHeader), alignment)
- let s = size + hdrSize
- when defined(nimscript):
- discard
- else:
- result = alignedAlloc0(s, alignment) +! hdrSize
- when defined(nimArcDebug) or defined(nimArcIds):
- head(result).refId = gRefId
- atomicInc gRefId
- if head(result).refId == traceId:
- writeStackTrace()
- cfprintf(cstderr, "[nimNewObj] %p %ld\n", result, head(result).rc shr rcShift)
- when traceCollector:
- cprintf("[Allocated] %p result: %p\n", result -! sizeof(RefHeader), result)
- proc nimNewObjUninit(size, alignment: int): pointer {.compilerRtl.} =
- # Same as 'newNewObj' but do not initialize the memory to zero.
- # The codegen proved for us that this is not necessary.
- let hdrSize = align(sizeof(RefHeader), alignment)
- let s = size + hdrSize
- when defined(nimscript):
- discard
- else:
- result = cast[ptr RefHeader](alignedAlloc(s, alignment) +! hdrSize)
- head(result).rc = 0
- when defined(gcOrc):
- head(result).rootIdx = 0
- when defined(nimArcDebug):
- head(result).refId = gRefId
- atomicInc gRefId
- if head(result).refId == traceId:
- writeStackTrace()
- cfprintf(cstderr, "[nimNewObjUninit] %p %ld\n", result, head(result).rc shr rcShift)
- when traceCollector:
- cprintf("[Allocated] %p result: %p\n", result -! sizeof(RefHeader), result)
- proc nimDecWeakRef(p: pointer) {.compilerRtl, inl.} =
- dec head(p).rc, rcIncrement
- proc nimIncRef(p: pointer) {.compilerRtl, inl.} =
- when defined(nimArcDebug):
- if head(p).refId == traceId:
- writeStackTrace()
- cfprintf(cstderr, "[IncRef] %p %ld\n", p, head(p).rc shr rcShift)
- inc head(p).rc, rcIncrement
- when traceCollector:
- cprintf("[INCREF] %p\n", head(p))
- when not defined(gcOrc) or defined(nimThinout):
- proc unsureAsgnRef(dest: ptr pointer, src: pointer) {.inline.} =
- # This is only used by the old RTTI mechanism and we know
- # that 'dest[]' is nil and needs no destruction. Which is really handy
- # as we cannot destroy the object reliably if it's an object of unknown
- # compile-time type.
- dest[] = src
- if src != nil: nimIncRef src
- when not defined(nimscript) and defined(nimArcDebug):
- proc deallocatedRefId*(p: pointer): int =
- ## Returns the ref's ID if the ref was already deallocated. This
- ## is a memory corruption check. Returns 0 if there is no error.
- let c = head(p)
- if freedCells.data != nil and freedCells.contains(c):
- result = c.refId
- else:
- result = 0
- proc nimRawDispose(p: pointer, alignment: int) {.compilerRtl.} =
- when not defined(nimscript):
- when traceCollector:
- cprintf("[Freed] %p\n", p -! sizeof(RefHeader))
- when defined(nimOwnedEnabled):
- if head(p).rc >= rcIncrement:
- cstderr.rawWrite "[FATAL] dangling references exist\n"
- rawQuit 1
- when defined(nimArcDebug):
- # we do NOT really free the memory here in order to reliably detect use-after-frees
- if freedCells.data == nil: init(freedCells)
- freedCells.incl head(p)
- else:
- let hdrSize = align(sizeof(RefHeader), alignment)
- alignedDealloc(p -! hdrSize, alignment)
- template `=dispose`*[T](x: owned(ref T)) = nimRawDispose(cast[pointer](x), T.alignOf)
- #proc dispose*(x: pointer) = nimRawDispose(x)
- proc nimDestroyAndDispose(p: pointer) {.compilerRtl, raises: [].} =
- let rti = cast[ptr PNimTypeV2](p)
- if rti.destructor != nil:
- cast[DestructorProc](rti.destructor)(p)
- when false:
- cstderr.rawWrite cast[ptr PNimTypeV2](p)[].name
- cstderr.rawWrite "\n"
- if d == nil:
- cstderr.rawWrite "bah, nil\n"
- else:
- cstderr.rawWrite "has destructor!\n"
- nimRawDispose(p, rti.align)
- when defined(gcOrc):
- when defined(nimThinout):
- include cyclebreaker
- else:
- include orc
- #include cyclecollector
- proc nimDecRefIsLast(p: pointer): bool {.compilerRtl, inl.} =
- if p != nil:
- var cell = head(p)
- when defined(nimArcDebug):
- if cell.refId == traceId:
- writeStackTrace()
- cfprintf(cstderr, "[DecRef] %p %ld\n", p, cell.rc shr rcShift)
- if (cell.rc and not rcMask) == 0:
- result = true
- when traceCollector:
- cprintf("[ABOUT TO DESTROY] %p\n", cell)
- else:
- dec cell.rc, rcIncrement
- # According to Lins it's correct to do nothing else here.
- when traceCollector:
- cprintf("[DeCREF] %p\n", cell)
- proc GC_unref*[T](x: ref T) =
- ## New runtime only supports this operation for 'ref T'.
- var y {.cursor.} = x
- `=destroy`(y)
- proc GC_ref*[T](x: ref T) =
- ## New runtime only supports this operation for 'ref T'.
- if x != nil: nimIncRef(cast[pointer](x))
- when not defined(gcOrc):
- template GC_fullCollect* =
- ## Forces a full garbage collection pass. With `--gc:arc` a nop.
- discard
- template setupForeignThreadGc* =
- ## With `--gc:arc` a nop.
- discard
- template tearDownForeignThreadGc* =
- ## With `--gc:arc` a nop.
- discard
- proc isObjDisplayCheck(source: PNimTypeV2, targetDepth: int16, token: uint32): bool {.compilerRtl, inline.} =
- result = targetDepth <= source.depth and source.display[targetDepth] == token
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