mirror of
https://github.com/rn10950/RetroZilla.git
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410 lines
21 KiB
C++
410 lines
21 KiB
C++
// %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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// % Project : GUSI - Grand Unified Socket Interface
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// % File : GUSIBuffer.nw - Buffering for GUSI
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// % Author : Matthias Neeracher
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// % Language : C++
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// %
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// % $Log: GUSIBuffer.h,v $
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// % Revision 1.1 2001/03/11 22:33:31 sgehani%netscape.com
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// % First Checked In.
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// %
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// % Revision 1.20 2001/01/17 08:33:14 neeri
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// % Need to set fOldBuffer to nil after deleting
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// %
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// % Revision 1.19 2000/10/16 04:34:22 neeri
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// % Releasing 2.1.2
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// %
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// % Revision 1.18 2000/05/23 06:53:14 neeri
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// % Improve formatting
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// %
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// % Revision 1.17 2000/03/15 07:22:06 neeri
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// % Enforce alignment choices
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// %
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// % Revision 1.16 1999/09/09 07:19:18 neeri
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// % Fix read-ahead switch-off
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// %
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// % Revision 1.15 1999/08/26 05:44:59 neeri
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// % Fixes for literate edition of source code
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// %
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// % Revision 1.14 1999/06/30 07:42:05 neeri
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// % Getting ready to release 2.0b3
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// %
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// % Revision 1.13 1999/05/30 03:09:29 neeri
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// % Added support for MPW compilers
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// %
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// % Revision 1.12 1999/03/17 09:05:05 neeri
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// % Added GUSITimer, expanded docs
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// %
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// % Revision 1.11 1998/11/22 23:06:50 neeri
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// % Releasing 2.0a4 in a hurry
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// %
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// % Revision 1.10 1998/10/25 11:28:43 neeri
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// % Added MSG_PEEK support, recursive locks.
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// %
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// % Revision 1.9 1998/08/02 12:31:36 neeri
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// % Another typo
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// %
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// % Revision 1.8 1998/08/02 11:20:06 neeri
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// % Fixed some typos
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// %
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// % Revision 1.7 1998/01/25 20:53:51 neeri
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// % Engine implemented, except for signals & scheduling
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// %
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// % Revision 1.6 1997/11/13 21:12:08 neeri
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// % Fall 1997
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// %
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// % Revision 1.5 1996/12/22 19:57:55 neeri
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// % TCP streams work
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// %
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// % Revision 1.4 1996/12/16 02:16:02 neeri
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// % Add Size(), make inlines inline, use BlockMoveData
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// %
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// % Revision 1.3 1996/11/24 13:00:26 neeri
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// % Fix comment leaders
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// %
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// % Revision 1.2 1996/11/24 12:52:05 neeri
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// % Added GUSIPipeSockets
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// %
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// % Revision 1.1.1.1 1996/11/03 02:43:32 neeri
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// % Imported into CVS
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// %
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// %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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//
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// \chapter{Buffering for GUSI}
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//
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// This section defines four classes that handle buffering for GUSI:
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// [[GUSIScatterer]], [[GUSIGatherer]], and their common ancestor
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// [[GUSIScattGath]] convert between [[iovecs]] and simple buffers in the
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// absence of specialized communications routines. A [[GUSIRingBuffer]]
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// mediates between a producer and a consumer, one of which is typically
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// normal code and the other interrupt level code.
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//
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//
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// <GUSIBuffer.h>=
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#ifndef _GUSIBuffer_
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#define _GUSIBuffer_
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#ifdef GUSI_SOURCE
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#include <sys/types.h>
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#include <sys/uio.h>
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#include <MacTypes.h>
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#include "GUSIDiag.h"
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#include "GUSIBasics.h"
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#include <ConditionalMacros.h>
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#if PRAGMA_STRUCT_ALIGN
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#pragma options align=native
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#endif
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// \section{Definition of scattering/gathering}
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//
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// A [[GUSIScattGath]] translates between an array of [[iovecs]] and a simple buffer,
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// allocating scratch space if necessary.
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//
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// <Definition of class [[GUSIScattGath]]>=
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class GUSIScattGath {
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protected:
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// On constructing a [[GUSIScattGath]], we pass an array of [[iovecs]]. For the
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// simpler functions, a variant with a single [[buffer]] and [[length]] is also
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// available.
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//
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// <Constructor and destructor for [[GUSIScattGath]]>=
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GUSIScattGath(const iovec *iov, int count, bool gather);
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GUSIScattGath(void * buffer, size_t length, bool gather);
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virtual ~GUSIScattGath();
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public:
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// The [[iovec]], the buffer and its length are then available for public scrutinity.
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// Copy constructor and assignment both are a bit nontrivial.
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//
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// <Public interface to [[GUSIScattGath]]>=
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const iovec * IOVec() const;
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int Count() const;
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void * Buffer() const;
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operator void *() const;
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int Length() const;
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int SetLength(int len) const;
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void operator=(const GUSIScattGath & other);
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GUSIScattGath(const GUSIScattGath & other);
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private:
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// \section{Implementation of scattering/gathering}
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//
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// A [[GUSIScattGath]] always consists of [[fIo]], an array of [[iovecs]], [[fCount]],
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// the number of sections in the array, and [[fLen]], the total size of the data area.
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// If [[fCount]] is 1, [[fBuf]] will be a copy of the pointer to the single section. If
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// [[fCount]] is greater than 1, [[fScratch]] will contain a [[Handle]] to a scratch
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// area of size [[len]] and [[fBuf]] will contain [[*scratch]]. If the object was
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// constructed without providing an [[iovec]] array, [[fTrivialIo]] will be set up
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// to hold one.
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//
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// <Privatissima of [[GUSIScattGath]]>=
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const iovec * fIo;
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iovec fTrivialIo;
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mutable int fCount;
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mutable Handle fScratch;
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mutable void * fBuf;
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mutable int fLen;
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bool fGather;
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};
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// A [[GUSIScatterer]] distributes the contents of a buffer over an array of
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// [[iovecs]].
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//
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// <Definition of class [[GUSIScatterer]]>=
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class GUSIScatterer : public GUSIScattGath {
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public:
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GUSIScatterer(const iovec *iov, int count)
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: GUSIScattGath(iov, count, false) {}
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GUSIScatterer(void * buffer, size_t length)
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: GUSIScattGath(buffer, length, false) {}
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GUSIScatterer & operator=(const GUSIScatterer & other)
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{ *static_cast<GUSIScattGath *>(this) = other; return *this; }
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};
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// A [[GUSIGatherer]] collects the contents of an array of [[iovecs]] into a single
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// buffer.
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//
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// <Definition of class [[GUSIGatherer]]>=
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class GUSIGatherer : public GUSIScattGath {
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public:
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GUSIGatherer(const struct iovec *iov, int count)
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: GUSIScattGath(iov, count, true) {}
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GUSIGatherer(const void * buffer, size_t length)
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: GUSIScattGath(const_cast<void *>(buffer), length, true) {}
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GUSIGatherer & operator=(const GUSIGatherer & other)
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{ *static_cast<GUSIScattGath *>(this) = other; return *this; }
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};
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// \section{Definition of ring buffering}
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//
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// A [[GUSIRingBuffer]] typically has on one side a non-preeemptive piece of code
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// and on the other side a piece of interrupt code. To transfer data from and to
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// the buffer, two interfaces are available: A direct interface that transfers
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// memory, and an indirect interface that allocates memory regions and then
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// has OS routines transfer data from or to them
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//
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// <Definition of class [[GUSIRingBuffer]]>=
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class GUSIRingBuffer {
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public:
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// On construction of a [[GUSIRingBuffer]], a buffer of the specified size is
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// allocated and not released until destruction. [[operator void*]] may be used
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// to determine whether construction was successful.
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//
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// <Constructor and destructor for [[GUSIRingBuffer]]>=
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GUSIRingBuffer(size_t bufsiz);
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~GUSIRingBuffer();
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operator void*();
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// The direct interface to [[GUSIRingBuffer]] is straightforward: [[Produce]] copies
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// memory into the buffer, [[Consume]] copies memory from the buffer, [[Free]]
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// determines how much space there is for [[Produce]] and [[Valid]] determines
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// how much space there is for [[Consume]].
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//
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// <Direct interface for [[GUSIRingBuffer]]>=
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void Produce(void * from, size_t & len);
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void Produce(const GUSIGatherer & gather, size_t & len, size_t & offset);
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void Produce(const GUSIGatherer & gather, size_t & len);
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void Consume(void * to, size_t & len);
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void Consume(const GUSIScatterer & scatter, size_t & len, size_t & offset);
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void Consume(const GUSIScatterer & scatter, size_t & len);
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size_t Free();
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size_t Valid();
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// [[ProduceBuffer]] tries to find in the ring buffer a contiguous free block of
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// memory of the specified size [[len]] or otherwise the biggest available free
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// block, returns a pointer to it and sets [[len]] to its length. [[ValidBuffer]]
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// specifies that the next [[len]] bytes of the ring buffer now contain valid data.
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//
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// [[ConsumeBuffer]] returns a pointer to the next valid byte and sets [[len]] to
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// the minimum of the number of contiguous valid bytes and the value of len on
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// entry. [[FreeBuffer]] specifies that the next [[len]] bytes of the ring
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// buffer were consumed and are no longer needed.
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//
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// <Indirect interface for [[GUSIRingBuffer]]>=
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void * ProduceBuffer(size_t & len);
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void * ConsumeBuffer(size_t & len);
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void ValidBuffer(void * buffer, size_t len);
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void FreeBuffer(void * buffer, size_t len);
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// Before the nonpreemptive partner changes any of the buffer's data structures,
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// the [[GUSIRingBuffer]] member functions call [[Lock]], and after the change is
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// complete, they call [[Release]]. An interrupt level piece of code before
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// changing any data structures has to determine whether the buffer is locked by
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// calling [[Locked]]. If the buffer is locked or otherwise in an unsuitable state,
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// the code can specify a procedure to be called during the next [[Release]] by
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// calling [[Defer]]. A deferred procedure should call [[ClearDefer]] to avoid
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// getting activated again at the next opportunity.
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//
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// <Synchronization support for [[GUSIRingBuffer]]>=
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void Lock();
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void Release();
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bool Locked();
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typedef void (*Deferred)(void *);
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void Defer(Deferred def, void * ar);
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void ClearDefer();
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// It is possible to switch buffer sizes during the existence of a buffer, but we
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// have to be somewhat careful, since some asynchronous call may still be writing
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// into the old buffer. [[PurgeBuffers]], called at safe times, cleans up old
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// buffers.
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//
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// <Buffer switching for [[GUSIRingBuffer]]>=
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void SwitchBuffer(size_t bufsiz);
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size_t Size();
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void PurgeBuffers();
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// Sometimes, it's necessary to do nondestructive reads, a task complex enough to
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// warrant its own class.
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//
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// <Definition of class [[GUSIRingBuffer::Peeker]]>=
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class Peeker {
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public:
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Peeker(GUSIRingBuffer & buffer);
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~Peeker();
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void Peek(void * to, size_t & len);
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void Peek(const GUSIScatterer & scatter, size_t & len);
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private:
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// A [[GUSIRingBuffer::Peeker]] has to keep its associated [[GUSIRingBuffer]] locked during
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// its entire existence.
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//
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// <Privatissima of [[GUSIRingBuffer::Peeker]]>=
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GUSIRingBuffer & fTopBuffer;
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GUSIRingBuffer * fCurBuffer;
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Ptr fPeek;
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// The core routine for reading is [[PeekBuffer]] which automatically advances the
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// peeker as well.
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//
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// <Privatissima of [[GUSIRingBuffer::Peeker]]>=
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void * PeekBuffer(size_t & len);
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};
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friend class Peeker;
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void Peek(void * to, size_t & len);
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void Peek(const GUSIScatterer & scatter, size_t & len);
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private:
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// \section{Implementation of ring buffering}
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//
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// The buffer area of a ring buffer extends between [[fBuffer]] and [[fEnd]]. [[fValid]]
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// contains the number of valid bytes, while [[fFree]] and [[fSpare]] (Whose purpose
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// will be explained later) sum up to the number of free bytes. [[fProduce]] points at the
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// next free byte, while [[fConsume]] points at the next valid byte. [[fInUse]]
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// indicates that an asynchronous call might be writing into the buffer.
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//
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// <Privatissima of [[GUSIRingBuffer]]>=
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Ptr fBuffer;
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Ptr fEnd;
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Ptr fConsume;
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Ptr fProduce;
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size_t fFree;
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size_t fValid;
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size_t fSpare;
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bool fInUse;
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// The relationships between the various pointers are captured by [[Invariant]] which
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// uses the auxiliary function [[Distance]] to determine the distance between two
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// pointers in the presence of wrap around areas.
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//
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// <Privatissima of [[GUSIRingBuffer]]>=
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bool Invariant();
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size_t Distance(Ptr from, Ptr to);
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// The lock mechanism relies on [[fLocked]], and the deferred procedure and its argument
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// are stored in [[fDeferred]] and [[fDeferredArg]].
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//
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// <Privatissima of [[GUSIRingBuffer]]>=
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int fLocked;
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Deferred fDeferred;
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void * fDeferredArg;
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// We only switch the next time the buffer is empty, so we are prepared to create
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// the new buffer dynamically and forward requests to it for a while.
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//
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// <Privatissima of [[GUSIRingBuffer]]>=
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GUSIRingBuffer * fNewBuffer;
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GUSIRingBuffer * fOldBuffer;
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void ObsoleteBuffer();
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// The scatter/gather variants of [[Produce]] and [[Consume]] rely on a common
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// strategy.
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//
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// <Privatissima of [[GUSIRingBuffer]]>=
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void IterateIOVec(const GUSIScattGath & sg, size_t & len, size_t & offset, bool produce);
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};
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#if PRAGMA_STRUCT_ALIGN
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#pragma options align=reset
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#endif
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// Clients need readonly access to the buffer address and read/write access to the length.
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// [[operator void*]] server to check whether the [[GUSIScattGath]] was constructed
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// successfully.
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//
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// <Inline member functions for class [[GUSIScattGath]]>=
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inline const iovec * GUSIScattGath::IOVec() const
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{ return fIo; }
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inline int GUSIScattGath::Count() const
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{ return fCount; }
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inline GUSIScattGath::operator void *() const
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{ return Buffer(); }
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inline int GUSIScattGath::Length() const
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{ return fLen; }
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inline int GUSIScattGath::SetLength(int len) const
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{ return GUSI_MUTABLE(GUSIScattGath, fLen) = len; }
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// <Inline member functions for class [[GUSIRingBuffer]]>=
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inline void GUSIRingBuffer::Produce(const GUSIGatherer & gather, size_t & len, size_t & offset)
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{
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IterateIOVec(gather, len, offset, true);
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}
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inline void GUSIRingBuffer::Consume(const GUSIScatterer & scatter, size_t & len, size_t & offset)
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{
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IterateIOVec(scatter, len, offset, false);
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}
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inline void GUSIRingBuffer::Produce(const GUSIGatherer & gather, size_t & len)
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{
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size_t offset = 0;
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IterateIOVec(gather, len, offset, true);
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}
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inline void GUSIRingBuffer::Consume(const GUSIScatterer & scatter, size_t & len)
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{
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size_t offset = 0;
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IterateIOVec(scatter, len, offset, false);
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}
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// The lock support is rather straightforward.
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//
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// <Inline member functions for class [[GUSIRingBuffer]]>=
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inline void GUSIRingBuffer::Lock() { ++fLocked; }
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inline bool GUSIRingBuffer::Locked() { return (fLocked!=0); }
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inline void GUSIRingBuffer::ClearDefer() { fDeferred = nil; }
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inline void GUSIRingBuffer::Release()
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{
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GUSI_CASSERT_INTERNAL(fLocked > 0);
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if (--fLocked <= 0 && fDeferred)
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fDeferred(fDeferredArg);
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}
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inline void GUSIRingBuffer::Defer(Deferred def, void * ar)
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{
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fDeferred = def;
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fDeferredArg = ar;
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}
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// The size is stored only implicitely.
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//
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// <Inline member functions for class [[GUSIRingBuffer]]>=
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inline size_t GUSIRingBuffer::Size() { return fEnd - fBuffer; }
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// <Inline member functions for class [[GUSIRingBuffer]]>=
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inline void GUSIRingBuffer::Peek(void * to, size_t & len)
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{
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Peeker peeker(*this);
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peeker.Peek(to, len);
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}
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inline void GUSIRingBuffer::Peek(const GUSIScatterer & scatter, size_t & len)
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{
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Peeker peeker(*this);
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peeker.Peek(scatter, len);
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}
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#endif /* GUSI_SOURCE */
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#endif /* _GUSIBuffer_ */
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