summaryrefslogtreecommitdiffstats
path: root/fluent-bit/lib/luajit-3065c9/src/lj_obj.h
diff options
context:
space:
mode:
Diffstat (limited to 'fluent-bit/lib/luajit-3065c9/src/lj_obj.h')
-rw-r--r--fluent-bit/lib/luajit-3065c9/src/lj_obj.h1045
1 files changed, 1045 insertions, 0 deletions
diff --git a/fluent-bit/lib/luajit-3065c9/src/lj_obj.h b/fluent-bit/lib/luajit-3065c9/src/lj_obj.h
new file mode 100644
index 00000000..67e41181
--- /dev/null
+++ b/fluent-bit/lib/luajit-3065c9/src/lj_obj.h
@@ -0,0 +1,1045 @@
+/*
+** LuaJIT VM tags, values and objects.
+** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h
+**
+** Portions taken verbatim or adapted from the Lua interpreter.
+** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
+*/
+
+#ifndef _LJ_OBJ_H
+#define _LJ_OBJ_H
+
+#include "lua.h"
+#include "lj_def.h"
+#include "lj_arch.h"
+
+/* -- Memory references --------------------------------------------------- */
+
+/* Memory and GC object sizes. */
+typedef uint32_t MSize;
+#if LJ_GC64
+typedef uint64_t GCSize;
+#else
+typedef uint32_t GCSize;
+#endif
+
+/* Memory reference */
+typedef struct MRef {
+#if LJ_GC64
+ uint64_t ptr64; /* True 64 bit pointer. */
+#else
+ uint32_t ptr32; /* Pseudo 32 bit pointer. */
+#endif
+} MRef;
+
+#if LJ_GC64
+#define mref(r, t) ((t *)(void *)(r).ptr64)
+#define mrefu(r) ((r).ptr64)
+
+#define setmref(r, p) ((r).ptr64 = (uint64_t)(void *)(p))
+#define setmrefu(r, u) ((r).ptr64 = (uint64_t)(u))
+#define setmrefr(r, v) ((r).ptr64 = (v).ptr64)
+#else
+#define mref(r, t) ((t *)(void *)(uintptr_t)(r).ptr32)
+#define mrefu(r) ((r).ptr32)
+
+#define setmref(r, p) ((r).ptr32 = (uint32_t)(uintptr_t)(void *)(p))
+#define setmrefu(r, u) ((r).ptr32 = (uint32_t)(u))
+#define setmrefr(r, v) ((r).ptr32 = (v).ptr32)
+#endif
+
+/* -- GC object references ------------------------------------------------ */
+
+/* GCobj reference */
+typedef struct GCRef {
+#if LJ_GC64
+ uint64_t gcptr64; /* True 64 bit pointer. */
+#else
+ uint32_t gcptr32; /* Pseudo 32 bit pointer. */
+#endif
+} GCRef;
+
+/* Common GC header for all collectable objects. */
+#define GCHeader GCRef nextgc; uint8_t marked; uint8_t gct
+/* This occupies 6 bytes, so use the next 2 bytes for non-32 bit fields. */
+
+#if LJ_GC64
+#define gcref(r) ((GCobj *)(r).gcptr64)
+#define gcrefp(r, t) ((t *)(void *)(r).gcptr64)
+#define gcrefu(r) ((r).gcptr64)
+#define gcrefeq(r1, r2) ((r1).gcptr64 == (r2).gcptr64)
+
+#define setgcref(r, gc) ((r).gcptr64 = (uint64_t)&(gc)->gch)
+#define setgcreft(r, gc, it) \
+ (r).gcptr64 = (uint64_t)&(gc)->gch | (((uint64_t)(it)) << 47)
+#define setgcrefp(r, p) ((r).gcptr64 = (uint64_t)(p))
+#define setgcrefnull(r) ((r).gcptr64 = 0)
+#define setgcrefr(r, v) ((r).gcptr64 = (v).gcptr64)
+#else
+#define gcref(r) ((GCobj *)(uintptr_t)(r).gcptr32)
+#define gcrefp(r, t) ((t *)(void *)(uintptr_t)(r).gcptr32)
+#define gcrefu(r) ((r).gcptr32)
+#define gcrefeq(r1, r2) ((r1).gcptr32 == (r2).gcptr32)
+
+#define setgcref(r, gc) ((r).gcptr32 = (uint32_t)(uintptr_t)&(gc)->gch)
+#define setgcrefp(r, p) ((r).gcptr32 = (uint32_t)(uintptr_t)(p))
+#define setgcrefnull(r) ((r).gcptr32 = 0)
+#define setgcrefr(r, v) ((r).gcptr32 = (v).gcptr32)
+#endif
+
+#define gcnext(gc) (gcref((gc)->gch.nextgc))
+
+/* IMPORTANT NOTE:
+**
+** All uses of the setgcref* macros MUST be accompanied with a write barrier.
+**
+** This is to ensure the integrity of the incremental GC. The invariant
+** to preserve is that a black object never points to a white object.
+** I.e. never store a white object into a field of a black object.
+**
+** It's ok to LEAVE OUT the write barrier ONLY in the following cases:
+** - The source is not a GC object (NULL).
+** - The target is a GC root. I.e. everything in global_State.
+** - The target is a lua_State field (threads are never black).
+** - The target is a stack slot, see setgcV et al.
+** - The target is an open upvalue, i.e. pointing to a stack slot.
+** - The target is a newly created object (i.e. marked white). But make
+** sure nothing invokes the GC inbetween.
+** - The target and the source are the same object (self-reference).
+** - The target already contains the object (e.g. moving elements around).
+**
+** The most common case is a store to a stack slot. All other cases where
+** a barrier has been omitted are annotated with a NOBARRIER comment.
+**
+** The same logic applies for stores to table slots (array part or hash
+** part). ALL uses of lj_tab_set* require a barrier for the stored value
+** *and* the stored key, based on the above rules. In practice this means
+** a barrier is needed if *either* of the key or value are a GC object.
+**
+** It's ok to LEAVE OUT the write barrier in the following special cases:
+** - The stored value is nil. The key doesn't matter because it's either
+** not resurrected or lj_tab_newkey() will take care of the key barrier.
+** - The key doesn't matter if the *previously* stored value is guaranteed
+** to be non-nil (because the key is kept alive in the table).
+** - The key doesn't matter if it's guaranteed not to be part of the table,
+** since lj_tab_newkey() takes care of the key barrier. This applies
+** trivially to new tables, but watch out for resurrected keys. Storing
+** a nil value leaves the key in the table!
+**
+** In case of doubt use lj_gc_anybarriert() as it's rather cheap. It's used
+** by the interpreter for all table stores.
+**
+** Note: In contrast to Lua's GC, LuaJIT's GC does *not* specially mark
+** dead keys in tables. The reference is left in, but it's guaranteed to
+** be never dereferenced as long as the value is nil. It's ok if the key is
+** freed or if any object subsequently gets the same address.
+**
+** Not destroying dead keys helps to keep key hash slots stable. This avoids
+** specialization back-off for HREFK when a value flips between nil and
+** non-nil and the GC gets in the way. It also allows safely hoisting
+** HREF/HREFK across GC steps. Dead keys are only removed if a table is
+** resized (i.e. by NEWREF) and xREF must not be CSEd across a resize.
+**
+** The trade-off is that a write barrier for tables must take the key into
+** account, too. Implicitly resurrecting the key by storing a non-nil value
+** may invalidate the incremental GC invariant.
+*/
+
+/* -- Common type definitions --------------------------------------------- */
+
+/* Types for handling bytecodes. Need this here, details in lj_bc.h. */
+typedef uint32_t BCIns; /* Bytecode instruction. */
+typedef uint32_t BCPos; /* Bytecode position. */
+typedef uint32_t BCReg; /* Bytecode register. */
+typedef int32_t BCLine; /* Bytecode line number. */
+
+/* Internal assembler functions. Never call these directly from C. */
+typedef void (*ASMFunction)(void);
+
+/* Resizable string buffer. Need this here, details in lj_buf.h. */
+#define SBufHeader char *w, *e, *b; MRef L
+typedef struct SBuf {
+ SBufHeader;
+} SBuf;
+
+/* -- Tags and values ----------------------------------------------------- */
+
+/* Frame link. */
+typedef union {
+ int32_t ftsz; /* Frame type and size of previous frame. */
+ MRef pcr; /* Or PC for Lua frames. */
+} FrameLink;
+
+/* Tagged value. */
+typedef LJ_ALIGN(8) union TValue {
+ uint64_t u64; /* 64 bit pattern overlaps number. */
+ lua_Number n; /* Number object overlaps split tag/value object. */
+#if LJ_GC64
+ GCRef gcr; /* GCobj reference with tag. */
+ int64_t it64;
+ struct {
+ LJ_ENDIAN_LOHI(
+ int32_t i; /* Integer value. */
+ , uint32_t it; /* Internal object tag. Must overlap MSW of number. */
+ )
+ };
+#else
+ struct {
+ LJ_ENDIAN_LOHI(
+ union {
+ GCRef gcr; /* GCobj reference (if any). */
+ int32_t i; /* Integer value. */
+ };
+ , uint32_t it; /* Internal object tag. Must overlap MSW of number. */
+ )
+ };
+#endif
+#if LJ_FR2
+ int64_t ftsz; /* Frame type and size of previous frame, or PC. */
+#else
+ struct {
+ LJ_ENDIAN_LOHI(
+ GCRef func; /* Function for next frame (or dummy L). */
+ , FrameLink tp; /* Link to previous frame. */
+ )
+ } fr;
+#endif
+ struct {
+ LJ_ENDIAN_LOHI(
+ uint32_t lo; /* Lower 32 bits of number. */
+ , uint32_t hi; /* Upper 32 bits of number. */
+ )
+ } u32;
+} TValue;
+
+typedef const TValue cTValue;
+
+#define tvref(r) (mref(r, TValue))
+
+/* More external and GCobj tags for internal objects. */
+#define LAST_TT LUA_TTHREAD
+#define LUA_TPROTO (LAST_TT+1)
+#define LUA_TCDATA (LAST_TT+2)
+
+/* Internal object tags.
+**
+** Format for 32 bit GC references (!LJ_GC64):
+**
+** Internal tags overlap the MSW of a number object (must be a double).
+** Interpreted as a double these are special NaNs. The FPU only generates
+** one type of NaN (0xfff8_0000_0000_0000). So MSWs > 0xfff80000 are available
+** for use as internal tags. Small negative numbers are used to shorten the
+** encoding of type comparisons (reg/mem against sign-ext. 8 bit immediate).
+**
+** ---MSW---.---LSW---
+** primitive types | itype | |
+** lightuserdata | itype | void * | (32 bit platforms)
+** lightuserdata |ffff|seg| ofs | (64 bit platforms)
+** GC objects | itype | GCRef |
+** int (LJ_DUALNUM)| itype | int |
+** number -------double------
+**
+** Format for 64 bit GC references (LJ_GC64):
+**
+** The upper 13 bits must be 1 (0xfff8...) for a special NaN. The next
+** 4 bits hold the internal tag. The lowest 47 bits either hold a pointer,
+** a zero-extended 32 bit integer or all bits set to 1 for primitive types.
+**
+** ------MSW------.------LSW------
+** primitive types |1..1|itype|1..................1|
+** GC objects |1..1|itype|-------GCRef--------|
+** lightuserdata |1..1|itype|seg|------ofs-------|
+** int (LJ_DUALNUM) |1..1|itype|0..0|-----int-------|
+** number ------------double-------------
+**
+** ORDER LJ_T
+** Primitive types nil/false/true must be first, lightuserdata next.
+** GC objects are at the end, table/userdata must be lowest.
+** Also check lj_ir.h for similar ordering constraints.
+*/
+#define LJ_TNIL (~0u)
+#define LJ_TFALSE (~1u)
+#define LJ_TTRUE (~2u)
+#define LJ_TLIGHTUD (~3u)
+#define LJ_TSTR (~4u)
+#define LJ_TUPVAL (~5u)
+#define LJ_TTHREAD (~6u)
+#define LJ_TPROTO (~7u)
+#define LJ_TFUNC (~8u)
+#define LJ_TTRACE (~9u)
+#define LJ_TCDATA (~10u)
+#define LJ_TTAB (~11u)
+#define LJ_TUDATA (~12u)
+/* This is just the canonical number type used in some places. */
+#define LJ_TNUMX (~13u)
+
+/* Integers have itype == LJ_TISNUM doubles have itype < LJ_TISNUM */
+#if LJ_64 && !LJ_GC64
+#define LJ_TISNUM 0xfffeffffu
+#else
+#define LJ_TISNUM LJ_TNUMX
+#endif
+#define LJ_TISTRUECOND LJ_TFALSE
+#define LJ_TISPRI LJ_TTRUE
+#define LJ_TISGCV (LJ_TSTR+1)
+#define LJ_TISTABUD LJ_TTAB
+
+/* Type marker for slot holding a traversal index. Must be lightuserdata. */
+#define LJ_KEYINDEX 0xfffe7fffu
+
+#if LJ_GC64
+#define LJ_GCVMASK (((uint64_t)1 << 47) - 1)
+#endif
+
+#if LJ_64
+/* To stay within 47 bits, lightuserdata is segmented. */
+#define LJ_LIGHTUD_BITS_SEG 8
+#define LJ_LIGHTUD_BITS_LO (47 - LJ_LIGHTUD_BITS_SEG)
+#endif
+
+/* -- String object ------------------------------------------------------- */
+
+typedef uint32_t StrHash; /* String hash value. */
+typedef uint32_t StrID; /* String ID. */
+
+/* String object header. String payload follows. */
+typedef struct GCstr {
+ GCHeader;
+ uint8_t reserved; /* Used by lexer for fast lookup of reserved words. */
+ uint8_t hashalg; /* Hash algorithm. */
+ StrID sid; /* Interned string ID. */
+ StrHash hash; /* Hash of string. */
+ MSize len; /* Size of string. */
+} GCstr;
+
+#define strref(r) (&gcref((r))->str)
+#define strdata(s) ((const char *)((s)+1))
+#define strdatawr(s) ((char *)((s)+1))
+#define strVdata(o) strdata(strV(o))
+
+/* -- Userdata object ----------------------------------------------------- */
+
+/* Userdata object. Payload follows. */
+typedef struct GCudata {
+ GCHeader;
+ uint8_t udtype; /* Userdata type. */
+ uint8_t unused2;
+ GCRef env; /* Should be at same offset in GCfunc. */
+ MSize len; /* Size of payload. */
+ GCRef metatable; /* Must be at same offset in GCtab. */
+ uint32_t align1; /* To force 8 byte alignment of the payload. */
+} GCudata;
+
+/* Userdata types. */
+enum {
+ UDTYPE_USERDATA, /* Regular userdata. */
+ UDTYPE_IO_FILE, /* I/O library FILE. */
+ UDTYPE_FFI_CLIB, /* FFI C library namespace. */
+ UDTYPE_BUFFER, /* String buffer. */
+ UDTYPE__MAX
+};
+
+#define uddata(u) ((void *)((u)+1))
+#define sizeudata(u) (sizeof(struct GCudata)+(u)->len)
+
+/* -- C data object ------------------------------------------------------- */
+
+/* C data object. Payload follows. */
+typedef struct GCcdata {
+ GCHeader;
+ uint16_t ctypeid; /* C type ID. */
+} GCcdata;
+
+/* Prepended to variable-sized or realigned C data objects. */
+typedef struct GCcdataVar {
+ uint16_t offset; /* Offset to allocated memory (relative to GCcdata). */
+ uint16_t extra; /* Extra space allocated (incl. GCcdata + GCcdatav). */
+ MSize len; /* Size of payload. */
+} GCcdataVar;
+
+#define cdataptr(cd) ((void *)((cd)+1))
+#define cdataisv(cd) ((cd)->marked & 0x80)
+#define cdatav(cd) ((GCcdataVar *)((char *)(cd) - sizeof(GCcdataVar)))
+#define cdatavlen(cd) check_exp(cdataisv(cd), cdatav(cd)->len)
+#define sizecdatav(cd) (cdatavlen(cd) + cdatav(cd)->extra)
+#define memcdatav(cd) ((void *)((char *)(cd) - cdatav(cd)->offset))
+
+/* -- Prototype object ---------------------------------------------------- */
+
+#define SCALE_NUM_GCO ((int32_t)sizeof(lua_Number)/sizeof(GCRef))
+#define round_nkgc(n) (((n) + SCALE_NUM_GCO-1) & ~(SCALE_NUM_GCO-1))
+
+typedef struct GCproto {
+ GCHeader;
+ uint8_t numparams; /* Number of parameters. */
+ uint8_t framesize; /* Fixed frame size. */
+ MSize sizebc; /* Number of bytecode instructions. */
+#if LJ_GC64
+ uint32_t unused_gc64;
+#endif
+ GCRef gclist;
+ MRef k; /* Split constant array (points to the middle). */
+ MRef uv; /* Upvalue list. local slot|0x8000 or parent uv idx. */
+ MSize sizekgc; /* Number of collectable constants. */
+ MSize sizekn; /* Number of lua_Number constants. */
+ MSize sizept; /* Total size including colocated arrays. */
+ uint8_t sizeuv; /* Number of upvalues. */
+ uint8_t flags; /* Miscellaneous flags (see below). */
+ uint16_t trace; /* Anchor for chain of root traces. */
+ /* ------ The following fields are for debugging/tracebacks only ------ */
+ GCRef chunkname; /* Name of the chunk this function was defined in. */
+ BCLine firstline; /* First line of the function definition. */
+ BCLine numline; /* Number of lines for the function definition. */
+ MRef lineinfo; /* Compressed map from bytecode ins. to source line. */
+ MRef uvinfo; /* Upvalue names. */
+ MRef varinfo; /* Names and compressed extents of local variables. */
+} GCproto;
+
+/* Flags for prototype. */
+#define PROTO_CHILD 0x01 /* Has child prototypes. */
+#define PROTO_VARARG 0x02 /* Vararg function. */
+#define PROTO_FFI 0x04 /* Uses BC_KCDATA for FFI datatypes. */
+#define PROTO_NOJIT 0x08 /* JIT disabled for this function. */
+#define PROTO_ILOOP 0x10 /* Patched bytecode with ILOOP etc. */
+/* Only used during parsing. */
+#define PROTO_HAS_RETURN 0x20 /* Already emitted a return. */
+#define PROTO_FIXUP_RETURN 0x40 /* Need to fixup emitted returns. */
+/* Top bits used for counting created closures. */
+#define PROTO_CLCOUNT 0x20 /* Base of saturating 3 bit counter. */
+#define PROTO_CLC_BITS 3
+#define PROTO_CLC_POLY (3*PROTO_CLCOUNT) /* Polymorphic threshold. */
+
+#define PROTO_UV_LOCAL 0x8000 /* Upvalue for local slot. */
+#define PROTO_UV_IMMUTABLE 0x4000 /* Immutable upvalue. */
+
+#define proto_kgc(pt, idx) \
+ check_exp((uintptr_t)(intptr_t)(idx) >= (uintptr_t)-(intptr_t)(pt)->sizekgc, \
+ gcref(mref((pt)->k, GCRef)[(idx)]))
+#define proto_knumtv(pt, idx) \
+ check_exp((uintptr_t)(idx) < (pt)->sizekn, &mref((pt)->k, TValue)[(idx)])
+#define proto_bc(pt) ((BCIns *)((char *)(pt) + sizeof(GCproto)))
+#define proto_bcpos(pt, pc) ((BCPos)((pc) - proto_bc(pt)))
+#define proto_uv(pt) (mref((pt)->uv, uint16_t))
+
+#define proto_chunkname(pt) (strref((pt)->chunkname))
+#define proto_chunknamestr(pt) (strdata(proto_chunkname((pt))))
+#define proto_lineinfo(pt) (mref((pt)->lineinfo, const void))
+#define proto_uvinfo(pt) (mref((pt)->uvinfo, const uint8_t))
+#define proto_varinfo(pt) (mref((pt)->varinfo, const uint8_t))
+
+/* -- Upvalue object ------------------------------------------------------ */
+
+typedef struct GCupval {
+ GCHeader;
+ uint8_t closed; /* Set if closed (i.e. uv->v == &uv->u.value). */
+ uint8_t immutable; /* Immutable value. */
+ union {
+ TValue tv; /* If closed: the value itself. */
+ struct { /* If open: double linked list, anchored at thread. */
+ GCRef prev;
+ GCRef next;
+ };
+ };
+ MRef v; /* Points to stack slot (open) or above (closed). */
+ uint32_t dhash; /* Disambiguation hash: dh1 != dh2 => cannot alias. */
+} GCupval;
+
+#define uvprev(uv_) (&gcref((uv_)->prev)->uv)
+#define uvnext(uv_) (&gcref((uv_)->next)->uv)
+#define uvval(uv_) (mref((uv_)->v, TValue))
+
+/* -- Function object (closures) ------------------------------------------ */
+
+/* Common header for functions. env should be at same offset in GCudata. */
+#define GCfuncHeader \
+ GCHeader; uint8_t ffid; uint8_t nupvalues; \
+ GCRef env; GCRef gclist; MRef pc
+
+typedef struct GCfuncC {
+ GCfuncHeader;
+ lua_CFunction f; /* C function to be called. */
+ TValue upvalue[1]; /* Array of upvalues (TValue). */
+} GCfuncC;
+
+typedef struct GCfuncL {
+ GCfuncHeader;
+ GCRef uvptr[1]; /* Array of _pointers_ to upvalue objects (GCupval). */
+} GCfuncL;
+
+typedef union GCfunc {
+ GCfuncC c;
+ GCfuncL l;
+} GCfunc;
+
+#define FF_LUA 0
+#define FF_C 1
+#define isluafunc(fn) ((fn)->c.ffid == FF_LUA)
+#define iscfunc(fn) ((fn)->c.ffid == FF_C)
+#define isffunc(fn) ((fn)->c.ffid > FF_C)
+#define funcproto(fn) \
+ check_exp(isluafunc(fn), (GCproto *)(mref((fn)->l.pc, char)-sizeof(GCproto)))
+#define sizeCfunc(n) (sizeof(GCfuncC)-sizeof(TValue)+sizeof(TValue)*(n))
+#define sizeLfunc(n) (sizeof(GCfuncL)-sizeof(GCRef)+sizeof(GCRef)*(n))
+
+/* -- Table object -------------------------------------------------------- */
+
+/* Hash node. */
+typedef struct Node {
+ TValue val; /* Value object. Must be first field. */
+ TValue key; /* Key object. */
+ MRef next; /* Hash chain. */
+#if !LJ_GC64
+ MRef freetop; /* Top of free elements (stored in t->node[0]). */
+#endif
+} Node;
+
+LJ_STATIC_ASSERT(offsetof(Node, val) == 0);
+
+typedef struct GCtab {
+ GCHeader;
+ uint8_t nomm; /* Negative cache for fast metamethods. */
+ int8_t colo; /* Array colocation. */
+ MRef array; /* Array part. */
+ GCRef gclist;
+ GCRef metatable; /* Must be at same offset in GCudata. */
+ MRef node; /* Hash part. */
+ uint32_t asize; /* Size of array part (keys [0, asize-1]). */
+ uint32_t hmask; /* Hash part mask (size of hash part - 1). */
+#if LJ_GC64
+ MRef freetop; /* Top of free elements. */
+#endif
+} GCtab;
+
+#define sizetabcolo(n) ((n)*sizeof(TValue) + sizeof(GCtab))
+#define tabref(r) ((GCtab *)gcref((r)))
+#define noderef(r) (mref((r), Node))
+#define nextnode(n) (mref((n)->next, Node))
+#if LJ_GC64
+#define getfreetop(t, n) (noderef((t)->freetop))
+#define setfreetop(t, n, v) (setmref((t)->freetop, (v)))
+#else
+#define getfreetop(t, n) (noderef((n)->freetop))
+#define setfreetop(t, n, v) (setmref((n)->freetop, (v)))
+#endif
+
+/* -- State objects ------------------------------------------------------- */
+
+/* VM states. */
+enum {
+ LJ_VMST_INTERP, /* Interpreter. */
+ LJ_VMST_C, /* C function. */
+ LJ_VMST_GC, /* Garbage collector. */
+ LJ_VMST_EXIT, /* Trace exit handler. */
+ LJ_VMST_RECORD, /* Trace recorder. */
+ LJ_VMST_OPT, /* Optimizer. */
+ LJ_VMST_ASM, /* Assembler. */
+ LJ_VMST__MAX
+};
+
+#define setvmstate(g, st) ((g)->vmstate = ~LJ_VMST_##st)
+
+/* Metamethods. ORDER MM */
+#ifdef LJ_HASFFI
+#define MMDEF_FFI(_) _(new)
+#else
+#define MMDEF_FFI(_)
+#endif
+
+#if LJ_52 || LJ_HASFFI
+#define MMDEF_PAIRS(_) _(pairs) _(ipairs)
+#else
+#define MMDEF_PAIRS(_)
+#define MM_pairs 255
+#define MM_ipairs 255
+#endif
+
+#define MMDEF(_) \
+ _(index) _(newindex) _(gc) _(mode) _(eq) _(len) \
+ /* Only the above (fast) metamethods are negative cached (max. 8). */ \
+ _(lt) _(le) _(concat) _(call) \
+ /* The following must be in ORDER ARITH. */ \
+ _(add) _(sub) _(mul) _(div) _(mod) _(pow) _(unm) \
+ /* The following are used in the standard libraries. */ \
+ _(metatable) _(tostring) MMDEF_FFI(_) MMDEF_PAIRS(_)
+
+typedef enum {
+#define MMENUM(name) MM_##name,
+MMDEF(MMENUM)
+#undef MMENUM
+ MM__MAX,
+ MM____ = MM__MAX,
+ MM_FAST = MM_len
+} MMS;
+
+/* GC root IDs. */
+typedef enum {
+ GCROOT_MMNAME, /* Metamethod names. */
+ GCROOT_MMNAME_LAST = GCROOT_MMNAME + MM__MAX-1,
+ GCROOT_BASEMT, /* Metatables for base types. */
+ GCROOT_BASEMT_NUM = GCROOT_BASEMT + ~LJ_TNUMX,
+ GCROOT_IO_INPUT, /* Userdata for default I/O input file. */
+ GCROOT_IO_OUTPUT, /* Userdata for default I/O output file. */
+ GCROOT_MAX
+} GCRootID;
+
+#define basemt_it(g, it) ((g)->gcroot[GCROOT_BASEMT+~(it)])
+#define basemt_obj(g, o) ((g)->gcroot[GCROOT_BASEMT+itypemap(o)])
+#define mmname_str(g, mm) (strref((g)->gcroot[GCROOT_MMNAME+(mm)]))
+
+/* Garbage collector state. */
+typedef struct GCState {
+ GCSize total; /* Memory currently allocated. */
+ GCSize threshold; /* Memory threshold. */
+ uint8_t currentwhite; /* Current white color. */
+ uint8_t state; /* GC state. */
+ uint8_t nocdatafin; /* No cdata finalizer called. */
+#if LJ_64
+ uint8_t lightudnum; /* Number of lightuserdata segments - 1. */
+#else
+ uint8_t unused1;
+#endif
+ MSize sweepstr; /* Sweep position in string table. */
+ GCRef root; /* List of all collectable objects. */
+ MRef sweep; /* Sweep position in root list. */
+ GCRef gray; /* List of gray objects. */
+ GCRef grayagain; /* List of objects for atomic traversal. */
+ GCRef weak; /* List of weak tables (to be cleared). */
+ GCRef mmudata; /* List of userdata (to be finalized). */
+ GCSize debt; /* Debt (how much GC is behind schedule). */
+ GCSize estimate; /* Estimate of memory actually in use. */
+ MSize stepmul; /* Incremental GC step granularity. */
+ MSize pause; /* Pause between successive GC cycles. */
+#if LJ_64
+ MRef lightudseg; /* Upper bits of lightuserdata segments. */
+#endif
+} GCState;
+
+/* String interning state. */
+typedef struct StrInternState {
+ GCRef *tab; /* String hash table anchors. */
+ MSize mask; /* String hash mask (size of hash table - 1). */
+ MSize num; /* Number of strings in hash table. */
+ StrID id; /* Next string ID. */
+ uint8_t idreseed; /* String ID reseed counter. */
+ uint8_t second; /* String interning table uses secondary hashing. */
+ uint8_t unused1;
+ uint8_t unused2;
+ LJ_ALIGN(8) uint64_t seed; /* Random string seed. */
+} StrInternState;
+
+/* Global state, shared by all threads of a Lua universe. */
+typedef struct global_State {
+ lua_Alloc allocf; /* Memory allocator. */
+ void *allocd; /* Memory allocator data. */
+ GCState gc; /* Garbage collector. */
+ GCstr strempty; /* Empty string. */
+ uint8_t stremptyz; /* Zero terminator of empty string. */
+ uint8_t hookmask; /* Hook mask. */
+ uint8_t dispatchmode; /* Dispatch mode. */
+ uint8_t vmevmask; /* VM event mask. */
+ StrInternState str; /* String interning. */
+ volatile int32_t vmstate; /* VM state or current JIT code trace number. */
+ GCRef mainthref; /* Link to main thread. */
+ SBuf tmpbuf; /* Temporary string buffer. */
+ TValue tmptv, tmptv2; /* Temporary TValues. */
+ Node nilnode; /* Fallback 1-element hash part (nil key and value). */
+ TValue registrytv; /* Anchor for registry. */
+ GCupval uvhead; /* Head of double-linked list of all open upvalues. */
+ int32_t hookcount; /* Instruction hook countdown. */
+ int32_t hookcstart; /* Start count for instruction hook counter. */
+ lua_Hook hookf; /* Hook function. */
+ lua_CFunction wrapf; /* Wrapper for C function calls. */
+ lua_CFunction panic; /* Called as a last resort for errors. */
+ BCIns bc_cfunc_int; /* Bytecode for internal C function calls. */
+ BCIns bc_cfunc_ext; /* Bytecode for external C function calls. */
+ GCRef cur_L; /* Currently executing lua_State. */
+ MRef jit_base; /* Current JIT code L->base or NULL. */
+ MRef ctype_state; /* Pointer to C type state. */
+ PRNGState prng; /* Global PRNG state. */
+ GCRef gcroot[GCROOT_MAX]; /* GC roots. */
+} global_State;
+
+#define mainthread(g) (&gcref(g->mainthref)->th)
+#define niltv(L) \
+ check_exp(tvisnil(&G(L)->nilnode.val), &G(L)->nilnode.val)
+#define niltvg(g) \
+ check_exp(tvisnil(&(g)->nilnode.val), &(g)->nilnode.val)
+
+/* Hook management. Hook event masks are defined in lua.h. */
+#define HOOK_EVENTMASK 0x0f
+#define HOOK_ACTIVE 0x10
+#define HOOK_ACTIVE_SHIFT 4
+#define HOOK_VMEVENT 0x20
+#define HOOK_GC 0x40
+#define HOOK_PROFILE 0x80
+#define hook_active(g) ((g)->hookmask & HOOK_ACTIVE)
+#define hook_enter(g) ((g)->hookmask |= HOOK_ACTIVE)
+#define hook_entergc(g) \
+ ((g)->hookmask = ((g)->hookmask | (HOOK_ACTIVE|HOOK_GC)) & ~HOOK_PROFILE)
+#define hook_vmevent(g) ((g)->hookmask |= (HOOK_ACTIVE|HOOK_VMEVENT))
+#define hook_leave(g) ((g)->hookmask &= ~HOOK_ACTIVE)
+#define hook_save(g) ((g)->hookmask & ~HOOK_EVENTMASK)
+#define hook_restore(g, h) \
+ ((g)->hookmask = ((g)->hookmask & HOOK_EVENTMASK) | (h))
+
+/* Per-thread state object. */
+struct lua_State {
+ GCHeader;
+ uint8_t dummy_ffid; /* Fake FF_C for curr_funcisL() on dummy frames. */
+ uint8_t status; /* Thread status. */
+ MRef glref; /* Link to global state. */
+ GCRef gclist; /* GC chain. */
+ TValue *base; /* Base of currently executing function. */
+ TValue *top; /* First free slot in the stack. */
+ MRef maxstack; /* Last free slot in the stack. */
+ MRef stack; /* Stack base. */
+ GCRef openupval; /* List of open upvalues in the stack. */
+ GCRef env; /* Thread environment (table of globals). */
+ void *cframe; /* End of C stack frame chain. */
+ MSize stacksize; /* True stack size (incl. LJ_STACK_EXTRA). */
+};
+
+#define G(L) (mref(L->glref, global_State))
+#define registry(L) (&G(L)->registrytv)
+
+/* Macros to access the currently executing (Lua) function. */
+#if LJ_GC64
+#define curr_func(L) (&gcval(L->base-2)->fn)
+#elif LJ_FR2
+#define curr_func(L) (&gcref((L->base-2)->gcr)->fn)
+#else
+#define curr_func(L) (&gcref((L->base-1)->fr.func)->fn)
+#endif
+#define curr_funcisL(L) (isluafunc(curr_func(L)))
+#define curr_proto(L) (funcproto(curr_func(L)))
+#define curr_topL(L) (L->base + curr_proto(L)->framesize)
+#define curr_top(L) (curr_funcisL(L) ? curr_topL(L) : L->top)
+
+#if defined(LUA_USE_ASSERT) || defined(LUA_USE_APICHECK)
+LJ_FUNC_NORET void lj_assert_fail(global_State *g, const char *file, int line,
+ const char *func, const char *fmt, ...);
+#endif
+
+/* -- GC object definition and conversions -------------------------------- */
+
+/* GC header for generic access to common fields of GC objects. */
+typedef struct GChead {
+ GCHeader;
+ uint8_t unused1;
+ uint8_t unused2;
+ GCRef env;
+ GCRef gclist;
+ GCRef metatable;
+} GChead;
+
+/* The env field SHOULD be at the same offset for all GC objects. */
+LJ_STATIC_ASSERT(offsetof(GChead, env) == offsetof(GCfuncL, env));
+LJ_STATIC_ASSERT(offsetof(GChead, env) == offsetof(GCudata, env));
+
+/* The metatable field MUST be at the same offset for all GC objects. */
+LJ_STATIC_ASSERT(offsetof(GChead, metatable) == offsetof(GCtab, metatable));
+LJ_STATIC_ASSERT(offsetof(GChead, metatable) == offsetof(GCudata, metatable));
+
+/* The gclist field MUST be at the same offset for all GC objects. */
+LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(lua_State, gclist));
+LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCproto, gclist));
+LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCfuncL, gclist));
+LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCtab, gclist));
+
+typedef union GCobj {
+ GChead gch;
+ GCstr str;
+ GCupval uv;
+ lua_State th;
+ GCproto pt;
+ GCfunc fn;
+ GCcdata cd;
+ GCtab tab;
+ GCudata ud;
+} GCobj;
+
+/* Macros to convert a GCobj pointer into a specific value. */
+#define gco2str(o) check_exp((o)->gch.gct == ~LJ_TSTR, &(o)->str)
+#define gco2uv(o) check_exp((o)->gch.gct == ~LJ_TUPVAL, &(o)->uv)
+#define gco2th(o) check_exp((o)->gch.gct == ~LJ_TTHREAD, &(o)->th)
+#define gco2pt(o) check_exp((o)->gch.gct == ~LJ_TPROTO, &(o)->pt)
+#define gco2func(o) check_exp((o)->gch.gct == ~LJ_TFUNC, &(o)->fn)
+#define gco2cd(o) check_exp((o)->gch.gct == ~LJ_TCDATA, &(o)->cd)
+#define gco2tab(o) check_exp((o)->gch.gct == ~LJ_TTAB, &(o)->tab)
+#define gco2ud(o) check_exp((o)->gch.gct == ~LJ_TUDATA, &(o)->ud)
+
+/* Macro to convert any collectable object into a GCobj pointer. */
+#define obj2gco(v) ((GCobj *)(v))
+
+/* -- TValue getters/setters ---------------------------------------------- */
+
+/* Macros to test types. */
+#if LJ_GC64
+#define itype(o) ((uint32_t)((o)->it64 >> 47))
+#define tvisnil(o) ((o)->it64 == -1)
+#else
+#define itype(o) ((o)->it)
+#define tvisnil(o) (itype(o) == LJ_TNIL)
+#endif
+#define tvisfalse(o) (itype(o) == LJ_TFALSE)
+#define tvistrue(o) (itype(o) == LJ_TTRUE)
+#define tvisbool(o) (tvisfalse(o) || tvistrue(o))
+#if LJ_64 && !LJ_GC64
+#define tvislightud(o) (((int32_t)itype(o) >> 15) == -2)
+#else
+#define tvislightud(o) (itype(o) == LJ_TLIGHTUD)
+#endif
+#define tvisstr(o) (itype(o) == LJ_TSTR)
+#define tvisfunc(o) (itype(o) == LJ_TFUNC)
+#define tvisthread(o) (itype(o) == LJ_TTHREAD)
+#define tvisproto(o) (itype(o) == LJ_TPROTO)
+#define tviscdata(o) (itype(o) == LJ_TCDATA)
+#define tvistab(o) (itype(o) == LJ_TTAB)
+#define tvisudata(o) (itype(o) == LJ_TUDATA)
+#define tvisnumber(o) (itype(o) <= LJ_TISNUM)
+#define tvisint(o) (LJ_DUALNUM && itype(o) == LJ_TISNUM)
+#define tvisnum(o) (itype(o) < LJ_TISNUM)
+
+#define tvistruecond(o) (itype(o) < LJ_TISTRUECOND)
+#define tvispri(o) (itype(o) >= LJ_TISPRI)
+#define tvistabud(o) (itype(o) <= LJ_TISTABUD) /* && !tvisnum() */
+#define tvisgcv(o) ((itype(o) - LJ_TISGCV) > (LJ_TNUMX - LJ_TISGCV))
+
+/* Special macros to test numbers for NaN, +0, -0, +1 and raw equality. */
+#define tvisnan(o) ((o)->n != (o)->n)
+#if LJ_64
+#define tviszero(o) (((o)->u64 << 1) == 0)
+#else
+#define tviszero(o) (((o)->u32.lo | ((o)->u32.hi << 1)) == 0)
+#endif
+#define tvispzero(o) ((o)->u64 == 0)
+#define tvismzero(o) ((o)->u64 == U64x(80000000,00000000))
+#define tvispone(o) ((o)->u64 == U64x(3ff00000,00000000))
+#define rawnumequal(o1, o2) ((o1)->u64 == (o2)->u64)
+
+/* Macros to convert type ids. */
+#if LJ_64 && !LJ_GC64
+#define itypemap(o) \
+ (tvisnumber(o) ? ~LJ_TNUMX : tvislightud(o) ? ~LJ_TLIGHTUD : ~itype(o))
+#else
+#define itypemap(o) (tvisnumber(o) ? ~LJ_TNUMX : ~itype(o))
+#endif
+
+/* Macros to get tagged values. */
+#if LJ_GC64
+#define gcval(o) ((GCobj *)(gcrefu((o)->gcr) & LJ_GCVMASK))
+#else
+#define gcval(o) (gcref((o)->gcr))
+#endif
+#define boolV(o) check_exp(tvisbool(o), (LJ_TFALSE - itype(o)))
+#if LJ_64
+#define lightudseg(u) \
+ (((u) >> LJ_LIGHTUD_BITS_LO) & ((1 << LJ_LIGHTUD_BITS_SEG)-1))
+#define lightudlo(u) \
+ ((u) & (((uint64_t)1 << LJ_LIGHTUD_BITS_LO) - 1))
+#define lightudup(p) \
+ ((uint32_t)(((p) >> LJ_LIGHTUD_BITS_LO) << (LJ_LIGHTUD_BITS_LO-32)))
+static LJ_AINLINE void *lightudV(global_State *g, cTValue *o)
+{
+ uint64_t u = o->u64;
+ uint64_t seg = lightudseg(u);
+ uint32_t *segmap = mref(g->gc.lightudseg, uint32_t);
+ lj_assertG(tvislightud(o), "lightuserdata expected");
+ if (seg == (1 << LJ_LIGHTUD_BITS_SEG)-1) return NULL;
+ lj_assertG(seg <= g->gc.lightudnum, "bad lightuserdata segment %d", seg);
+ return (void *)(((uint64_t)segmap[seg] << 32) | lightudlo(u));
+}
+#else
+#define lightudV(g, o) check_exp(tvislightud(o), gcrefp((o)->gcr, void))
+#endif
+#define gcV(o) check_exp(tvisgcv(o), gcval(o))
+#define strV(o) check_exp(tvisstr(o), &gcval(o)->str)
+#define funcV(o) check_exp(tvisfunc(o), &gcval(o)->fn)
+#define threadV(o) check_exp(tvisthread(o), &gcval(o)->th)
+#define protoV(o) check_exp(tvisproto(o), &gcval(o)->pt)
+#define cdataV(o) check_exp(tviscdata(o), &gcval(o)->cd)
+#define tabV(o) check_exp(tvistab(o), &gcval(o)->tab)
+#define udataV(o) check_exp(tvisudata(o), &gcval(o)->ud)
+#define numV(o) check_exp(tvisnum(o), (o)->n)
+#define intV(o) check_exp(tvisint(o), (int32_t)(o)->i)
+
+/* Macros to set tagged values. */
+#if LJ_GC64
+#define setitype(o, i) ((o)->it = ((i) << 15))
+#define setnilV(o) ((o)->it64 = -1)
+#define setpriV(o, x) ((o)->it64 = (int64_t)~((uint64_t)~(x)<<47))
+#define setboolV(o, x) ((o)->it64 = (int64_t)~((uint64_t)((x)+1)<<47))
+#else
+#define setitype(o, i) ((o)->it = (i))
+#define setnilV(o) ((o)->it = LJ_TNIL)
+#define setboolV(o, x) ((o)->it = LJ_TFALSE-(uint32_t)(x))
+#define setpriV(o, i) (setitype((o), (i)))
+#endif
+
+static LJ_AINLINE void setrawlightudV(TValue *o, void *p)
+{
+#if LJ_GC64
+ o->u64 = (uint64_t)p | (((uint64_t)LJ_TLIGHTUD) << 47);
+#elif LJ_64
+ o->u64 = (uint64_t)p | (((uint64_t)0xffff) << 48);
+#else
+ setgcrefp(o->gcr, p); setitype(o, LJ_TLIGHTUD);
+#endif
+}
+
+#if LJ_FR2 || LJ_32
+#define contptr(f) ((void *)(f))
+#define setcont(o, f) ((o)->u64 = (uint64_t)(uintptr_t)contptr(f))
+#else
+#define contptr(f) \
+ ((void *)(uintptr_t)(uint32_t)((intptr_t)(f) - (intptr_t)lj_vm_asm_begin))
+#define setcont(o, f) \
+ ((o)->u64 = (uint64_t)(void *)(f) - (uint64_t)lj_vm_asm_begin)
+#endif
+
+static LJ_AINLINE void checklivetv(lua_State *L, TValue *o, const char *msg)
+{
+ UNUSED(L); UNUSED(o); UNUSED(msg);
+#if LUA_USE_ASSERT
+ if (tvisgcv(o)) {
+ lj_assertL(~itype(o) == gcval(o)->gch.gct,
+ "mismatch of TValue type %d vs GC type %d",
+ ~itype(o), gcval(o)->gch.gct);
+ /* Copy of isdead check from lj_gc.h to avoid circular include. */
+ lj_assertL(!(gcval(o)->gch.marked & (G(L)->gc.currentwhite ^ 3) & 3), msg);
+ }
+#endif
+}
+
+static LJ_AINLINE void setgcVraw(TValue *o, GCobj *v, uint32_t itype)
+{
+#if LJ_GC64
+ setgcreft(o->gcr, v, itype);
+#else
+ setgcref(o->gcr, v); setitype(o, itype);
+#endif
+}
+
+static LJ_AINLINE void setgcV(lua_State *L, TValue *o, GCobj *v, uint32_t it)
+{
+ setgcVraw(o, v, it);
+ checklivetv(L, o, "store to dead GC object");
+}
+
+#define define_setV(name, type, tag) \
+static LJ_AINLINE void name(lua_State *L, TValue *o, const type *v) \
+{ \
+ setgcV(L, o, obj2gco(v), tag); \
+}
+define_setV(setstrV, GCstr, LJ_TSTR)
+define_setV(setthreadV, lua_State, LJ_TTHREAD)
+define_setV(setprotoV, GCproto, LJ_TPROTO)
+define_setV(setfuncV, GCfunc, LJ_TFUNC)
+define_setV(setcdataV, GCcdata, LJ_TCDATA)
+define_setV(settabV, GCtab, LJ_TTAB)
+define_setV(setudataV, GCudata, LJ_TUDATA)
+
+#define setnumV(o, x) ((o)->n = (x))
+#define setnanV(o) ((o)->u64 = U64x(fff80000,00000000))
+#define setpinfV(o) ((o)->u64 = U64x(7ff00000,00000000))
+#define setminfV(o) ((o)->u64 = U64x(fff00000,00000000))
+
+static LJ_AINLINE void setintV(TValue *o, int32_t i)
+{
+#if LJ_DUALNUM
+ o->i = (uint32_t)i; setitype(o, LJ_TISNUM);
+#else
+ o->n = (lua_Number)i;
+#endif
+}
+
+static LJ_AINLINE void setint64V(TValue *o, int64_t i)
+{
+ if (LJ_DUALNUM && LJ_LIKELY(i == (int64_t)(int32_t)i))
+ setintV(o, (int32_t)i);
+ else
+ setnumV(o, (lua_Number)i);
+}
+
+#if LJ_64
+#define setintptrV(o, i) setint64V((o), (i))
+#else
+#define setintptrV(o, i) setintV((o), (i))
+#endif
+
+/* Copy tagged values. */
+static LJ_AINLINE void copyTV(lua_State *L, TValue *o1, const TValue *o2)
+{
+ *o1 = *o2;
+ checklivetv(L, o1, "copy of dead GC object");
+}
+
+/* -- Number to integer conversion ---------------------------------------- */
+
+#if LJ_SOFTFP
+LJ_ASMF int32_t lj_vm_tobit(double x);
+#if LJ_TARGET_MIPS64
+LJ_ASMF int32_t lj_vm_tointg(double x);
+#endif
+#endif
+
+static LJ_AINLINE int32_t lj_num2bit(lua_Number n)
+{
+#if LJ_SOFTFP
+ return lj_vm_tobit(n);
+#else
+ TValue o;
+ o.n = n + 6755399441055744.0; /* 2^52 + 2^51 */
+ return (int32_t)o.u32.lo;
+#endif
+}
+
+#define lj_num2int(n) ((int32_t)(n))
+
+/*
+** This must match the JIT backend behavior. In particular for archs
+** that don't have a common hardware instruction for this conversion.
+** Note that signed FP to unsigned int conversions have an undefined
+** result and should never be relied upon in portable FFI code.
+** See also: C99 or C11 standard, 6.3.1.4, footnote of (1).
+*/
+static LJ_AINLINE uint64_t lj_num2u64(lua_Number n)
+{
+#if LJ_TARGET_X86ORX64 || LJ_TARGET_MIPS
+ int64_t i = (int64_t)n;
+ if (i < 0) i = (int64_t)(n - 18446744073709551616.0);
+ return (uint64_t)i;
+#else
+ return (uint64_t)n;
+#endif
+}
+
+static LJ_AINLINE int32_t numberVint(cTValue *o)
+{
+ if (LJ_LIKELY(tvisint(o)))
+ return intV(o);
+ else
+ return lj_num2int(numV(o));
+}
+
+static LJ_AINLINE lua_Number numberVnum(cTValue *o)
+{
+ if (LJ_UNLIKELY(tvisint(o)))
+ return (lua_Number)intV(o);
+ else
+ return numV(o);
+}
+
+/* -- Miscellaneous object handling --------------------------------------- */
+
+/* Names and maps for internal and external object tags. */
+LJ_DATA const char *const lj_obj_typename[1+LUA_TCDATA+1];
+LJ_DATA const char *const lj_obj_itypename[~LJ_TNUMX+1];
+
+#define lj_typename(o) (lj_obj_itypename[itypemap(o)])
+
+/* Compare two objects without calling metamethods. */
+LJ_FUNC int LJ_FASTCALL lj_obj_equal(cTValue *o1, cTValue *o2);
+LJ_FUNC const void * LJ_FASTCALL lj_obj_ptr(global_State *g, cTValue *o);
+
+#endif