mirror of
https://github.com/jugeeya/UltimateTrainingModpack.git
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326 lines
11 KiB
C
326 lines
11 KiB
C
/*
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** $Id: lstate.h $
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** Global State
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** See Copyright Notice in lua.h
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*/
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#ifndef lstate_h
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#define lstate_h
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#include "lua.h"
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#include "lobject.h"
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#include "ltm.h"
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#include "lzio.h"
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/*
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** Some notes about garbage-collected objects: All objects in Lua must
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** be kept somehow accessible until being freed, so all objects always
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** belong to one (and only one) of these lists, using field 'next' of
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** the 'CommonHeader' for the link:
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**
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** 'allgc': all objects not marked for finalization;
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** 'finobj': all objects marked for finalization;
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** 'tobefnz': all objects ready to be finalized;
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** 'fixedgc': all objects that are not to be collected (currently
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** only small strings, such as reserved words).
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**
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** Moreover, there is another set of lists that control gray objects.
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** These lists are linked by fields 'gclist'. (All objects that
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** can become gray have such a field. The field is not the same
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** in all objects, but it always has this name.) Any gray object
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** must belong to one of these lists, and all objects in these lists
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** must be gray:
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**
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** 'gray': regular gray objects, still waiting to be visited.
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** 'grayagain': objects that must be revisited at the atomic phase.
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** That includes
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** - black objects got in a write barrier;
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** - all kinds of weak tables during propagation phase;
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** - all threads.
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** 'weak': tables with weak values to be cleared;
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** 'ephemeron': ephemeron tables with white->white entries;
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** 'allweak': tables with weak keys and/or weak values to be cleared.
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*/
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/*
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** About 'nCcalls': each thread in Lua (a lua_State) keeps a count of
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** how many "C calls" it can do in the C stack, to avoid C-stack overflow.
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** This count is very rough approximation; it considers only recursive
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** functions inside the interpreter, as non-recursive calls can be
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** considered using a fixed (although unknown) amount of stack space.
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**
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** The count itself has two parts: the lower part is the count itself;
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** the higher part counts the number of non-yieldable calls in the stack.
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**
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** Because calls to external C functions can use of unkown amount
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** of space (e.g., functions using an auxiliary buffer), calls
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** to these functions add more than one to the count.
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**
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** The proper count also includes the number of CallInfo structures
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** allocated by Lua, as a kind of "potential" calls. So, when Lua
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** calls a function (and "consumes" one CallInfo), it needs neither to
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** increment nor to check 'nCcalls', as its use of C stack is already
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** accounted for.
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*/
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/* number of "C stack slots" used by an external C function */
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#define CSTACKCF 10
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/* true if this thread does not have non-yieldable calls in the stack */
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#define yieldable(L) (((L)->nCcalls & 0xffff0000) == 0)
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/* real number of C calls */
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#define getCcalls(L) ((L)->nCcalls & 0xffff)
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/* Increment the number of non-yieldable calls */
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#define incnny(L) ((L)->nCcalls += 0x10000)
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/* Decrement the number of non-yieldable calls */
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#define decnny(L) ((L)->nCcalls -= 0x10000)
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/* Increment the number of non-yieldable calls and nCcalls */
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#define incXCcalls(L) ((L)->nCcalls += 0x10000 + CSTACKCF)
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/* Decrement the number of non-yieldable calls and nCcalls */
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#define decXCcalls(L) ((L)->nCcalls -= 0x10000 + CSTACKCF)
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struct lua_longjmp; /* defined in ldo.c */
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/*
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** Atomic type (relative to signals) to better ensure that 'lua_sethook'
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** is thread safe
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*/
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#if !defined(l_signalT)
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#include <signal.h>
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#define l_signalT sig_atomic_t
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#endif
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/* extra stack space to handle TM calls and some other extras */
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#define EXTRA_STACK 5
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#define BASIC_STACK_SIZE (2*LUA_MINSTACK)
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/* kinds of Garbage Collection */
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#define KGC_INC 0 /* incremental gc */
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#define KGC_GEN 1 /* generational gc */
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typedef struct stringtable {
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TString **hash;
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int nuse; /* number of elements */
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int size;
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} stringtable;
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/*
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** Information about a call.
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*/
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typedef struct CallInfo {
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StkId func; /* function index in the stack */
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StkId top; /* top for this function */
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struct CallInfo *previous, *next; /* dynamic call link */
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union {
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struct { /* only for Lua functions */
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const Instruction *savedpc;
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l_signalT trap;
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int nextraargs; /* # of extra arguments in vararg functions */
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} l;
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struct { /* only for C functions */
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lua_KFunction k; /* continuation in case of yields */
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ptrdiff_t old_errfunc;
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lua_KContext ctx; /* context info. in case of yields */
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} c;
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} u;
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union {
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int funcidx; /* called-function index */
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int nyield; /* number of values yielded */
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struct { /* info about transfered values (for call/return hooks) */
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unsigned short ftransfer; /* offset of first value transfered */
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unsigned short ntransfer; /* number of values transfered */
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} transferinfo;
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} u2;
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short nresults; /* expected number of results from this function */
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unsigned short callstatus;
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} CallInfo;
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/*
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** Bits in CallInfo status
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*/
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#define CIST_OAH (1<<0) /* original value of 'allowhook' */
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#define CIST_C (1<<1) /* call is running a C function */
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#define CIST_HOOKED (1<<2) /* call is running a debug hook */
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#define CIST_YPCALL (1<<3) /* call is a yieldable protected call */
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#define CIST_TAIL (1<<4) /* call was tail called */
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#define CIST_HOOKYIELD (1<<5) /* last hook called yielded */
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#define CIST_FIN (1<<6) /* call is running a finalizer */
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#define CIST_TRAN (1<<7) /* 'ci' has transfer information */
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#if defined(LUA_COMPAT_LT_LE)
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#define CIST_LEQ (1<<8) /* using __lt for __le */
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#endif
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/* active function is a Lua function */
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#define isLua(ci) (!((ci)->callstatus & CIST_C))
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/* call is running Lua code (not a hook) */
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#define isLuacode(ci) (!((ci)->callstatus & (CIST_C | CIST_HOOKED)))
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/* assume that CIST_OAH has offset 0 and that 'v' is strictly 0/1 */
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#define setoah(st,v) ((st) = ((st) & ~CIST_OAH) | (v))
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#define getoah(st) ((st) & CIST_OAH)
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/*
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** 'global state', shared by all threads of this state
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*/
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typedef struct global_State {
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lua_Alloc frealloc; /* function to reallocate memory */
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void *ud; /* auxiliary data to 'frealloc' */
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l_mem totalbytes; /* number of bytes currently allocated - GCdebt */
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l_mem GCdebt; /* bytes allocated not yet compensated by the collector */
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lu_mem GCestimate; /* an estimate of the non-garbage memory in use */
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lu_mem lastatomic; /* see function 'genstep' in file 'lgc.c' */
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stringtable strt; /* hash table for strings */
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TValue l_registry;
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TValue nilvalue; /* a nil value */
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unsigned int seed; /* randomized seed for hashes */
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lu_byte currentwhite;
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lu_byte gcstate; /* state of garbage collector */
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lu_byte gckind; /* kind of GC running */
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lu_byte genminormul; /* control for minor generational collections */
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lu_byte genmajormul; /* control for major generational collections */
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lu_byte gcrunning; /* true if GC is running */
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lu_byte gcemergency; /* true if this is an emergency collection */
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lu_byte gcpause; /* size of pause between successive GCs */
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lu_byte gcstepmul; /* GC "speed" */
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lu_byte gcstepsize; /* (log2 of) GC granularity */
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GCObject *allgc; /* list of all collectable objects */
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GCObject **sweepgc; /* current position of sweep in list */
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GCObject *finobj; /* list of collectable objects with finalizers */
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GCObject *gray; /* list of gray objects */
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GCObject *grayagain; /* list of objects to be traversed atomically */
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GCObject *weak; /* list of tables with weak values */
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GCObject *ephemeron; /* list of ephemeron tables (weak keys) */
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GCObject *allweak; /* list of all-weak tables */
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GCObject *tobefnz; /* list of userdata to be GC */
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GCObject *fixedgc; /* list of objects not to be collected */
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/* fields for generational collector */
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GCObject *survival; /* start of objects that survived one GC cycle */
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GCObject *old; /* start of old objects */
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GCObject *reallyold; /* old objects with more than one cycle */
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GCObject *finobjsur; /* list of survival objects with finalizers */
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GCObject *finobjold; /* list of old objects with finalizers */
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GCObject *finobjrold; /* list of really old objects with finalizers */
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struct lua_State *twups; /* list of threads with open upvalues */
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lua_CFunction panic; /* to be called in unprotected errors */
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struct lua_State *mainthread;
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TString *memerrmsg; /* message for memory-allocation errors */
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TString *tmname[TM_N]; /* array with tag-method names */
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struct Table *mt[LUA_NUMTAGS]; /* metatables for basic types */
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TString *strcache[STRCACHE_N][STRCACHE_M]; /* cache for strings in API */
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lua_WarnFunction warnf; /* warning function */
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void *ud_warn; /* auxiliary data to 'warnf' */
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} global_State;
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/*
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** 'per thread' state
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*/
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struct lua_State {
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CommonHeader;
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lu_byte status;
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lu_byte allowhook;
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unsigned short nci; /* number of items in 'ci' list */
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StkId top; /* first free slot in the stack */
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global_State *l_G;
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CallInfo *ci; /* call info for current function */
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const Instruction *oldpc; /* last pc traced */
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StkId stack_last; /* last free slot in the stack */
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StkId stack; /* stack base */
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UpVal *openupval; /* list of open upvalues in this stack */
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GCObject *gclist;
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struct lua_State *twups; /* list of threads with open upvalues */
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struct lua_longjmp *errorJmp; /* current error recover point */
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CallInfo base_ci; /* CallInfo for first level (C calling Lua) */
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volatile lua_Hook hook;
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ptrdiff_t errfunc; /* current error handling function (stack index) */
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l_uint32 nCcalls; /* number of allowed nested C calls - 'nci' */
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int stacksize;
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int basehookcount;
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int hookcount;
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l_signalT hookmask;
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};
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#define G(L) (L->l_G)
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/*
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** Union of all collectable objects (only for conversions)
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*/
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union GCUnion {
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GCObject gc; /* common header */
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struct TString ts;
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struct Udata u;
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union Closure cl;
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struct Table h;
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struct Proto p;
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struct lua_State th; /* thread */
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struct UpVal upv;
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};
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#define cast_u(o) cast(union GCUnion *, (o))
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/* macros to convert a GCObject into a specific value */
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#define gco2ts(o) \
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check_exp(novariant((o)->tt) == LUA_TSTRING, &((cast_u(o))->ts))
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#define gco2u(o) check_exp((o)->tt == LUA_TUSERDATA, &((cast_u(o))->u))
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#define gco2lcl(o) check_exp((o)->tt == LUA_TLCL, &((cast_u(o))->cl.l))
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#define gco2ccl(o) check_exp((o)->tt == LUA_TCCL, &((cast_u(o))->cl.c))
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#define gco2cl(o) \
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check_exp(novariant((o)->tt) == LUA_TFUNCTION, &((cast_u(o))->cl))
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#define gco2t(o) check_exp((o)->tt == LUA_TTABLE, &((cast_u(o))->h))
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#define gco2p(o) check_exp((o)->tt == LUA_TPROTO, &((cast_u(o))->p))
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#define gco2th(o) check_exp((o)->tt == LUA_TTHREAD, &((cast_u(o))->th))
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#define gco2upv(o) \
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check_exp(novariant((o)->tt) == LUA_TUPVAL, &((cast_u(o))->upv))
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/*
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** macro to convert a Lua object into a GCObject
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** (The access to 'tt' tries to ensure that 'v' is actually a Lua object.)
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*/
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#define obj2gco(v) check_exp((v)->tt >= LUA_TSTRING, &(cast_u(v)->gc))
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/* actual number of total bytes allocated */
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#define gettotalbytes(g) cast(lu_mem, (g)->totalbytes + (g)->GCdebt)
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LUAI_FUNC void luaE_setdebt (global_State *g, l_mem debt);
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LUAI_FUNC void luaE_freethread (lua_State *L, lua_State *L1);
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LUAI_FUNC CallInfo *luaE_extendCI (lua_State *L);
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LUAI_FUNC void luaE_freeCI (lua_State *L);
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LUAI_FUNC void luaE_shrinkCI (lua_State *L);
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LUAI_FUNC void luaE_enterCcall (lua_State *L);
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LUAI_FUNC void luaE_warning (lua_State *L, const char *msg, int tocont);
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#define luaE_exitCcall(L) ((L)->nCcalls--)
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#endif
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