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/cvs/Coro/Coro/State.xs

Comparing Coro/Coro/State.xs (file contents):
Revision 1.211 by root, Wed Oct 10 03:37:58 2007 UTC vs.
Revision 1.297 by root, Tue Nov 18 11:04:42 2008 UTC

…		…
4	#define PERL_EXT	4	#define PERL_EXT
5		5
6	#include "EXTERN.h"	6	#include "EXTERN.h"
7	#include "perl.h"	7	#include "perl.h"
8	#include "XSUB.h"	8	#include "XSUB.h"
		9	#include "perliol.h"
9		10
10	#include "patchlevel.h"	11	#include "patchlevel.h"
11		12
12	#include <stdio.h>	13	#include <stdio.h>
13	#include <errno.h>	14	#include <errno.h>
14	#include <assert.h>	15	#include <assert.h>
		16
		17	#ifdef WIN32
		18	# undef setjmp
		19	# undef longjmp
		20	# undef _exit
		21	# define setjmp _setjmp // deep magic, don't ask
		22	#else
15	#include <inttypes.h> /* portable stdint.h */	23	# include <inttypes.h> /* most portable stdint.h */
		24	#endif
16		25
17	#ifdef HAVE_MMAP	26	#ifdef HAVE_MMAP
18	# include <unistd.h>	27	# include <unistd.h>
19	# include <sys/mman.h>	28	# include <sys/mman.h>
20	# ifndef MAP_ANONYMOUS	29	# ifndef MAP_ANONYMOUS
…		…
37	# define BOOT_PAGESIZE (void)0	46	# define BOOT_PAGESIZE (void)0
38	#endif	47	#endif
39		48
40	#if CORO_USE_VALGRIND	49	#if CORO_USE_VALGRIND
41	# include <valgrind/valgrind.h>	50	# include <valgrind/valgrind.h>
42	# define REGISTER_STACK(cctx,start,end) (cctx)->valgrind_id = VALGRIND_STACK_REGISTER ((start), (end))
43	#else
44	# define REGISTER_STACK(cctx,start,end)
45	#endif	51	#endif
46		52
47	/* the maximum number of idle cctx that will be pooled */	53	/* the maximum number of idle cctx that will be pooled */
48	#define MAX_IDLE_CCTX 8	54	static int cctx_max_idle = 4;
49		55
50	#define PERL_VERSION_ATLEAST(a,b,c) \	56	#define PERL_VERSION_ATLEAST(a,b,c) \
51	(PERL_REVISION > (a) \	57	(PERL_REVISION > (a) \
52	|| (PERL_REVISION == (a) \	58	|| (PERL_REVISION == (a) \
53	&& (PERL_VERSION > (b) \	59	&& (PERL_VERSION > (b) \
…		…
72	# ifndef IS_PADCONST	78	# ifndef IS_PADCONST
73	# define IS_PADCONST(v) 0	79	# define IS_PADCONST(v) 0
74	# endif	80	# endif
75	#endif	81	#endif
76		82
		83	/* 5.11 */
		84	#ifndef CxHASARGS
		85	# define CxHASARGS(cx) (cx)->blk_sub.hasargs
		86	#endif
		87
		88	/* 5.10.0 */
		89	#ifndef SvREFCNT_inc_NN
		90	# define SvREFCNT_inc_NN(sv) SvREFCNT_inc (sv)
		91	#endif
		92
		93	/* 5.8.8 */
		94	#ifndef GV_NOTQUAL
		95	# define GV_NOTQUAL 0
		96	#endif
		97	#ifndef newSV
		98	# define newSV(l) NEWSV(0,l)
		99	#endif
		100	#ifndef CvISXSUB_on
		101	# define CvISXSUB_on(cv) (void)cv
		102	#endif
		103
77	/* 5.8.7 */	104	/* 5.8.7 */
78	#ifndef SvRV_set	105	#ifndef SvRV_set
79	# define SvRV_set(s,v) SvRV(s) = (v)	106	# define SvRV_set(s,v) SvRV(s) = (v)
80	#endif	107	#endif
81		108
82	/* 5.8.8 */
83	#ifndef GV_NOTQUAL
84	# define GV_NOTQUAL 0
85	#endif
86	#ifndef newSV
87	# define newSV(l) NEWSV(0,l)
88	#endif
89
90	#if !__i386 && !__x86_64 && !__powerpc && !__m68k && !__alpha && !__mips && !__sparc64	109	#if !__i386 && !__x86_64 && !__powerpc && !__m68k && !__alpha && !__mips && !__sparc64
91	# undef CORO_STACKGUARD	110	# undef CORO_STACKGUARD
92	#endif	111	#endif
93		112
94	#ifndef CORO_STACKGUARD	113	#ifndef CORO_STACKGUARD
…		…
100	# define CORO_PREFER_PERL_FUNCTIONS 0	119	# define CORO_PREFER_PERL_FUNCTIONS 0
101	#endif	120	#endif
102		121
103	/* The next macros try to return the current stack pointer, in an as	122	/* The next macros try to return the current stack pointer, in an as
104	* portable way as possible. */	123	* portable way as possible. */
		124	#if __GNUC__ >= 4
		125	# define dSTACKLEVEL int stacklevel_dummy
		126	# define STACKLEVEL __builtin_frame_address (0)
		127	#else
105	#define dSTACKLEVEL volatile char stacklevel	128	# define dSTACKLEVEL volatile void *stacklevel
106	#define STACKLEVEL ((void *)&stacklevel)	129	# define STACKLEVEL ((void *)&stacklevel)
		130	#endif
107		131
108	#define IN_DESTRUCT (PL_main_cv == Nullcv)	132	#define IN_DESTRUCT (PL_main_cv == Nullcv)
109		133
110	#if __GNUC__ >= 3	134	#if __GNUC__ >= 3
111	# define attribute(x) __attribute__(x)	135	# define attribute(x) __attribute__(x)
112	# define BARRIER __asm__ __volatile__ ("" : : : "memory")
113	# define expect(expr,value) __builtin_expect ((expr),(value))	136	# define expect(expr,value) __builtin_expect ((expr),(value))
		137	# define INLINE static inline
114	#else	138	#else
115	# define attribute(x)	139	# define attribute(x)
116	# define BARRIER
117	# define expect(expr,value) (expr)	140	# define expect(expr,value) (expr)
		141	# define INLINE static
118	#endif	142	#endif
119		143
120	#define expect_false(expr) expect ((expr) != 0, 0)	144	#define expect_false(expr) expect ((expr) != 0, 0)
121	#define expect_true(expr) expect ((expr) != 0, 1)	145	#define expect_true(expr) expect ((expr) != 0, 1)
122		146
123	#define NOINLINE attribute ((noinline))	147	#define NOINLINE attribute ((noinline))
124		148
125	#include "CoroAPI.h"	149	#include "CoroAPI.h"
		150	#define GCoroAPI (&coroapi) /* very sneaky */
126		151
127	#ifdef USE_ITHREADS	152	#ifdef USE_ITHREADS
128	static perl_mutex coro_mutex;	153	# if CORO_PTHREAD
129	# define LOCK do { MUTEX_LOCK (&coro_mutex); } while (0)	154	static void *coro_thx;
130	# define UNLOCK do { MUTEX_UNLOCK (&coro_mutex); } while (0)
131	#else
132	# define LOCK (void)0
133	# define UNLOCK (void)0
134	#endif	155	# endif
		156	#endif
135		157
136	#define strpair(const) const, sizeof (const) - 1	158	static double (*nvtime)(); /* so why doesn't it take void? */
137		159
138	/* helper storage struct for Coro::AIO */	160	/* we hijack an hopefully unused CV flag for our purposes */
139	struct io_state	161	#define CVf_SLF 0x4000
140	{	162	static OP *pp_slf (pTHX);
141	int errorno;
142	I32 laststype;
143	int laststatval;
144	Stat_t statcache;
145	};
146		163
		164	static U32 cctx_gen;
147	static size_t coro_stacksize = CORO_STACKSIZE;	165	static size_t cctx_stacksize = CORO_STACKSIZE;
148	static struct CoroAPI coroapi;	166	static struct CoroAPI coroapi;
149	static AV *main_mainstack; /* used to differentiate between $main and others */	167	static AV *main_mainstack; /* used to differentiate between $main and others */
150	static JMPENV *main_top_env;	168	static JMPENV *main_top_env;
151	static HV *coro_state_stash, *coro_stash;	169	static HV *coro_state_stash, *coro_stash;
152	static SV *coro_mortal; /* will be freed after next transfer */	170	static volatile SV *coro_mortal; /* will be freed/thrown after next transfer */
153		171
154	static GV *irsgv; /* $/ */	172	static GV *irsgv; /* $/ */
155	static GV *stdoutgv; /* *STDOUT */	173	static GV *stdoutgv; /* *STDOUT */
156		174	static SV *rv_diehook;
		175	static SV *rv_warnhook;
157	static HV *hv_sig; /* %SIG */	176	static HV *hv_sig; /* %SIG */
158	static SV *sv_diehook;
159	static SV *sv_warnhook;
160		177
161	/* async_pool helper stuff */	178	/* async_pool helper stuff */
162	static SV *sv_pool_rss;	179	static SV *sv_pool_rss;
163	static SV *sv_pool_size;	180	static SV *sv_pool_size;
164	static AV *av_async_pool;	181	static AV *av_async_pool;
		182
		183	/* Coro::AnyEvent */
		184	static SV *sv_activity;
165		185
166	static struct coro_cctx *cctx_first;	186	static struct coro_cctx *cctx_first;
167	static int cctx_count, cctx_idle;	187	static int cctx_count, cctx_idle;
168		188
169	enum {	189	enum {
…		…
174	CC_TRACE_LINE = 0x10, /* trace each statement */	194	CC_TRACE_LINE = 0x10, /* trace each statement */
175	CC_TRACE_ALL = CC_TRACE_SUB | CC_TRACE_LINE,	195	CC_TRACE_ALL = CC_TRACE_SUB | CC_TRACE_LINE,
176	};	196	};
177		197
178	/* this is a structure representing a c-level coroutine */	198	/* this is a structure representing a c-level coroutine */
179	typedef struct coro_cctx {	199	typedef struct coro_cctx
		200	{
180	struct coro_cctx *next;	201	struct coro_cctx *next;
181		202
182	/* the stack */	203	/* the stack */
183	void *sptr;	204	void *sptr;
184	size_t ssize;	205	size_t ssize;
…		…
187	void *idle_sp; /* sp of top-level transfer/schedule/cede call */	208	void *idle_sp; /* sp of top-level transfer/schedule/cede call */
188	JMPENV *idle_te; /* same as idle_sp, but for top_env, TODO: remove once stable */	209	JMPENV *idle_te; /* same as idle_sp, but for top_env, TODO: remove once stable */
189	JMPENV *top_env;	210	JMPENV *top_env;
190	coro_context cctx;	211	coro_context cctx;
191		212
		213	U32 gen;
192	#if CORO_USE_VALGRIND	214	#if CORO_USE_VALGRIND
193	int valgrind_id;	215	int valgrind_id;
194	#endif	216	#endif
195	unsigned char flags;	217	unsigned char flags;
196	} coro_cctx;	218	} coro_cctx;
…		…
201	CF_NEW = 0x0004, /* has never been switched to */	223	CF_NEW = 0x0004, /* has never been switched to */
202	CF_DESTROYED = 0x0008, /* coroutine data has been freed */	224	CF_DESTROYED = 0x0008, /* coroutine data has been freed */
203	};	225	};
204		226
205	/* the structure where most of the perl state is stored, overlaid on the cxstack */	227	/* the structure where most of the perl state is stored, overlaid on the cxstack */
206	typedef struct {	228	typedef struct
		229	{
207	SV *defsv;	230	SV *defsv;
208	AV *defav;	231	AV *defav;
209	SV *errsv;	232	SV *errsv;
210	SV *irsgv;	233	SV *irsgv;
211	#define VAR(name,type) type name;	234	#define VAR(name,type) type name;
…		…
215		238
216	#define SLOT_COUNT ((sizeof (perl_slots) + sizeof (PERL_CONTEXT) - 1) / sizeof (PERL_CONTEXT))	239	#define SLOT_COUNT ((sizeof (perl_slots) + sizeof (PERL_CONTEXT) - 1) / sizeof (PERL_CONTEXT))
217		240
218	/* this is a structure representing a perl-level coroutine */	241	/* this is a structure representing a perl-level coroutine */
219	struct coro {	242	struct coro {
220	/* the c coroutine allocated to this perl coroutine, if any */	243	/* the C coroutine allocated to this perl coroutine, if any */
221	coro_cctx *cctx;	244	coro_cctx *cctx;
222		245
223	/* process data */	246	/* state data */
		247	struct CoroSLF slf_frame; /* saved slf frame */
224	AV *mainstack;	248	AV *mainstack;
225	perl_slots *slot; /* basically the saved sp */	249	perl_slots *slot; /* basically the saved sp */
226		250
227	AV *args; /* data associated with this coroutine (initial args) */	251	AV *args; /* data associated with this coroutine (initial args) */
228	int refcnt; /* coroutines are refcounted, yes */	252	int refcnt; /* coroutines are refcounted, yes */
229	int flags; /* CF_ flags */	253	int flags; /* CF_ flags */
230	HV *hv; /* the perl hash associated with this coro, if any */	254	HV *hv; /* the perl hash associated with this coro, if any */
		255	void (*on_destroy)(pTHX_ struct coro *coro);
231		256
232	/* statistics */	257	/* statistics */
233	int usecount; /* number of transfers to this coro */	258	int usecount; /* number of transfers to this coro */
234		259
235	/* coro process data */	260	/* coro process data */
236	int prio;	261	int prio;
237	SV *throw; /* exception to be thrown */	262	SV *except; /* exception to be thrown */
238		263
239	/* async_pool */	264	/* async_pool */
240	SV *saved_deffh;	265	SV *saved_deffh;
241		266
242	/* linked list */	267	/* linked list */
243	struct coro *next, *prev;	268	struct coro *next, *prev;
244	};	269	};
245		270
246	typedef struct coro *Coro__State;	271	typedef struct coro *Coro__State;
247	typedef struct coro *Coro__State_or_hashref;	272	typedef struct coro *Coro__State_or_hashref;
		273
		274	/* the following variables are effectively part of the perl context */
		275	/* and get copied between struct coro and these variables */
		276	/* the mainr easonw e don't support windows process emulation */
		277	static struct CoroSLF slf_frame; /* the current slf frame */
248		278
249	/** Coro ********************************************************************/	279	/** Coro ********************************************************************/
250		280
251	#define PRIO_MAX 3	281	#define PRIO_MAX 3
252	#define PRIO_HIGH 1	282	#define PRIO_HIGH 1
…		…
255	#define PRIO_IDLE -3	285	#define PRIO_IDLE -3
256	#define PRIO_MIN -4	286	#define PRIO_MIN -4
257		287
258	/* for Coro.pm */	288	/* for Coro.pm */
259	static SV *coro_current;	289	static SV *coro_current;
		290	static SV *coro_readyhook;
260	static AV *coro_ready [PRIO_MAX-PRIO_MIN+1];	291	static AV *coro_ready [PRIO_MAX - PRIO_MIN + 1];
261	static int coro_nready;
262	static struct coro *coro_first;	292	static struct coro *coro_first;
		293	#define coro_nready coroapi.nready
263		294
264	/** lowlevel stuff **********************************************************/	295	/** lowlevel stuff **********************************************************/
265		296
266	static SV *	297	static SV *
267	coro_get_sv (const char *name, int create)	298	coro_get_sv (pTHX_ const char *name, int create)
268	{	299	{
269	#if PERL_VERSION_ATLEAST (5,9,0)	300	#if PERL_VERSION_ATLEAST (5,10,0)
270	/* silence stupid and wrong 5.10 warning that I am unable to switch off */	301	/* silence stupid and wrong 5.10 warning that I am unable to switch off */
271	get_sv (name, create);	302	get_sv (name, create);
272	#endif	303	#endif
273	return get_sv (name, create);	304	return get_sv (name, create);
274	}	305	}
275		306
276	static AV *	307	static AV *
277	coro_get_av (const char *name, int create)	308	coro_get_av (pTHX_ const char *name, int create)
278	{	309	{
279	#if PERL_VERSION_ATLEAST (5,9,0)	310	#if PERL_VERSION_ATLEAST (5,10,0)
280	/* silence stupid and wrong 5.10 warning that I am unable to switch off */	311	/* silence stupid and wrong 5.10 warning that I am unable to switch off */
281	get_av (name, create);	312	get_av (name, create);
282	#endif	313	#endif
283	return get_av (name, create);	314	return get_av (name, create);
284	}	315	}
285		316
286	static HV *	317	static HV *
287	coro_get_hv (const char *name, int create)	318	coro_get_hv (pTHX_ const char *name, int create)
288	{	319	{
289	#if PERL_VERSION_ATLEAST (5,9,0)	320	#if PERL_VERSION_ATLEAST (5,10,0)
290	/* silence stupid and wrong 5.10 warning that I am unable to switch off */	321	/* silence stupid and wrong 5.10 warning that I am unable to switch off */
291	get_hv (name, create);	322	get_hv (name, create);
292	#endif	323	#endif
293	return get_hv (name, create);	324	return get_hv (name, create);
294	}	325	}
…		…
299	AV *padlist = CvPADLIST (cv);	330	AV *padlist = CvPADLIST (cv);
300	AV *newpadlist, *newpad;	331	AV *newpadlist, *newpad;
301		332
302	newpadlist = newAV ();	333	newpadlist = newAV ();
303	AvREAL_off (newpadlist);	334	AvREAL_off (newpadlist);
304	#if PERL_VERSION_ATLEAST (5,9,0)	335	#if PERL_VERSION_ATLEAST (5,10,0)
305	Perl_pad_push (aTHX_ padlist, AvFILLp (padlist) + 1);	336	Perl_pad_push (aTHX_ padlist, AvFILLp (padlist) + 1);
306	#else	337	#else
307	Perl_pad_push (aTHX_ padlist, AvFILLp (padlist) + 1, 1);	338	Perl_pad_push (aTHX_ padlist, AvFILLp (padlist) + 1, 1);
308	#endif	339	#endif
309	newpad = (AV *)AvARRAY (padlist)[AvFILLp (padlist)];	340	newpad = (AV *)AvARRAY (padlist)[AvFILLp (padlist)];
310	--AvFILLp (padlist);	341	--AvFILLp (padlist);
311		342
312	av_store (newpadlist, 0, SvREFCNT_inc (*av_fetch (padlist, 0, FALSE)));	343	av_store (newpadlist, 0, SvREFCNT_inc_NN (*av_fetch (padlist, 0, FALSE)));
313	av_store (newpadlist, 1, (SV *)newpad);	344	av_store (newpadlist, 1, (SV *)newpad);
314		345
315	return newpadlist;	346	return newpadlist;
316	}	347	}
317		348
…		…
347		378
348	/* casting is fun. */	379	/* casting is fun. */
349	while (&PL_sv_undef != (SV *)(padlist = (AV *)av_pop (av)))	380	while (&PL_sv_undef != (SV *)(padlist = (AV *)av_pop (av)))
350	free_padlist (aTHX_ padlist);	381	free_padlist (aTHX_ padlist);
351		382
352	SvREFCNT_dec (av);	383	SvREFCNT_dec (av); /* sv_magicext increased the refcount */
353		384
354	return 0;	385	return 0;
355	}	386	}
356		387
		388	#define CORO_MAGIC_type_cv 26
357	#define PERL_MAGIC_coro PERL_MAGIC_ext	389	#define CORO_MAGIC_type_state PERL_MAGIC_ext
358		390
359	static MGVTBL vtbl_coro = {0, 0, 0, 0, coro_cv_free};	391	static MGVTBL coro_cv_vtbl = {
		392	0, 0, 0, 0,
		393	coro_cv_free
		394	};
360		395
361	#define CORO_MAGIC(cv) \	396	#define CORO_MAGIC_NN(sv, type) \
		397	(expect_true (SvMAGIC (sv)->mg_type == type) \
362	SvMAGIC (cv) \	398	? SvMAGIC (sv) \
363	? SvMAGIC (cv)->mg_type == PERL_MAGIC_coro \	399	: mg_find (sv, type))
364	? SvMAGIC (cv) \	400
365	: mg_find ((SV *)cv, PERL_MAGIC_coro) \	401	#define CORO_MAGIC(sv, type) \
		402	(expect_true (SvMAGIC (sv)) \
		403	? CORO_MAGIC_NN (sv, type) \
366	: 0	404	: 0)
367		405
368	static struct coro *	406	#define CORO_MAGIC_cv(cv) CORO_MAGIC (((SV *)(cv)), CORO_MAGIC_type_cv)
		407	#define CORO_MAGIC_state(sv) CORO_MAGIC_NN (((SV *)(sv)), CORO_MAGIC_type_state)
		408
		409	INLINE struct coro *
369	SvSTATE_ (pTHX_ SV *coro)	410	SvSTATE_ (pTHX_ SV *coro)
370	{	411	{
371	HV *stash;	412	HV *stash;
372	MAGIC *mg;	413	MAGIC *mg;
373		414
…		…
383	/* very slow, but rare, check */	424	/* very slow, but rare, check */
384	if (!sv_derived_from (sv_2mortal (newRV_inc (coro)), "Coro::State"))	425	if (!sv_derived_from (sv_2mortal (newRV_inc (coro)), "Coro::State"))
385	croak ("Coro::State object required");	426	croak ("Coro::State object required");
386	}	427	}
387		428
388	mg = CORO_MAGIC (coro);	429	mg = CORO_MAGIC_state (coro);
389	return (struct coro *)mg->mg_ptr;	430	return (struct coro *)mg->mg_ptr;
390	}	431	}
391		432
392	#define SvSTATE(sv) SvSTATE_ (aTHX_ (sv))	433	#define SvSTATE(sv) SvSTATE_ (aTHX_ (sv))
393		434
		435	/* faster than SvSTATE, but expects a coroutine hv */
		436	#define SvSTATE_hv(hv) ((struct coro *)CORO_MAGIC_NN ((SV *)hv, CORO_MAGIC_type_state)->mg_ptr)
		437	#define SvSTATE_current SvSTATE_hv (SvRV (coro_current))
		438
394	/* the next two functions merely cache the padlists */	439	/* the next two functions merely cache the padlists */
395	static void	440	static void
396	get_padlist (pTHX_ CV *cv)	441	get_padlist (pTHX_ CV *cv)
397	{	442	{
398	MAGIC *mg = CORO_MAGIC (cv);	443	MAGIC *mg = CORO_MAGIC_cv (cv);
399	AV *av;	444	AV *av;
400		445
401	if (expect_true (mg && AvFILLp ((av = (AV *)mg->mg_obj)) >= 0))	446	if (expect_true (mg && AvFILLp ((av = (AV *)mg->mg_obj)) >= 0))
402	CvPADLIST (cv) = (AV *)AvARRAY (av)[AvFILLp (av)--];	447	CvPADLIST (cv) = (AV *)AvARRAY (av)[AvFILLp (av)--];
403	else	448	else
404	{	449	{
405	#if CORO_PREFER_PERL_FUNCTIONS	450	#if CORO_PREFER_PERL_FUNCTIONS
406	/* this is probably cleaner, but also slower? */	451	/* this is probably cleaner? but also slower! */
		452	/* in practise, it seems to be less stable */
407	CV *cp = Perl_cv_clone (cv);	453	CV *cp = Perl_cv_clone (cv);
408	CvPADLIST (cv) = CvPADLIST (cp);	454	CvPADLIST (cv) = CvPADLIST (cp);
409	CvPADLIST (cp) = 0;	455	CvPADLIST (cp) = 0;
410	SvREFCNT_dec (cp);	456	SvREFCNT_dec (cp);
411	#else	457	#else
…		…
415	}	461	}
416		462
417	static void	463	static void
418	put_padlist (pTHX_ CV *cv)	464	put_padlist (pTHX_ CV *cv)
419	{	465	{
420	MAGIC *mg = CORO_MAGIC (cv);	466	MAGIC *mg = CORO_MAGIC_cv (cv);
421	AV *av;	467	AV *av;
422		468
423	if (expect_false (!mg))	469	if (expect_false (!mg))
424	{	470	mg = sv_magicext ((SV *)cv, (SV *)newAV (), CORO_MAGIC_type_cv, &coro_cv_vtbl, 0, 0);
425	sv_magic ((SV *)cv, 0, PERL_MAGIC_coro, 0, 0);
426	mg = mg_find ((SV *)cv, PERL_MAGIC_coro);
427	mg->mg_virtual = &vtbl_coro;
428	mg->mg_obj = (SV *)newAV ();
429	}
430		471
431	av = (AV *)mg->mg_obj;	472	av = (AV *)mg->mg_obj;
432		473
433	if (expect_false (AvFILLp (av) >= AvMAX (av)))	474	if (expect_false (AvFILLp (av) >= AvMAX (av)))
434	av_extend (av, AvMAX (av) + 1);	475	av_extend (av, AvMAX (av) + 1);
…		…
452	GvSV (irsgv) = slot->irsgv;	493	GvSV (irsgv) = slot->irsgv;
453		494
454	#define VAR(name,type) PL_ ## name = slot->name;	495	#define VAR(name,type) PL_ ## name = slot->name;
455	# include "state.h"	496	# include "state.h"
456	#undef VAR	497	#undef VAR
457
458	/*hv_store (hv_sig, strpair ("__DIE__" ), SvREFCNT_inc (sv_diehook ), 0);*/
459	/*hv_store (hv_sig, strpair ("__WARN__"), SvREFCNT_inc (sv_warnhook), 0);*/
460		498
461	{	499	{
462	dSP;	500	dSP;
463		501
464	CV *cv;	502	CV *cv;
…		…
471	CvPADLIST (cv) = (AV *)POPs;	509	CvPADLIST (cv) = (AV *)POPs;
472	}	510	}
473		511
474	PUTBACK;	512	PUTBACK;
475	}	513	}
		514
		515	slf_frame = c->slf_frame;
		516	CORO_THROW = c->except;
476	}	517	}
477		518
478	static void	519	static void
479	save_perl (pTHX_ Coro__State c)	520	save_perl (pTHX_ Coro__State c)
480	{	521	{
		522	c->except = CORO_THROW;
		523	c->slf_frame = slf_frame;
		524
481	{	525	{
482	dSP;	526	dSP;
483	I32 cxix = cxstack_ix;	527	I32 cxix = cxstack_ix;
484	PERL_CONTEXT *ccstk = cxstack;	528	PERL_CONTEXT *ccstk = cxstack;
485	PERL_SI *top_si = PL_curstackinfo;	529	PERL_SI *top_si = PL_curstackinfo;
…		…
503		547
504	if (expect_true (CvDEPTH (cv)))	548	if (expect_true (CvDEPTH (cv)))
505	{	549	{
506	EXTEND (SP, 3);	550	EXTEND (SP, 3);
507	PUSHs ((SV *)CvPADLIST (cv));	551	PUSHs ((SV *)CvPADLIST (cv));
508	PUSHs (INT2PTR (SV *, CvDEPTH (cv)));	552	PUSHs (INT2PTR (SV *, (IV)CvDEPTH (cv)));
509	PUSHs ((SV *)cv);	553	PUSHs ((SV *)cv);
510		554
511	CvDEPTH (cv) = 0;	555	CvDEPTH (cv) = 0;
512	get_padlist (aTHX_ cv);	556	get_padlist (aTHX_ cv);
513	}	557	}
…		…
552	#undef VAR	596	#undef VAR
553	}	597	}
554	}	598	}
555		599
556	/*	600	/*
557	* allocate various perl stacks. This is an exact copy	601	* allocate various perl stacks. This is almost an exact copy
558	* of perl.c:init_stacks, except that it uses less memory	602	* of perl.c:init_stacks, except that it uses less memory
559	* on the (sometimes correct) assumption that coroutines do	603	* on the (sometimes correct) assumption that coroutines do
560	* not usually need a lot of stackspace.	604	* not usually need a lot of stackspace.
561	*/	605	*/
562	#if CORO_PREFER_PERL_FUNCTIONS	606	#if CORO_PREFER_PERL_FUNCTIONS
…		…
593		637
594	New(54,PL_savestack,24,ANY);	638	New(54,PL_savestack,24,ANY);
595	PL_savestack_ix = 0;	639	PL_savestack_ix = 0;
596	PL_savestack_max = 24;	640	PL_savestack_max = 24;
597		641
598	#if !PERL_VERSION_ATLEAST (5,9,0)	642	#if !PERL_VERSION_ATLEAST (5,10,0)
599	New(54,PL_retstack,4,OP*);	643	New(54,PL_retstack,4,OP*);
600	PL_retstack_ix = 0;	644	PL_retstack_ix = 0;
601	PL_retstack_max = 4;	645	PL_retstack_max = 4;
602	#endif	646	#endif
603	}	647	}
…		…
605		649
606	/*	650	/*
607	* destroy the stacks, the callchain etc...	651	* destroy the stacks, the callchain etc...
608	*/	652	*/
609	static void	653	static void
610	coro_destroy_stacks (pTHX)	654	coro_destruct_stacks (pTHX)
611	{	655	{
612	while (PL_curstackinfo->si_next)	656	while (PL_curstackinfo->si_next)
613	PL_curstackinfo = PL_curstackinfo->si_next;	657	PL_curstackinfo = PL_curstackinfo->si_next;
614		658
615	while (PL_curstackinfo)	659	while (PL_curstackinfo)
…		…
626		670
627	Safefree (PL_tmps_stack);	671	Safefree (PL_tmps_stack);
628	Safefree (PL_markstack);	672	Safefree (PL_markstack);
629	Safefree (PL_scopestack);	673	Safefree (PL_scopestack);
630	Safefree (PL_savestack);	674	Safefree (PL_savestack);
631	#if !PERL_VERSION_ATLEAST (5,9,0)	675	#if !PERL_VERSION_ATLEAST (5,10,0)
632	Safefree (PL_retstack);	676	Safefree (PL_retstack);
633	#endif	677	#endif
634	}	678	}
635		679
636	static size_t	680	static size_t
…		…
652	#undef VAR	696	#undef VAR
653	}	697	}
654	else	698	else
655	slot = coro->slot;	699	slot = coro->slot;
656		700
		701	if (slot)
		702	{
657	rss += sizeof (slot->curstackinfo);	703	rss += sizeof (slot->curstackinfo);
658	rss += (slot->curstackinfo->si_cxmax + 1) * sizeof (PERL_CONTEXT);	704	rss += (slot->curstackinfo->si_cxmax + 1) * sizeof (PERL_CONTEXT);
659	rss += sizeof (SV) + sizeof (struct xpvav) + (1 + AvMAX (slot->curstack)) * sizeof (SV *);	705	rss += sizeof (SV) + sizeof (struct xpvav) + (1 + AvMAX (slot->curstack)) * sizeof (SV *);
660	rss += slot->tmps_max * sizeof (SV *);	706	rss += slot->tmps_max * sizeof (SV *);
661	rss += (slot->markstack_max - slot->markstack_ptr) * sizeof (I32);	707	rss += (slot->markstack_max - slot->markstack_ptr) * sizeof (I32);
662	rss += slot->scopestack_max * sizeof (I32);	708	rss += slot->scopestack_max * sizeof (I32);
663	rss += slot->savestack_max * sizeof (ANY);	709	rss += slot->savestack_max * sizeof (ANY);
664		710
665	#if !PERL_VERSION_ATLEAST (5,9,0)	711	#if !PERL_VERSION_ATLEAST (5,10,0)
666	rss += slot->retstack_max * sizeof (OP *);	712	rss += slot->retstack_max * sizeof (OP *);
667	#endif	713	#endif
		714	}
668	}	715	}
669		716
670	return rss;	717	return rss;
671	}	718	}
672		719
673	/** coroutine stack handling ************************************************/	720	/** coroutine stack handling ************************************************/
674		721
		722	static int (*orig_sigelem_get) (pTHX_ SV *sv, MAGIC *mg);
		723	static int (*orig_sigelem_set) (pTHX_ SV *sv, MAGIC *mg);
		724	static int (*orig_sigelem_clr) (pTHX_ SV *sv, MAGIC *mg);
		725
		726	/* apparently < 5.8.8 */
		727	#ifndef MgPV_nolen_const
		728	#define MgPV_nolen_const(mg) (((((int)(mg)->mg_len)) == HEf_SVKEY) ? \
		729	SvPV_nolen((SV*)((mg)->mg_ptr)) : \
		730	(const char*)(mg)->mg_ptr)
		731	#endif
		732
		733	/*
		734	* This overrides the default magic get method of %SIG elements.
		735	* The original one doesn't provide for reading back of PL_diehook/PL_warnhook
		736	* and instead of tryign to save and restore the hash elements, we just provide
		737	* readback here.
		738	* We only do this when the hook is != 0, as they are often set to 0 temporarily,
		739	* not expecting this to actually change the hook. This is a potential problem
		740	* when a schedule happens then, but we ignore this.
		741	*/
675	static void	742	static int
		743	coro_sigelem_get (pTHX_ SV *sv, MAGIC *mg)
		744	{
		745	const char *s = MgPV_nolen_const (mg);
		746
		747	if (*s == '_')
		748	{
		749	SV **svp = 0;
		750
		751	if (strEQ (s, "__DIE__" )) svp = &PL_diehook;
		752	if (strEQ (s, "__WARN__")) svp = &PL_warnhook;
		753
		754	if (svp)
		755	{
		756	sv_setsv (sv, *svp ? *svp : &PL_sv_undef);
		757	return 0;
		758	}
		759	}
		760
		761	return orig_sigelem_get ? orig_sigelem_get (aTHX_ sv, mg) : 0;
		762	}
		763
		764	static int
		765	coro_sigelem_clr (pTHX_ SV *sv, MAGIC *mg)
		766	{
		767	const char *s = MgPV_nolen_const (mg);
		768
		769	if (*s == '_')
		770	{
		771	SV **svp = 0;
		772
		773	if (strEQ (s, "__DIE__" )) svp = &PL_diehook;
		774	if (strEQ (s, "__WARN__")) svp = &PL_warnhook;
		775
		776	if (svp)
		777	{
		778	SV *old = *svp;
		779	*svp = 0;
		780	SvREFCNT_dec (old);
		781	return 0;
		782	}
		783	}
		784
		785	return orig_sigelem_clr ? orig_sigelem_clr (aTHX_ sv, mg) : 0;
		786	}
		787
		788	static int
		789	coro_sigelem_set (pTHX_ SV *sv, MAGIC *mg)
		790	{
		791	const char *s = MgPV_nolen_const (mg);
		792
		793	if (*s == '_')
		794	{
		795	SV **svp = 0;
		796
		797	if (strEQ (s, "__DIE__" )) svp = &PL_diehook;
		798	if (strEQ (s, "__WARN__")) svp = &PL_warnhook;
		799
		800	if (svp)
		801	{
		802	SV *old = *svp;
		803	*svp = newSVsv (sv);
		804	SvREFCNT_dec (old);
		805	return 0;
		806	}
		807	}
		808
		809	return orig_sigelem_set ? orig_sigelem_set (aTHX_ sv, mg) : 0;
		810	}
		811
		812	static void
		813	prepare_nop (pTHX_ struct coro_transfer_args *ta)
		814	{
		815	/* kind of mega-hacky, but works */
		816	ta->next = ta->prev = (struct coro *)ta;
		817	}
		818
		819	static int
		820	slf_check_nop (pTHX_ struct CoroSLF *frame)
		821	{
		822	return 0;
		823	}
		824
		825	static UNOP coro_setup_op;
		826
		827	static void NOINLINE /* noinline to keep it out of the transfer fast path */
676	coro_setup (pTHX_ struct coro *coro)	828	coro_setup (pTHX_ struct coro *coro)
677	{	829	{
678	/*	830	/*
679	* emulate part of the perl startup here.	831	* emulate part of the perl startup here.
680	*/	832	*/
…		…
687	PL_curpm = 0;	839	PL_curpm = 0;
688	PL_curpad = 0;	840	PL_curpad = 0;
689	PL_localizing = 0;	841	PL_localizing = 0;
690	PL_dirty = 0;	842	PL_dirty = 0;
691	PL_restartop = 0;	843	PL_restartop = 0;
692	PL_diehook = 0; hv_store (hv_sig, strpair ("__DIE__" ), SvREFCNT_inc (sv_diehook ), 0);	844	#if PERL_VERSION_ATLEAST (5,10,0)
693	PL_warnhook = 0; hv_store (hv_sig, strpair ("__WARN__"), SvREFCNT_inc (sv_warnhook), 0);	845	PL_parser = 0;
		846	#endif
		847
		848	/* recreate the die/warn hooks */
		849	PL_diehook = 0; SvSetMagicSV (*hv_fetch (hv_sig, "__DIE__" , sizeof ("__DIE__" ) - 1, 1), rv_diehook );
		850	PL_warnhook = 0; SvSetMagicSV (*hv_fetch (hv_sig, "__WARN__", sizeof ("__WARN__") - 1, 1), rv_warnhook);
694		851
695	GvSV (PL_defgv) = newSV (0);	852	GvSV (PL_defgv) = newSV (0);
696	GvAV (PL_defgv) = coro->args; coro->args = 0;	853	GvAV (PL_defgv) = coro->args; coro->args = 0;
697	GvSV (PL_errgv) = newSV (0);	854	GvSV (PL_errgv) = newSV (0);
698	GvSV (irsgv) = newSVpvn ("\n", 1); sv_magic (GvSV (irsgv), (SV *)irsgv, PERL_MAGIC_sv, "/", 0);	855	GvSV (irsgv) = newSVpvn ("\n", 1); sv_magic (GvSV (irsgv), (SV *)irsgv, PERL_MAGIC_sv, "/", 0);
699	PL_rs = newSVsv (GvSV (irsgv));	856	PL_rs = newSVsv (GvSV (irsgv));
700	PL_defoutgv = (GV *)SvREFCNT_inc (stdoutgv);	857	PL_defoutgv = (GV *)SvREFCNT_inc_NN (stdoutgv);
701		858
702	{	859	{
703	dSP;	860	dSP;
704	LOGOP myop;	861	UNOP myop;
705		862
706	Zero (&myop, 1, LOGOP);	863	Zero (&myop, 1, UNOP);
707	myop.op_next = Nullop;	864	myop.op_next = Nullop;
708	myop.op_flags = OPf_WANT_VOID;	865	myop.op_flags = OPf_WANT_VOID;
709		866
710	PUSHMARK (SP);	867	PUSHMARK (SP);
711	XPUSHs (sv_2mortal (av_shift (GvAV (PL_defgv))));	868	XPUSHs (sv_2mortal (av_shift (GvAV (PL_defgv))));
712	PUTBACK;	869	PUTBACK;
…		…
714	PL_op = PL_ppaddr[OP_ENTERSUB](aTHX);	871	PL_op = PL_ppaddr[OP_ENTERSUB](aTHX);
715	SPAGAIN;	872	SPAGAIN;
716	}	873	}
717		874
718	/* this newly created coroutine might be run on an existing cctx which most	875	/* this newly created coroutine might be run on an existing cctx which most
719	* likely was suspended in set_stacklevel, called from entersub.	876	* likely was suspended in pp_slf, so we have to emulate entering pp_slf here.
720	* set_stacklevl doesn't do anything on return, but entersub does LEAVE,
721	* so we ENTER here for symmetry
722	*/	877	*/
723	ENTER;	878	slf_frame.prepare = prepare_nop; /* provide a nop function for an eventual pp_slf */
724	}	879	slf_frame.check = slf_check_nop; /* signal pp_slf to not repeat */
725		880
		881	/* and we have to provide the pp_slf op in any case, so pp_slf can skip it */
		882	coro_setup_op.op_next = PL_op;
		883	coro_setup_op.op_type = OP_CUSTOM;
		884	coro_setup_op.op_ppaddr = pp_slf;
		885	/* no flags required, as an init function won't be called */
		886
		887	PL_op = (OP *)&coro_setup_op;
		888
		889	/* copy throw, in case it was set before coro_setup */
		890	CORO_THROW = coro->except;
		891	}
		892
726	static void	893	static void
727	coro_destroy (pTHX_ struct coro *coro)	894	coro_destruct (pTHX_ struct coro *coro)
728	{	895	{
729	if (!IN_DESTRUCT)	896	if (!IN_DESTRUCT)
730	{	897	{
731	/* restore all saved variables and stuff */	898	/* restore all saved variables and stuff */
732	LEAVE_SCOPE (0);	899	LEAVE_SCOPE (0);
…		…
752		919
753	SvREFCNT_dec (PL_diehook);	920	SvREFCNT_dec (PL_diehook);
754	SvREFCNT_dec (PL_warnhook);	921	SvREFCNT_dec (PL_warnhook);
755		922
756	SvREFCNT_dec (coro->saved_deffh);	923	SvREFCNT_dec (coro->saved_deffh);
757	SvREFCNT_dec (coro->throw);	924	SvREFCNT_dec (CORO_THROW);
758		925
759	coro_destroy_stacks (aTHX);	926	coro_destruct_stacks (aTHX);
760	}	927	}
761		928
762	static void	929	INLINE void
763	free_coro_mortal (pTHX)	930	free_coro_mortal (pTHX)
764	{	931	{
765	if (expect_true (coro_mortal))	932	if (expect_true (coro_mortal))
766	{	933	{
767	SvREFCNT_dec (coro_mortal);	934	SvREFCNT_dec (coro_mortal);
…		…
772	static int	939	static int
773	runops_trace (pTHX)	940	runops_trace (pTHX)
774	{	941	{
775	COP *oldcop = 0;	942	COP *oldcop = 0;
776	int oldcxix = -2;	943	int oldcxix = -2;
777	struct coro *coro = SvSTATE (coro_current); /* trace cctx is tied to specific coro */	944	struct coro *coro = SvSTATE_current; /* trace cctx is tied to specific coro */
778	coro_cctx *cctx = coro->cctx;	945	coro_cctx *cctx = coro->cctx;
779		946
780	while ((PL_op = CALL_FPTR (PL_op->op_ppaddr) (aTHX)))	947	while ((PL_op = CALL_FPTR (PL_op->op_ppaddr) (aTHX)))
781	{	948	{
782	PERL_ASYNC_CHECK ();	949	PERL_ASYNC_CHECK ();
…		…
801	: cx->blk_gimme == G_SCALAR ? bot + 1	968	: cx->blk_gimme == G_SCALAR ? bot + 1
802	: bot;	969	: bot;
803		970
804	av_extend (av, top - bot);	971	av_extend (av, top - bot);
805	while (bot < top)	972	while (bot < top)
806	av_push (av, SvREFCNT_inc (*bot++));	973	av_push (av, SvREFCNT_inc_NN (*bot++));
807		974
808	PL_runops = RUNOPS_DEFAULT;	975	PL_runops = RUNOPS_DEFAULT;
809	ENTER;	976	ENTER;
810	SAVETMPS;	977	SAVETMPS;
811	EXTEND (SP, 3);	978	EXTEND (SP, 3);
812	PUSHMARK (SP);	979	PUSHMARK (SP);
813	PUSHs (&PL_sv_no);	980	PUSHs (&PL_sv_no);
814	PUSHs (fullname);	981	PUSHs (fullname);
815	PUSHs (sv_2mortal (newRV_noinc ((SV *)av)));	982	PUSHs (sv_2mortal (newRV_noinc ((SV *)av)));
816	PUTBACK;	983	PUTBACK;
817	cb = hv_fetch ((HV *)SvRV (coro_current), strpair ("_trace_sub_cb"), 0);	984	cb = hv_fetch ((HV *)SvRV (coro_current), "_trace_sub_cb", sizeof ("_trace_sub_cb") - 1, 0);
818	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);	985	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);
819	SPAGAIN;	986	SPAGAIN;
820	FREETMPS;	987	FREETMPS;
821	LEAVE;	988	LEAVE;
822	PL_runops = runops_trace;	989	PL_runops = runops_trace;
…		…
849	SAVETMPS;	1016	SAVETMPS;
850	EXTEND (SP, 3);	1017	EXTEND (SP, 3);
851	PUSHMARK (SP);	1018	PUSHMARK (SP);
852	PUSHs (&PL_sv_yes);	1019	PUSHs (&PL_sv_yes);
853	PUSHs (fullname);	1020	PUSHs (fullname);
854	PUSHs (cx->blk_sub.hasargs ? sv_2mortal (newRV_inc ((SV *)cx->blk_sub.argarray)) : &PL_sv_undef);	1021	PUSHs (CxHASARGS (cx) ? sv_2mortal (newRV_inc ((SV *)cx->blk_sub.argarray)) : &PL_sv_undef);
855	PUTBACK;	1022	PUTBACK;
856	cb = hv_fetch ((HV *)SvRV (coro_current), strpair ("_trace_sub_cb"), 0);	1023	cb = hv_fetch ((HV *)SvRV (coro_current), "_trace_sub_cb", sizeof ("_trace_sub_cb") - 1, 0);
857	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);	1024	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);
858	SPAGAIN;	1025	SPAGAIN;
859	FREETMPS;	1026	FREETMPS;
860	LEAVE;	1027	LEAVE;
861	PL_runops = runops_trace;	1028	PL_runops = runops_trace;
…		…
875	PL_runops = RUNOPS_DEFAULT;	1042	PL_runops = RUNOPS_DEFAULT;
876	PUSHMARK (SP);	1043	PUSHMARK (SP);
877	PUSHs (sv_2mortal (newSVpv (OutCopFILE (oldcop), 0)));	1044	PUSHs (sv_2mortal (newSVpv (OutCopFILE (oldcop), 0)));
878	PUSHs (sv_2mortal (newSViv (CopLINE (oldcop))));	1045	PUSHs (sv_2mortal (newSViv (CopLINE (oldcop))));
879	PUTBACK;	1046	PUTBACK;
880	cb = hv_fetch ((HV *)SvRV (coro_current), strpair ("_trace_line_cb"), 0);	1047	cb = hv_fetch ((HV *)SvRV (coro_current), "_trace_line_cb", sizeof ("_trace_line_cb") - 1, 0);
881	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);	1048	if (cb) call_sv (*cb, G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);
882	SPAGAIN;	1049	SPAGAIN;
883	FREETMPS;	1050	FREETMPS;
884	LEAVE;	1051	LEAVE;
885	PL_runops = runops_trace;	1052	PL_runops = runops_trace;
…		…
891		1058
892	TAINT_NOT;	1059	TAINT_NOT;
893	return 0;	1060	return 0;
894	}	1061	}
895		1062
896	/* inject a fake call to Coro::State::_cctx_init into the execution */	1063	static struct coro_cctx *cctx_ssl_cctx;
897	/* _cctx_init should be careful, as it could be called at almost any time */	1064	static struct CoroSLF cctx_ssl_frame;
898	/* during execution of a perl program */	1065
		1066	static void
		1067	slf_prepare_set_stacklevel (pTHX_ struct coro_transfer_args *ta)
		1068	{
		1069	ta->prev = (struct coro *)cctx_ssl_cctx;
		1070	ta->next = 0;
		1071	}
		1072
		1073	static int
		1074	slf_check_set_stacklevel (pTHX_ struct CoroSLF *frame)
		1075	{
		1076	*frame = cctx_ssl_frame;
		1077
		1078	return frame->check (aTHX_ frame); /* execute the restored frame - there must be one */
		1079	}
		1080
		1081	/* initialises PL_top_env and injects a pseudo-slf-call to set the stacklevel */
899	static void NOINLINE	1082	static void NOINLINE
900	cctx_prepare (pTHX_ coro_cctx *cctx)	1083	cctx_prepare (pTHX_ coro_cctx *cctx)
901	{	1084	{
902	dSP;
903	LOGOP myop;
904
905	PL_top_env = &PL_start_env;	1085	PL_top_env = &PL_start_env;
906		1086
907	if (cctx->flags & CC_TRACE)	1087	if (cctx->flags & CC_TRACE)
908	PL_runops = runops_trace;	1088	PL_runops = runops_trace;
909		1089
910	Zero (&myop, 1, LOGOP);	1090	/* we already must be executing an SLF op, there is no other valid way
911	myop.op_next = PL_op;	1091	* that can lead to creation of a new cctx */
912	myop.op_flags = OPf_WANT_VOID | OPf_STACKED;	1092	assert (("FATAL: can't prepare slf-less cctx in Coro module (please report)",
		1093	slf_frame.prepare && PL_op->op_ppaddr == pp_slf));
913		1094
914	PUSHMARK (SP);	1095	/* we must emulate leaving pp_slf, which is done inside slf_check_set_stacklevel */
915	EXTEND (SP, 2);	1096	cctx_ssl_cctx = cctx;
916	PUSHs (sv_2mortal (newSViv (PTR2IV (cctx))));	1097	cctx_ssl_frame = slf_frame;
917	PUSHs ((SV *)get_cv ("Coro::State::_cctx_init", FALSE));	1098
918	PUTBACK;	1099	slf_frame.prepare = slf_prepare_set_stacklevel;
919	PL_op = (OP *)&myop;	1100	slf_frame.check = slf_check_set_stacklevel;
920	PL_op = PL_ppaddr[OP_ENTERSUB](aTHX);	1101	}
921	SPAGAIN;	1102
		1103	/* the tail of transfer: execute stuff we can only do after a transfer */
		1104	INLINE void
		1105	transfer_tail (pTHX)
		1106	{
		1107	free_coro_mortal (aTHX);
922	}	1108	}
923		1109
924	/*	1110	/*
925	* this is a _very_ stripped down perl interpreter ;)	1111	* this is a _very_ stripped down perl interpreter ;)
926	*/	1112	*/
927	static void	1113	static void
928	cctx_run (void *arg)	1114	cctx_run (void *arg)
929	{	1115	{
		1116	#ifdef USE_ITHREADS
		1117	# if CORO_PTHREAD
		1118	PERL_SET_CONTEXT (coro_thx);
		1119	# endif
		1120	#endif
		1121	{
930	dTHX;	1122	dTHX;
931		1123
932	/* cctx_run is the alternative tail of transfer(), so unlock here. */	1124	/* normally we would need to skip the entersub here */
933	UNLOCK;	1125	/* not doing so will re-execute it, which is exactly what we want */
934
935	/* we now skip the entersub that lead to transfer() */
936	PL_op = PL_op->op_next;	1126	/* PL_nop = PL_nop->op_next */
937		1127
938	/* inject a fake subroutine call to cctx_init */	1128	/* inject a fake subroutine call to cctx_init */
939	cctx_prepare (aTHX_ (coro_cctx *)arg);	1129	cctx_prepare (aTHX_ (coro_cctx *)arg);
940		1130
		1131	/* cctx_run is the alternative tail of transfer() */
		1132	transfer_tail (aTHX);
		1133
941	/* somebody or something will hit me for both perl_run and PL_restartop */	1134	/* somebody or something will hit me for both perl_run and PL_restartop */
942	PL_restartop = PL_op;	1135	PL_restartop = PL_op;
943	perl_run (PL_curinterp);	1136	perl_run (PL_curinterp);
944		1137
945	/*	1138	/*
946	* If perl-run returns we assume exit() was being called or the coro	1139	* If perl-run returns we assume exit() was being called or the coro
947	* fell off the end, which seems to be the only valid (non-bug)	1140	* fell off the end, which seems to be the only valid (non-bug)
948	* reason for perl_run to return. We try to exit by jumping to the	1141	* reason for perl_run to return. We try to exit by jumping to the
949	* bootstrap-time "top" top_env, as we cannot restore the "main"	1142	* bootstrap-time "top" top_env, as we cannot restore the "main"
950	* coroutine as Coro has no such concept	1143	* coroutine as Coro has no such concept
951	*/	1144	*/
952	PL_top_env = main_top_env;	1145	PL_top_env = main_top_env;
953	JMPENV_JUMP (2); /* I do not feel well about the hardcoded 2 at all */	1146	JMPENV_JUMP (2); /* I do not feel well about the hardcoded 2 at all */
		1147	}
954	}	1148	}
955		1149
956	static coro_cctx *	1150	static coro_cctx *
957	cctx_new ()	1151	cctx_new ()
958	{	1152	{
959	coro_cctx *cctx;	1153	coro_cctx *cctx;
		1154
		1155	++cctx_count;
		1156	New (0, cctx, 1, coro_cctx);
		1157
		1158	cctx->gen = cctx_gen;
		1159	cctx->flags = 0;
		1160	cctx->idle_sp = 0; /* can be accessed by transfer between cctx_run and set_stacklevel, on throw */
		1161
		1162	return cctx;
		1163	}
		1164
		1165	/* create a new cctx only suitable as source */
		1166	static coro_cctx *
		1167	cctx_new_empty ()
		1168	{
		1169	coro_cctx *cctx = cctx_new ();
		1170
		1171	cctx->sptr = 0;
		1172	coro_create (&cctx->cctx, 0, 0, 0, 0);
		1173
		1174	return cctx;
		1175	}
		1176
		1177	/* create a new cctx suitable as destination/running a perl interpreter */
		1178	static coro_cctx *
		1179	cctx_new_run ()
		1180	{
		1181	coro_cctx *cctx = cctx_new ();
960	void *stack_start;	1182	void *stack_start;
961	size_t stack_size;	1183	size_t stack_size;
962		1184
963	++cctx_count;
964
965	Newz (0, cctx, 1, coro_cctx);
966
967	#if HAVE_MMAP	1185	#if HAVE_MMAP
968	cctx->ssize = ((coro_stacksize * sizeof (long) + PAGESIZE - 1) / PAGESIZE + CORO_STACKGUARD) * PAGESIZE;	1186	cctx->ssize = ((cctx_stacksize * sizeof (long) + PAGESIZE - 1) / PAGESIZE + CORO_STACKGUARD) * PAGESIZE;
969	/* mmap supposedly does allocate-on-write for us */	1187	/* mmap supposedly does allocate-on-write for us */
970	cctx->sptr = mmap (0, cctx->ssize, PROT_EXEC|PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, 0, 0);	1188	cctx->sptr = mmap (0, cctx->ssize, PROT_EXEC|PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, 0, 0);
971		1189
972	if (cctx->sptr != (void *)-1)	1190	if (cctx->sptr != (void *)-1)
973	{	1191	{
974	# if CORO_STACKGUARD	1192	#if CORO_STACKGUARD
975	mprotect (cctx->sptr, CORO_STACKGUARD * PAGESIZE, PROT_NONE);	1193	mprotect (cctx->sptr, CORO_STACKGUARD * PAGESIZE, PROT_NONE);
976	# endif	1194	#endif
977	stack_start = CORO_STACKGUARD * PAGESIZE + (char *)cctx->sptr;	1195	stack_start = (char *)cctx->sptr + CORO_STACKGUARD * PAGESIZE;
978	stack_size = cctx->ssize - CORO_STACKGUARD * PAGESIZE;	1196	stack_size = cctx->ssize - CORO_STACKGUARD * PAGESIZE;
979	cctx->flags |= CC_MAPPED;	1197	cctx->flags |= CC_MAPPED;
980	}	1198	}
981	else	1199	else
982	#endif	1200	#endif
983	{	1201	{
984	cctx->ssize = coro_stacksize * (long)sizeof (long);	1202	cctx->ssize = cctx_stacksize * (long)sizeof (long);
985	New (0, cctx->sptr, coro_stacksize, long);	1203	New (0, cctx->sptr, cctx_stacksize, long);
986		1204
987	if (!cctx->sptr)	1205	if (!cctx->sptr)
988	{	1206	{
989	perror ("FATAL: unable to allocate stack for coroutine");	1207	perror ("FATAL: unable to allocate stack for coroutine, exiting.");
990	_exit (EXIT_FAILURE);	1208	_exit (EXIT_FAILURE);
991	}	1209	}
992		1210
993	stack_start = cctx->sptr;	1211	stack_start = cctx->sptr;
994	stack_size = cctx->ssize;	1212	stack_size = cctx->ssize;
995	}	1213	}
996		1214
997	REGISTER_STACK (cctx, (char *)stack_start, (char *)stack_start + stack_size);	1215	#if CORO_USE_VALGRIND
		1216	cctx->valgrind_id = VALGRIND_STACK_REGISTER ((char *)stack_start, (char *)stack_start + stack_size);
		1217	#endif
		1218
998	coro_create (&cctx->cctx, cctx_run, (void *)cctx, stack_start, stack_size);	1219	coro_create (&cctx->cctx, cctx_run, (void *)cctx, stack_start, stack_size);
999		1220
1000	return cctx;	1221	return cctx;
1001	}	1222	}
1002		1223
…		…
1005	{	1226	{
1006	if (!cctx)	1227	if (!cctx)
1007	return;	1228	return;
1008		1229
1009	--cctx_count;	1230	--cctx_count;
		1231	coro_destroy (&cctx->cctx);
1010		1232
		1233	/* coro_transfer creates new, empty cctx's */
		1234	if (cctx->sptr)
		1235	{
1011	#if CORO_USE_VALGRIND	1236	#if CORO_USE_VALGRIND
1012	VALGRIND_STACK_DEREGISTER (cctx->valgrind_id);	1237	VALGRIND_STACK_DEREGISTER (cctx->valgrind_id);
1013	#endif	1238	#endif
1014		1239
1015	#if HAVE_MMAP	1240	#if HAVE_MMAP
1016	if (cctx->flags & CC_MAPPED)	1241	if (cctx->flags & CC_MAPPED)
1017	munmap (cctx->sptr, cctx->ssize);	1242	munmap (cctx->sptr, cctx->ssize);
1018	else	1243	else
1019	#endif	1244	#endif
1020	Safefree (cctx->sptr);	1245	Safefree (cctx->sptr);
		1246	}
1021		1247
1022	Safefree (cctx);	1248	Safefree (cctx);
1023	}	1249	}
1024		1250
1025	/* wether this cctx should be destructed */	1251	/* wether this cctx should be destructed */
1026	#define CCTX_EXPIRED(cctx) ((cctx)->ssize < coro_stacksize || ((cctx)->flags & CC_NOREUSE))	1252	#define CCTX_EXPIRED(cctx) ((cctx)->gen != cctx_gen || ((cctx)->flags & CC_NOREUSE))
1027		1253
1028	static coro_cctx *	1254	static coro_cctx *
1029	cctx_get (pTHX)	1255	cctx_get (pTHX)
1030	{	1256	{
1031	while (expect_true (cctx_first))	1257	while (expect_true (cctx_first))
…		…
1038	return cctx;	1264	return cctx;
1039		1265
1040	cctx_destroy (cctx);	1266	cctx_destroy (cctx);
1041	}	1267	}
1042		1268
1043	return cctx_new ();	1269	return cctx_new_run ();
1044	}	1270	}
1045		1271
1046	static void	1272	static void
1047	cctx_put (coro_cctx *cctx)	1273	cctx_put (coro_cctx *cctx)
1048	{	1274	{
		1275	assert (("FATAL: cctx_put called on non-initialised cctx in Coro (please report)", cctx->sptr));
		1276
1049	/* free another cctx if overlimit */	1277	/* free another cctx if overlimit */
1050	if (expect_false (cctx_idle >= MAX_IDLE_CCTX))	1278	if (expect_false (cctx_idle >= cctx_max_idle))
1051	{	1279	{
1052	coro_cctx *first = cctx_first;	1280	coro_cctx *first = cctx_first;
1053	cctx_first = first->next;	1281	cctx_first = first->next;
1054	--cctx_idle;	1282	--cctx_idle;
1055		1283
…		…
1064	/** coroutine switching *****************************************************/	1292	/** coroutine switching *****************************************************/
1065		1293
1066	static void	1294	static void
1067	transfer_check (pTHX_ struct coro *prev, struct coro *next)	1295	transfer_check (pTHX_ struct coro *prev, struct coro *next)
1068	{	1296	{
		1297	/* TODO: throwing up here is considered harmful */
		1298
1069	if (expect_true (prev != next))	1299	if (expect_true (prev != next))
1070	{	1300	{
1071	if (expect_false (!(prev->flags & (CF_RUNNING | CF_NEW))))	1301	if (expect_false (!(prev->flags & (CF_RUNNING | CF_NEW))))
1072	croak ("Coro::State::transfer called with non-running/new prev Coro::State, but can only transfer from running or new states");	1302	croak ("Coro::State::transfer called with non-running/new prev Coro::State, but can only transfer from running or new states,");
1073		1303
1074	if (expect_false (next->flags & CF_RUNNING))	1304	if (expect_false (next->flags & CF_RUNNING))
1075	croak ("Coro::State::transfer called with running next Coro::State, but can only transfer to inactive states");	1305	croak ("Coro::State::transfer called with running next Coro::State, but can only transfer to inactive states,");
1076		1306
1077	if (expect_false (next->flags & CF_DESTROYED))	1307	if (expect_false (next->flags & CF_DESTROYED))
1078	croak ("Coro::State::transfer called with destroyed next Coro::State, but can only transfer to inactive states");	1308	croak ("Coro::State::transfer called with destroyed next Coro::State, but can only transfer to inactive states,");
1079		1309
1080	if (
1081	#if PERL_VERSION_ATLEAST (5,9,0)	1310	#if !PERL_VERSION_ATLEAST (5,10,0)
1082	expect_false (PL_parser)
1083	#else
1084	expect_false (PL_lex_state != LEX_NOTPARSING)	1311	if (expect_false (PL_lex_state != LEX_NOTPARSING))
1085	#endif
1086	)
1087	croak ("Coro::State::transfer called while parsing, but this is not supported");	1312	croak ("Coro::State::transfer called while parsing, but this is not supported in your perl version,");
		1313	#endif
1088	}	1314	}
1089	}	1315	}
1090		1316
1091	/* always use the TRANSFER macro */	1317	/* always use the TRANSFER macro */
1092	static void NOINLINE	1318	static void NOINLINE /* noinline so we have a fixed stackframe */
1093	transfer (pTHX_ struct coro *prev, struct coro *next)	1319	transfer (pTHX_ struct coro *prev, struct coro *next, int force_cctx)
1094	{	1320	{
1095	dSTACKLEVEL;	1321	dSTACKLEVEL;
1096		1322
1097	/* sometimes transfer is only called to set idle_sp */	1323	/* sometimes transfer is only called to set idle_sp */
1098	if (expect_false (!next))	1324	if (expect_false (!next))
…		…
1104	{	1330	{
1105	coro_cctx *prev__cctx;	1331	coro_cctx *prev__cctx;
1106		1332
1107	if (expect_false (prev->flags & CF_NEW))	1333	if (expect_false (prev->flags & CF_NEW))
1108	{	1334	{
1109	/* create a new empty context */	1335	/* create a new empty/source context */
1110	Newz (0, prev->cctx, 1, coro_cctx);	1336	prev->cctx = cctx_new_empty ();
1111	prev->flags &= ~CF_NEW;	1337	prev->flags &= ~CF_NEW;
1112	prev->flags |= CF_RUNNING;	1338	prev->flags |= CF_RUNNING;
1113	}	1339	}
1114		1340
1115	prev->flags &= ~CF_RUNNING;	1341	prev->flags &= ~CF_RUNNING;
1116	next->flags |= CF_RUNNING;	1342	next->flags |= CF_RUNNING;
1117		1343
1118	LOCK;	1344	/* first get rid of the old state */
		1345	save_perl (aTHX_ prev);
1119		1346
1120	if (expect_false (next->flags & CF_NEW))	1347	if (expect_false (next->flags & CF_NEW))
1121	{	1348	{
1122	/* need to start coroutine */	1349	/* need to start coroutine */
1123	next->flags &= ~CF_NEW;	1350	next->flags &= ~CF_NEW;
1124	/* first get rid of the old state */
1125	save_perl (aTHX_ prev);
1126	/* setup coroutine call */	1351	/* setup coroutine call */
1127	coro_setup (aTHX_ next);	1352	coro_setup (aTHX_ next);
1128	}	1353	}
1129	else	1354	else
		1355	load_perl (aTHX_ next);
		1356
		1357	prev__cctx = prev->cctx;
		1358
		1359	/* possibly untie and reuse the cctx */
		1360	if (expect_true (
		1361	prev__cctx->idle_sp == STACKLEVEL
		1362	&& !(prev__cctx->flags & CC_TRACE)
		1363	&& !force_cctx
		1364	))
1130	{	1365	{
1131	/* coroutine already started */
1132	save_perl (aTHX_ prev);
1133	load_perl (aTHX_ next);
1134	}
1135
1136	prev__cctx = prev->cctx;
1137
1138	/* possibly "free" the cctx */
1139	if (expect_true (prev__cctx->idle_sp == STACKLEVEL && !(prev__cctx->flags & CC_TRACE)))
1140	{
1141	/* I assume that STACKLEVEL is a stronger indicator than PL_top_env changes */	1366	/* I assume that stacklevel is a stronger indicator than PL_top_env changes */
1142	assert (("ERROR: current top_env must equal previous top_env", PL_top_env == prev__cctx->idle_te));	1367	assert (("FATAL: current top_env must equal previous top_env in Coro (please report)", PL_top_env == prev__cctx->idle_te));
1143		1368
1144	prev->cctx = 0;	1369	prev->cctx = 0;
1145		1370
1146	/* if the cctx is about to be destroyed we need to make sure we won't see it in cctx_get */	1371	/* if the cctx is about to be destroyed we need to make sure we won't see it in cctx_get */
1147	/* without this the next cctx_get might destroy the prev__cctx while still in use */	1372	/* without this the next cctx_get might destroy the prev__cctx while still in use */
…		…
1162	prev__cctx->top_env = PL_top_env;	1387	prev__cctx->top_env = PL_top_env;
1163	PL_top_env = next->cctx->top_env;	1388	PL_top_env = next->cctx->top_env;
1164	coro_transfer (&prev__cctx->cctx, &next->cctx->cctx);	1389	coro_transfer (&prev__cctx->cctx, &next->cctx->cctx);
1165	}	1390	}
1166		1391
1167	free_coro_mortal (aTHX);	1392	transfer_tail (aTHX);
1168	UNLOCK;
1169
1170	if (expect_false (prev->throw || next->throw))
1171	{
1172	struct coro *coro = SvSTATE (coro_current);
1173
1174	if (coro->throw)
1175	{
1176	SV *exception = coro->throw;
1177	coro->throw = 0;
1178	sv_setsv (ERRSV, exception);
1179	croak (0);
1180	}
1181	}
1182	}	1393	}
1183	}	1394	}
1184		1395
1185	struct transfer_args
1186	{
1187	struct coro *prev, *next;
1188	};
1189
1190	#define TRANSFER(ta) transfer (aTHX_ (ta).prev, (ta).next)	1396	#define TRANSFER(ta, force_cctx) transfer (aTHX_ (ta).prev, (ta).next, (force_cctx))
1191	#define TRANSFER_CHECK(ta) transfer_check (aTHX_ (ta).prev, (ta).next)	1397	#define TRANSFER_CHECK(ta) transfer_check (aTHX_ (ta).prev, (ta).next)
1192		1398
1193	/** high level stuff ********************************************************/	1399	/** high level stuff ********************************************************/
1194		1400
1195	static int	1401	static int
1196	coro_state_destroy (pTHX_ struct coro *coro)	1402	coro_state_destroy (pTHX_ struct coro *coro)
1197	{	1403	{
1198	if (coro->flags & CF_DESTROYED)	1404	if (coro->flags & CF_DESTROYED)
1199	return 0;	1405	return 0;
		1406
		1407	if (coro->on_destroy)
		1408	coro->on_destroy (aTHX_ coro);
1200		1409
1201	coro->flags |= CF_DESTROYED;	1410	coro->flags |= CF_DESTROYED;
1202		1411
1203	if (coro->flags & CF_READY)	1412	if (coro->flags & CF_READY)
1204	{	1413	{
1205	/* reduce nready, as destroying a ready coro effectively unreadies it */	1414	/* reduce nready, as destroying a ready coro effectively unreadies it */
1206	/* alternative: look through all ready queues and remove the coro */	1415	/* alternative: look through all ready queues and remove the coro */
1207	LOCK;
1208	--coro_nready;	1416	--coro_nready;
1209	UNLOCK;
1210	}	1417	}
1211	else	1418	else
1212	coro->flags |= CF_READY; /* make sure it is NOT put into the readyqueue */	1419	coro->flags |= CF_READY; /* make sure it is NOT put into the readyqueue */
1213		1420
1214	if (coro->mainstack && coro->mainstack != main_mainstack)	1421	if (coro->mainstack && coro->mainstack != main_mainstack)
1215	{	1422	{
1216	struct coro temp;	1423	struct coro temp;
1217		1424
1218	if (coro->flags & CF_RUNNING)	1425	assert (("FATAL: tried to destroy currently running coroutine (please report)", !(coro->flags & CF_RUNNING)));
1219	croak ("FATAL: tried to destroy currently running coroutine");
1220		1426
1221	save_perl (aTHX_ &temp);	1427	save_perl (aTHX_ &temp);
1222	load_perl (aTHX_ coro);	1428	load_perl (aTHX_ coro);
1223		1429
1224	coro_destroy (aTHX_ coro);	1430	coro_destruct (aTHX_ coro);
1225		1431
1226	load_perl (aTHX_ &temp);	1432	load_perl (aTHX_ &temp);
1227		1433
1228	coro->slot = 0;	1434	coro->slot = 0;
1229	}	1435	}
…		…
1275	# define MGf_DUP 0	1481	# define MGf_DUP 0
1276	#endif	1482	#endif
1277	};	1483	};
1278		1484
1279	static void	1485	static void
1280	prepare_transfer (pTHX_ struct transfer_args *ta, SV *prev_sv, SV *next_sv)	1486	prepare_transfer (pTHX_ struct coro_transfer_args *ta, SV *prev_sv, SV *next_sv)
1281	{	1487	{
1282	ta->prev = SvSTATE (prev_sv);	1488	ta->prev = SvSTATE (prev_sv);
1283	ta->next = SvSTATE (next_sv);	1489	ta->next = SvSTATE (next_sv);
1284	TRANSFER_CHECK (*ta);	1490	TRANSFER_CHECK (*ta);
1285	}	1491	}
1286		1492
1287	static void	1493	static void
1288	api_transfer (SV *prev_sv, SV *next_sv)	1494	api_transfer (pTHX_ SV *prev_sv, SV *next_sv)
1289	{	1495	{
1290	dTHX;
1291	struct transfer_args ta;	1496	struct coro_transfer_args ta;
1292		1497
1293	prepare_transfer (aTHX_ &ta, prev_sv, next_sv);	1498	prepare_transfer (aTHX_ &ta, prev_sv, next_sv);
1294	TRANSFER (ta);	1499	TRANSFER (ta, 1);
1295	}	1500	}
1296		1501
1297	/** Coro ********************************************************************/	1502	/** Coro ********************************************************************/
1298		1503
1299	static void	1504	INLINE void
1300	coro_enq (pTHX_ SV *coro_sv)	1505	coro_enq (pTHX_ struct coro *coro)
1301	{	1506	{
1302	av_push (coro_ready [SvSTATE (coro_sv)->prio - PRIO_MIN], coro_sv);	1507	av_push (coro_ready [coro->prio - PRIO_MIN], SvREFCNT_inc_NN (coro->hv));
1303	}	1508	}
1304		1509
1305	static SV *	1510	INLINE SV *
1306	coro_deq (pTHX_ int min_prio)	1511	coro_deq (pTHX)
1307	{	1512	{
1308	int prio = PRIO_MAX - PRIO_MIN;	1513	int prio;
1309		1514
1310	min_prio -= PRIO_MIN;
1311	if (min_prio < 0)
1312	min_prio = 0;
1313
1314	for (prio = PRIO_MAX - PRIO_MIN + 1; --prio >= min_prio; )	1515	for (prio = PRIO_MAX - PRIO_MIN + 1; --prio >= 0; )
1315	if (AvFILLp (coro_ready [prio]) >= 0)	1516	if (AvFILLp (coro_ready [prio]) >= 0)
1316	return av_shift (coro_ready [prio]);	1517	return av_shift (coro_ready [prio]);
1317		1518
1318	return 0;	1519	return 0;
1319	}	1520	}
1320		1521
1321	static int	1522	static int
1322	api_ready (SV *coro_sv)	1523	api_ready (pTHX_ SV *coro_sv)
1323	{	1524	{
1324	dTHX;
1325	struct coro *coro;	1525	struct coro *coro;
		1526	SV *sv_hook;
		1527	void (*xs_hook)(void);
1326		1528
1327	if (SvROK (coro_sv))	1529	if (SvROK (coro_sv))
1328	coro_sv = SvRV (coro_sv);	1530	coro_sv = SvRV (coro_sv);
1329		1531
1330	coro = SvSTATE (coro_sv);	1532	coro = SvSTATE (coro_sv);
…		…
1332	if (coro->flags & CF_READY)	1534	if (coro->flags & CF_READY)
1333	return 0;	1535	return 0;
1334		1536
1335	coro->flags |= CF_READY;	1537	coro->flags |= CF_READY;
1336		1538
1337	LOCK;	1539	sv_hook = coro_nready ? 0 : coro_readyhook;
1338	coro_enq (aTHX_ SvREFCNT_inc (coro_sv));	1540	xs_hook = coro_nready ? 0 : coroapi.readyhook;
		1541
		1542	coro_enq (aTHX_ coro);
1339	++coro_nready;	1543	++coro_nready;
1340	UNLOCK;	1544
		1545	if (sv_hook)
		1546	{
		1547	dSP;
		1548
		1549	ENTER;
		1550	SAVETMPS;
		1551
		1552	PUSHMARK (SP);
		1553	PUTBACK;
		1554	call_sv (sv_hook, G_VOID | G_DISCARD);
		1555
		1556	FREETMPS;
		1557	LEAVE;
		1558	}
		1559
		1560	if (xs_hook)
		1561	xs_hook ();
1341		1562
1342	return 1;	1563	return 1;
1343	}	1564	}
1344		1565
1345	static int	1566	static int
1346	api_is_ready (SV *coro_sv)	1567	api_is_ready (pTHX_ SV *coro_sv)
1347	{	1568	{
1348	dTHX;
1349	return !!(SvSTATE (coro_sv)->flags & CF_READY);	1569	return !!(SvSTATE (coro_sv)->flags & CF_READY);
1350	}	1570	}
1351		1571
1352	static void	1572	INLINE void
1353	prepare_schedule (pTHX_ struct transfer_args *ta)	1573	prepare_schedule (pTHX_ struct coro_transfer_args *ta)
1354	{	1574	{
1355	SV *prev_sv, *next_sv;	1575	SV *prev_sv, *next_sv;
1356		1576
1357	for (;;)	1577	for (;;)
1358	{	1578	{
1359	LOCK;
1360	next_sv = coro_deq (aTHX_ PRIO_MIN);	1579	next_sv = coro_deq (aTHX);
1361		1580
1362	/* nothing to schedule: call the idle handler */	1581	/* nothing to schedule: call the idle handler */
1363	if (expect_false (!next_sv))	1582	if (expect_false (!next_sv))
1364	{	1583	{
1365	dSP;	1584	dSP;
1366	UNLOCK;
1367		1585
1368	ENTER;	1586	ENTER;
1369	SAVETMPS;	1587	SAVETMPS;
1370		1588
1371	PUSHMARK (SP);	1589	PUSHMARK (SP);
1372	PUTBACK;	1590	PUTBACK;
1373	call_sv (get_sv ("Coro::idle", FALSE), G_DISCARD);	1591	call_sv (get_sv ("Coro::idle", FALSE), G_VOID | G_DISCARD);
1374		1592
1375	FREETMPS;	1593	FREETMPS;
1376	LEAVE;	1594	LEAVE;
1377	continue;	1595	continue;
1378	}	1596	}
1379		1597
1380	ta->next = SvSTATE (next_sv);	1598	ta->next = SvSTATE_hv (next_sv);
1381		1599
1382	/* cannot transfer to destroyed coros, skip and look for next */	1600	/* cannot transfer to destroyed coros, skip and look for next */
1383	if (expect_false (ta->next->flags & CF_DESTROYED))	1601	if (expect_false (ta->next->flags & CF_DESTROYED))
1384	{	1602	{
1385	UNLOCK;
1386	SvREFCNT_dec (next_sv);	1603	SvREFCNT_dec (next_sv);
1387	/* coro_nready is already taken care of by destroy */	1604	/* coro_nready has already been taken care of by destroy */
1388	continue;	1605	continue;
1389	}	1606	}
1390		1607
1391	--coro_nready;	1608	--coro_nready;
1392	UNLOCK;
1393	break;	1609	break;
1394	}	1610	}
1395		1611
1396	/* free this only after the transfer */	1612	/* free this only after the transfer */
1397	prev_sv = SvRV (coro_current);	1613	prev_sv = SvRV (coro_current);
1398	ta->prev = SvSTATE (prev_sv);	1614	ta->prev = SvSTATE_hv (prev_sv);
1399	TRANSFER_CHECK (*ta);	1615	TRANSFER_CHECK (*ta);
1400	assert (ta->next->flags & CF_READY);	1616	assert (("FATAL: next coroutine isn't marked as ready in Coro (please report)", ta->next->flags & CF_READY));
1401	ta->next->flags &= ~CF_READY;	1617	ta->next->flags &= ~CF_READY;
1402	SvRV_set (coro_current, next_sv);	1618	SvRV_set (coro_current, next_sv);
1403		1619
1404	LOCK;
1405	free_coro_mortal (aTHX);	1620	free_coro_mortal (aTHX);
1406	coro_mortal = prev_sv;	1621	coro_mortal = prev_sv;
1407	UNLOCK;
1408	}	1622	}
1409		1623
1410	static void	1624	INLINE void
1411	prepare_cede (pTHX_ struct transfer_args *ta)	1625	prepare_cede (pTHX_ struct coro_transfer_args *ta)
1412	{	1626	{
1413	api_ready (coro_current);	1627	api_ready (aTHX_ coro_current);
1414	prepare_schedule (aTHX_ ta);	1628	prepare_schedule (aTHX_ ta);
1415	}	1629	}
1416		1630
		1631	INLINE void
		1632	prepare_cede_notself (pTHX_ struct coro_transfer_args *ta)
		1633	{
		1634	SV *prev = SvRV (coro_current);
		1635
		1636	if (coro_nready)
		1637	{
		1638	prepare_schedule (aTHX_ ta);
		1639	api_ready (aTHX_ prev);
		1640	}
		1641	else
		1642	prepare_nop (aTHX_ ta);
		1643	}
		1644
		1645	static void
		1646	api_schedule (pTHX)
		1647	{
		1648	struct coro_transfer_args ta;
		1649
		1650	prepare_schedule (aTHX_ &ta);
		1651	TRANSFER (ta, 1);
		1652	}
		1653
1417	static int	1654	static int
1418	prepare_cede_notself (pTHX_ struct transfer_args *ta)	1655	api_cede (pTHX)
1419	{	1656	{
1420	if (coro_nready)	1657	struct coro_transfer_args ta;
1421	{	1658
1422	SV *prev = SvRV (coro_current);
1423	prepare_schedule (aTHX_ ta);	1659	prepare_cede (aTHX_ &ta);
1424	api_ready (prev);	1660
		1661	if (expect_true (ta.prev != ta.next))
		1662	{
		1663	TRANSFER (ta, 1);
1425	return 1;	1664	return 1;
1426	}	1665	}
1427	else	1666	else
1428	return 0;	1667	return 0;
1429	}	1668	}
1430		1669
1431	static void
1432	api_schedule (void)
1433	{
1434	dTHX;
1435	struct transfer_args ta;
1436
1437	prepare_schedule (aTHX_ &ta);
1438	TRANSFER (ta);
1439	}
1440
1441	static int	1670	static int
1442	api_cede (void)	1671	api_cede_notself (pTHX)
1443	{	1672	{
1444	dTHX;	1673	if (coro_nready)
		1674	{
1445	struct transfer_args ta;	1675	struct coro_transfer_args ta;
1446		1676
1447	prepare_cede (aTHX_ &ta);	1677	prepare_cede_notself (aTHX_ &ta);
1448
1449	if (expect_true (ta.prev != ta.next))
1450	{
1451	TRANSFER (ta);	1678	TRANSFER (ta, 1);
1452	return 1;	1679	return 1;
1453	}	1680	}
1454	else	1681	else
1455	return 0;	1682	return 0;
1456	}	1683	}
1457		1684
1458	static int	1685	static void
1459	api_cede_notself (void)
1460	{
1461	dTHX;
1462	struct transfer_args ta;
1463
1464	if (prepare_cede_notself (aTHX_ &ta))
1465	{
1466	TRANSFER (ta);
1467	return 1;
1468	}
1469	else
1470	return 0;
1471	}
1472
1473	static void
1474	api_trace (SV *coro_sv, int flags)	1686	api_trace (pTHX_ SV *coro_sv, int flags)
1475	{	1687	{
1476	dTHX;
1477	struct coro *coro = SvSTATE (coro_sv);	1688	struct coro *coro = SvSTATE (coro_sv);
1478		1689
1479	if (flags & CC_TRACE)	1690	if (flags & CC_TRACE)
1480	{	1691	{
1481	if (!coro->cctx)	1692	if (!coro->cctx)
1482	coro->cctx = cctx_new ();	1693	coro->cctx = cctx_new_run ();
1483	else if (!(coro->cctx->flags & CC_TRACE))	1694	else if (!(coro->cctx->flags & CC_TRACE))
1484	croak ("cannot enable tracing on coroutine with custom stack");	1695	croak ("cannot enable tracing on coroutine with custom stack,");
1485		1696
1486	coro->cctx->flags |= CC_NOREUSE | (flags & (CC_TRACE | CC_TRACE_ALL));	1697	coro->cctx->flags |= CC_NOREUSE | (flags & (CC_TRACE | CC_TRACE_ALL));
1487	}	1698	}
1488	else if (coro->cctx && coro->cctx->flags & CC_TRACE)	1699	else if (coro->cctx && coro->cctx->flags & CC_TRACE)
1489	{	1700	{
…		…
1494	else	1705	else
1495	coro->slot->runops = RUNOPS_DEFAULT;	1706	coro->slot->runops = RUNOPS_DEFAULT;
1496	}	1707	}
1497	}	1708	}
1498		1709
		1710	/*****************************************************************************/
		1711	/* schedule-like-function opcode (SLF) */
		1712
		1713	static UNOP slf_restore; /* restore stack as entersub did, for first-re-run */
		1714	static const CV *slf_cv;
		1715	static SV **slf_argv;
		1716	static int slf_argc, slf_arga; /* count, allocated */
		1717	static I32 slf_ax; /* top of stack, for restore */
		1718
		1719	/* this restores the stack in the case we patched the entersub, to */
		1720	/* recreate the stack frame as perl will on following calls */
		1721	/* since entersub cleared the stack */
		1722	static OP *
		1723	pp_restore (pTHX)
		1724	{
		1725	int i;
		1726	SV **SP = PL_stack_base + slf_ax;
		1727
		1728	PUSHMARK (SP);
		1729
		1730	EXTEND (SP, slf_argc + 1);
		1731
		1732	for (i = 0; i < slf_argc; ++i)
		1733	PUSHs (sv_2mortal (slf_argv [i]));
		1734
		1735	PUSHs ((SV *)CvGV (slf_cv));
		1736
		1737	RETURNOP (slf_restore.op_first);
		1738	}
		1739
		1740	static void
		1741	slf_prepare_transfer (pTHX_ struct coro_transfer_args *ta)
		1742	{
		1743	SV **arg = (SV **)slf_frame.data;
		1744
		1745	prepare_transfer (aTHX_ ta, arg [0], arg [1]);
		1746	}
		1747
		1748	static void
		1749	slf_init_transfer (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		1750	{
		1751	if (items != 2)
		1752	croak ("Coro::State::transfer (prev, next) expects two arguments, not %d,", items);
		1753
		1754	frame->prepare = slf_prepare_transfer;
		1755	frame->check = slf_check_nop;
		1756	frame->data = (void *)arg; /* let's hope it will stay valid */
		1757	}
		1758
		1759	static void
		1760	slf_init_schedule (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		1761	{
		1762	frame->prepare = prepare_schedule;
		1763	frame->check = slf_check_nop;
		1764	}
		1765
		1766	static void
		1767	slf_init_cede (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		1768	{
		1769	frame->prepare = prepare_cede;
		1770	frame->check = slf_check_nop;
		1771	}
		1772
		1773	static void
		1774	slf_init_cede_notself (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		1775	{
		1776	frame->prepare = prepare_cede_notself;
		1777	frame->check = slf_check_nop;
		1778	}
		1779
		1780	/*
		1781	* these not obviously related functions are all rolled into one
		1782	* function to increase chances that they all will call transfer with the same
		1783	* stack offset
		1784	* SLF stands for "schedule-like-function".
		1785	*/
		1786	static OP *
		1787	pp_slf (pTHX)
		1788	{
		1789	I32 checkmark; /* mark SP to see how many elements check has pushed */
		1790
		1791	/* set up the slf frame, unless it has already been set-up */
		1792	/* the latter happens when a new coro has been started */
		1793	/* or when a new cctx was attached to an existing coroutine */
		1794	if (expect_true (!slf_frame.prepare))
		1795	{
		1796	/* first iteration */
		1797	dSP;
		1798	SV **arg = PL_stack_base + TOPMARK + 1;
		1799	int items = SP - arg; /* args without function object */
		1800	SV *gv = *sp;
		1801
		1802	/* do a quick consistency check on the "function" object, and if it isn't */
		1803	/* for us, divert to the real entersub */
		1804	if (SvTYPE (gv) != SVt_PVGV
		1805	|| !GvCV (gv)
		1806	|| !(CvFLAGS (GvCV (gv)) & CVf_SLF))
		1807	return PL_ppaddr[OP_ENTERSUB](aTHX);
		1808
		1809	if (!(PL_op->op_flags & OPf_STACKED))
		1810	{
		1811	/* ampersand-form of call, use @_ instead of stack */
		1812	AV *av = GvAV (PL_defgv);
		1813	arg = AvARRAY (av);
		1814	items = AvFILLp (av) + 1;
		1815	}
		1816
		1817	/* now call the init function, which needs to set up slf_frame */
		1818	((coro_slf_cb)CvXSUBANY (GvCV (gv)).any_ptr)
		1819	(aTHX_ &slf_frame, GvCV (gv), arg, items);
		1820
		1821	/* pop args */
		1822	SP = PL_stack_base + POPMARK;
		1823
		1824	PUTBACK;
		1825	}
		1826
		1827	/* now that we have a slf_frame, interpret it! */
		1828	/* we use a callback system not to make the code needlessly */
		1829	/* complicated, but so we can run multiple perl coros from one cctx */
		1830
		1831	do
		1832	{
		1833	struct coro_transfer_args ta;
		1834
		1835	slf_frame.prepare (aTHX_ &ta);
		1836	TRANSFER (ta, 0);
		1837
		1838	checkmark = PL_stack_sp - PL_stack_base;
		1839	}
		1840	while (slf_frame.check (aTHX_ &slf_frame));
		1841
		1842	slf_frame.prepare = 0; /* invalidate the frame, we are done processing it */
		1843
		1844	/* exception handling */
		1845	if (expect_false (CORO_THROW))
		1846	{
		1847	SV *exception = sv_2mortal (CORO_THROW);
		1848
		1849	CORO_THROW = 0;
		1850	sv_setsv (ERRSV, exception);
		1851	croak (0);
		1852	}
		1853
		1854	/* return value handling - mostly like entersub */
		1855	/* make sure we put something on the stack in scalar context */
		1856	if (GIMME_V == G_SCALAR)
		1857	{
		1858	dSP;
		1859	SV **bot = PL_stack_base + checkmark;
		1860
		1861	if (sp == bot) /* too few, push undef */
		1862	bot [1] = &PL_sv_undef;
		1863	else if (sp != bot + 1) /* too many, take last one */
		1864	bot [1] = *sp;
		1865
		1866	SP = bot + 1;
		1867
		1868	PUTBACK;
		1869	}
		1870
		1871	return NORMAL;
		1872	}
		1873
		1874	static void
		1875	api_execute_slf (pTHX_ CV *cv, coro_slf_cb init_cb, I32 ax)
		1876	{
		1877	int i;
		1878	SV **arg = PL_stack_base + ax;
		1879	int items = PL_stack_sp - arg + 1;
		1880
		1881	assert (("FATAL: SLF call with illegal CV value", !CvANON (cv)));
		1882
		1883	if (PL_op->op_ppaddr != PL_ppaddr [OP_ENTERSUB]
		1884	&& PL_op->op_ppaddr != pp_slf)
		1885	croak ("FATAL: Coro SLF calls can only be made normally, not via goto or any other means, caught");
		1886
		1887	CvFLAGS (cv) |= CVf_SLF;
		1888	CvXSUBANY (cv).any_ptr = (void *)init_cb;
		1889	slf_cv = cv;
		1890
		1891	/* we patch the op, and then re-run the whole call */
		1892	/* we have to put the same argument on the stack for this to work */
		1893	/* and this will be done by pp_restore */
		1894	slf_restore.op_next = (OP *)&slf_restore;
		1895	slf_restore.op_type = OP_CUSTOM;
		1896	slf_restore.op_ppaddr = pp_restore;
		1897	slf_restore.op_first = PL_op;
		1898
		1899	slf_ax = ax - 1; /* undo the ax++ inside dAXMARK */
		1900
		1901	if (PL_op->op_flags & OPf_STACKED)
		1902	{
		1903	if (items > slf_arga)
		1904	{
		1905	slf_arga = items;
		1906	free (slf_argv);
		1907	slf_argv = malloc (slf_arga * sizeof (SV *));
		1908	}
		1909
		1910	slf_argc = items;
		1911
		1912	for (i = 0; i < items; ++i)
		1913	slf_argv [i] = SvREFCNT_inc (arg [i]);
		1914	}
		1915	else
		1916	slf_argc = 0;
		1917
		1918	PL_op->op_ppaddr = pp_slf;
		1919	PL_op->op_type = OP_CUSTOM; /* maybe we should leave it at entersub? */
		1920
		1921	PL_op = (OP *)&slf_restore;
		1922	}
		1923
		1924	/*****************************************************************************/
		1925	/* PerlIO::cede */
		1926
		1927	typedef struct
		1928	{
		1929	PerlIOBuf base;
		1930	NV next, every;
		1931	} PerlIOCede;
		1932
		1933	static IV
		1934	PerlIOCede_pushed (pTHX_ PerlIO *f, const char *mode, SV *arg, PerlIO_funcs *tab)
		1935	{
		1936	PerlIOCede *self = PerlIOSelf (f, PerlIOCede);
		1937
		1938	self->every = SvCUR (arg) ? SvNV (arg) : 0.01;
		1939	self->next = nvtime () + self->every;
		1940
		1941	return PerlIOBuf_pushed (aTHX_ f, mode, Nullsv, tab);
		1942	}
		1943
		1944	static SV *
		1945	PerlIOCede_getarg (pTHX_ PerlIO *f, CLONE_PARAMS *param, int flags)
		1946	{
		1947	PerlIOCede *self = PerlIOSelf (f, PerlIOCede);
		1948
		1949	return newSVnv (self->every);
		1950	}
		1951
		1952	static IV
		1953	PerlIOCede_flush (pTHX_ PerlIO *f)
		1954	{
		1955	PerlIOCede *self = PerlIOSelf (f, PerlIOCede);
		1956	double now = nvtime ();
		1957
		1958	if (now >= self->next)
		1959	{
		1960	api_cede (aTHX);
		1961	self->next = now + self->every;
		1962	}
		1963
		1964	return PerlIOBuf_flush (aTHX_ f);
		1965	}
		1966
		1967	static PerlIO_funcs PerlIO_cede =
		1968	{
		1969	sizeof(PerlIO_funcs),
		1970	"cede",
		1971	sizeof(PerlIOCede),
		1972	PERLIO_K_DESTRUCT | PERLIO_K_RAW,
		1973	PerlIOCede_pushed,
		1974	PerlIOBuf_popped,
		1975	PerlIOBuf_open,
		1976	PerlIOBase_binmode,
		1977	PerlIOCede_getarg,
		1978	PerlIOBase_fileno,
		1979	PerlIOBuf_dup,
		1980	PerlIOBuf_read,
		1981	PerlIOBuf_unread,
		1982	PerlIOBuf_write,
		1983	PerlIOBuf_seek,
		1984	PerlIOBuf_tell,
		1985	PerlIOBuf_close,
		1986	PerlIOCede_flush,
		1987	PerlIOBuf_fill,
		1988	PerlIOBase_eof,
		1989	PerlIOBase_error,
		1990	PerlIOBase_clearerr,
		1991	PerlIOBase_setlinebuf,
		1992	PerlIOBuf_get_base,
		1993	PerlIOBuf_bufsiz,
		1994	PerlIOBuf_get_ptr,
		1995	PerlIOBuf_get_cnt,
		1996	PerlIOBuf_set_ptrcnt,
		1997	};
		1998
		1999	/*****************************************************************************/
		2000	/* Coro::Semaphore */
		2001
		2002	static void
		2003	coro_semaphore_adjust (pTHX_ AV *av, IV adjust)
		2004	{
		2005	SV *count_sv = AvARRAY (av)[0];
		2006	IV count = SvIVX (count_sv);
		2007
		2008	count += adjust;
		2009	SvIVX (count_sv) = count;
		2010
		2011	/* now wake up as many waiters as are expected to lock */
		2012	while (count > 0 && AvFILLp (av) > 0)
		2013	{
		2014	SV *cb;
		2015
		2016	/* swap first two elements so we can shift a waiter */
		2017	AvARRAY (av)[0] = AvARRAY (av)[1];
		2018	AvARRAY (av)[1] = count_sv;
		2019	cb = av_shift (av);
		2020
		2021	if (SvOBJECT (cb))
		2022	api_ready (aTHX_ cb);
		2023	else
		2024	croak ("callbacks not yet supported");
		2025
		2026	SvREFCNT_dec (cb);
		2027
		2028	--count;
		2029	}
		2030	}
		2031
		2032	static void
		2033	coro_semaphore_on_destroy (pTHX_ struct coro *coro)
		2034	{
		2035	/* call $sem->adjust (0) to possibly wake up some other waiters */
		2036	coro_semaphore_adjust (aTHX_ (AV *)coro->slf_frame.data, 0);
		2037	}
		2038
		2039	static int
		2040	slf_check_semaphore_down (pTHX_ struct CoroSLF *frame)
		2041	{
		2042	AV *av = (AV *)frame->data;
		2043	SV *count_sv = AvARRAY (av)[0];
		2044
		2045	/* if we are about to throw, don't actually acquire the lock, just throw */
		2046	if (CORO_THROW)
		2047	return 0;
		2048	else if (SvIVX (count_sv) > 0)
		2049	{
		2050	SvSTATE_current->on_destroy = 0;
		2051	SvIVX (count_sv) = SvIVX (count_sv) - 1;
		2052	return 0;
		2053	}
		2054	else
		2055	{
		2056	int i;
		2057	/* if we were woken up but can't down, we look through the whole */
		2058	/* waiters list and only add us if we aren't in there already */
		2059	/* this avoids some degenerate memory usage cases */
		2060
		2061	for (i = 1; i <= AvFILLp (av); ++i)
		2062	if (AvARRAY (av)[i] == SvRV (coro_current))
		2063	return 1;
		2064
		2065	av_push (av, SvREFCNT_inc (SvRV (coro_current)));
		2066	return 1;
		2067	}
		2068	}
		2069
		2070	static void
		2071	slf_init_semaphore_down (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		2072	{
		2073	AV *av = (AV *)SvRV (arg [0]);
		2074
		2075	if (SvIVX (AvARRAY (av)[0]) > 0)
		2076	{
		2077	frame->data = (void *)av;
		2078	frame->prepare = prepare_nop;
		2079	}
		2080	else
		2081	{
		2082	av_push (av, SvREFCNT_inc (SvRV (coro_current)));
		2083
		2084	frame->data = (void *)sv_2mortal (SvREFCNT_inc ((SV *)av));
		2085	frame->prepare = prepare_schedule;
		2086
		2087	/* to avoid race conditions when a woken-up coro gets terminated */
		2088	/* we arrange for a temporary on_destroy that calls adjust (0) */
		2089	SvSTATE_current->on_destroy = coro_semaphore_on_destroy;
		2090	}
		2091
		2092	frame->check = slf_check_semaphore_down;
		2093
		2094	}
		2095
		2096	/*****************************************************************************/
		2097	/* gensub: simple closure generation utility */
		2098
		2099	#define GENSUB_ARG CvXSUBANY (cv).any_ptr
		2100
		2101	/* create a closure from XS, returns a code reference */
		2102	/* the arg can be accessed via GENSUB_ARG from the callback */
		2103	/* the callback must use dXSARGS/XSRETURN */
		2104	static SV *
		2105	gensub (pTHX_ void (*xsub)(pTHX_ CV *), void *arg)
		2106	{
		2107	CV *cv = (CV *)newSV (0);
		2108
		2109	sv_upgrade ((SV *)cv, SVt_PVCV);
		2110
		2111	CvANON_on (cv);
		2112	CvISXSUB_on (cv);
		2113	CvXSUB (cv) = xsub;
		2114	GENSUB_ARG = arg;
		2115
		2116	return newRV_noinc ((SV *)cv);
		2117	}
		2118
		2119	/*****************************************************************************/
		2120	/* Coro::AIO */
		2121
		2122	#define CORO_MAGIC_type_aio PERL_MAGIC_ext
		2123
		2124	/* helper storage struct */
		2125	struct io_state
		2126	{
		2127	int errorno;
		2128	I32 laststype; /* U16 in 5.10.0 */
		2129	int laststatval;
		2130	Stat_t statcache;
		2131	};
		2132
		2133	static void
		2134	coro_aio_callback (pTHX_ CV *cv)
		2135	{
		2136	dXSARGS;
		2137	AV *state = (AV *)GENSUB_ARG;
		2138	SV *coro = av_pop (state);
		2139	SV *data_sv = newSV (sizeof (struct io_state));
		2140
		2141	av_extend (state, items);
		2142
		2143	sv_upgrade (data_sv, SVt_PV);
		2144	SvCUR_set (data_sv, sizeof (struct io_state));
		2145	SvPOK_only (data_sv);
		2146
		2147	{
		2148	struct io_state *data = (struct io_state *)SvPVX (data_sv);
		2149
		2150	data->errorno = errno;
		2151	data->laststype = PL_laststype;
		2152	data->laststatval = PL_laststatval;
		2153	data->statcache = PL_statcache;
		2154	}
		2155
		2156	/* now build the result vector out of all the parameters and the data_sv */
		2157	{
		2158	int i;
		2159
		2160	for (i = 0; i < items; ++i)
		2161	av_push (state, SvREFCNT_inc_NN (ST (i)));
		2162	}
		2163
		2164	av_push (state, data_sv);
		2165
		2166	api_ready (aTHX_ coro);
		2167	SvREFCNT_dec (coro);
		2168	SvREFCNT_dec ((AV *)state);
		2169	}
		2170
		2171	static int
		2172	slf_check_aio_req (pTHX_ struct CoroSLF *frame)
		2173	{
		2174	AV *state = (AV *)frame->data;
		2175
		2176	/* if we are about to throw, return early */
		2177	/* this does not cancel the aio request, but at least */
		2178	/* it quickly returns */
		2179	if (CORO_THROW)
		2180	return 0;
		2181
		2182	/* one element that is an RV? repeat! */
		2183	if (AvFILLp (state) == 0 && SvROK (AvARRAY (state)[0]))
		2184	return 1;
		2185
		2186	/* restore status */
		2187	{
		2188	SV *data_sv = av_pop (state);
		2189	struct io_state *data = (struct io_state *)SvPVX (data_sv);
		2190
		2191	errno = data->errorno;
		2192	PL_laststype = data->laststype;
		2193	PL_laststatval = data->laststatval;
		2194	PL_statcache = data->statcache;
		2195
		2196	SvREFCNT_dec (data_sv);
		2197	}
		2198
		2199	/* push result values */
		2200	{
		2201	dSP;
		2202	int i;
		2203
		2204	EXTEND (SP, AvFILLp (state) + 1);
		2205	for (i = 0; i <= AvFILLp (state); ++i)
		2206	PUSHs (sv_2mortal (SvREFCNT_inc_NN (AvARRAY (state)[i])));
		2207
		2208	PUTBACK;
		2209	}
		2210
		2211	return 0;
		2212	}
		2213
		2214	static void
		2215	slf_init_aio_req (pTHX_ struct CoroSLF *frame, CV *cv, SV **arg, int items)
		2216	{
		2217	AV *state = (AV *)sv_2mortal ((SV *)newAV ());
		2218	SV *coro_hv = SvRV (coro_current);
		2219	struct coro *coro = SvSTATE_hv (coro_hv);
		2220
		2221	/* put our coroutine id on the state arg */
		2222	av_push (state, SvREFCNT_inc_NN (coro_hv));
		2223
		2224	/* first see whether we have a non-zero priority and set it as AIO prio */
		2225	if (coro->prio)
		2226	{
		2227	dSP;
		2228
		2229	static SV *prio_cv;
		2230	static SV *prio_sv;
		2231
		2232	if (expect_false (!prio_cv))
		2233	{
		2234	prio_cv = (SV *)get_cv ("IO::AIO::aioreq_pri", 0);
		2235	prio_sv = newSViv (0);
		2236	}
		2237
		2238	PUSHMARK (SP);
		2239	sv_setiv (prio_sv, coro->prio);
		2240	XPUSHs (prio_sv);
		2241
		2242	PUTBACK;
		2243	call_sv (prio_cv, G_VOID | G_DISCARD);
		2244	}
		2245
		2246	/* now call the original request */
		2247	{
		2248	dSP;
		2249	CV *req = (CV *)CORO_MAGIC_NN ((SV *)cv, CORO_MAGIC_type_aio)->mg_obj;
		2250	int i;
		2251
		2252	PUSHMARK (SP);
		2253
		2254	/* first push all args to the stack */
		2255	EXTEND (SP, items + 1);
		2256
		2257	for (i = 0; i < items; ++i)
		2258	PUSHs (arg [i]);
		2259
		2260	/* now push the callback closure */
		2261	PUSHs (sv_2mortal (gensub (aTHX_ coro_aio_callback, (void *)SvREFCNT_inc_NN ((SV *)state))));
		2262
		2263	/* now call the AIO function - we assume our request is uncancelable */
		2264	PUTBACK;
		2265	call_sv ((SV *)req, G_VOID | G_DISCARD);
		2266	}
		2267
		2268	/* now that the requets is going, we loop toll we have a result */
		2269	frame->data = (void *)state;
		2270	frame->prepare = prepare_schedule;
		2271	frame->check = slf_check_aio_req;
		2272	}
		2273
		2274	static void
		2275	coro_aio_req_xs (pTHX_ CV *cv)
		2276	{
		2277	dXSARGS;
		2278
		2279	CORO_EXECUTE_SLF_XS (slf_init_aio_req);
		2280
		2281	XSRETURN_EMPTY;
		2282	}
		2283
		2284	/*****************************************************************************/
		2285
1499	MODULE = Coro::State PACKAGE = Coro::State PREFIX = api_	2286	MODULE = Coro::State PACKAGE = Coro::State PREFIX = api_
1500		2287
1501	PROTOTYPES: DISABLE	2288	PROTOTYPES: DISABLE
1502		2289
1503	BOOT:	2290	BOOT:
1504	{	2291	{
1505	#ifdef USE_ITHREADS	2292	#ifdef USE_ITHREADS
1506	MUTEX_INIT (&coro_mutex);	2293	# if CORO_PTHREAD
		2294	coro_thx = PERL_GET_CONTEXT;
		2295	# endif
1507	#endif	2296	#endif
1508	BOOT_PAGESIZE;	2297	BOOT_PAGESIZE;
1509		2298
1510	irsgv = gv_fetchpv ("/" , GV_ADD|GV_NOTQUAL, SVt_PV);	2299	irsgv = gv_fetchpv ("/" , GV_ADD|GV_NOTQUAL, SVt_PV);
1511	stdoutgv = gv_fetchpv ("STDOUT", GV_ADD|GV_NOTQUAL, SVt_PVIO);	2300	stdoutgv = gv_fetchpv ("STDOUT", GV_ADD|GV_NOTQUAL, SVt_PVIO);
1512		2301
		2302	orig_sigelem_get = PL_vtbl_sigelem.svt_get; PL_vtbl_sigelem.svt_get = coro_sigelem_get;
		2303	orig_sigelem_set = PL_vtbl_sigelem.svt_set; PL_vtbl_sigelem.svt_set = coro_sigelem_set;
		2304	orig_sigelem_clr = PL_vtbl_sigelem.svt_clear; PL_vtbl_sigelem.svt_clear = coro_sigelem_clr;
		2305
1513	hv_sig = coro_get_hv ("SIG", TRUE);	2306	hv_sig = coro_get_hv (aTHX_ "SIG", TRUE);
1514	sv_diehook = coro_get_sv ("Coro::State::DIEHOOK" , TRUE);	2307	rv_diehook = newRV_inc ((SV *)gv_fetchpv ("Coro::State::diehook" , 0, SVt_PVCV));
1515	sv_warnhook = coro_get_sv ("Coro::State::WARNHOOK", TRUE);	2308	rv_warnhook = newRV_inc ((SV *)gv_fetchpv ("Coro::State::warnhook", 0, SVt_PVCV));
1516
1517	if (!PL_diehook ) hv_store (hv_sig, strpair ("__DIE__" ), SvREFCNT_inc (sv_diehook ), 0);
1518	if (!PL_warnhook) hv_store (hv_sig, strpair ("__WARN__"), SvREFCNT_inc (sv_warnhook), 0);
1519		2309
1520	coro_state_stash = gv_stashpv ("Coro::State", TRUE);	2310	coro_state_stash = gv_stashpv ("Coro::State", TRUE);
1521		2311
1522	newCONSTSUB (coro_state_stash, "CC_TRACE" , newSViv (CC_TRACE));	2312	newCONSTSUB (coro_state_stash, "CC_TRACE" , newSViv (CC_TRACE));
1523	newCONSTSUB (coro_state_stash, "CC_TRACE_SUB" , newSViv (CC_TRACE_SUB));	2313	newCONSTSUB (coro_state_stash, "CC_TRACE_SUB" , newSViv (CC_TRACE_SUB));
…		…
1528	main_top_env = PL_top_env;	2318	main_top_env = PL_top_env;
1529		2319
1530	while (main_top_env->je_prev)	2320	while (main_top_env->je_prev)
1531	main_top_env = main_top_env->je_prev;	2321	main_top_env = main_top_env->je_prev;
1532		2322
		2323	{
		2324	SV *slf = sv_2mortal (newSViv (PTR2IV (pp_slf)));
		2325
		2326	if (!PL_custom_op_names) PL_custom_op_names = newHV ();
		2327	hv_store_ent (PL_custom_op_names, slf,
		2328	newSVpv ("coro_slf", 0), 0);
		2329
		2330	if (!PL_custom_op_descs) PL_custom_op_descs = newHV ();
		2331	hv_store_ent (PL_custom_op_descs, slf,
		2332	newSVpv ("coro schedule like function", 0), 0);
		2333	}
		2334
1533	coroapi.ver = CORO_API_VERSION;	2335	coroapi.ver = CORO_API_VERSION;
1534	coroapi.rev = CORO_API_REVISION;	2336	coroapi.rev = CORO_API_REVISION;
		2337
1535	coroapi.transfer = api_transfer;	2338	coroapi.transfer = api_transfer;
		2339
		2340	coroapi.sv_state = SvSTATE_;
		2341	coroapi.execute_slf = api_execute_slf;
		2342	coroapi.prepare_nop = prepare_nop;
		2343	coroapi.prepare_schedule = prepare_schedule;
		2344	coroapi.prepare_cede = prepare_cede;
		2345	coroapi.prepare_cede_notself = prepare_cede_notself;
		2346
		2347	{
		2348	SV **svp = hv_fetch (PL_modglobal, "Time::NVtime", 12, 0);
		2349
		2350	if (!svp) croak ("Time::HiRes is required");
		2351	if (!SvIOK (*svp)) croak ("Time::NVtime isn't a function pointer");
		2352
		2353	nvtime = INT2PTR (double (*)(), SvIV (*svp));
		2354	}
1536		2355
1537	assert (("PRIO_NORMAL must be 0", !PRIO_NORMAL));	2356	assert (("PRIO_NORMAL must be 0", !PRIO_NORMAL));
1538	}	2357	}
1539		2358
1540	SV *	2359	SV *
1541	new (char *klass, ...)	2360	new (char *klass, ...)
1542	CODE:	2361	CODE:
1543	{	2362	{
1544	struct coro *coro;	2363	struct coro *coro;
		2364	MAGIC *mg;
1545	HV *hv;	2365	HV *hv;
1546	int i;	2366	int i;
1547		2367
1548	Newz (0, coro, 1, struct coro);	2368	Newz (0, coro, 1, struct coro);
1549	coro->args = newAV ();	2369	coro->args = newAV ();
…		…
1552	if (coro_first) coro_first->prev = coro;	2372	if (coro_first) coro_first->prev = coro;
1553	coro->next = coro_first;	2373	coro->next = coro_first;
1554	coro_first = coro;	2374	coro_first = coro;
1555		2375
1556	coro->hv = hv = newHV ();	2376	coro->hv = hv = newHV ();
1557	sv_magicext ((SV *)hv, 0, PERL_MAGIC_ext, &coro_state_vtbl, (char *)coro, 0)->mg_flags |= MGf_DUP;	2377	mg = sv_magicext ((SV *)hv, 0, CORO_MAGIC_type_state, &coro_state_vtbl, (char *)coro, 0);
		2378	mg->mg_flags |= MGf_DUP;
1558	RETVAL = sv_bless (newRV_noinc ((SV *)hv), gv_stashpv (klass, 1));	2379	RETVAL = sv_bless (newRV_noinc ((SV *)hv), gv_stashpv (klass, 1));
1559		2380
1560	av_extend (coro->args, items - 1);	2381	av_extend (coro->args, items - 1);
1561	for (i = 1; i < items; i++)	2382	for (i = 1; i < items; i++)
1562	av_push (coro->args, newSVsv (ST (i)));	2383	av_push (coro->args, newSVsv (ST (i)));
1563	}	2384	}
1564	OUTPUT:	2385	OUTPUT:
1565	RETVAL	2386	RETVAL
1566		2387
1567	# these not obviously related functions are all rolled into the same xs
1568	# function to increase chances that they all will call transfer with the same
1569	# stack offset
1570	void	2388	void
1571	_set_stacklevel (...)	2389	transfer (...)
1572	ALIAS:	2390	PROTOTYPE: $$
1573	Coro::State::transfer = 1	2391	CODE:
1574	Coro::schedule = 2	2392	CORO_EXECUTE_SLF_XS (slf_init_transfer);
1575	Coro::cede = 3
1576	Coro::cede_notself = 4
1577	CODE:
1578	{
1579	struct transfer_args ta;
1580
1581	switch (ix)
1582	{
1583	case 0:
1584	ta.prev = (struct coro *)INT2PTR (coro_cctx *, SvIV (ST (0)));
1585	ta.next = 0;
1586	break;
1587
1588	case 1:
1589	if (items != 2)
1590	croak ("Coro::State::transfer (prev,next) expects two arguments, not %d", items);
1591
1592	prepare_transfer (aTHX_ &ta, ST (0), ST (1));
1593	break;
1594
1595	case 2:
1596	prepare_schedule (aTHX_ &ta);
1597	break;
1598
1599	case 3:
1600	prepare_cede (aTHX_ &ta);
1601	break;
1602
1603	case 4:
1604	if (!prepare_cede_notself (aTHX_ &ta))
1605	XSRETURN_EMPTY;
1606
1607	break;
1608	}
1609
1610	BARRIER;
1611	PUTBACK;
1612	TRANSFER (ta);
1613	SPAGAIN; /* might be the sp of a different coroutine now */
1614	/* be extra careful not to ever do anything after TRANSFER */
1615	}
1616		2393
1617	bool	2394	bool
1618	_destroy (SV *coro_sv)	2395	_destroy (SV *coro_sv)
1619	CODE:	2396	CODE:
1620	RETVAL = coro_state_destroy (aTHX_ SvSTATE (coro_sv));	2397	RETVAL = coro_state_destroy (aTHX_ SvSTATE (coro_sv));
1621	OUTPUT:	2398	OUTPUT:
1622	RETVAL	2399	RETVAL
1623		2400
1624	void	2401	void
1625	_exit (code)	2402	_exit (int code)
1626	int code
1627	PROTOTYPE: $	2403	PROTOTYPE: $
1628	CODE:	2404	CODE:
1629	_exit (code);	2405	_exit (code);
1630		2406
1631	int	2407	int
1632	cctx_stacksize (int new_stacksize = 0)	2408	cctx_stacksize (int new_stacksize = 0)
		2409	PROTOTYPE: ;$
1633	CODE:	2410	CODE:
1634	RETVAL = coro_stacksize;	2411	RETVAL = cctx_stacksize;
1635	if (new_stacksize)	2412	if (new_stacksize)
		2413	{
1636	coro_stacksize = new_stacksize;	2414	cctx_stacksize = new_stacksize;
		2415	++cctx_gen;
		2416	}
1637	OUTPUT:	2417	OUTPUT:
1638	RETVAL	2418	RETVAL
1639		2419
1640	int	2420	int
		2421	cctx_max_idle (int max_idle = 0)
		2422	PROTOTYPE: ;$
		2423	CODE:
		2424	RETVAL = cctx_max_idle;
		2425	if (max_idle > 1)
		2426	cctx_max_idle = max_idle;
		2427	OUTPUT:
		2428	RETVAL
		2429
		2430	int
1641	cctx_count ()	2431	cctx_count ()
		2432	PROTOTYPE:
1642	CODE:	2433	CODE:
1643	RETVAL = cctx_count;	2434	RETVAL = cctx_count;
1644	OUTPUT:	2435	OUTPUT:
1645	RETVAL	2436	RETVAL
1646		2437
1647	int	2438	int
1648	cctx_idle ()	2439	cctx_idle ()
		2440	PROTOTYPE:
1649	CODE:	2441	CODE:
1650	RETVAL = cctx_idle;	2442	RETVAL = cctx_idle;
1651	OUTPUT:	2443	OUTPUT:
1652	RETVAL	2444	RETVAL
1653		2445
1654	void	2446	void
1655	list ()	2447	list ()
		2448	PROTOTYPE:
1656	PPCODE:	2449	PPCODE:
1657	{	2450	{
1658	struct coro *coro;	2451	struct coro *coro;
1659	for (coro = coro_first; coro; coro = coro->next)	2452	for (coro = coro_first; coro; coro = coro->next)
1660	if (coro->hv)	2453	if (coro->hv)
…		…
1665	call (Coro::State coro, SV *coderef)	2458	call (Coro::State coro, SV *coderef)
1666	ALIAS:	2459	ALIAS:
1667	eval = 1	2460	eval = 1
1668	CODE:	2461	CODE:
1669	{	2462	{
1670	if (coro->mainstack)	2463	if (coro->mainstack && ((coro->flags & CF_RUNNING) || coro->slot))
1671	{	2464	{
1672	struct coro temp;	2465	struct coro temp;
1673		2466
1674	if (!(coro->flags & CF_RUNNING))	2467	if (!(coro->flags & CF_RUNNING))
1675	{	2468	{
		2469	PUTBACK;
1676	save_perl (aTHX_ &temp);	2470	save_perl (aTHX_ &temp);
1677	load_perl (aTHX_ coro);	2471	load_perl (aTHX_ coro);
1678	}	2472	}
1679		2473
1680	{	2474	{
…		…
1699		2493
1700	if (!(coro->flags & CF_RUNNING))	2494	if (!(coro->flags & CF_RUNNING))
1701	{	2495	{
1702	save_perl (aTHX_ coro);	2496	save_perl (aTHX_ coro);
1703	load_perl (aTHX_ &temp);	2497	load_perl (aTHX_ &temp);
		2498	SPAGAIN;
1704	}	2499	}
1705	}	2500	}
1706	}	2501	}
1707		2502
1708	SV *	2503	SV *
…		…
1717	RETVAL = boolSV (coro->flags & ix);	2512	RETVAL = boolSV (coro->flags & ix);
1718	OUTPUT:	2513	OUTPUT:
1719	RETVAL	2514	RETVAL
1720		2515
1721	void	2516	void
		2517	throw (Coro::State self, SV *throw = &PL_sv_undef)
		2518	PROTOTYPE: $;$
		2519	CODE:
		2520	{
		2521	struct coro *current = SvSTATE_current;
		2522	SV **throwp = self == current ? &CORO_THROW : &self->except;
		2523	SvREFCNT_dec (*throwp);
		2524	*throwp = SvOK (throw) ? newSVsv (throw) : 0;
		2525	}
		2526
		2527	void
1722	api_trace (SV *coro, int flags = CC_TRACE | CC_TRACE_SUB)	2528	api_trace (SV *coro, int flags = CC_TRACE | CC_TRACE_SUB)
		2529	PROTOTYPE: $;$
		2530	C_ARGS: aTHX_ coro, flags
1723		2531
1724	SV *	2532	SV *
1725	has_stack (Coro::State coro)	2533	has_cctx (Coro::State coro)
1726	PROTOTYPE: $	2534	PROTOTYPE: $
1727	CODE:	2535	CODE:
1728	RETVAL = boolSV (!!coro->cctx);	2536	RETVAL = boolSV (!!coro->cctx);
1729	OUTPUT:	2537	OUTPUT:
1730	RETVAL	2538	RETVAL
…		…
1735	CODE:	2543	CODE:
1736	RETVAL = (coro->cctx ? coro->cctx->flags : 0) & CC_TRACE_ALL;	2544	RETVAL = (coro->cctx ? coro->cctx->flags : 0) & CC_TRACE_ALL;
1737	OUTPUT:	2545	OUTPUT:
1738	RETVAL	2546	RETVAL
1739		2547
1740	IV	2548	UV
1741	rss (Coro::State coro)	2549	rss (Coro::State coro)
1742	PROTOTYPE: $	2550	PROTOTYPE: $
1743	ALIAS:	2551	ALIAS:
1744	usecount = 1	2552	usecount = 1
1745	CODE:	2553	CODE:
…		…
1749	case 1: RETVAL = coro->usecount; break;	2557	case 1: RETVAL = coro->usecount; break;
1750	}	2558	}
1751	OUTPUT:	2559	OUTPUT:
1752	RETVAL	2560	RETVAL
1753		2561
		2562	void
		2563	force_cctx ()
		2564	PROTOTYPE:
		2565	CODE:
		2566	SvSTATE_current->cctx->idle_sp = 0;
		2567
		2568	void
		2569	swap_defsv (Coro::State self)
		2570	PROTOTYPE: $
		2571	ALIAS:
		2572	swap_defav = 1
		2573	CODE:
		2574	if (!self->slot)
		2575	croak ("cannot swap state with coroutine that has no saved state,");
		2576	else
		2577	{
		2578	SV **src = ix ? (SV **)&GvAV (PL_defgv) : &GvSV (PL_defgv);
		2579	SV **dst = ix ? (SV **)&self->slot->defav : (SV **)&self->slot->defsv;
		2580
		2581	SV *tmp = *src; *src = *dst; *dst = tmp;
		2582	}
		2583
1754		2584
1755	MODULE = Coro::State PACKAGE = Coro	2585	MODULE = Coro::State PACKAGE = Coro
1756		2586
1757	BOOT:	2587	BOOT:
1758	{	2588	{
1759	int i;	2589	int i;
1760		2590
1761	sv_pool_rss = coro_get_sv ("Coro::POOL_RSS" , TRUE);
1762	sv_pool_size = coro_get_sv ("Coro::POOL_SIZE" , TRUE);
1763	av_async_pool = coro_get_av ("Coro::async_pool", TRUE);	2591	av_async_pool = coro_get_av (aTHX_ "Coro::async_pool", TRUE);
		2592	sv_pool_rss = coro_get_sv (aTHX_ "Coro::POOL_RSS" , TRUE);
		2593	sv_pool_size = coro_get_sv (aTHX_ "Coro::POOL_SIZE" , TRUE);
1764		2594
1765	coro_current = coro_get_sv ("Coro::current", FALSE);	2595	coro_current = coro_get_sv (aTHX_ "Coro::current", FALSE);
1766	SvREADONLY_on (coro_current);	2596	SvREADONLY_on (coro_current);
1767		2597
1768	coro_stash = gv_stashpv ("Coro", TRUE);	2598	coro_stash = gv_stashpv ("Coro", TRUE);
1769		2599
1770	newCONSTSUB (coro_stash, "PRIO_MAX", newSViv (PRIO_MAX));	2600	newCONSTSUB (coro_stash, "PRIO_MAX", newSViv (PRIO_MAX));
…		…
1776		2606
1777	for (i = PRIO_MAX - PRIO_MIN + 1; i--; )	2607	for (i = PRIO_MAX - PRIO_MIN + 1; i--; )
1778	coro_ready[i] = newAV ();	2608	coro_ready[i] = newAV ();
1779		2609
1780	{	2610	{
1781	SV *sv = perl_get_sv ("Coro::API", TRUE);	2611	SV *sv = coro_get_sv (aTHX_ "Coro::API", TRUE);
1782	perl_get_sv ("Coro::API", TRUE); /* silence 5.10 warning */
1783		2612
1784	coroapi.schedule = api_schedule;	2613	coroapi.schedule = api_schedule;
1785	coroapi.cede = api_cede;	2614	coroapi.cede = api_cede;
1786	coroapi.cede_notself = api_cede_notself;	2615	coroapi.cede_notself = api_cede_notself;
1787	coroapi.ready = api_ready;	2616	coroapi.ready = api_ready;
1788	coroapi.is_ready = api_is_ready;	2617	coroapi.is_ready = api_is_ready;
1789	coroapi.nready = &coro_nready;	2618	coroapi.nready = coro_nready;
1790	coroapi.current = coro_current;	2619	coroapi.current = coro_current;
1791		2620
1792	GCoroAPI = &coroapi;	2621	/*GCoroAPI = &coroapi;*/
1793	sv_setiv (sv, (IV)&coroapi);	2622	sv_setiv (sv, (IV)&coroapi);
1794	SvREADONLY_on (sv);	2623	SvREADONLY_on (sv);
1795	}	2624	}
1796	}	2625	}
		2626
		2627	void
		2628	schedule (...)
		2629	CODE:
		2630	CORO_EXECUTE_SLF_XS (slf_init_schedule);
		2631
		2632	void
		2633	cede (...)
		2634	CODE:
		2635	CORO_EXECUTE_SLF_XS (slf_init_cede);
		2636
		2637	void
		2638	cede_notself (...)
		2639	CODE:
		2640	CORO_EXECUTE_SLF_XS (slf_init_cede_notself);
1797		2641
1798	void	2642	void
1799	_set_current (SV *current)	2643	_set_current (SV *current)
1800	PROTOTYPE: $	2644	PROTOTYPE: $
1801	CODE:	2645	CODE:
1802	SvREFCNT_dec (SvRV (coro_current));	2646	SvREFCNT_dec (SvRV (coro_current));
1803	SvRV_set (coro_current, SvREFCNT_inc (SvRV (current)));	2647	SvRV_set (coro_current, SvREFCNT_inc_NN (SvRV (current)));
		2648
		2649	void
		2650	_set_readyhook (SV *hook)
		2651	PROTOTYPE: $
		2652	CODE:
		2653	SvREFCNT_dec (coro_readyhook);
		2654	coro_readyhook = SvOK (hook) ? newSVsv (hook) : 0;
1804		2655
1805	int	2656	int
1806	prio (Coro::State coro, int newprio = 0)	2657	prio (Coro::State coro, int newprio = 0)
		2658	PROTOTYPE: $;$
1807	ALIAS:	2659	ALIAS:
1808	nice = 1	2660	nice = 1
1809	CODE:	2661	CODE:
1810	{	2662	{
1811	RETVAL = coro->prio;	2663	RETVAL = coro->prio;
…		…
1826		2678
1827	SV *	2679	SV *
1828	ready (SV *self)	2680	ready (SV *self)
1829	PROTOTYPE: $	2681	PROTOTYPE: $
1830	CODE:	2682	CODE:
1831	RETVAL = boolSV (api_ready (self));	2683	RETVAL = boolSV (api_ready (aTHX_ self));
1832	OUTPUT:	2684	OUTPUT:
1833	RETVAL	2685	RETVAL
1834		2686
1835	int	2687	int
1836	nready (...)	2688	nready (...)
…		…
1838	CODE:	2690	CODE:
1839	RETVAL = coro_nready;	2691	RETVAL = coro_nready;
1840	OUTPUT:	2692	OUTPUT:
1841	RETVAL	2693	RETVAL
1842		2694
1843	void
1844	throw (Coro::State self, SV *throw = &PL_sv_undef)
1845	PROTOTYPE: $;$
1846	CODE:
1847	SvREFCNT_dec (self->throw);
1848	self->throw = SvOK (throw) ? newSVsv (throw) : 0;
1849
1850	# for async_pool speedup	2695	# for async_pool speedup
1851	void	2696	void
1852	_pool_1 (SV *cb)	2697	_pool_1 (SV *cb)
1853	CODE:	2698	CODE:
1854	{	2699	{
1855	struct coro *coro = SvSTATE (coro_current);
1856	HV *hv = (HV *)SvRV (coro_current);	2700	HV *hv = (HV *)SvRV (coro_current);
		2701	struct coro *coro = SvSTATE_hv ((SV *)hv);
1857	AV *defav = GvAV (PL_defgv);	2702	AV *defav = GvAV (PL_defgv);
1858	SV *invoke = hv_delete (hv, strpair ("_invoke"), 0);	2703	SV *invoke = hv_delete (hv, "_invoke", sizeof ("_invoke") - 1, 0);
1859	AV *invoke_av;	2704	AV *invoke_av;
1860	int i, len;	2705	int i, len;
1861		2706
1862	if (!invoke)	2707	if (!invoke)
		2708	{
		2709	SV *old = PL_diehook;
		2710	PL_diehook = 0;
		2711	SvREFCNT_dec (old);
1863	croak ("\3async_pool terminate\2\n");	2712	croak ("\3async_pool terminate\2\n");
		2713	}
1864		2714
1865	SvREFCNT_dec (coro->saved_deffh);	2715	SvREFCNT_dec (coro->saved_deffh);
1866	coro->saved_deffh = SvREFCNT_inc ((SV *)PL_defoutgv);	2716	coro->saved_deffh = SvREFCNT_inc_NN ((SV *)PL_defoutgv);
1867		2717
1868	hv_store (hv, "desc", sizeof ("desc") - 1,	2718	hv_store (hv, "desc", sizeof ("desc") - 1,
1869	newSVpvn (strpair ("[async_pool]")), 0);	2719	newSVpvn ("[async_pool]", sizeof ("[async_pool]") - 1), 0);
1870		2720
1871	invoke_av = (AV *)SvRV (invoke);	2721	invoke_av = (AV *)SvRV (invoke);
1872	len = av_len (invoke_av);	2722	len = av_len (invoke_av);
1873		2723
1874	sv_setsv (cb, AvARRAY (invoke_av)[0]);	2724	sv_setsv (cb, AvARRAY (invoke_av)[0]);
1875		2725
1876	if (len > 0)	2726	if (len > 0)
1877	{	2727	{
1878	av_fill (defav, len - 1);	2728	av_fill (defav, len - 1);
1879	for (i = 0; i < len; ++i)	2729	for (i = 0; i < len; ++i)
1880	av_store (defav, i, SvREFCNT_inc (AvARRAY (invoke_av)[i + 1]));	2730	av_store (defav, i, SvREFCNT_inc_NN (AvARRAY (invoke_av)[i + 1]));
1881	}	2731	}
1882
1883	SvREFCNT_dec (invoke);
1884	}	2732	}
1885		2733
1886	void	2734	void
1887	_pool_2 (SV *cb)	2735	_pool_2 (SV *cb)
1888	CODE:	2736	CODE:
1889	{	2737	{
1890	struct coro *coro = SvSTATE (coro_current);	2738	HV *hv = (HV *)SvRV (coro_current);
		2739	struct coro *coro = SvSTATE_hv ((SV *)hv);
1891		2740
1892	sv_setsv (cb, &PL_sv_undef);	2741	sv_setsv (cb, &PL_sv_undef);
1893		2742
1894	SvREFCNT_dec ((SV *)PL_defoutgv); PL_defoutgv = (GV *)coro->saved_deffh;	2743	SvREFCNT_dec ((SV *)PL_defoutgv); PL_defoutgv = (GV *)coro->saved_deffh;
1895	coro->saved_deffh = 0;	2744	coro->saved_deffh = 0;
1896		2745
1897	if (coro_rss (aTHX_ coro) > SvIV (sv_pool_rss)	2746	if (coro_rss (aTHX_ coro) > SvUV (sv_pool_rss)
1898	|| av_len (av_async_pool) + 1 >= SvIV (sv_pool_size))	2747	|| av_len (av_async_pool) + 1 >= SvIV (sv_pool_size))
		2748	{
		2749	SV *old = PL_diehook;
		2750	PL_diehook = 0;
		2751	SvREFCNT_dec (old);
1899	croak ("\3async_pool terminate\2\n");	2752	croak ("\3async_pool terminate\2\n");
		2753	}
1900		2754
1901	av_clear (GvAV (PL_defgv));	2755	av_clear (GvAV (PL_defgv));
1902	hv_store ((HV *)SvRV (coro_current), strpair ("desc"),	2756	hv_store (hv, "desc", sizeof ("desc") - 1,
1903	newSVpvn (strpair ("[async_pool idle]")), 0);	2757	newSVpvn ("[async_pool idle]", sizeof ("[async_pool idle]") - 1), 0);
1904		2758
1905	coro->prio = 0;	2759	coro->prio = 0;
1906		2760
1907	if (coro->cctx && (coro->cctx->flags & CC_TRACE))	2761	if (coro->cctx && (coro->cctx->flags & CC_TRACE))
1908	api_trace (coro_current, 0);	2762	api_trace (aTHX_ coro_current, 0);
1909		2763
1910	av_push (av_async_pool, newSVsv (coro_current));	2764	av_push (av_async_pool, newSVsv (coro_current));
1911	}	2765	}
1912		2766
1913		2767
		2768	MODULE = Coro::State PACKAGE = PerlIO::cede
		2769
		2770	BOOT:
		2771	PerlIO_define_layer (aTHX_ &PerlIO_cede);
		2772
		2773
1914	MODULE = Coro::State PACKAGE = Coro::AIO	2774	MODULE = Coro::State PACKAGE = Coro::Semaphore
1915		2775
1916	SV *	2776	SV *
1917	_get_state ()	2777	new (SV *klass, SV *count_ = 0)
1918	CODE:	2778	CODE:
1919	{	2779	{
1920	struct io_state *data;	2780	/* a semaphore contains a counter IV in $sem->[0] and any waiters after that */
		2781	AV *av = newAV ();
		2782	SV **ary;
1921		2783
1922	RETVAL = newSV (sizeof (struct io_state));	2784	/* unfortunately, building manually saves memory */
1923	data = (struct io_state *)SvPVX (RETVAL);	2785	Newx (ary, 2, SV *);
1924	SvCUR_set (RETVAL, sizeof (struct io_state));	2786	AvALLOC (av) = ary;
1925	SvPOK_only (RETVAL);	2787	AvARRAY (av) = ary;
		2788	AvMAX (av) = 1;
		2789	AvFILLp (av) = 0;
		2790	ary [0] = newSViv (count_ && SvOK (count_) ? SvIV (count_) : 1);
1926		2791
1927	data->errorno = errno;	2792	RETVAL = sv_bless (newRV_noinc ((SV *)av), GvSTASH (CvGV (cv)));
1928	data->laststype = PL_laststype;
1929	data->laststatval = PL_laststatval;
1930	data->statcache = PL_statcache;
1931	}	2793	}
1932	OUTPUT:	2794	OUTPUT:
1933	RETVAL	2795	RETVAL
1934		2796
		2797	SV *
		2798	count (SV *self)
		2799	CODE:
		2800	RETVAL = newSVsv (AvARRAY ((AV *)SvRV (self))[0]);
		2801	OUTPUT:
		2802	RETVAL
		2803
1935	void	2804	void
1936	_set_state (char *data_)	2805	up (SV *self, int adjust = 1)
1937	PROTOTYPE: $	2806	ALIAS:
		2807	adjust = 1
		2808	CODE:
		2809	coro_semaphore_adjust (aTHX_ (AV *)SvRV (self), ix ? adjust : 1);
		2810
		2811	void
		2812	down (SV *self)
		2813	CODE:
		2814	CORO_EXECUTE_SLF_XS (slf_init_semaphore_down);
		2815
		2816	void
		2817	try (SV *self)
		2818	PPCODE:
		2819	{
		2820	AV *av = (AV *)SvRV (self);
		2821	SV *count_sv = AvARRAY (av)[0];
		2822	IV count = SvIVX (count_sv);
		2823
		2824	if (count > 0)
		2825	{
		2826	--count;
		2827	SvIVX (count_sv) = count;
		2828	XSRETURN_YES;
		2829	}
		2830	else
		2831	XSRETURN_NO;
		2832	}
		2833
		2834	void
		2835	waiters (SV *self)
		2836	CODE:
		2837	{
		2838	AV *av = (AV *)SvRV (self);
		2839
		2840	if (GIMME_V == G_SCALAR)
		2841	XPUSHs (sv_2mortal (newSVsv (AvARRAY (av)[0])));
		2842	else
		2843	{
		2844	int i;
		2845	EXTEND (SP, AvFILLp (av) + 1 - 1);
		2846	for (i = 1; i <= AvFILLp (av); ++i)
		2847	PUSHs (sv_2mortal (newRV_inc (AvARRAY (av)[i])));
		2848	}
		2849	}
		2850
		2851
		2852	MODULE = Coro::State PACKAGE = Coro::AnyEvent
		2853
		2854	BOOT:
		2855	sv_activity = coro_get_sv (aTHX_ "Coro::AnyEvent::ACTIVITY", TRUE);
		2856
		2857	void
		2858	_schedule (...)
1938	CODE:	2859	CODE:
1939	{	2860	{
1940	struct io_state *data = (void *)data_;	2861	static int incede;
1941		2862
1942	errno = data->errorno;	2863	api_cede_notself (aTHX);
1943	PL_laststype = data->laststype;
1944	PL_laststatval = data->laststatval;
1945	PL_statcache = data->statcache;
1946	}
1947		2864
		2865	++incede;
		2866	while (coro_nready >= incede && api_cede (aTHX))
		2867	;
		2868
		2869	sv_setsv (sv_activity, &PL_sv_undef);
		2870	if (coro_nready >= incede)
		2871	{
		2872	PUSHMARK (SP);
		2873	PUTBACK;
		2874	call_pv ("Coro::AnyEvent::_activity", G_KEEPERR | G_EVAL | G_VOID | G_DISCARD);
		2875	}
		2876
		2877	--incede;
		2878	}
		2879
		2880
		2881	MODULE = Coro::State PACKAGE = Coro::AIO
		2882
		2883	void
		2884	_register (char *target, char *proto, SV *req)
		2885	CODE:
		2886	{
		2887	HV *st;
		2888	GV *gvp;
		2889	CV *req_cv = sv_2cv (req, &st, &gvp, 0);
		2890	/* newXSproto doesn't return the CV on 5.8 */
		2891	CV *slf_cv = newXS (target, coro_aio_req_xs, __FILE__);
		2892	sv_setpv ((SV *)slf_cv, proto);
		2893	sv_magicext ((SV *)slf_cv, (SV *)req_cv, CORO_MAGIC_type_aio, 0, 0, 0);
		2894	}
		2895

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