server/include/cfperl.h

/*
 * This file is part of Crossfire TRT, the Roguelike Realtime MORPG.
 * 
 * Copyright (©) 2005,2006,2007 Marc Alexander Lehmann / Robin Redeker / the Crossfire TRT team
 * Copyright (©) 2002,2007 Mark Wedel & Crossfire Development Team
 * Copyright (©) 1992,2007 Frank Tore Johansen
 * 
 * Crossfire TRT is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 * 
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 * GNU General Public License for more details.
 * 
 * You should have received a copy of the GNU General Public License
 * along with this program. If not, see <http://www.gnu.org/licenses/>.
 * 
 * The authors can be reached via e-mail to <crossfire@schmorp.de>
 */

//
// cfperl.h perl interface
//
#ifndef CFPERL_H__
#define CFPERL_H__

#include <cstdarg>
#include <cstdio>
#include <bitset>

using namespace std;

#include <EXTERN.h>
#include <perl.h>
#include <XSUB.h>

#include <EventAPI.h>
#include <CoroAPI.h>

#include "util.h"
#include "keyword.h"
#include "dynbuf.h"
#include "callback.h"

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

// optimisations/workaround for functions requiring my_perl in scope (anti-bloat)
#undef localtime
#undef srand48
#undef drand48
#undef srandom
#undef readdir
#undef getprotobyname
#undef gethostbyname
#undef ctime
#undef strerror

// same here, massive symbol spamming
#undef do_open
#undef do_close
#undef ref
#undef seed

// perl bug #40256: perl does overwrite those with reentrant versions
// but does not initialise their state structures.
#undef random
#undef crypt

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

// some macros to simplify perl in-calls

#define CHECK_ERROR                     \
  if (SvTRUE (ERRSV))                   \
    LOG (llevError, "runtime error in %s: %s\n", __func__, SvPVutf8_nolen (ERRSV));

#define CALL_BEGIN(args) dSP; ENTER; SAVETMPS; PUSHMARK (SP); EXTEND (SP, args)
#define CALL_ARG_SV(sv) PUSHs (sv_2mortal (sv)) // separate because no refcount inc
#define CALL_ARG(expr) PUSHs (sv_2mortal (to_sv (expr)))
#define CALL_CALL(name, flags) PUTBACK; int count = call_pv (name, (flags) | G_EVAL); SPAGAIN;
#define CALL_END CHECK_ERROR; FREETMPS; LEAVE

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

void cfperl_init ();
void cfperl_main ();
void cfperl_emergency_save ();
void cfperl_cleanup (int make_core);
void cfperl_make_book (object *book, int level);
void cfperl_send_msg (client *ns, int color, const char *type, const char *msg);
int cfperl_can_merge (object *ob1, object *ob2);

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

extern tstamp runtime; // virtual server time, excluding time jumps and lag
extern tstamp NOW;     // real time of current server tick

enum event_klass
{
  KLASS_NONE,
  KLASS_GLOBAL,
  KLASS_ATTACHABLE,
  KLASS_CLIENT,
  KLASS_PLAYER,
  KLASS_OBJECT,
  KLASS_MAP,
  KLASS_COMMAND,
};

enum event_type
{
# define def(klass,name) EVENT_ ## klass ## _ ## name,
#  include "eventinc.h"
# undef def
  NUM_EVENT_TYPES
};

// in which global events or per-type events are we interested
extern bitset<NUM_EVENT_TYPES> ev_want_event;
extern bitset<NUM_TYPES>       ev_want_type;

#define ARG_AV(o)         DT_AV    , static_cast<AV *>   (o)
#define ARG_INT(v)        DT_INT   , static_cast<int>    (v)
#define ARG_INT64(v)      DT_INT64 , static_cast<sint64> (v)
#define ARG_DOUBLE(v)     DT_DOUBLE, static_cast<double> (v)
#define ARG_STRING(v)     DT_STRING, static_cast<const char *> (v)
#define ARG_DATA(s,l)     DT_DATA  , static_cast<const void *> (s), int (l)
#define ARG_OBJECT(o)     DT_OBJECT, (void *)(static_cast<object *>    (o))
#define ARG_MAP(o)        DT_MAP   , (void *)(static_cast<maptile *>   (o))
#define ARG_PLAYER(o)     DT_PLAYER, (void *)(static_cast<player *>    (o))
#define ARG_ARCH(o)       DT_ARCH  , (void *)(static_cast<archetype *> (o))
#define ARG_CLIENT(o)     DT_CLIENT, (void *)(static_cast<client *>    (o))
#define ARG_PARTY(o)      DT_PARTY , (void *)(static_cast<party *>     (o))
#define ARG_REGION(o)     DT_REGION, (void *)(static_cast<region *>    (o))

// the ", ## __VA_ARGS" is, unfortunately, a gnu-cpp extension
#define INVOKE(obj,event, ...) (expect_false ((obj)->should_invoke (event)) ? (obj)->invoke (event, ## __VA_ARGS__, DT_END) : 0)
#define INVOKE_GLOBAL(event, ...)          INVOKE (&gbl_ev, EVENT_ ## GLOBAL     ## _ ## event, ## __VA_ARGS__)
#define INVOKE_ATTACHABLE(event, obj, ...) INVOKE (obj    , EVENT_ ## ATTACHABLE ## _ ## event, ## __VA_ARGS__)
#define INVOKE_OBJECT(event, obj, ...)     INVOKE (obj    , EVENT_ ## OBJECT     ## _ ## event, ## __VA_ARGS__)
#define INVOKE_CLIENT(event, obj, ...)     INVOKE (obj    , EVENT_ ## CLIENT     ## _ ## event, ## __VA_ARGS__)
#define INVOKE_PLAYER(event, obj, ...)     INVOKE (obj    , EVENT_ ## PLAYER     ## _ ## event, ## __VA_ARGS__)
#define INVOKE_MAP(event, obj, ...)        INVOKE (obj    , EVENT_ ## MAP        ## _ ## event, ## __VA_ARGS__)

//TODO should index into @result
#define RESULT(idx,type) cfperl_result_ ## type (idx)
#define RESULT_DOUBLE(idx) RESULT(idx, DOUBLE)
#define RESULT_INT(idx)    RESULT(idx, INT)

double cfperl_result_DOUBLE (int idx);
int cfperl_result_INT (int idx);

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

INTERFACE_CLASS (attachable)
struct attachable : refcnt_base
{
  static MGVTBL vtbl;

  static unordered_vector<attachable *> mortals;
  MTH static void check_mortals ();

  enum {
    F_DESTROYED   = 0x01,
    F_DEBUG_TRACE = 0x02,
  };
  int ACC (RW, flags);

  // object is delete'd after the refcount reaches 0
  MTH int refcnt_cnt () const;
  // check wether the object has died and destroy
  MTH void refcnt_chk () { if (expect_false (refcnt <= 0)) do_check (); }

  // destroy the object unless it was already destroyed
  // this politely asks everybody interested the reduce
  // the refcount to 0 as soon as possible.
  MTH void destroy ();

  // return wether an object was destroyed already
  MTH bool destroyed () const { return flags & F_DESTROYED; }

  virtual void gather_callbacks (AV *&callbacks, event_type event) const;

#if 0
private:
  static refcounted *rc_first;
  refcounted *rc_next;
#endif

  HV *self;     // CF+ perl self
  AV *cb;       // CF+ callbacks
  shstr attach; // generic extension attachment information

  void sever_self (); // sever this object from its self, if it has one.
  void optimise ();   // possibly save some memory by destroying unneeded data

  attachable ()
  : flags (0), self (0), cb (0), attach (0)
  {
  }

  attachable (const attachable &src)
  : flags (0), self (0), cb (0), attach (src.attach)
  {
  }

  // set a custom key to the given value, or delete it if value = 0
  void set_key (const char *key, const char *value = 0);

  attachable &operator =(const attachable &src);

  // used to _quickly_ device wether to shortcut the evaluation
  bool should_invoke (event_type event)
  {
    return ev_want_event [event] || cb;
  }

  bool invoke (event_type event, ...);

  MTH void instantiate ();
  void reattach ();

protected:
  // do the real refcount checking work
  void do_check ();

  // the method that does the real destroy work
  virtual void do_destroy ();

  // destructor is protected, should not be called by anybody
  virtual ~attachable ();
};

// the global object is a pseudo object that cares for the global events
struct global : attachable
{
  void gather_callbacks (AV *&callbacks, event_type event) const;
};

extern struct global gbl_ev;

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

struct object_freezer : dynbuf_text
{
  AV *av;

  object_freezer ();
  ~object_freezer ();

  void put (attachable *ext);

  // used only for user-defined key-value pairs
  void put (const shstr &k, const shstr &v)
  {
    add (k);

    if (expect_true (v))
      add (' '), add (v);

    add ('\n');
  }

  template<typename T>
  void put_kw_string (keyword k, const T &v)
  {
    int klen = keyword_len [k];
    int vlen = v ? strlen (v) + 1 : 0;

    char *p = (char *)alloc (klen + vlen + 1);

    memcpy (p, keyword_str [k], klen); p += klen;

    if (expect_true (v))
      {
        *p++ = ' ';  vlen--;
        memcpy (p, v, vlen); p += vlen;
      }

    *p = '\n';
  }

  void put (keyword k, const char *v = 0)
  {
    put_kw_string (k, v);
  }

  void put (keyword k, const shstr &v)
  {
    put_kw_string (k, v);
  }

  void put (keyword k, double v)
  {
    force (MAX_KEYWORD_LEN + 2 + 32);
    fadd (keyword_str [k], keyword_len [k]);
    fadd (' ');
    falloc (sprintf (ptr, "%.7g", v));
    fadd ('\n');
  }

  void put_(keyword k, sint64 v)
  {
    force (MAX_KEYWORD_LEN + 2 + sint64_digits);
    fadd (keyword_str [k], keyword_len [k]);
    fadd (' ');
    add (v);
    fadd ('\n');
  }

  void put_(keyword k, sint32 v)
  {
    force (MAX_KEYWORD_LEN + 2 + sint32_digits);
    fadd (keyword_str [k], keyword_len [k]);
    fadd (' ');
    add (v);
    fadd ('\n');
  }

  void put (keyword k,          float     v) { put (k, (double)v); }
  void put (keyword k,   signed char      v) { put_(k, (sint32)v); }
  void put (keyword k, unsigned char      v) { put_(k, (sint32)v); }
  void put (keyword k,   signed short     v) { put_(k, (sint32)v); }
  void put (keyword k, unsigned short     v) { put_(k, (sint32)v); }
  void put (keyword k,   signed int       v) { put_(k, (sint32)v); }
  void put (keyword k, unsigned int       v) { put_(k, (sint64)v); }
  void put (keyword k,   signed long      v) { put_(k, (sint64)v); }
  void put (keyword k, unsigned long      v) { put_(k, (sint64)v); }
  void put (keyword k,   signed long long v) { put_(k, (sint64)v); }
  void put (keyword k, unsigned long long v) { put_(k, (sint64)v); }

  void put (keyword kbeg, keyword kend, const shstr &v)
  {
    force (MAX_KEYWORD_LEN + 1);
    fadd (keyword_str [kbeg], keyword_len [kbeg]); fadd ('\n');

    if (expect_true (v))
      {
        add (v);
        add ('\n');
      }

    force (MAX_KEYWORD_LEN + 1);
    fadd (keyword_str [kend], keyword_len [kend]); fadd ('\n');
  }

  void put (keyword k, archetype *v);
  void put (keyword k, treasurelist *v);
  void put (keyword k, faceinfo *v);

  template<typename T>
  void put (keyword k, const refptr<T> &v)
  {
    put (k, (T *)v);
  }

  bool save (const char *path);
  char *as_string (); // like strdup

  operator bool () { return !!av; }
};

struct object_thawer
{
  char *line; // current beginning of line
  SV *text; // text part
  AV *av;   // perl part
  int linenum;
  keyword kw;
  char *kw_str; // the keyword parsed, as string
  char *value;  // the value, or 0 if no value
  char *value_nn; // the value, or the empty string if no value
  const char *name;

  operator bool () { return !!text; }

  object_thawer (const char *path = 0);
  object_thawer (const char *data, AV *perlav);
  ~object_thawer ();

  void get (attachable *obj, int oid);

  // parse next line
  void next ();
  // skip the current key-value (usually fetch next line, for
  // multiline-fields, skips till the corresponding end-kw
  void skip ();

  char *get_str () { return value; } // may be 0
  void get_ml (keyword kend, shstr &sh);

  void get_ornull (shstr &sh) const { sh = value; }
  void get (shstr &sh)        const { sh = value; } // might want to check for non-null here

  bool   get_bool   () const { return *value_nn == '1'; }
  sint32 get_sint32 () const;
  sint64 get_sint64 () const { return strtoll (value_nn, 0, 10); }
  double get_double () const { return strtod  (value_nn, 0); }

  void get (float  &v) { v = get_double (); }
  void get (double &v) { v = get_double (); }

  void get (bool   &i) { i = get_bool   (); }
  void get (sint8  &i) { i = get_sint32 (); }
  void get (uint8  &i) { i = get_sint32 (); }
  void get (sint16 &i) { i = get_sint32 (); }
  void get (uint16 &i) { i = get_sint32 (); }
  void get (sint32 &i) { i = get_sint32 (); }

  void get (uint32 &i) { i = get_sint64 (); }
  void get (sint64 &i) { i = get_sint64 (); }

  void parse_warn (const char *msg);
  bool parse_error (const char *type = 0, const char *name = 0, bool skip = true);
};

//TODO: remove
char *fgets (char *s, int n, object_thawer &thawer);

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

struct coroapi {
  static struct CoroAPI *GCoroAPI;

  static int nready () { return CORO_NREADY; }
  static int cede   () { return CORO_CEDE  ; }

  static tstamp next_cede;
  static int cede_counter;

  static void do_cede_every ();
  static void do_cede_to_tick ();
  static void do_cede_to_tick_every ();

  static void cede_every (int count)
  {
    if (expect_false (++cede_counter >= count))
      do_cede_every ();
  }

  static bool cede_to_tick ()
  {
    if (expect_true (now () < next_cede))
      return false;

    do_cede_to_tick ();
    return true;
  }

  static bool cede_to_tick_every (int count)
  {
    if (expect_true (++cede_counter < count))
      return false;

    return cede_to_tick ();
  }

  static void wait_for_tick ();
  static void wait_for_tick_begin ();
};

struct watcher_base
{
  static struct EventAPI *GEventAPI;
};

template<class base>
struct watcher : watcher_base
{
  base *pe;

  void start   (bool repeat = false)        { GEventAPI->start   ((pe_watcher *)pe, repeat); }
  void stop    (bool cancel_events = false) { GEventAPI->stop    ((pe_watcher *)pe, cancel_events); }
  void now     ()                           { GEventAPI->now     ((pe_watcher *)pe); }
  void suspend ()                           { GEventAPI->suspend ((pe_watcher *)pe); }
  void resume  ()                           { GEventAPI->resume  ((pe_watcher *)pe); }

  void prio    (int new_prio)               { ((pe_watcher *)pe)->prio = new_prio; }

  ~watcher ()
  {
    cancel ();
  }

private:
  void cancel  ()                           { GEventAPI->cancel  ((pe_watcher *)pe); } // private
};

struct iw : watcher<pe_idle>, callback<void (iw &)>
{
  template<class O, class M>
  iw (O object, M method)
  : callback<void (iw &)> (object, method)
  {
    alloc ();
  }

private:
  void alloc ();
};

struct iow : watcher<pe_io>, callback<void (iow &, int)>
{
  template<class O, class M>
  iow (O object, M method)
  : callback<void (iow &, int)> (object, method)
  {
    alloc ();
  }

  void fd (int fd);
  int poll ();
  void poll (int events);

private:
  void alloc ();
};

#endif

Revision:	1.86
Committed:	Mon Aug 6 10:54:12 2007 UTC (16 years, 9 months ago) by root
Content type:	text/plain
Branch:	MAIN
Changes since 1.85:	+4 -9 lines
Log Message:	rather uncertain optimisation.. trying to take advantage of cmov instructions if refptr. a = b before: 510: 48 8b 16 mov (%rsi),%rdx 513: 48 85 d2 test %rdx,%rdx 516: 75 0c jne 524 <xyzzy(refptr<object>, refptr<object>)+0x14> 518: 48 8b 07 mov (%rdi),%rax 51b: 48 85 c0 test %rax,%rax 51e: 75 09 jne 529 <xyzzy(refptr<object>, refptr<object>)+0x19> 520: 48 89 17 mov %rdx,(%rdi) 523: c3 retq 524: ff 42 08 incl 0x8(%rdx) 527: eb ef jmp 518 <xyzzy(refptr<object>, refptr<object>)+0x8> 529: ff 48 08 decl 0x8(%rax) 52c: 0f 1f 40 00 nopl 0x0(%rax) 530: eb ee jmp 520 <xyzzy(refptr<object>, refptr<object>)+0x10> a = b after: 141: 4c 8b 0f mov (%rdi),%r9 144: ba 00 00 00 00 mov $0x0,%edx 149: 4d 8d 41 08 lea 0x8(%r9),%r8 14d: 4d 85 c9 test %r9,%r9 150: 4c 0f 44 c2 cmove %rdx,%r8 154: 41 ff 08 decl (%r8) 157: 48 8b 06 mov (%rsi),%rax 15a: 48 8d 48 08 lea 0x8(%rax),%rcx 15e: 48 85 c0 test %rax,%rax 161: 48 89 07 mov %rax,(%rdi) 164: 48 0f 45 d1 cmovne %rcx,%rdx 168: ff 02 incl (%rdx) 16a: c3 retq note no jumps but larger codeside (1.7kb net increase).
#	User	Rev	Content
1	root	1.74	/*
2	root	1.81	* This file is part of Crossfire TRT, the Roguelike Realtime MORPG.
3	root	1.74	*
4			* Copyright (©) 2005,2006,2007 Marc Alexander Lehmann / Robin Redeker / the Crossfire TRT team
5			* Copyright (©) 2002,2007 Mark Wedel & Crossfire Development Team
6			* Copyright (©) 1992,2007 Frank Tore Johansen
7			*
8	root	1.81	* Crossfire TRT is free software: you can redistribute it and/or modify
9			* it under the terms of the GNU General Public License as published by
10			* the Free Software Foundation, either version 3 of the License, or
11			* (at your option) any later version.
12	root	1.74	*
13	root	1.81	* This program is distributed in the hope that it will be useful,
14			* but WITHOUT ANY WARRANTY; without even the implied warranty of
15			* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16			* GNU General Public License for more details.
17	root	1.74	*
18	root	1.81	* You should have received a copy of the GNU General Public License
19			* along with this program. If not, see <http://www.gnu.org/licenses/>.
20	root	1.74	*
21			* The authors can be reached via e-mail to <crossfire@schmorp.de>
22			*/
23
24	root	1.1	//
25			// cfperl.h perl interface
26			//
27	root	1.2	#ifndef CFPERL_H__
28			#define CFPERL_H__
29
30	root	1.64	#include <cstdarg>
31	root	1.16	#include <cstdio>
32	root	1.64	#include <bitset>
33	root	1.16
34			using namespace std;
35
36			#include <EXTERN.h>
37			#include <perl.h>
38	root	1.20	#include <XSUB.h>
39	root	1.16
40	root	1.36	#include <EventAPI.h>
41	root	1.42	#include <CoroAPI.h>
42	root	1.36
43	root	1.42	#include "util.h"
44			#include "keyword.h"
45			#include "dynbuf.h"
46	root	1.36	#include "callback.h"
47
48	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
49
50	root	1.16	// optimisations/workaround for functions requiring my_perl in scope (anti-bloat)
51			#undef localtime
52			#undef srand48
53			#undef drand48
54			#undef srandom
55			#undef readdir
56			#undef getprotobyname
57			#undef gethostbyname
58			#undef ctime
59			#undef strerror
60
61	root	1.39	// same here, massive symbol spamming
62			#undef do_open
63			#undef do_close
64	root	1.42	#undef ref
65	root	1.44	#undef seed
66	root	1.39
67	root	1.16	// perl bug #40256: perl does overwrite those with reentrant versions
68			// but does not initialise their state structures.
69			#undef random
70			#undef crypt
71
72	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
73
74			// some macros to simplify perl in-calls
75
76			#define CHECK_ERROR \
77			if (SvTRUE (ERRSV)) \
78			LOG (llevError, "runtime error in %s: %s\n", __func__, SvPVutf8_nolen (ERRSV));
79
80			#define CALL_BEGIN(args) dSP; ENTER; SAVETMPS; PUSHMARK (SP); EXTEND (SP, args)
81			#define CALL_ARG_SV(sv) PUSHs (sv_2mortal (sv)) // separate because no refcount inc
82			#define CALL_ARG(expr) PUSHs (sv_2mortal (to_sv (expr)))
83			#define CALL_CALL(name, flags) PUTBACK; int count = call_pv (name, (flags) \| G_EVAL); SPAGAIN;
84			#define CALL_END CHECK_ERROR; FREETMPS; LEAVE
85
86			//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
87
88	root	1.7	void cfperl_init ();
89			void cfperl_main ();
90	root	1.50	void cfperl_emergency_save ();
91	root	1.55	void cfperl_cleanup (int make_core);
92	root	1.65	void cfperl_make_book (object *book, int level);
93	root	1.80	void cfperl_send_msg (client ns, int color, const char type, const char *msg);
94	root	1.84	int cfperl_can_merge (object ob1, object ob2);
95	root	1.7
96	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
97
98	root	1.79	extern tstamp runtime; // virtual server time, excluding time jumps and lag
99			extern tstamp NOW; // real time of current server tick
100	root	1.42
101	root	1.6	enum event_klass
102			{
103	root	1.11	KLASS_NONE,
104	root	1.3	KLASS_GLOBAL,
105	root	1.41	KLASS_ATTACHABLE,
106	root	1.40	KLASS_CLIENT,
107	root	1.3	KLASS_PLAYER,
108			KLASS_OBJECT,
109			KLASS_MAP,
110	root	1.33	KLASS_COMMAND,
111	root	1.3	};
112
113	root	1.6	enum event_type
114			{
115	root	1.7	# define def(klass,name) EVENT_ ## klass ## _ ## name,
116	root	1.2	# include "eventinc.h"
117			# undef def
118	root	1.4	NUM_EVENT_TYPES
119	root	1.2	};
120
121	root	1.64	// in which global events or per-type events are we interested
122			extern bitset<NUM_EVENT_TYPES> ev_want_event;
123			extern bitset<NUM_TYPES> ev_want_type;
124
125	root	1.41	#define ARG_AV(o) DT_AV , static_cast<AV *> (o)
126			#define ARG_INT(v) DT_INT , static_cast<int> (v)
127			#define ARG_INT64(v) DT_INT64 , static_cast<sint64> (v)
128			#define ARG_DOUBLE(v) DT_DOUBLE, static_cast<double> (v)
129			#define ARG_STRING(v) DT_STRING, static_cast<const char *> (v)
130			#define ARG_DATA(s,l) DT_DATA , static_cast<const void *> (s), int (l)
131			#define ARG_OBJECT(o) DT_OBJECT, (void )(static_cast<object > (o))
132			#define ARG_MAP(o) DT_MAP , (void )(static_cast<maptile > (o))
133			#define ARG_PLAYER(o) DT_PLAYER, (void )(static_cast<player > (o))
134			#define ARG_ARCH(o) DT_ARCH , (void )(static_cast<archetype > (o))
135			#define ARG_CLIENT(o) DT_CLIENT, (void )(static_cast<client > (o))
136			#define ARG_PARTY(o) DT_PARTY , (void )(static_cast<party > (o))
137			#define ARG_REGION(o) DT_REGION, (void )(static_cast<region > (o))
138	root	1.3
139			// the ", ## __VA_ARGS" is, unfortunately, a gnu-cpp extension
140	root	1.66	#define INVOKE(obj,event, ...) (expect_false ((obj)->should_invoke (event)) ? (obj)->invoke (event, ## __VA_ARGS__, DT_END) : 0)
141			#define INVOKE_GLOBAL(event, ...) INVOKE (&gbl_ev, EVENT_ ## GLOBAL ## _ ## event, ## __VA_ARGS__)
142			#define INVOKE_ATTACHABLE(event, obj, ...) INVOKE (obj , EVENT_ ## ATTACHABLE ## _ ## event, ## __VA_ARGS__)
143			#define INVOKE_OBJECT(event, obj, ...) INVOKE (obj , EVENT_ ## OBJECT ## _ ## event, ## __VA_ARGS__)
144			#define INVOKE_CLIENT(event, obj, ...) INVOKE (obj , EVENT_ ## CLIENT ## _ ## event, ## __VA_ARGS__)
145			#define INVOKE_PLAYER(event, obj, ...) INVOKE (obj , EVENT_ ## PLAYER ## _ ## event, ## __VA_ARGS__)
146			#define INVOKE_MAP(event, obj, ...) INVOKE (obj , EVENT_ ## MAP ## _ ## event, ## __VA_ARGS__)
147	root	1.3
148	root	1.7	//TODO should index into @result
149			#define RESULT(idx,type) cfperl_result_ ## type (idx)
150	root	1.33	#define RESULT_DOUBLE(idx) RESULT(idx, DOUBLE)
151			#define RESULT_INT(idx) RESULT(idx, INT)
152	root	1.7
153	root	1.34	double cfperl_result_DOUBLE (int idx);
154			int cfperl_result_INT (int idx);
155	root	1.7
156	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
157
158	root	1.47	INTERFACE_CLASS (attachable)
159	root	1.86	struct attachable : refcnt_base
160	root	1.6	{
161	root	1.42	static MGVTBL vtbl;
162
163	root	1.41	static unordered_vector<attachable *> mortals;
164	root	1.47	MTH static void check_mortals ();
165	root	1.41
166			enum {
167	root	1.54	F_DESTROYED = 0x01,
168			F_DEBUG_TRACE = 0x02,
169	root	1.41	};
170	root	1.86	int ACC (RW, flags);
171	root	1.41
172			// object is delete'd after the refcount reaches 0
173	root	1.49	MTH int refcnt_cnt () const;
174	root	1.41	// check wether the object has died and destroy
175	root	1.75	MTH void refcnt_chk () { if (expect_false (refcnt <= 0)) do_check (); }
176	root	1.41
177			// destroy the object unless it was already destroyed
178			// this politely asks everybody interested the reduce
179			// the refcount to 0 as soon as possible.
180	root	1.47	MTH void destroy ();
181	root	1.41
182			// return wether an object was destroyed already
183	root	1.47	MTH bool destroyed () const { return flags & F_DESTROYED; }
184	root	1.41
185			virtual void gather_callbacks (AV *&callbacks, event_type event) const;
186
187			#if 0
188			private:
189			static refcounted *rc_first;
190			refcounted *rc_next;
191			#endif
192
193			HV *self; // CF+ perl self
194	root	1.35	AV *cb; // CF+ callbacks
195	root	1.21	shstr attach; // generic extension attachment information
196	root	1.6
197	root	1.52	void sever_self (); // sever this object from its self, if it has one.
198			void optimise (); // possibly save some memory by destroying unneeded data
199	root	1.8
200	root	1.41	attachable ()
201	root	1.86	: flags (0), self (0), cb (0), attach (0)
202	root	1.8	{
203			}
204	root	1.22
205	root	1.41	attachable (const attachable &src)
206	root	1.86	: flags (0), self (0), cb (0), attach (src.attach)
207	root	1.22	{
208			}
209
210	root	1.82	// set a custom key to the given value, or delete it if value = 0
211			void set_key (const char key, const char value = 0);
212
213	root	1.41	attachable &operator =(const attachable &src);
214
215	root	1.66	// used to _quickly_ device wether to shortcut the evaluation
216			bool should_invoke (event_type event)
217	root	1.64	{
218	root	1.66	return ev_want_event [event] \|\| cb;
219	root	1.64	}
220
221	root	1.66	bool invoke (event_type event, ...);
222
223	root	1.48	MTH void instantiate ();
224	root	1.41	void reattach ();
225	root	1.24
226	root	1.41	protected:
227			// do the real refcount checking work
228			void do_check ();
229	root	1.25
230	root	1.41	// the method that does the real destroy work
231			virtual void do_destroy ();
232	root	1.83
233			// destructor is protected, should not be called by anybody
234			virtual ~attachable ();
235	root	1.6	};
236
237	root	1.41	// the global object is a pseudo object that cares for the global events
238			struct global : attachable
239	root	1.6	{
240	root	1.41	void gather_callbacks (AV *&callbacks, event_type event) const;
241	root	1.6	};
242
243	root	1.41	extern struct global gbl_ev;
244
245	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
246
247	root	1.63	struct object_freezer : dynbuf_text
248	root	1.7	{
249	root	1.17	AV *av;
250	root	1.12
251	root	1.17	object_freezer ();
252	root	1.8	~object_freezer ();
253
254	root	1.41	void put (attachable *ext);
255	root	1.15
256	root	1.29	// used only for user-defined key-value pairs
257			void put (const shstr &k, const shstr &v)
258	root	1.20	{
259			add (k);
260
261	root	1.66	if (expect_true (v))
262	root	1.22	add (' '), add (v);
263	root	1.20
264			add ('\n');
265			}
266
267	root	1.29	template<typename T>
268	root	1.78	void put_kw_string (keyword k, const T &v)
269	root	1.20	{
270			int klen = keyword_len [k];
271	root	1.22	int vlen = v ? strlen (v) + 1 : 0;
272
273			char p = (char )alloc (klen + vlen + 1);
274
275			memcpy (p, keyword_str [k], klen); p += klen;
276
277	root	1.66	if (expect_true (v))
278	root	1.22	{
279	root	1.29	*p++ = ' '; vlen--;
280	root	1.22	memcpy (p, v, vlen); p += vlen;
281			}
282
283			*p = '\n';
284			}
285
286	root	1.45	void put (keyword k, const char *v = 0)
287	root	1.29	{
288	root	1.78	put_kw_string (k, v);
289	root	1.29	}
290
291	root	1.22	void put (keyword k, const shstr &v)
292			{
293	root	1.78	put_kw_string (k, v);
294	root	1.20	}
295	root	1.19
296	root	1.20	void put (keyword k, double v)
297			{
298	root	1.69	force (MAX_KEYWORD_LEN + 2 + 32);
299			fadd (keyword_str [k], keyword_len [k]);
300			fadd (' ');
301			falloc (sprintf (ptr, "%.7g", v));
302			fadd ('\n');
303	root	1.20	}
304
305			void put_(keyword k, sint64 v)
306			{
307	root	1.69	force (MAX_KEYWORD_LEN + 2 + sint64_digits);
308			fadd (keyword_str [k], keyword_len [k]);
309			fadd (' ');
310	root	1.20	add (v);
311	root	1.69	fadd ('\n');
312	root	1.20	}
313
314			void put_(keyword k, sint32 v)
315			{
316	root	1.69	force (MAX_KEYWORD_LEN + 2 + sint32_digits);
317			fadd (keyword_str [k], keyword_len [k]);
318			fadd (' ');
319	root	1.20	add (v);
320	root	1.69	fadd ('\n');
321	root	1.20	}
322
323	root	1.72	void put (keyword k, float v) { put (k, (double)v); }
324			void put (keyword k, signed char v) { put_(k, (sint32)v); }
325			void put (keyword k, unsigned char v) { put_(k, (sint32)v); }
326			void put (keyword k, signed short v) { put_(k, (sint32)v); }
327			void put (keyword k, unsigned short v) { put_(k, (sint32)v); }
328			void put (keyword k, signed int v) { put_(k, (sint32)v); }
329			void put (keyword k, unsigned int v) { put_(k, (sint64)v); }
330			void put (keyword k, signed long v) { put_(k, (sint64)v); }
331			void put (keyword k, unsigned long v) { put_(k, (sint64)v); }
332			void put (keyword k, signed long long v) { put_(k, (sint64)v); }
333			void put (keyword k, unsigned long long v) { put_(k, (sint64)v); }
334
335	root	1.23	void put (keyword kbeg, keyword kend, const shstr &v)
336	root	1.20	{
337	root	1.69	force (MAX_KEYWORD_LEN + 1);
338			fadd (keyword_str [kbeg], keyword_len [kbeg]); fadd ('\n');
339	root	1.20
340	root	1.66	if (expect_true (v))
341	root	1.20	{
342			add (v);
343			add ('\n');
344			}
345
346	root	1.69	force (MAX_KEYWORD_LEN + 1);
347			fadd (keyword_str [kend], keyword_len [kend]); fadd ('\n');
348	root	1.20	}
349
350	root	1.78	void put (keyword k, archetype *v);
351			void put (keyword k, treasurelist *v);
352			void put (keyword k, faceinfo *v);
353	root	1.18
354	root	1.32	template<typename T>
355			void put (keyword k, const refptr<T> &v)
356			{
357			put (k, (T *)v);
358			}
359
360	root	1.47	bool save (const char *path);
361	root	1.31	char *as_string (); // like strdup
362	root	1.17
363	root	1.16	operator bool () { return !!av; }
364	root	1.7	};
365
366	root	1.17	struct object_thawer
367	root	1.7	{
368	root	1.66	char *line; // current beginning of line
369	root	1.21	SV *text; // text part
370			AV *av; // perl part
371	root	1.53	int linenum;
372	root	1.56	keyword kw;
373	root	1.66	char *kw_str; // the keyword parsed, as string
374			char *value; // the value, or 0 if no value
375			char *value_nn; // the value, or the empty string if no value
376	root	1.47	const char *name;
377	root	1.21
378			operator bool () { return !!text; }
379	root	1.16
380	root	1.47	object_thawer (const char *path = 0);
381	root	1.30	object_thawer (const char data, AV perlav);
382	root	1.8	~object_thawer ();
383
384	root	1.41	void get (attachable *obj, int oid);
385	root	1.15
386	root	1.56	// parse next line
387	root	1.57	void next ();
388			// skip the current key-value (usually fetch next line, for
389	root	1.73	// multiline-fields, skips till the corresponding end-kw
390	root	1.57	void skip ();
391
392			char *get_str () { return value; } // may be 0
393	root	1.66	void get_ml (keyword kend, shstr &sh);
394	root	1.17
395	root	1.56	void get_ornull (shstr &sh) const { sh = value; }
396	root	1.66	void get (shstr &sh) const { sh = value; } // might want to check for non-null here
397	root	1.21
398	root	1.66	bool get_bool () const { return *value_nn == '1'; }
399	root	1.21	sint32 get_sint32 () const;
400	root	1.71	sint64 get_sint64 () const { return strtoll (value_nn, 0, 10); }
401			double get_double () const { return strtod (value_nn, 0); }
402	root	1.21
403	root	1.42	void get (float &v) { v = get_double (); }
404	root	1.21	void get (double &v) { v = get_double (); }
405
406	root	1.66	void get (bool &i) { i = get_bool (); }
407	root	1.21	void get (sint8 &i) { i = get_sint32 (); }
408			void get (uint8 &i) { i = get_sint32 (); }
409			void get (sint16 &i) { i = get_sint32 (); }
410			void get (uint16 &i) { i = get_sint32 (); }
411			void get (sint32 &i) { i = get_sint32 (); }
412
413			void get (uint32 &i) { i = get_sint64 (); }
414			void get (sint64 &i) { i = get_sint64 (); }
415	root	1.53
416	root	1.85	void parse_warn (const char *msg);
417	root	1.56	bool parse_error (const char type = 0, const char name = 0, bool skip = true);
418	root	1.7	};
419	root	1.2
420	root	1.53	//TODO: remove
421	root	1.21	char fgets (char s, int n, object_thawer &thawer);
422
423	root	1.42	//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
424
425			struct coroapi {
426			static struct CoroAPI *GCoroAPI;
427
428			static int nready () { return CORO_NREADY; }
429			static int cede () { return CORO_CEDE ; }
430	root	1.46
431	root	1.79	static tstamp next_cede;
432	root	1.46	static int cede_counter;
433
434	root	1.62	static void do_cede_every ();
435			static void do_cede_to_tick ();
436			static void do_cede_to_tick_every ();
437
438	root	1.46	static void cede_every (int count)
439			{
440	root	1.66	if (expect_false (++cede_counter >= count))
441	root	1.62	do_cede_every ();
442			}
443	root	1.46
444	root	1.77	static bool cede_to_tick ()
445	root	1.62	{
446	root	1.79	if (expect_true (now () < next_cede))
447	root	1.77	return false;
448
449			do_cede_to_tick ();
450			return true;
451	root	1.62	}
452
453	root	1.77	static bool cede_to_tick_every (int count)
454	root	1.62	{
455	root	1.77	if (expect_true (++cede_counter < count))
456			return false;
457
458			return cede_to_tick ();
459	root	1.46	}
460	root	1.61
461			static void wait_for_tick ();
462			static void wait_for_tick_begin ();
463	root	1.42	};
464
465	root	1.36	struct watcher_base
466			{
467			static struct EventAPI *GEventAPI;
468			};
469
470			template<class base>
471			struct watcher : watcher_base
472			{
473			base *pe;
474
475			void start (bool repeat = false) { GEventAPI->start ((pe_watcher *)pe, repeat); }
476			void stop (bool cancel_events = false) { GEventAPI->stop ((pe_watcher *)pe, cancel_events); }
477			void now () { GEventAPI->now ((pe_watcher *)pe); }
478			void suspend () { GEventAPI->suspend ((pe_watcher *)pe); }
479			void resume () { GEventAPI->resume ((pe_watcher *)pe); }
480
481			void prio (int new_prio) { ((pe_watcher *)pe)->prio = new_prio; }
482
483			~watcher ()
484			{
485			cancel ();
486			}
487
488			private:
489			void cancel () { GEventAPI->cancel ((pe_watcher *)pe); } // private
490			};
491
492	root	1.38	struct iw : watcher<pe_idle>, callback<void (iw &)>
493			{
494			template<class O, class M>
495			iw (O object, M method)
496			: callback<void (iw &)> (object, method)
497			{
498			alloc ();
499			}
500
501			private:
502			void alloc ();
503			};
504
505	root	1.36	struct iow : watcher<pe_io>, callback<void (iow &, int)>
506			{
507			template<class O, class M>
508			iow (O object, M method)
509			: callback<void (iow &, int)> (object, method)
510			{
511			alloc ();
512			}
513
514	root	1.38	void fd (int fd);
515	root	1.36	int poll ();
516	root	1.38	void poll (int events);
517	root	1.36
518			private:
519			void alloc ();
520			};
521
522	root	1.2	#endif
523	root	1.3