[ViewVC] Diff of: cvs/libcoro/coro.h

Comparing libcoro/coro.h (file contents):
Revision 1.24 by root, Sun Mar 2 16:10:22 2008 UTC vs.
Revision 1.40 by root, Wed Nov 19 02:56:16 2008 UTC

…		…
51	* Use _setjmp instead of setjmp on _XOPEN_SOURCE >= 600.	51	* Use _setjmp instead of setjmp on _XOPEN_SOURCE >= 600.
52	* 2007-05-02 Add assembly versions for x86 and amd64 (to avoid reliance	52	* 2007-05-02 Add assembly versions for x86 and amd64 (to avoid reliance
53	* on SIGUSR2 and sigaltstack in Crossfire).	53	* on SIGUSR2 and sigaltstack in Crossfire).
54	* 2008-01-21 Disable CFI usage on anything but GNU/Linux.	54	* 2008-01-21 Disable CFI usage on anything but GNU/Linux.
55	* 2008-03-02 Switched to 2-clause BSD license with GPL exception.	55	* 2008-03-02 Switched to 2-clause BSD license with GPL exception.
		56	* 2008-04-04 New (but highly unrecommended) pthreads backend.
		57	* 2008-04-24 Reinstate CORO_LOSER (had wrong stack adjustments).
		58	* 2008-10-30 Support assembly method on x86 with and without frame pointer.
		59	* 2008-11-03 Use a global asm statement for CORO_ASM, idea by pippijn.
		60	* 2008-11-05 Hopefully fix misaligned stacks with CORO_ASM/SETJMP.
		61	* 2008-11-07 rbp wasn't saved in CORO_ASM on x86_64.
		62	* introduce coro_destroy, which is a nop except for pthreads.
		63	* speed up CORO_PTHREAD. Do no longer leak threads either.
		64	* coro_create now allows one to create source coro_contexts.
		65	* do not rely on makecontext passing a void * correctly.
		66	* try harder to get _setjmp/_longjmp.
		67	* major code cleanup/restructuring.
		68	* 2008-11-10 the .cfi hacks are no longer needed.
		69	* 2008-11-16 work around a freebsd pthread bug.
		70	* 2008-11-19 define coro_*jmp symbols for easier porting.
56	*/	71	*/
57		72
58	#ifndef CORO_H	73	#ifndef CORO_H
59	#define CORO_H	74	#define CORO_H
60		75
…		…
102	* SGI's version of Microsoft's NT ;)	117	* SGI's version of Microsoft's NT ;)
103	*	118	*
104	* -DCORO_ASM	119	* -DCORO_ASM
105	*	120	*
106	* Handcoded assembly, known to work only on a few architectures/ABI:	121	* Handcoded assembly, known to work only on a few architectures/ABI:
107	* ELF Linux x86 && amd64 when gcc is used and optimisation is turned on.	122	* GCC + x86/IA32 and amd64/x86_64 + GNU/Linux and a few BSDs.
		123	*
		124	* -DCORO_PTHREAD
		125	*
		126	* Use the pthread API. You have to provide <pthread.h> and -lpthread.
		127	* This is likely the slowest backend, and it also does not support fork(),
		128	* so avoid it at all costs.
108	*	129	*
109	* If you define neither of these symbols, coro.h will try to autodetect	130	* If you define neither of these symbols, coro.h will try to autodetect
110	* the model. This currently works for CORO_LOSER only. For the other	131	* the model. This currently works for CORO_LOSER only. For the other
111	* alternatives you should check (e.g. using autoconf) and define the	132	* alternatives you should check (e.g. using autoconf) and define the
112	* following symbols: HAVE_UCONTEXT_H / HAVE_SETJMP_H / HAVE_SIGALTSTACK.	133	* following symbols: HAVE_UCONTEXT_H / HAVE_SETJMP_H / HAVE_SIGALTSTACK.
…		…
127	/*	148	/*
128	* This function creates a new coroutine. Apart from a pointer to an	149	* This function creates a new coroutine. Apart from a pointer to an
129	* uninitialised coro_context, it expects a pointer to the entry function	150	* uninitialised coro_context, it expects a pointer to the entry function
130	* and the single pointer value that is given to it as argument.	151	* and the single pointer value that is given to it as argument.
131	*	152	*
132	* Allocating/deallocating the stack is your own responsibility, so there is	153	* Allocating/deallocating the stack is your own responsibility.
133	* no coro_destroy function.	154	*
		155	* As a special case, if coro, arg, sptr and ssize are all zero,
		156	* then an "empty" coro_context will be created that is suitable
		157	* as an initial source for coro_transfer.
		158	*
		159	* This function is not reentrant, but putting a mutex around it
		160	* will work.
134	*/	161	*/
135	void coro_create (coro_context ctx, / an uninitialised coro_context */	162	void coro_create (coro_context ctx, / an uninitialised coro_context */
136	coro_func coro, /* the coroutine code to be executed */	163	coro_func coro, /* the coroutine code to be executed */
137	void arg, / a single pointer passed to the coro */	164	void arg, / a single pointer passed to the coro */
138	void sptr, / start of stack area */	165	void sptr, / start of stack area */
…		…
140		167
141	/*	168	/*
142	* The following prototype defines the coroutine switching function. It is	169	* The following prototype defines the coroutine switching function. It is
143	* usually implemented as a macro, so watch out.	170	* usually implemented as a macro, so watch out.
144	*	171	*
		172	* This function is thread-safe and reentrant.
		173	*/
		174	#if 0
145	void coro_transfer(coro_context prev, coro_context next);	175	void coro_transfer (coro_context prev, coro_context next);
		176	#endif
		177
		178	/*
		179	* The following prototype defines the coroutine destroy function. It is
		180	* usually implemented as a macro, so watch out. It also serves
		181	* no purpose unless you want to use the CORO_PTHREAD backend,
		182	* where it is used to clean up the thread. You are responsible
		183	* for freeing the stack and the context itself.
146	*/	184	*
		185	* This function is thread-safe and reentrant.
		186	*/
		187	#if 0
		188	void coro_destroy (coro_context *ctx);
		189	#endif
147		190
148	/*	191	/*
149	* That was it. No other user-visible functions are implemented here.	192	* That was it. No other user-visible functions are implemented here.
150	*/	193	*/
151		194
152	/*****************************************************************************/	195	/*****************************************************************************/
153		196
154	#if !defined(CORO_LOSER) && !defined(CORO_UCONTEXT) \	197	#if !defined(CORO_LOSER) && !defined(CORO_UCONTEXT) \
155	&& !defined(CORO_SJLJ) && !defined(CORO_LINUX) \	198	&& !defined(CORO_SJLJ) && !defined(CORO_LINUX) \
156	&& !defined(CORO_IRIX) && !defined(CORO_ASM)	199	&& !defined(CORO_IRIX) && !defined(CORO_ASM) \
		200	&& !defined(CORO_PTHREAD)
157	# if defined(WINDOWS)	201	# if defined(WINDOWS)
158	# define CORO_LOSER 1 /* you don't win with windoze */	202	# define CORO_LOSER 1 /* you don't win with windoze */
159	# elif defined(__linux) && (defined(__x86) \|\| defined (__amd64))	203	# elif defined(__linux) && (defined(__x86) \|\| defined (__amd64))
160	# define CORO_ASM 1	204	# define CORO_ASM 1
161	# elif defined(HAVE_UCONTEXT_H)	205	# elif defined(HAVE_UCONTEXT_H)
…		…
176	struct coro_context {	220	struct coro_context {
177	ucontext_t uc;	221	ucontext_t uc;
178	};	222	};
179		223
180	# define coro_transfer(p,n) swapcontext (&((p)->uc), &((n)->uc))	224	# define coro_transfer(p,n) swapcontext (&((p)->uc), &((n)->uc))
		225	# define coro_destroy(ctx) (void *)(ctx)
181		226
182	#elif CORO_SJLJ \|\| CORO_LOSER \|\| CORO_LINUX \|\| CORO_IRIX	227	#elif CORO_SJLJ \|\| CORO_LOSER \|\| CORO_LINUX \|\| CORO_IRIX
183		228
184	# if defined(CORO_LINUX) && !defined(_GNU_SOURCE)	229	# if defined(CORO_LINUX) && !defined(_GNU_SOURCE)
185	# define _GNU_SOURCE /* for linux libc */	230	# define _GNU_SOURCE /* for linux libc */
186	# endif	231	# endif
187		232
		233	# if !CORO_LOSER
		234	# include <unistd.h>
		235	# endif
		236
		237	/* solaris is hopelessly borked, it expands _XOPEN_UNIX to nothing */
		238	# if __sun
		239	# undef _XOPEN_UNIX
		240	# define _XOPEN_UNIX 1
		241	# endif
		242
188	# include <setjmp.h>	243	# include <setjmp.h>
189		244
190	struct coro_context {	245	# if _XOPEN_UNIX > 0 \|\| defined (_setjmp)
191	jmp_buf env;	246	# define coro_jmp_buf jmp_buf
192	};	247	# define coro_setjmp(env) _setjmp (env)
193		248	# define coro_longjmp(env) _longjmp ((env), 1)
194	# if CORO_LINUX \|\| (_XOPEN_SOURCE >= 600)	249	# elif CORO_LOSER
195	# define coro_transfer(p,n) do { if (!_setjmp ((p)->env)) _longjmp ((n)->env, 1); } while (0)	250	# define coro_jmp_buf jmp_buf
		251	# define coro_setjmp(env) setjmp (env)
		252	# define coro_longjmp(env) longjmp ((env), 1)
196	# else	253	# else
		254	# define coro_jmp_buf sigjmp_buf
		255	# define coro_setjmp(env) sigsetjmp (env, 0)
		256	# define coro_longjmp(env) siglongjmp ((env), 1)
		257	# endif
		258
		259	struct coro_context {
		260	coro_jmp_buf env;
		261	};
		262
197	# define coro_transfer(p,n) do { if (!setjmp ((p)->env)) longjmp ((n)->env, 1); } while (0)	263	# define coro_transfer(p,n) do { if (!coro_setjmp ((p)->env)) coro_longjmp ((n)->env); } while (0)
198	# endif	264	# define coro_destroy(ctx) (void *)(ctx)
199		265
200	#elif CORO_ASM	266	#elif CORO_ASM
201		267
202	struct coro_context {	268	struct coro_context {
203	volatile void **sp;	269	void *sp; / must be at offset 0 */
204	};	270	};
205		271
206	void __attribute__ ((__noinline__, __fastcall__))	272	void __attribute__ ((__noinline__, __regparm__(2)))
207	coro_transfer(coro_context prev, coro_context next);	273	coro_transfer (coro_context prev, coro_context next);
208		274
209	#endif	275	# define coro_destroy(ctx) (void *)(ctx)
210		276
211	#endif	277	#elif CORO_PTHREAD
212		278
		279	# include <pthread.h>
		280
		281	extern pthread_mutex_t coro_mutex;
		282
		283	struct coro_context {
		284	pthread_cond_t cv;
		285	pthread_t id;
		286	};
		287
		288	void coro_transfer (coro_context prev, coro_context next);
		289	void coro_destroy (coro_context *ctx);
		290
		291	#endif
		292
		293	#endif
		294

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Comparing libcoro/coro.h (file contents): Revision 1.24 by root, Sun Mar 2 16:10:22 2008 UTC vs. Revision 1.40 by root, Wed Nov 19 02:56:16 2008 UTC

Diff Legend

Comparing libcoro/coro.h (file contents):
Revision 1.24 by root, Sun Mar 2 16:10:22 2008 UTC vs.
Revision 1.40 by root, Wed Nov 19 02:56:16 2008 UTC