mirror of
https://github.com/lua/lua
synced 2024-12-29 13:49:44 +03:00
9514abc2da
Use a variable-sized array to store string contents at the end of a structure 'TString', instead of raw memory.
788 lines
21 KiB
C
788 lines
21 KiB
C
/*
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** $Id: lobject.h $
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** Type definitions for Lua objects
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** See Copyright Notice in lua.h
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*/
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#ifndef lobject_h
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#define lobject_h
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#include <stdarg.h>
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#include "llimits.h"
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#include "lua.h"
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/*
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** Extra types for collectable non-values
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*/
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#define LUA_TUPVAL LUA_NUMTYPES /* upvalues */
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#define LUA_TPROTO (LUA_NUMTYPES+1) /* function prototypes */
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/*
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** number of all possible types (including LUA_TNONE)
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*/
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#define LUA_TOTALTYPES (LUA_TPROTO + 2)
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/*
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** tags for Tagged Values have the following use of bits:
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** bits 0-3: actual tag (a LUA_T* constant)
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** bits 4-5: variant bits
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** bit 6: whether value is collectable
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*/
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/* add variant bits to a type */
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#define makevariant(t,v) ((t) | ((v) << 4))
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/*
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** Union of all Lua values
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*/
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typedef union Value {
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struct GCObject *gc; /* collectable objects */
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void *p; /* light userdata */
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lua_CFunction f; /* light C functions */
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lua_Integer i; /* integer numbers */
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lua_Number n; /* float numbers */
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} Value;
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/*
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** Tagged Values. This is the basic representation of values in Lua:
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** an actual value plus a tag with its type.
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*/
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#define TValuefields Value value_; lu_byte tt_
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typedef struct TValue {
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TValuefields;
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} TValue;
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#define val_(o) ((o)->value_)
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#define valraw(o) (&val_(o))
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/* raw type tag of a TValue */
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#define rawtt(o) ((o)->tt_)
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/* tag with no variants (bits 0-3) */
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#define novariant(t) ((t) & 0x0F)
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/* type tag of a TValue (bits 0-3 for tags + variant bits 4-5) */
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#define withvariant(t) ((t) & 0x3F)
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#define ttypetag(o) withvariant(rawtt(o))
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/* type of a TValue */
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#define ttype(o) (novariant(rawtt(o)))
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/* Macros to test type */
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#define checktag(o,t) (rawtt(o) == (t))
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#define checktype(o,t) (ttype(o) == (t))
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/* Macros for internal tests */
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/* collectable object has the same tag as the original value */
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#define righttt(obj) (ttypetag(obj) == gcvalue(obj)->tt)
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/*
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** Any value being manipulated by the program either is non
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** collectable, or the collectable object has the right tag
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** and it is not dead.
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*/
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#define checkliveness(L,obj) \
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((void)L, lua_longassert(!iscollectable(obj) || \
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(righttt(obj) && (L == NULL || !isdead(G(L),gcvalue(obj))))))
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/* Macros to set values */
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/* set a value's tag */
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#define settt_(o,t) ((o)->tt_=(t))
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/* main macro to copy values (from 'obj1' to 'obj2') */
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#define setobj(L,obj1,obj2) \
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{ TValue *io1=(obj1); const TValue *io2=(obj2); \
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io1->value_ = io2->value_; settt_(io1, io2->tt_); \
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checkliveness(L,io1); lua_assert(!isnonstrictnil(io1)); }
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/*
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** Different types of assignments, according to source and destination.
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** (They are mostly equal now, but may be different in the future.)
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*/
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/* from stack to stack */
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#define setobjs2s(L,o1,o2) setobj(L,s2v(o1),s2v(o2))
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/* to stack (not from same stack) */
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#define setobj2s(L,o1,o2) setobj(L,s2v(o1),o2)
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/* from table to same table */
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#define setobjt2t setobj
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/* to new object */
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#define setobj2n setobj
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/* to table */
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#define setobj2t setobj
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/*
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** Entries in the Lua stack
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*/
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typedef union StackValue {
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TValue val;
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} StackValue;
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/* index to stack elements */
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typedef StackValue *StkId;
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/* convert a 'StackValue' to a 'TValue' */
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#define s2v(o) (&(o)->val)
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/*
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** {==================================================================
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** Nil
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** ===================================================================
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*/
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/* Standard nil */
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#define LUA_VNIL makevariant(LUA_TNIL, 0)
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/* Empty slot (which might be different from a slot containing nil) */
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#define LUA_VEMPTY makevariant(LUA_TNIL, 1)
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/* Value returned for a key not found in a table (absent key) */
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#define LUA_VABSTKEY makevariant(LUA_TNIL, 2)
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/* macro to test for (any kind of) nil */
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#define ttisnil(v) checktype((v), LUA_TNIL)
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/* macro to test for a standard nil */
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#define ttisstrictnil(o) checktag((o), LUA_VNIL)
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#define setnilvalue(obj) settt_(obj, LUA_VNIL)
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#define isabstkey(v) checktag((v), LUA_VABSTKEY)
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/*
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** macro to detect non-standard nils (used only in assertions)
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*/
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#define isnonstrictnil(v) (ttisnil(v) && !ttisstrictnil(v))
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/*
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** By default, entries with any kind of nil are considered empty.
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** (In any definition, values associated with absent keys must also
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** be accepted as empty.)
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*/
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#define isempty(v) ttisnil(v)
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/* macro defining a value corresponding to an absent key */
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#define ABSTKEYCONSTANT {NULL}, LUA_VABSTKEY
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/* mark an entry as empty */
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#define setempty(v) settt_(v, LUA_VEMPTY)
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/* }================================================================== */
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/*
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** {==================================================================
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** Booleans
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** ===================================================================
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*/
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#define LUA_VFALSE makevariant(LUA_TBOOLEAN, 0)
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#define LUA_VTRUE makevariant(LUA_TBOOLEAN, 1)
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#define ttisboolean(o) checktype((o), LUA_TBOOLEAN)
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#define ttisfalse(o) checktag((o), LUA_VFALSE)
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#define ttistrue(o) checktag((o), LUA_VTRUE)
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#define l_isfalse(o) (ttisfalse(o) || ttisnil(o))
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#define setbfvalue(obj) settt_(obj, LUA_VFALSE)
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#define setbtvalue(obj) settt_(obj, LUA_VTRUE)
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/* }================================================================== */
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/*
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** {==================================================================
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** Threads
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** ===================================================================
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*/
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#define LUA_VTHREAD makevariant(LUA_TTHREAD, 0)
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#define ttisthread(o) checktag((o), ctb(LUA_VTHREAD))
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#define thvalue(o) check_exp(ttisthread(o), gco2th(val_(o).gc))
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#define setthvalue(L,obj,x) \
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{ TValue *io = (obj); lua_State *x_ = (x); \
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val_(io).gc = obj2gco(x_); settt_(io, ctb(LUA_VTHREAD)); \
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checkliveness(L,io); }
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#define setthvalue2s(L,o,t) setthvalue(L,s2v(o),t)
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/* }================================================================== */
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/*
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** {==================================================================
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** Collectable Objects
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** ===================================================================
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*/
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/*
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** Common Header for all collectable objects (in macro form, to be
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** included in other objects)
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*/
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#define CommonHeader struct GCObject *next; lu_byte tt; lu_byte marked
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/* Common type for all collectable objects */
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typedef struct GCObject {
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CommonHeader;
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} GCObject;
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/* Bit mark for collectable types */
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#define BIT_ISCOLLECTABLE (1 << 6)
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#define iscollectable(o) (rawtt(o) & BIT_ISCOLLECTABLE)
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/* mark a tag as collectable */
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#define ctb(t) ((t) | BIT_ISCOLLECTABLE)
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#define gcvalue(o) check_exp(iscollectable(o), val_(o).gc)
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#define gcvalueraw(v) ((v).gc)
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#define setgcovalue(L,obj,x) \
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{ TValue *io = (obj); GCObject *i_g=(x); \
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val_(io).gc = i_g; settt_(io, ctb(i_g->tt)); }
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/* }================================================================== */
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/*
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** {==================================================================
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** Numbers
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** ===================================================================
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*/
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/* Variant tags for numbers */
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#define LUA_VNUMINT makevariant(LUA_TNUMBER, 0) /* integer numbers */
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#define LUA_VNUMFLT makevariant(LUA_TNUMBER, 1) /* float numbers */
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#define ttisnumber(o) checktype((o), LUA_TNUMBER)
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#define ttisfloat(o) checktag((o), LUA_VNUMFLT)
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#define ttisinteger(o) checktag((o), LUA_VNUMINT)
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#define nvalue(o) check_exp(ttisnumber(o), \
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(ttisinteger(o) ? cast_num(ivalue(o)) : fltvalue(o)))
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#define fltvalue(o) check_exp(ttisfloat(o), val_(o).n)
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#define ivalue(o) check_exp(ttisinteger(o), val_(o).i)
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#define fltvalueraw(v) ((v).n)
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#define ivalueraw(v) ((v).i)
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#define setfltvalue(obj,x) \
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{ TValue *io=(obj); val_(io).n=(x); settt_(io, LUA_VNUMFLT); }
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#define chgfltvalue(obj,x) \
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{ TValue *io=(obj); lua_assert(ttisfloat(io)); val_(io).n=(x); }
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#define setivalue(obj,x) \
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{ TValue *io=(obj); val_(io).i=(x); settt_(io, LUA_VNUMINT); }
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#define chgivalue(obj,x) \
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{ TValue *io=(obj); lua_assert(ttisinteger(io)); val_(io).i=(x); }
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/* }================================================================== */
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/*
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** {==================================================================
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** Strings
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** ===================================================================
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*/
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/* Variant tags for strings */
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#define LUA_VSHRSTR makevariant(LUA_TSTRING, 0) /* short strings */
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#define LUA_VLNGSTR makevariant(LUA_TSTRING, 1) /* long strings */
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#define ttisstring(o) checktype((o), LUA_TSTRING)
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#define ttisshrstring(o) checktag((o), ctb(LUA_VSHRSTR))
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#define ttislngstring(o) checktag((o), ctb(LUA_VLNGSTR))
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#define tsvalueraw(v) (gco2ts((v).gc))
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#define tsvalue(o) check_exp(ttisstring(o), gco2ts(val_(o).gc))
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#define setsvalue(L,obj,x) \
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{ TValue *io = (obj); TString *x_ = (x); \
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val_(io).gc = obj2gco(x_); settt_(io, ctb(x_->tt)); \
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checkliveness(L,io); }
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/* set a string to the stack */
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#define setsvalue2s(L,o,s) setsvalue(L,s2v(o),s)
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/* set a string to a new object */
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#define setsvalue2n setsvalue
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/*
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** Header for a string value.
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*/
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typedef struct TString {
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CommonHeader;
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lu_byte extra; /* reserved words for short strings; "has hash" for longs */
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lu_byte shrlen; /* length for short strings */
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unsigned int hash;
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union {
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size_t lnglen; /* length for long strings */
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struct TString *hnext; /* linked list for hash table */
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} u;
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char contents[1];
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} TString;
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/*
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** Get the actual string (array of bytes) from a 'TString'.
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*/
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#define getstr(ts) ((ts)->contents)
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/* get the actual string (array of bytes) from a Lua value */
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#define svalue(o) getstr(tsvalue(o))
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/* get string length from 'TString *s' */
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#define tsslen(s) ((s)->tt == LUA_VSHRSTR ? (s)->shrlen : (s)->u.lnglen)
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/* get string length from 'TValue *o' */
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#define vslen(o) tsslen(tsvalue(o))
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/* }================================================================== */
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/*
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** {==================================================================
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** Userdata
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** ===================================================================
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*/
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/*
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** Light userdata should be a variant of userdata, but for compatibility
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** reasons they are also different types.
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*/
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#define LUA_VLIGHTUSERDATA makevariant(LUA_TLIGHTUSERDATA, 0)
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#define LUA_VUSERDATA makevariant(LUA_TUSERDATA, 0)
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#define ttislightuserdata(o) checktag((o), LUA_VLIGHTUSERDATA)
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#define ttisfulluserdata(o) checktag((o), ctb(LUA_VUSERDATA))
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#define pvalue(o) check_exp(ttislightuserdata(o), val_(o).p)
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#define uvalue(o) check_exp(ttisfulluserdata(o), gco2u(val_(o).gc))
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#define pvalueraw(v) ((v).p)
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#define setpvalue(obj,x) \
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{ TValue *io=(obj); val_(io).p=(x); settt_(io, LUA_VLIGHTUSERDATA); }
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#define setuvalue(L,obj,x) \
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{ TValue *io = (obj); Udata *x_ = (x); \
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val_(io).gc = obj2gco(x_); settt_(io, ctb(LUA_VUSERDATA)); \
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checkliveness(L,io); }
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/* Ensures that addresses after this type are always fully aligned. */
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typedef union UValue {
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TValue uv;
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LUAI_MAXALIGN; /* ensures maximum alignment for udata bytes */
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} UValue;
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/*
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** Header for userdata with user values;
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** memory area follows the end of this structure.
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*/
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typedef struct Udata {
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CommonHeader;
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unsigned short nuvalue; /* number of user values */
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size_t len; /* number of bytes */
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struct Table *metatable;
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GCObject *gclist;
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UValue uv[1]; /* user values */
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} Udata;
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/*
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** Header for userdata with no user values. These userdata do not need
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** to be gray during GC, and therefore do not need a 'gclist' field.
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** To simplify, the code always use 'Udata' for both kinds of userdata,
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** making sure it never accesses 'gclist' on userdata with no user values.
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** This structure here is used only to compute the correct size for
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** this representation. (The 'bindata' field in its end ensures correct
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** alignment for binary data following this header.)
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*/
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typedef struct Udata0 {
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CommonHeader;
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unsigned short nuvalue; /* number of user values */
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size_t len; /* number of bytes */
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struct Table *metatable;
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union {LUAI_MAXALIGN;} bindata;
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} Udata0;
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/* compute the offset of the memory area of a userdata */
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#define udatamemoffset(nuv) \
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((nuv) == 0 ? offsetof(Udata0, bindata) \
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: offsetof(Udata, uv) + (sizeof(UValue) * (nuv)))
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/* get the address of the memory block inside 'Udata' */
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#define getudatamem(u) (cast_charp(u) + udatamemoffset((u)->nuvalue))
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/* compute the size of a userdata */
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#define sizeudata(nuv,nb) (udatamemoffset(nuv) + (nb))
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/* }================================================================== */
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/*
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** {==================================================================
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** Prototypes
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** ===================================================================
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*/
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#define LUA_VPROTO makevariant(LUA_TPROTO, 0)
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/*
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** Description of an upvalue for function prototypes
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*/
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typedef struct Upvaldesc {
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TString *name; /* upvalue name (for debug information) */
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lu_byte instack; /* whether it is in stack (register) */
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lu_byte idx; /* index of upvalue (in stack or in outer function's list) */
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lu_byte kind; /* kind of corresponding variable */
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} Upvaldesc;
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/*
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** Description of a local variable for function prototypes
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** (used for debug information)
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*/
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typedef struct LocVar {
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TString *varname;
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int startpc; /* first point where variable is active */
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int endpc; /* first point where variable is dead */
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} LocVar;
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/*
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** Associates the absolute line source for a given instruction ('pc').
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** The array 'lineinfo' gives, for each instruction, the difference in
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** lines from the previous instruction. When that difference does not
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** fit into a byte, Lua saves the absolute line for that instruction.
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** (Lua also saves the absolute line periodically, to speed up the
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** computation of a line number: we can use binary search in the
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** absolute-line array, but we must traverse the 'lineinfo' array
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** linearly to compute a line.)
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*/
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typedef struct AbsLineInfo {
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int pc;
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int line;
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} AbsLineInfo;
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/*
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** Function Prototypes
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*/
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typedef struct Proto {
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CommonHeader;
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lu_byte numparams; /* number of fixed (named) parameters */
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lu_byte is_vararg;
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lu_byte maxstacksize; /* number of registers needed by this function */
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int sizeupvalues; /* size of 'upvalues' */
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int sizek; /* size of 'k' */
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int sizecode;
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int sizelineinfo;
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int sizep; /* size of 'p' */
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int sizelocvars;
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int sizeabslineinfo; /* size of 'abslineinfo' */
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int linedefined; /* debug information */
|
|
int lastlinedefined; /* debug information */
|
|
TValue *k; /* constants used by the function */
|
|
Instruction *code; /* opcodes */
|
|
struct Proto **p; /* functions defined inside the function */
|
|
Upvaldesc *upvalues; /* upvalue information */
|
|
ls_byte *lineinfo; /* information about source lines (debug information) */
|
|
AbsLineInfo *abslineinfo; /* idem */
|
|
LocVar *locvars; /* information about local variables (debug information) */
|
|
TString *source; /* used for debug information */
|
|
GCObject *gclist;
|
|
} Proto;
|
|
|
|
/* }================================================================== */
|
|
|
|
|
|
/*
|
|
** {==================================================================
|
|
** Closures
|
|
** ===================================================================
|
|
*/
|
|
|
|
#define LUA_VUPVAL makevariant(LUA_TUPVAL, 0)
|
|
|
|
|
|
/* Variant tags for functions */
|
|
#define LUA_VLCL makevariant(LUA_TFUNCTION, 0) /* Lua closure */
|
|
#define LUA_VLCF makevariant(LUA_TFUNCTION, 1) /* light C function */
|
|
#define LUA_VCCL makevariant(LUA_TFUNCTION, 2) /* C closure */
|
|
|
|
#define ttisfunction(o) checktype(o, LUA_TFUNCTION)
|
|
#define ttisclosure(o) ((rawtt(o) & 0x1F) == LUA_VLCL)
|
|
#define ttisLclosure(o) checktag((o), ctb(LUA_VLCL))
|
|
#define ttislcf(o) checktag((o), LUA_VLCF)
|
|
#define ttisCclosure(o) checktag((o), ctb(LUA_VCCL))
|
|
|
|
#define isLfunction(o) ttisLclosure(o)
|
|
|
|
#define clvalue(o) check_exp(ttisclosure(o), gco2cl(val_(o).gc))
|
|
#define clLvalue(o) check_exp(ttisLclosure(o), gco2lcl(val_(o).gc))
|
|
#define fvalue(o) check_exp(ttislcf(o), val_(o).f)
|
|
#define clCvalue(o) check_exp(ttisCclosure(o), gco2ccl(val_(o).gc))
|
|
|
|
#define fvalueraw(v) ((v).f)
|
|
|
|
#define setclLvalue(L,obj,x) \
|
|
{ TValue *io = (obj); LClosure *x_ = (x); \
|
|
val_(io).gc = obj2gco(x_); settt_(io, ctb(LUA_VLCL)); \
|
|
checkliveness(L,io); }
|
|
|
|
#define setclLvalue2s(L,o,cl) setclLvalue(L,s2v(o),cl)
|
|
|
|
#define setfvalue(obj,x) \
|
|
{ TValue *io=(obj); val_(io).f=(x); settt_(io, LUA_VLCF); }
|
|
|
|
#define setclCvalue(L,obj,x) \
|
|
{ TValue *io = (obj); CClosure *x_ = (x); \
|
|
val_(io).gc = obj2gco(x_); settt_(io, ctb(LUA_VCCL)); \
|
|
checkliveness(L,io); }
|
|
|
|
|
|
/*
|
|
** Upvalues for Lua closures
|
|
*/
|
|
typedef struct UpVal {
|
|
CommonHeader;
|
|
lu_byte tbc; /* true if it represents a to-be-closed variable */
|
|
TValue *v; /* points to stack or to its own value */
|
|
union {
|
|
struct { /* (when open) */
|
|
struct UpVal *next; /* linked list */
|
|
struct UpVal **previous;
|
|
} open;
|
|
TValue value; /* the value (when closed) */
|
|
} u;
|
|
} UpVal;
|
|
|
|
|
|
|
|
#define ClosureHeader \
|
|
CommonHeader; lu_byte nupvalues; GCObject *gclist
|
|
|
|
typedef struct CClosure {
|
|
ClosureHeader;
|
|
lua_CFunction f;
|
|
TValue upvalue[1]; /* list of upvalues */
|
|
} CClosure;
|
|
|
|
|
|
typedef struct LClosure {
|
|
ClosureHeader;
|
|
struct Proto *p;
|
|
UpVal *upvals[1]; /* list of upvalues */
|
|
} LClosure;
|
|
|
|
|
|
typedef union Closure {
|
|
CClosure c;
|
|
LClosure l;
|
|
} Closure;
|
|
|
|
|
|
#define getproto(o) (clLvalue(o)->p)
|
|
|
|
/* }================================================================== */
|
|
|
|
|
|
/*
|
|
** {==================================================================
|
|
** Tables
|
|
** ===================================================================
|
|
*/
|
|
|
|
#define LUA_VTABLE makevariant(LUA_TTABLE, 0)
|
|
|
|
#define ttistable(o) checktag((o), ctb(LUA_VTABLE))
|
|
|
|
#define hvalue(o) check_exp(ttistable(o), gco2t(val_(o).gc))
|
|
|
|
#define sethvalue(L,obj,x) \
|
|
{ TValue *io = (obj); Table *x_ = (x); \
|
|
val_(io).gc = obj2gco(x_); settt_(io, ctb(LUA_VTABLE)); \
|
|
checkliveness(L,io); }
|
|
|
|
#define sethvalue2s(L,o,h) sethvalue(L,s2v(o),h)
|
|
|
|
|
|
/*
|
|
** Nodes for Hash tables: A pack of two TValue's (key-value pairs)
|
|
** plus a 'next' field to link colliding entries. The distribution
|
|
** of the key's fields ('key_tt' and 'key_val') not forming a proper
|
|
** 'TValue' allows for a smaller size for 'Node' both in 4-byte
|
|
** and 8-byte alignments.
|
|
*/
|
|
typedef union Node {
|
|
struct NodeKey {
|
|
TValuefields; /* fields for value */
|
|
lu_byte key_tt; /* key type */
|
|
int next; /* for chaining */
|
|
Value key_val; /* key value */
|
|
} u;
|
|
TValue i_val; /* direct access to node's value as a proper 'TValue' */
|
|
} Node;
|
|
|
|
|
|
/* copy a value into a key */
|
|
#define setnodekey(L,node,obj) \
|
|
{ Node *n_=(node); const TValue *io_=(obj); \
|
|
n_->u.key_val = io_->value_; n_->u.key_tt = io_->tt_; \
|
|
checkliveness(L,io_); }
|
|
|
|
|
|
/* copy a value from a key */
|
|
#define getnodekey(L,obj,node) \
|
|
{ TValue *io_=(obj); const Node *n_=(node); \
|
|
io_->value_ = n_->u.key_val; io_->tt_ = n_->u.key_tt; \
|
|
checkliveness(L,io_); }
|
|
|
|
|
|
/*
|
|
** About 'alimit': if 'isrealasize(t)' is true, then 'alimit' is the
|
|
** real size of 'array'. Otherwise, the real size of 'array' is the
|
|
** smallest power of two not smaller than 'alimit' (or zero iff 'alimit'
|
|
** is zero); 'alimit' is then used as a hint for #t.
|
|
*/
|
|
|
|
#define BITRAS (1 << 7)
|
|
#define isrealasize(t) (!((t)->marked & BITRAS))
|
|
#define setrealasize(t) ((t)->marked &= cast_byte(~BITRAS))
|
|
#define setnorealasize(t) ((t)->marked |= BITRAS)
|
|
|
|
|
|
typedef struct Table {
|
|
CommonHeader;
|
|
lu_byte flags; /* 1<<p means tagmethod(p) is not present */
|
|
lu_byte lsizenode; /* log2 of size of 'node' array */
|
|
unsigned int alimit; /* "limit" of 'array' array */
|
|
TValue *array; /* array part */
|
|
Node *node;
|
|
Node *lastfree; /* any free position is before this position */
|
|
struct Table *metatable;
|
|
GCObject *gclist;
|
|
} Table;
|
|
|
|
|
|
/*
|
|
** Macros to manipulate keys inserted in nodes
|
|
*/
|
|
#define keytt(node) ((node)->u.key_tt)
|
|
#define keyval(node) ((node)->u.key_val)
|
|
|
|
#define keyisnil(node) (keytt(node) == LUA_TNIL)
|
|
#define keyisinteger(node) (keytt(node) == LUA_VNUMINT)
|
|
#define keyival(node) (keyval(node).i)
|
|
#define keyisshrstr(node) (keytt(node) == ctb(LUA_VSHRSTR))
|
|
#define keystrval(node) (gco2ts(keyval(node).gc))
|
|
|
|
#define setnilkey(node) (keytt(node) = LUA_TNIL)
|
|
|
|
#define keyiscollectable(n) (keytt(n) & BIT_ISCOLLECTABLE)
|
|
|
|
#define gckey(n) (keyval(n).gc)
|
|
#define gckeyN(n) (keyiscollectable(n) ? gckey(n) : NULL)
|
|
|
|
|
|
/*
|
|
** Use a "nil table" to mark dead keys in a table. Those keys serve
|
|
** to keep space for removed entries, which may still be part of
|
|
** chains. Note that the 'keytt' does not have the BIT_ISCOLLECTABLE
|
|
** set, so these values are considered not collectable and are different
|
|
** from any valid value.
|
|
*/
|
|
#define setdeadkey(n) (keytt(n) = LUA_TTABLE, gckey(n) = NULL)
|
|
|
|
/* }================================================================== */
|
|
|
|
|
|
|
|
/*
|
|
** 'module' operation for hashing (size is always a power of 2)
|
|
*/
|
|
#define lmod(s,size) \
|
|
(check_exp((size&(size-1))==0, (cast_int((s) & ((size)-1)))))
|
|
|
|
|
|
#define twoto(x) (1<<(x))
|
|
#define sizenode(t) (twoto((t)->lsizenode))
|
|
|
|
|
|
/* size of buffer for 'luaO_utf8esc' function */
|
|
#define UTF8BUFFSZ 8
|
|
|
|
LUAI_FUNC int luaO_utf8esc (char *buff, unsigned long x);
|
|
LUAI_FUNC int luaO_ceillog2 (unsigned int x);
|
|
LUAI_FUNC int luaO_rawarith (lua_State *L, int op, const TValue *p1,
|
|
const TValue *p2, TValue *res);
|
|
LUAI_FUNC void luaO_arith (lua_State *L, int op, const TValue *p1,
|
|
const TValue *p2, StkId res);
|
|
LUAI_FUNC size_t luaO_str2num (const char *s, TValue *o);
|
|
LUAI_FUNC int luaO_hexavalue (int c);
|
|
LUAI_FUNC void luaO_tostring (lua_State *L, TValue *obj);
|
|
LUAI_FUNC const char *luaO_pushvfstring (lua_State *L, const char *fmt,
|
|
va_list argp);
|
|
LUAI_FUNC const char *luaO_pushfstring (lua_State *L, const char *fmt, ...);
|
|
LUAI_FUNC void luaO_chunkid (char *out, const char *source, size_t srclen);
|
|
|
|
|
|
#endif
|
|
|