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619 lines
14 KiB
619 lines
14 KiB
//+------------------------------------------------------------------------
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//
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// File: netolary.cxx
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//
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// Contents: Generic dynamic array class
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//
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// Classes: CADsAry
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//
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// History:
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//
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//-------------------------------------------------------------------------
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#include "procs.hxx"
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#pragma hdrstop
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// CADsAry class
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::~CADsAry
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//
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// Synopsis: Resizeable array destructor. Frees storage allocated for the
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// array.
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//
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//-------------------------------------------------------------------------
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CADsAry::~CADsAry( )
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{
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if (_pv)
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LocalFree(_pv);
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::EnsureSize
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//
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// Synopsis: Ensures that the array is at least the given size. That is,
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// if EnsureSize(c) succeeds, then (c-1) is a valid index. Note
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// that the array maintains a separate count of the number of
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// elements logically in the array, which is obtained with the
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// Size/SetSize methods. The logical size of the array is never
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// larger than the allocated size of the array.
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//
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// Arguments: [cb] Element size
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// [c] New allocated size for the array.
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//
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// Returns: HRESULT
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//
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//-------------------------------------------------------------------------
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HRESULT
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CADsAry::EnsureSize(size_t cb, int c)
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{
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void * pv;
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if (c <= GetAlloced(cb))
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return NOERROR;
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// CONSIDER should we use a more sophisticated array-growing
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// algorithm?
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c = ((c - 1) & -8) + 8;
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ADsAssert(c > 0);
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if (!_pv)
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{
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pv = LocalAlloc(LMEM_FIXED, c * cb);
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}
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else
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{
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pv = LocalReAlloc(_pv, c * cb, LMEM_MOVEABLE);
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}
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if (!pv)
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RRETURN(E_OUTOFMEMORY);
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_pv = pv;
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return NOERROR;
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}
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#if 0
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::Append
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//
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// Synopsis: Appends the given pointer to the end of the array, incrementing
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// the array's logical size, and growing its allocated size if
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// necessary. This method should only be called for arrays of
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// pointers; AppendIndirect should be used for arrays of
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// non-pointers.
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//
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// Arguments: [pv] Pointer to append.
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//
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// Returns: HRESULT
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//
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//-------------------------------------------------------------------------
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HRESULT
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CADsAry::Append(void * pv)
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{
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HRESULT hr;
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ADsAssert(_cb == 4);
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hr = EnsureSize(_c + 1);
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if (hr)
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RRETURN(hr);
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* (void **) Deref(_c) = pv;
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_c++;
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return NOERROR;
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}
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#endif
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::AppendIndirect
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//
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// Synopsis: Appends the given element to the end of the array, incrementing
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// the array's logical size, and growing the array's allocated
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// size if necessary. Note that the element is passed with a
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// pointer, rather than directly.
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//
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// Arguments: [cb] -- Element size
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// [pv] -- Pointer to the element to be appended
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//
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// Returns: HRESULT
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//
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//-------------------------------------------------------------------------
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HRESULT
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CADsAry::AppendIndirect(size_t cb, void * pv)
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{
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HRESULT hr;
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hr = EnsureSize(cb, _c + 1);
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if (hr)
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RRETURN(hr);
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memcpy(Deref(cb, _c), pv, cb);
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_c++;
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return NOERROR;
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::Delete
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//
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// Synopsis: Removes the i'th element of the array, shuffling all elements
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// that follow one slot towards the beginning of the array.
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//
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// Arguments: [cb] Element size
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// [i] Element to delete
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//
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//-------------------------------------------------------------------------
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void
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CADsAry::Delete(size_t cb, int i)
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{
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ADsAssert(i >= 0);
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ADsAssert(i < _c);
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memmove(((BYTE *) _pv) + (i * cb),
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((BYTE *) _pv) + ((i + 1) * cb),
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(_c - i - 1) * cb);
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_c--;
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::DeleteAll
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//
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// Synopsis: Efficient method for emptying array of any contents
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//
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//-------------------------------------------------------------------------
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void
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CADsAry::DeleteAll(void)
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{
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if (_pv)
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LocalFree(_pv);
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_pv = NULL;
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_c = 0;
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}
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#if 0
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::Insert
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//
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// Synopsis: Inserts a pointer pv at index i. The element previously at
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// index i, and all elements that follow it, are shuffled one
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// slot away towards the end of the array.
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// This method should only be called for arrays of
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// pointers; InsertIndirect should be used for arrays of
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// non-pointers.
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//
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//
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// Arguments: [i] Index to insert...
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// [pv] ...this pointer at
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//
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// Returns: HRESULT
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//
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//-------------------------------------------------------------------------
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HRESULT
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CADsAry::Insert(int i, void * pv)
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{
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HRESULT hr;
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hr = EnsureSize(cb, _c + 1);
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if (hr)
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RRETURN(hr);
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memmove(((BYTE *) _pv) + ((i + 1) * _cb),
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((BYTE *) _pv) + (i * _cb),
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(_c - i ) * _cb);
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((void **) _pv)[i] = pv;
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_c++;
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return NOERROR;
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}
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#endif
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::InsertIndirect
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//
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// Synopsis: Inserts a pointer pv at index i. The element previously at
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// index i, and all elements that follow it, are shuffled one
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// slot away towards the end of the array.Note that the
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// clement is passed with a pointer, rather than directly.
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//
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// Arguments: [cb] Element size
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// [i] Index to insert...
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// [pv] ...this pointer at
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//
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// Returns: HRESULT
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//
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//-------------------------------------------------------------------------
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HRESULT
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CADsAry::InsertIndirect(size_t cb, int i, void *pv)
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{
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HRESULT hr;
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hr = EnsureSize(cb, _c + 1);
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if (hr)
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RRETURN(hr);
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memmove(((BYTE *) _pv) + ((i + 1) * cb),
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((BYTE *) _pv) + (i * cb),
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(_c - i ) * cb);
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memcpy(Deref(cb, i), pv, cb);
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_c++;
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return NOERROR;
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::BringToFront
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//
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// Synopsis: Moves the i'th element to the front of the array, shuffling
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// intervening elements to make room.
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//
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// Arguments: [i]
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//
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//-------------------------------------------------------------------------
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void
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CADsAry::BringToFront(size_t cb, int i)
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{
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BYTE rgb[CADsAry_MAXELEMSIZE];
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ADsAssert(cb <= CADsAry_MAXELEMSIZE);
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memcpy(rgb, ((BYTE *) _pv) + (i * cb), cb);
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memmove(((BYTE *) _pv) + cb, _pv, i * cb);
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memcpy(_pv, rgb, cb);
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::SendToBack
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//
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// Synopsis: Moves the i'th element to the back of the array (that is,
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// the largest index less than the logical size.) Any intervening
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// elements are shuffled out of the way.
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//
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// Arguments: [i]
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//
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//-------------------------------------------------------------------------
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void
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CADsAry::SendToBack(size_t cb, int i)
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{
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BYTE rgb[CADsAry_MAXELEMSIZE];
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ADsAssert(cb <= CADsAry_MAXELEMSIZE);
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memcpy(rgb, ((BYTE *) _pv) + (i * cb), cb);
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memmove(((BYTE *) _pv) + (i * cb),
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((BYTE *) _pv) + ((i + 1) * cb),
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(_c - i - 1) * cb);
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memcpy(((BYTE *) _pv) + ((_c - 1) * cb), rgb, cb);
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}
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#if 0
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::Find
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//
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// Synopsis: Returns the index at which the given pointer is found, or -1
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// if it is not found. The pointer values are compared directly;
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// there is no compare function.
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//
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// Arguments: [pv] Pointer to find
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//
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// Returns: int; index of pointer, or -1 if not found
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//
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//-------------------------------------------------------------------------
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int
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CADsAry::Find(void * pv)
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{
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int i;
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void ** ppv;
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Assert(_cb == 4);
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for (i = 0, ppv = (void **) _pv; i < _c; i++, ppv++)
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{
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if (pv == *ppv)
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return i;
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}
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return -1;
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}
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#endif
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//+---------------------------------------------------------------------------
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//
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// Member: CADsAry::Copy
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//
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// Synopsis: Creates a copy from another CADsAry object.
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//
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// Arguments: [ary] -- Object to copy.
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// [fAddRef] -- Addref the elements on copy?
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//
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// Returns: HRESULT.
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//
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// Modifies: [this]
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//
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// History: 5-15-94 adams Created
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//
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//----------------------------------------------------------------------------
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HRESULT
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CADsAry::Copy(size_t cb, const CADsAry& ary, BOOL fAddRef)
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{
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int cbArray; // size of array
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IUnknown ** ppUnk; // elem to addref
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int i; // counter
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// avoid copy of self
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if (this == &ary)
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return S_OK;
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DeleteAll();
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if (ary._pv)
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{
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cbArray = ary._c * cb;
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_pv = LocalAlloc(LMEM_FIXED, cbArray);
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if (!_pv)
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RRETURN(E_OUTOFMEMORY);
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memcpy(_pv, ary._pv, cbArray);
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}
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_c = ary._c;
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if (fAddRef)
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{
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for (i = 0, ppUnk = (IUnknown **) _pv; i < _c; i++, ppUnk++)
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{
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(*ppUnk)->AddRef();
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}
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}
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return S_OK;
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}
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//+---------------------------------------------------------------------------
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//
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// Member: CADsAry::EnumElements
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//
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// Synopsis: Creates and returns an enumerator for the elements of the
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// array.
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//
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// Arguments: [iid] -- Type of the enumerator.
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// [ppv] -- Location to put enumerator.
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// [fAddRef] -- AddRef enumerated elements?
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// [fCopy] -- Create copy of this array for enumerator?
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// [fDelete] -- Delete this after no longer being used by
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// enumerators?
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//
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// Returns: HRESULT.
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//
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// History: 5-15-94 adams Created
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//
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//----------------------------------------------------------------------------
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HRESULT
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CADsAry::EnumElements(
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size_t cb,
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REFIID iid,
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void ** ppv,
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BOOL fAddRef,
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BOOL fCopy,
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BOOL fDelete)
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{
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HRESULT hr;
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ADsAssert(ppv);
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hr = CEnumGeneric::Create(
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cb,
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this,
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iid,
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fAddRef,
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fCopy,
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fDelete,
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(CEnumGeneric **)ppv);
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RRETURN(hr);
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}
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//+---------------------------------------------------------------------------
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//
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// Member: CADsAry::EnumElements
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//
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// Synopsis: Creates and returns an IEnumVARIANT enumerator for the elements
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// of the array.
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//
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// Arguments: [vt] -- Type of elements enumerated.
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// [ppv] -- Location to put enumerator.
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// [fCopy] -- Create copy of this array for enumerator?
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// [fDelete] -- Delete this after no longer being used by
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// enumerators?
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//
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// Returns: HRESULT.
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//
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// History: 5-15-94 adams Created
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//
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//----------------------------------------------------------------------------
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HRESULT
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CADsAry::EnumVARIANT(
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size_t cb,
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VARTYPE vt,
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IEnumVARIANT ** ppenum,
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BOOL fCopy,
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BOOL fDelete)
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{
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HRESULT hr;
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ADsAssert(ppenum);
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hr = CEnumVARIANT::Create(cb, this, vt, fCopy, fDelete, ppenum);
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RRETURN(hr);
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}
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//+------------------------------------------------------------------------
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//
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// Member: CADsAry::Deref
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//
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// Synopsis: Returns a pointer to the i'th element of the array. This
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// method is normally called by type-safe methods in derived
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// classes.
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//
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// Arguments: [i]
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//
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// Returns: void *
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//
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// BUGBUG: This function should be inline; however, since nothing is
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// inlined in debug builds, it requires an export, which
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// then doesn't apply in retail builds and breaks the retail
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// build. Near ship time, the def file will be fixed handle
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// inlining.
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//
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//-------------------------------------------------------------------------
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void *
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CADsAry::Deref(size_t cb, int i)
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{
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ADsAssert(i >= 0);
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ADsAssert(i < GetAlloced(cb));
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return ((BYTE *) _pv) + i * cb;
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};
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|
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HRESULT
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CADsPtrAry::EnsureSize(int c)
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{
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return CADsAry::EnsureSize(sizeof(LPVOID), c);
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}
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|
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HRESULT
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CADsPtrAry::Append(void * pv)
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{
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return CADsAry::AppendIndirect(sizeof(void *), &pv);
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}
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|
|
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|
HRESULT
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CADsPtrAry::Insert(int i, void * pv)
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{
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return CADsAry::InsertIndirect(sizeof(void *), i, &pv);
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}
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|
|
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int
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CADsPtrAry::Find(void * pv)
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{
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int i;
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void ** ppv;
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|
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for (i = 0, ppv = (void **) _pv; i < _c; i++, ppv++)
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{
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if (pv == *ppv)
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return i;
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}
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|
|
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return -1;
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}
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|
|
|
|
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void
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CADsPtrAry::Delete(int i)
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{
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CADsAry::Delete(sizeof(void *), i);
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}
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|
|
|
|
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void
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CADsPtrAry::BringToFront(int i)
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{
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CADsAry::BringToFront(sizeof(void *), i);
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}
|
|
|
|
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|
void
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CADsPtrAry::SendToBack(int i)
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|
{
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CADsAry::SendToBack(sizeof(void *), i);
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|
}
|
|
|
|
|
|
HRESULT
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|
CADsPtrAry::Copy(const CADsAry& ary, BOOL fAddRef)
|
|
{
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return CADsAry::Copy(sizeof(void *), ary, fAddRef);
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|
}
|
|
|
|
|
|
HRESULT
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CADsPtrAry::EnumElements(
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REFIID iid,
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void ** ppv,
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BOOL fAddRef,
|
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BOOL fCopy,
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BOOL fDelete)
|
|
{
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return CADsAry::EnumElements(
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sizeof(void *),
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iid,
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ppv,
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fAddRef,
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fCopy,
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fDelete);
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}
|
|
|
|
|
|
HRESULT
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CADsPtrAry::EnumVARIANT(
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VARTYPE vt,
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IEnumVARIANT ** ppenum,
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BOOL fCopy,
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|
BOOL fDelete)
|
|
{
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|
return CADsAry::EnumVARIANT(
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sizeof(void *),
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vt,
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ppenum,
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|
fCopy,
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|
fDelete);
|
|
}
|
|
|