/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef _MORKPOOL_ #define _MORKPOOL_ 1 #ifndef _MORK_ #include "mork.h" #endif #ifndef _MORKDEQUE_ #include "morkDeque.h" #endif #ifndef _MORKNODE_ #include "morkNode.h" #endif //3456789_123456789_123456789_123456789_123456789_123456789_123456789_123456789 class morkHandle; class morkHandleFrame; class morkHandleFace; // just an opaque cookie type class morkBigBookAtom; class morkFarBookAtom; #define morkDerived_kPool /*i*/ 0x706C /* ascii 'pl' */ /*| morkPool: a place to manage pools of non-node objects that are memory **| managed out of large chunks of space, so that per-object management **| space overhead has no significant cost. |*/ class morkPool : public morkNode { // public: // slots inherited from morkNode (meant to inform only) // nsIMdbHeap* mNode_Heap; // mork_base mNode_Base; // must equal morkBase_kNode // mork_derived mNode_Derived; // depends on specific node subclass // mork_access mNode_Access; // kOpen, kClosing, kShut, or kDead // mork_usage mNode_Usage; // kHeap, kStack, kMember, kGlobal, kNone // mork_able mNode_Mutable; // can this node be modified? // mork_load mNode_Load; // is this node clean or dirty? // mork_uses mNode_Uses; // refcount for strong refs // mork_refs mNode_Refs; // refcount for strong refs + weak refs public: // state is public because the entire Mork system is private nsIMdbHeap* mPool_Heap; // NON-refcounted heap instance morkDeque mPool_Blocks; // linked list of large blocks from heap // These two lists contain instances of morkHandleFrame: morkDeque mPool_UsedHandleFrames; // handle frames currently being used morkDeque mPool_FreeHandleFrames; // handle frames currently in free list mork_count mPool_UsedFramesCount; // length of mPool_UsedHandleFrames mork_count mPool_FreeFramesCount; // length of mPool_UsedHandleFrames // { ===== begin morkNode interface ===== public: // morkNode virtual methods virtual void CloseMorkNode(morkEnv* ev); // ClosePool() only if open virtual ~morkPool(); // assert that ClosePool() executed earlier public: // morkPool construction & destruction morkPool(const morkUsage& inUsage, nsIMdbHeap* ioHeap, nsIMdbHeap* ioSlotHeap); morkPool(morkEnv* ev, const morkUsage& inUsage, nsIMdbHeap* ioHeap, nsIMdbHeap* ioSlotHeap); void ClosePool(morkEnv* ev); // called by CloseMorkNode(); private: // copying is not allowed morkPool(const morkPool& other); morkPool& operator=(const morkPool& other); public: // dynamic type identification mork_bool IsPool() const { return IsNode() && mNode_Derived == morkDerived_kPool; } // } ===== end morkNode methods ===== public: // typing void NonPoolTypeError(morkEnv* ev); public: // morkNode memory management operators void* operator new(size_t inSize, nsIMdbHeap& ioHeap, morkEnv* ev) CPP_THROW_NEW { return morkNode::MakeNew(inSize, ioHeap, ev); } void* operator new(size_t inSize) CPP_THROW_NEW { return ::operator new(inSize); } public: // other pool methods // alloc and free individual instances of handles (inside hand frames): morkHandleFace* NewHandle(morkEnv* ev, mork_size inSize, morkZone* ioZone); void ZapHandle(morkEnv* ev, morkHandleFace* ioHandle); // alloc and free individual instances of rows: morkRow* NewRow(morkEnv* ev, morkZone* ioZone); // alloc new row instance void ZapRow(morkEnv* ev, morkRow* ioRow, morkZone* ioZone); // free old row instance // alloc and free entire vectors of cells (not just one cell at a time) morkCell* NewCells(morkEnv* ev, mork_size inSize, morkZone* ioZone); void ZapCells(morkEnv* ev, morkCell* ioVector, mork_size inSize, morkZone* ioZone); // resize (grow or trim) cell vectors inside a containing row instance mork_bool AddRowCells(morkEnv* ev, morkRow* ioRow, mork_size inNewSize, morkZone* ioZone); mork_bool CutRowCells(morkEnv* ev, morkRow* ioRow, mork_size inNewSize, morkZone* ioZone); // alloc & free individual instances of atoms (lots of atom subclasses): void ZapAtom(morkEnv* ev, morkAtom* ioAtom, morkZone* ioZone); // any subclass (by kind) morkOidAtom* NewRowOidAtom(morkEnv* ev, const mdbOid& inOid, morkZone* ioZone); morkOidAtom* NewTableOidAtom(morkEnv* ev, const mdbOid& inOid, morkZone* ioZone); morkAtom* NewAnonAtom(morkEnv* ev, const morkBuf& inBuf, mork_cscode inForm, morkZone* ioZone); // if inForm is zero, and inBuf.mBuf_Fill is less than 256, then a 'wee' // anon atom will be created, and otherwise a 'big' anon atom. morkBookAtom* NewBookAtom(morkEnv* ev, const morkBuf& inBuf, mork_cscode inForm, morkAtomSpace* ioSpace, mork_aid inAid, morkZone* ioZone); // if inForm is zero, and inBuf.mBuf_Fill is less than 256, then a 'wee' // book atom will be created, and otherwise a 'big' book atom. morkBookAtom* NewBookAtomCopy(morkEnv* ev, const morkBigBookAtom& inAtom, morkZone* ioZone); // make the smallest kind of book atom that can hold content in inAtom. // The inAtom parameter is often expected to be a staged book atom in // the store, which was used to search an atom space for existing atoms. morkBookAtom* NewFarBookAtomCopy(morkEnv* ev, const morkFarBookAtom& inAtom, morkZone* ioZone); // make the smallest kind of book atom that can hold content in inAtom. // The inAtom parameter is often expected to be a staged book atom in // the store, which was used to search an atom space for existing atoms. public: // typesafe refcounting inlines calling inherited morkNode methods static void SlotWeakPool(morkPool* me, morkEnv* ev, morkPool** ioSlot) { morkNode::SlotWeakNode((morkNode*) me, ev, (morkNode**) ioSlot); } static void SlotStrongPool(morkPool* me, morkEnv* ev, morkPool** ioSlot) { morkNode::SlotStrongNode((morkNode*) me, ev, (morkNode**) ioSlot); } }; //3456789_123456789_123456789_123456789_123456789_123456789_123456789_123456789 #endif /* _MORKPOOL_ */