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pipe.h
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pipe.h
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/* pipe.h - The public pipe interface. This is the only file that must be
* included to begin using the pipe.
*
* The MIT License
* Copyright (c) 2011 Clark Gaebel <cg.wowus.cg@gmail.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#pragma once /* If your compiler doesn't support this construct, feel free to
use include guards. Most do, so I'm keeping it in. */
#include <stddef.h>
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __GNUC__
#define PURE __attribute__((pure))
#define MALLOC_LIKE __attribute__((malloc))
#define NO_NULL_POINTERS __attribute__((nonnull))
#define WARN_UNUSED_RESULT __attribute__((warn_unused_result))
#elif _WIN32
/* Feel free to fill in results for more compilers =) */
#define PURE
#define MALLOC_LIKE
#define NO_NULL_POINTERS
#define WARN_UNUSED_RESULT
#if (_MSC_VER == 1900)
#define restrict __restrict
#endif
#endif
/*
* A pipe is a collection of elements, enqueued and dequeued in a FIFO pattern.
* The beauty of it lies in that pushing and popping may be done in multiple
* threads, with no need for external synchronization. This makes it ideal for
* assisting in a producer/consumer concurrency model.
*
* pipe_t
*
* If there is a valid pipe_t in circulation, you may create producer_t and
* consumer_t handles from it. It also allows you to run maintainance tasks
* such as pipe_reserve.
*
* Sample code:
*
* #include "pipe.h"
*
* #define THREADS 4
*
* pipe_t* p = pipe_new(sizeof(int), 0);
*
* pipe_producer_t* pros[THREADS] = { pipe_producer_new(p) };
* pipe_consumer_t* cons[THREADS] = { pipe_consumer_new(p) };
*
* pipe_free(p);
*
* // At this point, you can freely use the producer and consumer handles.
*
* // Then clean them up when you're done!
* for(int i = 0; i < THREADS; ++i)
* {
* pipe_producer_free(pros[i]);
* pipe_consumer_free(cons[i]);
* }
*
* pipe_producer_t
*
* pipe_producer_t is used for pushing into the pipe. It is recommended that
* each thread has their own (as it keeps ownership semantics simple); however,
* it is not mandatory. As long as there is at least one pipe_producer_t in
* circulation, consumers will block until they can fill their buffers. A
* pipe_t also counts as a pipe_producer_t, since valid pipe_producer_t handles
* can be created from it.
*
* pipe_consumer_t
*
* pipe_consumer_t is used for popping from the pipe. It is recommended that
* each thread has their own (as it keeps ownership semantics simple), however,
* it is not mandatory. As long as there is at least one pipe_producer_t or
* pipe_t in circulation, consumers will block until the buffer can be filled.
* A pipe_t also counts as a pipe_consumer_t, since valid pipe_consumer_t
* handles can be created from it.
*
* Sample code:
*
* #include "pipe.h"
*
* #define BUFSIZE 1024
*
* void do_stuff(pipe_consumer_t* p)
* {
* int buf[BUFSIZE];
* size_t bytes_read;
*
* while((bytes_read = pipe_pop(p, buf, BUFSIZE)))
* process(buf, bytes_read);
*
* pipe_consumer_free(p);
* }
*
* Try and keep the pipe_t allocated for as short a time as possible. This
* means you should make all your producer and consumer handles at the start,
* deallocate the pipe_t, then use producers and consumers for the duration
* of your task.
*
* pipe_generic_t
*
* Generic pipe pointers can be created from pipe_t's, producer_t's, or
* consumer_t's with the PIPE_GENERIC macro. This new pointer can then be used
* as a parameter to any function requiring it, allowing certain operations to
* be performed regardless of the type.
*
* Guarantees:
*
* If, in a single thread, elements are pushed in the order [a, b, c, d, ...],
* they will be popped in that order. Note that they may not necessarily be
* popped together.
*
* The underlying pipe will exist until all the handles have been freed.
*
* All functions are re-entrant. Synchronization is handled internally.
*/
typedef struct pipe_t pipe_t;
typedef struct pipe_producer_t pipe_producer_t;
typedef struct pipe_consumer_t pipe_consumer_t;
typedef struct pipe_generic_t pipe_generic_t;
#define PIPE_GENERIC(handle) ((pipe_generic_t*)(handle))
/*
* Initializes a new pipe storing elements of size `elem_size'. A pusher handle
* is returned, from which you may push elements into the pipe.
*
* If `limit' is 0, the pipe has no maximum size. If it is nonzero, the pipe
* will never have more than `limit' elements in it at any time. In most cases,
* you want this to be 0. However, limits help prevent an explosion of memory
* usage in cases where production is significantly faster than consumption.
*/
pipe_t* MALLOC_LIKE WARN_UNUSED_RESULT pipe_new(size_t elem_size, size_t limit);
/*
* Makes a production handle to the pipe, allowing push operations. This
* function is extremely cheap; it doesn't allocate memory.
*/
pipe_producer_t* NO_NULL_POINTERS WARN_UNUSED_RESULT pipe_producer_new(pipe_t*);
/*
* Makes a consumption handle to the pipe, allowing pop operations. This
* function is extremely cheap; it doesn't allocate memory.
*/
pipe_consumer_t* NO_NULL_POINTERS WARN_UNUSED_RESULT pipe_consumer_new(pipe_t*);
/*
* If you call *_new, you must call the corresponding *_free. Failure to do so
* may result in resource leaks, undefined behavior, and spontaneous combustion.
*/
void pipe_free(pipe_t*);
void pipe_producer_free(pipe_producer_t*);
void pipe_consumer_free(pipe_consumer_t*);
/* Copies `count' elements from `elems' into the pipe. */
void NO_NULL_POINTERS pipe_push(pipe_producer_t*, const void* elems, size_t count);
/*
* Copies `count' elements from `elems' into the pipe.
*
* WARNING: You probably want pipe_push.
*
* If the pipe is full, this version of pipe_push will automatically pop enough
* elements from the front of the queue to make room for the new elements in
* the pipe.
*
* Disabled unless someone tells me they want it. Enabling this function voids
* your warranty.
*/
/*
void NO_NULL_POINTERS pipe_push_clobber(pipe_producer_t*,
const void* elems, size_t count);
*/
/*
* Tries to pop `count' elements out of the pipe and into `target', returning
* the number of elements successfully copied. This function will block until:
*
* a) `target' has been filled with `count' elements, or
* b) all producer_t handles have been freed (including the parent pipe_t).
*
* If this function returns 0, there will be no more elements coming in. Every
* subsequent call will return 0.
*
* The difference between this function and pipe_pop_eager is that this one will
* do its best to fill `target' before returning whereas pipe_pop_eagar will
* return as soon as any elements are available.
*/
size_t NO_NULL_POINTERS WARN_UNUSED_RESULT pipe_pop(pipe_consumer_t*,
void* target,
size_t count);
/*
* Tries to pop `count' elements out of the pipe and into `target', returning
* the number of elements successfully copied. This function will block until:
*
* a) there is at least one element in the pipe.
* b) all producer_t handles have been freed (including the parent pipe_t).
*
* If this function returns 0, there will be no more elements coming in. Every
* subsequent call will return 0.
*
* The difference between this function and pipe_pop is that this one will
* return as soon as any elements are available, whereas pipe_pop will do its
* best to fill `target' first.
*/
size_t NO_NULL_POINTERS WARN_UNUSED_RESULT pipe_pop_eager(pipe_consumer_t*,
void* target,
size_t count);
/*
* Modifies the pipe to have room for at least `count' elements. If more room
* is already allocated, the call does nothing. This can be useful if requests
* tend to come in bursts.
*
* The default minimum is 32 elements. To reset the reservation size to the
* default, set count to 0.
*/
void NO_NULL_POINTERS pipe_reserve(pipe_generic_t*, size_t count);
/*
* Determines the size of a pipe's elements. This can be used for generic
* pipe-processing algorithms to reserve appropriately-sized buffers.
*/
size_t PURE NO_NULL_POINTERS pipe_elem_size(pipe_generic_t*);
/*
* Use this to run the pipe self-test. It will call abort() if anything is
* wrong. This is usually unnecessary. If this is never called, pipe_test.c
* does not need to be linked.
*/
void pipe_run_test_suite(void);
#undef WARN_UNUSED_RESULT
#undef NO_NULL_POINTERS
#undef MALLOC_LIKE
#undef PURE
#ifdef __cplusplus
}
#endif
/* vim: set et ts=4 sw=4 softtabstop=4 textwidth=80: */