1*8e3e3a7aSWarner Losh /* 2*8e3e3a7aSWarner Losh ** $Id: ltable.c,v 2.118 2016/11/07 12:38:35 roberto Exp $ 3*8e3e3a7aSWarner Losh ** Lua tables (hash) 4*8e3e3a7aSWarner Losh ** See Copyright Notice in lua.h 5*8e3e3a7aSWarner Losh */ 6*8e3e3a7aSWarner Losh 7*8e3e3a7aSWarner Losh #define ltable_c 8*8e3e3a7aSWarner Losh #define LUA_CORE 9*8e3e3a7aSWarner Losh 10*8e3e3a7aSWarner Losh #include "lprefix.h" 11*8e3e3a7aSWarner Losh 12*8e3e3a7aSWarner Losh 13*8e3e3a7aSWarner Losh /* 14*8e3e3a7aSWarner Losh ** Implementation of tables (aka arrays, objects, or hash tables). 15*8e3e3a7aSWarner Losh ** Tables keep its elements in two parts: an array part and a hash part. 16*8e3e3a7aSWarner Losh ** Non-negative integer keys are all candidates to be kept in the array 17*8e3e3a7aSWarner Losh ** part. The actual size of the array is the largest 'n' such that 18*8e3e3a7aSWarner Losh ** more than half the slots between 1 and n are in use. 19*8e3e3a7aSWarner Losh ** Hash uses a mix of chained scatter table with Brent's variation. 20*8e3e3a7aSWarner Losh ** A main invariant of these tables is that, if an element is not 21*8e3e3a7aSWarner Losh ** in its main position (i.e. the 'original' position that its hash gives 22*8e3e3a7aSWarner Losh ** to it), then the colliding element is in its own main position. 23*8e3e3a7aSWarner Losh ** Hence even when the load factor reaches 100%, performance remains good. 24*8e3e3a7aSWarner Losh */ 25*8e3e3a7aSWarner Losh 26*8e3e3a7aSWarner Losh #include <math.h> 27*8e3e3a7aSWarner Losh #include <limits.h> 28*8e3e3a7aSWarner Losh 29*8e3e3a7aSWarner Losh #include "lua.h" 30*8e3e3a7aSWarner Losh 31*8e3e3a7aSWarner Losh #include "ldebug.h" 32*8e3e3a7aSWarner Losh #include "ldo.h" 33*8e3e3a7aSWarner Losh #include "lgc.h" 34*8e3e3a7aSWarner Losh #include "lmem.h" 35*8e3e3a7aSWarner Losh #include "lobject.h" 36*8e3e3a7aSWarner Losh #include "lstate.h" 37*8e3e3a7aSWarner Losh #include "lstring.h" 38*8e3e3a7aSWarner Losh #include "ltable.h" 39*8e3e3a7aSWarner Losh #include "lvm.h" 40*8e3e3a7aSWarner Losh 41*8e3e3a7aSWarner Losh 42*8e3e3a7aSWarner Losh /* 43*8e3e3a7aSWarner Losh ** Maximum size of array part (MAXASIZE) is 2^MAXABITS. MAXABITS is 44*8e3e3a7aSWarner Losh ** the largest integer such that MAXASIZE fits in an unsigned int. 45*8e3e3a7aSWarner Losh */ 46*8e3e3a7aSWarner Losh #define MAXABITS cast_int(sizeof(int) * CHAR_BIT - 1) 47*8e3e3a7aSWarner Losh #define MAXASIZE (1u << MAXABITS) 48*8e3e3a7aSWarner Losh 49*8e3e3a7aSWarner Losh /* 50*8e3e3a7aSWarner Losh ** Maximum size of hash part is 2^MAXHBITS. MAXHBITS is the largest 51*8e3e3a7aSWarner Losh ** integer such that 2^MAXHBITS fits in a signed int. (Note that the 52*8e3e3a7aSWarner Losh ** maximum number of elements in a table, 2^MAXABITS + 2^MAXHBITS, still 53*8e3e3a7aSWarner Losh ** fits comfortably in an unsigned int.) 54*8e3e3a7aSWarner Losh */ 55*8e3e3a7aSWarner Losh #define MAXHBITS (MAXABITS - 1) 56*8e3e3a7aSWarner Losh 57*8e3e3a7aSWarner Losh 58*8e3e3a7aSWarner Losh #define hashpow2(t,n) (gnode(t, lmod((n), sizenode(t)))) 59*8e3e3a7aSWarner Losh 60*8e3e3a7aSWarner Losh #define hashstr(t,str) hashpow2(t, (str)->hash) 61*8e3e3a7aSWarner Losh #define hashboolean(t,p) hashpow2(t, p) 62*8e3e3a7aSWarner Losh #define hashint(t,i) hashpow2(t, i) 63*8e3e3a7aSWarner Losh 64*8e3e3a7aSWarner Losh 65*8e3e3a7aSWarner Losh /* 66*8e3e3a7aSWarner Losh ** for some types, it is better to avoid modulus by power of 2, as 67*8e3e3a7aSWarner Losh ** they tend to have many 2 factors. 68*8e3e3a7aSWarner Losh */ 69*8e3e3a7aSWarner Losh #define hashmod(t,n) (gnode(t, ((n) % ((sizenode(t)-1)|1)))) 70*8e3e3a7aSWarner Losh 71*8e3e3a7aSWarner Losh 72*8e3e3a7aSWarner Losh #define hashpointer(t,p) hashmod(t, point2uint(p)) 73*8e3e3a7aSWarner Losh 74*8e3e3a7aSWarner Losh 75*8e3e3a7aSWarner Losh #define dummynode (&dummynode_) 76*8e3e3a7aSWarner Losh 77*8e3e3a7aSWarner Losh static const Node dummynode_ = { 78*8e3e3a7aSWarner Losh {NILCONSTANT}, /* value */ 79*8e3e3a7aSWarner Losh {{NILCONSTANT, 0}} /* key */ 80*8e3e3a7aSWarner Losh }; 81*8e3e3a7aSWarner Losh 82*8e3e3a7aSWarner Losh 83*8e3e3a7aSWarner Losh /* 84*8e3e3a7aSWarner Losh ** Hash for floating-point numbers. 85*8e3e3a7aSWarner Losh ** The main computation should be just 86*8e3e3a7aSWarner Losh ** n = frexp(n, &i); return (n * INT_MAX) + i 87*8e3e3a7aSWarner Losh ** but there are some numerical subtleties. 88*8e3e3a7aSWarner Losh ** In a two-complement representation, INT_MAX does not has an exact 89*8e3e3a7aSWarner Losh ** representation as a float, but INT_MIN does; because the absolute 90*8e3e3a7aSWarner Losh ** value of 'frexp' is smaller than 1 (unless 'n' is inf/NaN), the 91*8e3e3a7aSWarner Losh ** absolute value of the product 'frexp * -INT_MIN' is smaller or equal 92*8e3e3a7aSWarner Losh ** to INT_MAX. Next, the use of 'unsigned int' avoids overflows when 93*8e3e3a7aSWarner Losh ** adding 'i'; the use of '~u' (instead of '-u') avoids problems with 94*8e3e3a7aSWarner Losh ** INT_MIN. 95*8e3e3a7aSWarner Losh */ 96*8e3e3a7aSWarner Losh #if !defined(l_hashfloat) 97*8e3e3a7aSWarner Losh static int l_hashfloat (lua_Number n) { 98*8e3e3a7aSWarner Losh int i; 99*8e3e3a7aSWarner Losh lua_Integer ni; 100*8e3e3a7aSWarner Losh n = l_mathop(frexp)(n, &i) * -cast_num(INT_MIN); 101*8e3e3a7aSWarner Losh if (!lua_numbertointeger(n, &ni)) { /* is 'n' inf/-inf/NaN? */ 102*8e3e3a7aSWarner Losh lua_assert(luai_numisnan(n) || l_mathop(fabs)(n) == cast_num(HUGE_VAL)); 103*8e3e3a7aSWarner Losh return 0; 104*8e3e3a7aSWarner Losh } 105*8e3e3a7aSWarner Losh else { /* normal case */ 106*8e3e3a7aSWarner Losh unsigned int u = cast(unsigned int, i) + cast(unsigned int, ni); 107*8e3e3a7aSWarner Losh return cast_int(u <= cast(unsigned int, INT_MAX) ? u : ~u); 108*8e3e3a7aSWarner Losh } 109*8e3e3a7aSWarner Losh } 110*8e3e3a7aSWarner Losh #endif 111*8e3e3a7aSWarner Losh 112*8e3e3a7aSWarner Losh 113*8e3e3a7aSWarner Losh /* 114*8e3e3a7aSWarner Losh ** returns the 'main' position of an element in a table (that is, the index 115*8e3e3a7aSWarner Losh ** of its hash value) 116*8e3e3a7aSWarner Losh */ 117*8e3e3a7aSWarner Losh static Node *mainposition (const Table *t, const TValue *key) { 118*8e3e3a7aSWarner Losh switch (ttype(key)) { 119*8e3e3a7aSWarner Losh case LUA_TNUMINT: 120*8e3e3a7aSWarner Losh return hashint(t, ivalue(key)); 121*8e3e3a7aSWarner Losh case LUA_TNUMFLT: 122*8e3e3a7aSWarner Losh return hashmod(t, l_hashfloat(fltvalue(key))); 123*8e3e3a7aSWarner Losh case LUA_TSHRSTR: 124*8e3e3a7aSWarner Losh return hashstr(t, tsvalue(key)); 125*8e3e3a7aSWarner Losh case LUA_TLNGSTR: 126*8e3e3a7aSWarner Losh return hashpow2(t, luaS_hashlongstr(tsvalue(key))); 127*8e3e3a7aSWarner Losh case LUA_TBOOLEAN: 128*8e3e3a7aSWarner Losh return hashboolean(t, bvalue(key)); 129*8e3e3a7aSWarner Losh case LUA_TLIGHTUSERDATA: 130*8e3e3a7aSWarner Losh return hashpointer(t, pvalue(key)); 131*8e3e3a7aSWarner Losh case LUA_TLCF: 132*8e3e3a7aSWarner Losh return hashpointer(t, fvalue(key)); 133*8e3e3a7aSWarner Losh default: 134*8e3e3a7aSWarner Losh lua_assert(!ttisdeadkey(key)); 135*8e3e3a7aSWarner Losh return hashpointer(t, gcvalue(key)); 136*8e3e3a7aSWarner Losh } 137*8e3e3a7aSWarner Losh } 138*8e3e3a7aSWarner Losh 139*8e3e3a7aSWarner Losh 140*8e3e3a7aSWarner Losh /* 141*8e3e3a7aSWarner Losh ** returns the index for 'key' if 'key' is an appropriate key to live in 142*8e3e3a7aSWarner Losh ** the array part of the table, 0 otherwise. 143*8e3e3a7aSWarner Losh */ 144*8e3e3a7aSWarner Losh static unsigned int arrayindex (const TValue *key) { 145*8e3e3a7aSWarner Losh if (ttisinteger(key)) { 146*8e3e3a7aSWarner Losh lua_Integer k = ivalue(key); 147*8e3e3a7aSWarner Losh if (0 < k && (lua_Unsigned)k <= MAXASIZE) 148*8e3e3a7aSWarner Losh return cast(unsigned int, k); /* 'key' is an appropriate array index */ 149*8e3e3a7aSWarner Losh } 150*8e3e3a7aSWarner Losh return 0; /* 'key' did not match some condition */ 151*8e3e3a7aSWarner Losh } 152*8e3e3a7aSWarner Losh 153*8e3e3a7aSWarner Losh 154*8e3e3a7aSWarner Losh /* 155*8e3e3a7aSWarner Losh ** returns the index of a 'key' for table traversals. First goes all 156*8e3e3a7aSWarner Losh ** elements in the array part, then elements in the hash part. The 157*8e3e3a7aSWarner Losh ** beginning of a traversal is signaled by 0. 158*8e3e3a7aSWarner Losh */ 159*8e3e3a7aSWarner Losh static unsigned int findindex (lua_State *L, Table *t, StkId key) { 160*8e3e3a7aSWarner Losh unsigned int i; 161*8e3e3a7aSWarner Losh if (ttisnil(key)) return 0; /* first iteration */ 162*8e3e3a7aSWarner Losh i = arrayindex(key); 163*8e3e3a7aSWarner Losh if (i != 0 && i <= t->sizearray) /* is 'key' inside array part? */ 164*8e3e3a7aSWarner Losh return i; /* yes; that's the index */ 165*8e3e3a7aSWarner Losh else { 166*8e3e3a7aSWarner Losh int nx; 167*8e3e3a7aSWarner Losh Node *n = mainposition(t, key); 168*8e3e3a7aSWarner Losh for (;;) { /* check whether 'key' is somewhere in the chain */ 169*8e3e3a7aSWarner Losh /* key may be dead already, but it is ok to use it in 'next' */ 170*8e3e3a7aSWarner Losh if (luaV_rawequalobj(gkey(n), key) || 171*8e3e3a7aSWarner Losh (ttisdeadkey(gkey(n)) && iscollectable(key) && 172*8e3e3a7aSWarner Losh deadvalue(gkey(n)) == gcvalue(key))) { 173*8e3e3a7aSWarner Losh i = cast_int(n - gnode(t, 0)); /* key index in hash table */ 174*8e3e3a7aSWarner Losh /* hash elements are numbered after array ones */ 175*8e3e3a7aSWarner Losh return (i + 1) + t->sizearray; 176*8e3e3a7aSWarner Losh } 177*8e3e3a7aSWarner Losh nx = gnext(n); 178*8e3e3a7aSWarner Losh if (nx == 0) 179*8e3e3a7aSWarner Losh luaG_runerror(L, "invalid key to 'next'"); /* key not found */ 180*8e3e3a7aSWarner Losh else n += nx; 181*8e3e3a7aSWarner Losh } 182*8e3e3a7aSWarner Losh } 183*8e3e3a7aSWarner Losh } 184*8e3e3a7aSWarner Losh 185*8e3e3a7aSWarner Losh 186*8e3e3a7aSWarner Losh int luaH_next (lua_State *L, Table *t, StkId key) { 187*8e3e3a7aSWarner Losh unsigned int i = findindex(L, t, key); /* find original element */ 188*8e3e3a7aSWarner Losh for (; i < t->sizearray; i++) { /* try first array part */ 189*8e3e3a7aSWarner Losh if (!ttisnil(&t->array[i])) { /* a non-nil value? */ 190*8e3e3a7aSWarner Losh setivalue(key, i + 1); 191*8e3e3a7aSWarner Losh setobj2s(L, key+1, &t->array[i]); 192*8e3e3a7aSWarner Losh return 1; 193*8e3e3a7aSWarner Losh } 194*8e3e3a7aSWarner Losh } 195*8e3e3a7aSWarner Losh for (i -= t->sizearray; cast_int(i) < sizenode(t); i++) { /* hash part */ 196*8e3e3a7aSWarner Losh if (!ttisnil(gval(gnode(t, i)))) { /* a non-nil value? */ 197*8e3e3a7aSWarner Losh setobj2s(L, key, gkey(gnode(t, i))); 198*8e3e3a7aSWarner Losh setobj2s(L, key+1, gval(gnode(t, i))); 199*8e3e3a7aSWarner Losh return 1; 200*8e3e3a7aSWarner Losh } 201*8e3e3a7aSWarner Losh } 202*8e3e3a7aSWarner Losh return 0; /* no more elements */ 203*8e3e3a7aSWarner Losh } 204*8e3e3a7aSWarner Losh 205*8e3e3a7aSWarner Losh 206*8e3e3a7aSWarner Losh /* 207*8e3e3a7aSWarner Losh ** {============================================================= 208*8e3e3a7aSWarner Losh ** Rehash 209*8e3e3a7aSWarner Losh ** ============================================================== 210*8e3e3a7aSWarner Losh */ 211*8e3e3a7aSWarner Losh 212*8e3e3a7aSWarner Losh /* 213*8e3e3a7aSWarner Losh ** Compute the optimal size for the array part of table 't'. 'nums' is a 214*8e3e3a7aSWarner Losh ** "count array" where 'nums[i]' is the number of integers in the table 215*8e3e3a7aSWarner Losh ** between 2^(i - 1) + 1 and 2^i. 'pna' enters with the total number of 216*8e3e3a7aSWarner Losh ** integer keys in the table and leaves with the number of keys that 217*8e3e3a7aSWarner Losh ** will go to the array part; return the optimal size. 218*8e3e3a7aSWarner Losh */ 219*8e3e3a7aSWarner Losh static unsigned int computesizes (unsigned int nums[], unsigned int *pna) { 220*8e3e3a7aSWarner Losh int i; 221*8e3e3a7aSWarner Losh unsigned int twotoi; /* 2^i (candidate for optimal size) */ 222*8e3e3a7aSWarner Losh unsigned int a = 0; /* number of elements smaller than 2^i */ 223*8e3e3a7aSWarner Losh unsigned int na = 0; /* number of elements to go to array part */ 224*8e3e3a7aSWarner Losh unsigned int optimal = 0; /* optimal size for array part */ 225*8e3e3a7aSWarner Losh /* loop while keys can fill more than half of total size */ 226*8e3e3a7aSWarner Losh for (i = 0, twotoi = 1; *pna > twotoi / 2; i++, twotoi *= 2) { 227*8e3e3a7aSWarner Losh if (nums[i] > 0) { 228*8e3e3a7aSWarner Losh a += nums[i]; 229*8e3e3a7aSWarner Losh if (a > twotoi/2) { /* more than half elements present? */ 230*8e3e3a7aSWarner Losh optimal = twotoi; /* optimal size (till now) */ 231*8e3e3a7aSWarner Losh na = a; /* all elements up to 'optimal' will go to array part */ 232*8e3e3a7aSWarner Losh } 233*8e3e3a7aSWarner Losh } 234*8e3e3a7aSWarner Losh } 235*8e3e3a7aSWarner Losh lua_assert((optimal == 0 || optimal / 2 < na) && na <= optimal); 236*8e3e3a7aSWarner Losh *pna = na; 237*8e3e3a7aSWarner Losh return optimal; 238*8e3e3a7aSWarner Losh } 239*8e3e3a7aSWarner Losh 240*8e3e3a7aSWarner Losh 241*8e3e3a7aSWarner Losh static int countint (const TValue *key, unsigned int *nums) { 242*8e3e3a7aSWarner Losh unsigned int k = arrayindex(key); 243*8e3e3a7aSWarner Losh if (k != 0) { /* is 'key' an appropriate array index? */ 244*8e3e3a7aSWarner Losh nums[luaO_ceillog2(k)]++; /* count as such */ 245*8e3e3a7aSWarner Losh return 1; 246*8e3e3a7aSWarner Losh } 247*8e3e3a7aSWarner Losh else 248*8e3e3a7aSWarner Losh return 0; 249*8e3e3a7aSWarner Losh } 250*8e3e3a7aSWarner Losh 251*8e3e3a7aSWarner Losh 252*8e3e3a7aSWarner Losh /* 253*8e3e3a7aSWarner Losh ** Count keys in array part of table 't': Fill 'nums[i]' with 254*8e3e3a7aSWarner Losh ** number of keys that will go into corresponding slice and return 255*8e3e3a7aSWarner Losh ** total number of non-nil keys. 256*8e3e3a7aSWarner Losh */ 257*8e3e3a7aSWarner Losh static unsigned int numusearray (const Table *t, unsigned int *nums) { 258*8e3e3a7aSWarner Losh int lg; 259*8e3e3a7aSWarner Losh unsigned int ttlg; /* 2^lg */ 260*8e3e3a7aSWarner Losh unsigned int ause = 0; /* summation of 'nums' */ 261*8e3e3a7aSWarner Losh unsigned int i = 1; /* count to traverse all array keys */ 262*8e3e3a7aSWarner Losh /* traverse each slice */ 263*8e3e3a7aSWarner Losh for (lg = 0, ttlg = 1; lg <= MAXABITS; lg++, ttlg *= 2) { 264*8e3e3a7aSWarner Losh unsigned int lc = 0; /* counter */ 265*8e3e3a7aSWarner Losh unsigned int lim = ttlg; 266*8e3e3a7aSWarner Losh if (lim > t->sizearray) { 267*8e3e3a7aSWarner Losh lim = t->sizearray; /* adjust upper limit */ 268*8e3e3a7aSWarner Losh if (i > lim) 269*8e3e3a7aSWarner Losh break; /* no more elements to count */ 270*8e3e3a7aSWarner Losh } 271*8e3e3a7aSWarner Losh /* count elements in range (2^(lg - 1), 2^lg] */ 272*8e3e3a7aSWarner Losh for (; i <= lim; i++) { 273*8e3e3a7aSWarner Losh if (!ttisnil(&t->array[i-1])) 274*8e3e3a7aSWarner Losh lc++; 275*8e3e3a7aSWarner Losh } 276*8e3e3a7aSWarner Losh nums[lg] += lc; 277*8e3e3a7aSWarner Losh ause += lc; 278*8e3e3a7aSWarner Losh } 279*8e3e3a7aSWarner Losh return ause; 280*8e3e3a7aSWarner Losh } 281*8e3e3a7aSWarner Losh 282*8e3e3a7aSWarner Losh 283*8e3e3a7aSWarner Losh static int numusehash (const Table *t, unsigned int *nums, unsigned int *pna) { 284*8e3e3a7aSWarner Losh int totaluse = 0; /* total number of elements */ 285*8e3e3a7aSWarner Losh int ause = 0; /* elements added to 'nums' (can go to array part) */ 286*8e3e3a7aSWarner Losh int i = sizenode(t); 287*8e3e3a7aSWarner Losh while (i--) { 288*8e3e3a7aSWarner Losh Node *n = &t->node[i]; 289*8e3e3a7aSWarner Losh if (!ttisnil(gval(n))) { 290*8e3e3a7aSWarner Losh ause += countint(gkey(n), nums); 291*8e3e3a7aSWarner Losh totaluse++; 292*8e3e3a7aSWarner Losh } 293*8e3e3a7aSWarner Losh } 294*8e3e3a7aSWarner Losh *pna += ause; 295*8e3e3a7aSWarner Losh return totaluse; 296*8e3e3a7aSWarner Losh } 297*8e3e3a7aSWarner Losh 298*8e3e3a7aSWarner Losh 299*8e3e3a7aSWarner Losh static void setarrayvector (lua_State *L, Table *t, unsigned int size) { 300*8e3e3a7aSWarner Losh unsigned int i; 301*8e3e3a7aSWarner Losh luaM_reallocvector(L, t->array, t->sizearray, size, TValue); 302*8e3e3a7aSWarner Losh for (i=t->sizearray; i<size; i++) 303*8e3e3a7aSWarner Losh setnilvalue(&t->array[i]); 304*8e3e3a7aSWarner Losh t->sizearray = size; 305*8e3e3a7aSWarner Losh } 306*8e3e3a7aSWarner Losh 307*8e3e3a7aSWarner Losh 308*8e3e3a7aSWarner Losh static void setnodevector (lua_State *L, Table *t, unsigned int size) { 309*8e3e3a7aSWarner Losh if (size == 0) { /* no elements to hash part? */ 310*8e3e3a7aSWarner Losh t->node = cast(Node *, dummynode); /* use common 'dummynode' */ 311*8e3e3a7aSWarner Losh t->lsizenode = 0; 312*8e3e3a7aSWarner Losh t->lastfree = NULL; /* signal that it is using dummy node */ 313*8e3e3a7aSWarner Losh } 314*8e3e3a7aSWarner Losh else { 315*8e3e3a7aSWarner Losh int i; 316*8e3e3a7aSWarner Losh int lsize = luaO_ceillog2(size); 317*8e3e3a7aSWarner Losh if (lsize > MAXHBITS) 318*8e3e3a7aSWarner Losh luaG_runerror(L, "table overflow"); 319*8e3e3a7aSWarner Losh size = twoto(lsize); 320*8e3e3a7aSWarner Losh t->node = luaM_newvector(L, size, Node); 321*8e3e3a7aSWarner Losh for (i = 0; i < (int)size; i++) { 322*8e3e3a7aSWarner Losh Node *n = gnode(t, i); 323*8e3e3a7aSWarner Losh gnext(n) = 0; 324*8e3e3a7aSWarner Losh setnilvalue(wgkey(n)); 325*8e3e3a7aSWarner Losh setnilvalue(gval(n)); 326*8e3e3a7aSWarner Losh } 327*8e3e3a7aSWarner Losh t->lsizenode = cast_byte(lsize); 328*8e3e3a7aSWarner Losh t->lastfree = gnode(t, size); /* all positions are free */ 329*8e3e3a7aSWarner Losh } 330*8e3e3a7aSWarner Losh } 331*8e3e3a7aSWarner Losh 332*8e3e3a7aSWarner Losh 333*8e3e3a7aSWarner Losh void luaH_resize (lua_State *L, Table *t, unsigned int nasize, 334*8e3e3a7aSWarner Losh unsigned int nhsize) { 335*8e3e3a7aSWarner Losh unsigned int i; 336*8e3e3a7aSWarner Losh int j; 337*8e3e3a7aSWarner Losh unsigned int oldasize = t->sizearray; 338*8e3e3a7aSWarner Losh int oldhsize = allocsizenode(t); 339*8e3e3a7aSWarner Losh Node *nold = t->node; /* save old hash ... */ 340*8e3e3a7aSWarner Losh if (nasize > oldasize) /* array part must grow? */ 341*8e3e3a7aSWarner Losh setarrayvector(L, t, nasize); 342*8e3e3a7aSWarner Losh /* create new hash part with appropriate size */ 343*8e3e3a7aSWarner Losh setnodevector(L, t, nhsize); 344*8e3e3a7aSWarner Losh if (nasize < oldasize) { /* array part must shrink? */ 345*8e3e3a7aSWarner Losh t->sizearray = nasize; 346*8e3e3a7aSWarner Losh /* re-insert elements from vanishing slice */ 347*8e3e3a7aSWarner Losh for (i=nasize; i<oldasize; i++) { 348*8e3e3a7aSWarner Losh if (!ttisnil(&t->array[i])) 349*8e3e3a7aSWarner Losh luaH_setint(L, t, i + 1, &t->array[i]); 350*8e3e3a7aSWarner Losh } 351*8e3e3a7aSWarner Losh /* shrink array */ 352*8e3e3a7aSWarner Losh luaM_reallocvector(L, t->array, oldasize, nasize, TValue); 353*8e3e3a7aSWarner Losh } 354*8e3e3a7aSWarner Losh /* re-insert elements from hash part */ 355*8e3e3a7aSWarner Losh for (j = oldhsize - 1; j >= 0; j--) { 356*8e3e3a7aSWarner Losh Node *old = nold + j; 357*8e3e3a7aSWarner Losh if (!ttisnil(gval(old))) { 358*8e3e3a7aSWarner Losh /* doesn't need barrier/invalidate cache, as entry was 359*8e3e3a7aSWarner Losh already present in the table */ 360*8e3e3a7aSWarner Losh setobjt2t(L, luaH_set(L, t, gkey(old)), gval(old)); 361*8e3e3a7aSWarner Losh } 362*8e3e3a7aSWarner Losh } 363*8e3e3a7aSWarner Losh if (oldhsize > 0) /* not the dummy node? */ 364*8e3e3a7aSWarner Losh luaM_freearray(L, nold, cast(size_t, oldhsize)); /* free old hash */ 365*8e3e3a7aSWarner Losh } 366*8e3e3a7aSWarner Losh 367*8e3e3a7aSWarner Losh 368*8e3e3a7aSWarner Losh void luaH_resizearray (lua_State *L, Table *t, unsigned int nasize) { 369*8e3e3a7aSWarner Losh int nsize = allocsizenode(t); 370*8e3e3a7aSWarner Losh luaH_resize(L, t, nasize, nsize); 371*8e3e3a7aSWarner Losh } 372*8e3e3a7aSWarner Losh 373*8e3e3a7aSWarner Losh /* 374*8e3e3a7aSWarner Losh ** nums[i] = number of keys 'k' where 2^(i - 1) < k <= 2^i 375*8e3e3a7aSWarner Losh */ 376*8e3e3a7aSWarner Losh static void rehash (lua_State *L, Table *t, const TValue *ek) { 377*8e3e3a7aSWarner Losh unsigned int asize; /* optimal size for array part */ 378*8e3e3a7aSWarner Losh unsigned int na; /* number of keys in the array part */ 379*8e3e3a7aSWarner Losh unsigned int nums[MAXABITS + 1]; 380*8e3e3a7aSWarner Losh int i; 381*8e3e3a7aSWarner Losh int totaluse; 382*8e3e3a7aSWarner Losh for (i = 0; i <= MAXABITS; i++) nums[i] = 0; /* reset counts */ 383*8e3e3a7aSWarner Losh na = numusearray(t, nums); /* count keys in array part */ 384*8e3e3a7aSWarner Losh totaluse = na; /* all those keys are integer keys */ 385*8e3e3a7aSWarner Losh totaluse += numusehash(t, nums, &na); /* count keys in hash part */ 386*8e3e3a7aSWarner Losh /* count extra key */ 387*8e3e3a7aSWarner Losh na += countint(ek, nums); 388*8e3e3a7aSWarner Losh totaluse++; 389*8e3e3a7aSWarner Losh /* compute new size for array part */ 390*8e3e3a7aSWarner Losh asize = computesizes(nums, &na); 391*8e3e3a7aSWarner Losh /* resize the table to new computed sizes */ 392*8e3e3a7aSWarner Losh luaH_resize(L, t, asize, totaluse - na); 393*8e3e3a7aSWarner Losh } 394*8e3e3a7aSWarner Losh 395*8e3e3a7aSWarner Losh 396*8e3e3a7aSWarner Losh 397*8e3e3a7aSWarner Losh /* 398*8e3e3a7aSWarner Losh ** }============================================================= 399*8e3e3a7aSWarner Losh */ 400*8e3e3a7aSWarner Losh 401*8e3e3a7aSWarner Losh 402*8e3e3a7aSWarner Losh Table *luaH_new (lua_State *L) { 403*8e3e3a7aSWarner Losh GCObject *o = luaC_newobj(L, LUA_TTABLE, sizeof(Table)); 404*8e3e3a7aSWarner Losh Table *t = gco2t(o); 405*8e3e3a7aSWarner Losh t->metatable = NULL; 406*8e3e3a7aSWarner Losh t->flags = cast_byte(~0); 407*8e3e3a7aSWarner Losh t->array = NULL; 408*8e3e3a7aSWarner Losh t->sizearray = 0; 409*8e3e3a7aSWarner Losh setnodevector(L, t, 0); 410*8e3e3a7aSWarner Losh return t; 411*8e3e3a7aSWarner Losh } 412*8e3e3a7aSWarner Losh 413*8e3e3a7aSWarner Losh 414*8e3e3a7aSWarner Losh void luaH_free (lua_State *L, Table *t) { 415*8e3e3a7aSWarner Losh if (!isdummy(t)) 416*8e3e3a7aSWarner Losh luaM_freearray(L, t->node, cast(size_t, sizenode(t))); 417*8e3e3a7aSWarner Losh luaM_freearray(L, t->array, t->sizearray); 418*8e3e3a7aSWarner Losh luaM_free(L, t); 419*8e3e3a7aSWarner Losh } 420*8e3e3a7aSWarner Losh 421*8e3e3a7aSWarner Losh 422*8e3e3a7aSWarner Losh static Node *getfreepos (Table *t) { 423*8e3e3a7aSWarner Losh if (!isdummy(t)) { 424*8e3e3a7aSWarner Losh while (t->lastfree > t->node) { 425*8e3e3a7aSWarner Losh t->lastfree--; 426*8e3e3a7aSWarner Losh if (ttisnil(gkey(t->lastfree))) 427*8e3e3a7aSWarner Losh return t->lastfree; 428*8e3e3a7aSWarner Losh } 429*8e3e3a7aSWarner Losh } 430*8e3e3a7aSWarner Losh return NULL; /* could not find a free place */ 431*8e3e3a7aSWarner Losh } 432*8e3e3a7aSWarner Losh 433*8e3e3a7aSWarner Losh 434*8e3e3a7aSWarner Losh 435*8e3e3a7aSWarner Losh /* 436*8e3e3a7aSWarner Losh ** inserts a new key into a hash table; first, check whether key's main 437*8e3e3a7aSWarner Losh ** position is free. If not, check whether colliding node is in its main 438*8e3e3a7aSWarner Losh ** position or not: if it is not, move colliding node to an empty place and 439*8e3e3a7aSWarner Losh ** put new key in its main position; otherwise (colliding node is in its main 440*8e3e3a7aSWarner Losh ** position), new key goes to an empty position. 441*8e3e3a7aSWarner Losh */ 442*8e3e3a7aSWarner Losh TValue *luaH_newkey (lua_State *L, Table *t, const TValue *key) { 443*8e3e3a7aSWarner Losh Node *mp; 444*8e3e3a7aSWarner Losh TValue aux; 445*8e3e3a7aSWarner Losh if (ttisnil(key)) luaG_runerror(L, "table index is nil"); 446*8e3e3a7aSWarner Losh else if (ttisfloat(key)) { 447*8e3e3a7aSWarner Losh lua_Integer k; 448*8e3e3a7aSWarner Losh if (luaV_tointeger(key, &k, 0)) { /* does index fit in an integer? */ 449*8e3e3a7aSWarner Losh setivalue(&aux, k); 450*8e3e3a7aSWarner Losh key = &aux; /* insert it as an integer */ 451*8e3e3a7aSWarner Losh } 452*8e3e3a7aSWarner Losh else if (luai_numisnan(fltvalue(key))) 453*8e3e3a7aSWarner Losh luaG_runerror(L, "table index is NaN"); 454*8e3e3a7aSWarner Losh } 455*8e3e3a7aSWarner Losh mp = mainposition(t, key); 456*8e3e3a7aSWarner Losh if (!ttisnil(gval(mp)) || isdummy(t)) { /* main position is taken? */ 457*8e3e3a7aSWarner Losh Node *othern; 458*8e3e3a7aSWarner Losh Node *f = getfreepos(t); /* get a free place */ 459*8e3e3a7aSWarner Losh if (f == NULL) { /* cannot find a free place? */ 460*8e3e3a7aSWarner Losh rehash(L, t, key); /* grow table */ 461*8e3e3a7aSWarner Losh /* whatever called 'newkey' takes care of TM cache */ 462*8e3e3a7aSWarner Losh return luaH_set(L, t, key); /* insert key into grown table */ 463*8e3e3a7aSWarner Losh } 464*8e3e3a7aSWarner Losh lua_assert(!isdummy(t)); 465*8e3e3a7aSWarner Losh othern = mainposition(t, gkey(mp)); 466*8e3e3a7aSWarner Losh if (othern != mp) { /* is colliding node out of its main position? */ 467*8e3e3a7aSWarner Losh /* yes; move colliding node into free position */ 468*8e3e3a7aSWarner Losh while (othern + gnext(othern) != mp) /* find previous */ 469*8e3e3a7aSWarner Losh othern += gnext(othern); 470*8e3e3a7aSWarner Losh gnext(othern) = cast_int(f - othern); /* rechain to point to 'f' */ 471*8e3e3a7aSWarner Losh *f = *mp; /* copy colliding node into free pos. (mp->next also goes) */ 472*8e3e3a7aSWarner Losh if (gnext(mp) != 0) { 473*8e3e3a7aSWarner Losh gnext(f) += cast_int(mp - f); /* correct 'next' */ 474*8e3e3a7aSWarner Losh gnext(mp) = 0; /* now 'mp' is free */ 475*8e3e3a7aSWarner Losh } 476*8e3e3a7aSWarner Losh setnilvalue(gval(mp)); 477*8e3e3a7aSWarner Losh } 478*8e3e3a7aSWarner Losh else { /* colliding node is in its own main position */ 479*8e3e3a7aSWarner Losh /* new node will go into free position */ 480*8e3e3a7aSWarner Losh if (gnext(mp) != 0) 481*8e3e3a7aSWarner Losh gnext(f) = cast_int((mp + gnext(mp)) - f); /* chain new position */ 482*8e3e3a7aSWarner Losh else lua_assert(gnext(f) == 0); 483*8e3e3a7aSWarner Losh gnext(mp) = cast_int(f - mp); 484*8e3e3a7aSWarner Losh mp = f; 485*8e3e3a7aSWarner Losh } 486*8e3e3a7aSWarner Losh } 487*8e3e3a7aSWarner Losh setnodekey(L, &mp->i_key, key); 488*8e3e3a7aSWarner Losh luaC_barrierback(L, t, key); 489*8e3e3a7aSWarner Losh lua_assert(ttisnil(gval(mp))); 490*8e3e3a7aSWarner Losh return gval(mp); 491*8e3e3a7aSWarner Losh } 492*8e3e3a7aSWarner Losh 493*8e3e3a7aSWarner Losh 494*8e3e3a7aSWarner Losh /* 495*8e3e3a7aSWarner Losh ** search function for integers 496*8e3e3a7aSWarner Losh */ 497*8e3e3a7aSWarner Losh const TValue *luaH_getint (Table *t, lua_Integer key) { 498*8e3e3a7aSWarner Losh /* (1 <= key && key <= t->sizearray) */ 499*8e3e3a7aSWarner Losh if (l_castS2U(key) - 1 < t->sizearray) 500*8e3e3a7aSWarner Losh return &t->array[key - 1]; 501*8e3e3a7aSWarner Losh else { 502*8e3e3a7aSWarner Losh Node *n = hashint(t, key); 503*8e3e3a7aSWarner Losh for (;;) { /* check whether 'key' is somewhere in the chain */ 504*8e3e3a7aSWarner Losh if (ttisinteger(gkey(n)) && ivalue(gkey(n)) == key) 505*8e3e3a7aSWarner Losh return gval(n); /* that's it */ 506*8e3e3a7aSWarner Losh else { 507*8e3e3a7aSWarner Losh int nx = gnext(n); 508*8e3e3a7aSWarner Losh if (nx == 0) break; 509*8e3e3a7aSWarner Losh n += nx; 510*8e3e3a7aSWarner Losh } 511*8e3e3a7aSWarner Losh } 512*8e3e3a7aSWarner Losh return luaO_nilobject; 513*8e3e3a7aSWarner Losh } 514*8e3e3a7aSWarner Losh } 515*8e3e3a7aSWarner Losh 516*8e3e3a7aSWarner Losh 517*8e3e3a7aSWarner Losh /* 518*8e3e3a7aSWarner Losh ** search function for short strings 519*8e3e3a7aSWarner Losh */ 520*8e3e3a7aSWarner Losh const TValue *luaH_getshortstr (Table *t, TString *key) { 521*8e3e3a7aSWarner Losh Node *n = hashstr(t, key); 522*8e3e3a7aSWarner Losh lua_assert(key->tt == LUA_TSHRSTR); 523*8e3e3a7aSWarner Losh for (;;) { /* check whether 'key' is somewhere in the chain */ 524*8e3e3a7aSWarner Losh const TValue *k = gkey(n); 525*8e3e3a7aSWarner Losh if (ttisshrstring(k) && eqshrstr(tsvalue(k), key)) 526*8e3e3a7aSWarner Losh return gval(n); /* that's it */ 527*8e3e3a7aSWarner Losh else { 528*8e3e3a7aSWarner Losh int nx = gnext(n); 529*8e3e3a7aSWarner Losh if (nx == 0) 530*8e3e3a7aSWarner Losh return luaO_nilobject; /* not found */ 531*8e3e3a7aSWarner Losh n += nx; 532*8e3e3a7aSWarner Losh } 533*8e3e3a7aSWarner Losh } 534*8e3e3a7aSWarner Losh } 535*8e3e3a7aSWarner Losh 536*8e3e3a7aSWarner Losh 537*8e3e3a7aSWarner Losh /* 538*8e3e3a7aSWarner Losh ** "Generic" get version. (Not that generic: not valid for integers, 539*8e3e3a7aSWarner Losh ** which may be in array part, nor for floats with integral values.) 540*8e3e3a7aSWarner Losh */ 541*8e3e3a7aSWarner Losh static const TValue *getgeneric (Table *t, const TValue *key) { 542*8e3e3a7aSWarner Losh Node *n = mainposition(t, key); 543*8e3e3a7aSWarner Losh for (;;) { /* check whether 'key' is somewhere in the chain */ 544*8e3e3a7aSWarner Losh if (luaV_rawequalobj(gkey(n), key)) 545*8e3e3a7aSWarner Losh return gval(n); /* that's it */ 546*8e3e3a7aSWarner Losh else { 547*8e3e3a7aSWarner Losh int nx = gnext(n); 548*8e3e3a7aSWarner Losh if (nx == 0) 549*8e3e3a7aSWarner Losh return luaO_nilobject; /* not found */ 550*8e3e3a7aSWarner Losh n += nx; 551*8e3e3a7aSWarner Losh } 552*8e3e3a7aSWarner Losh } 553*8e3e3a7aSWarner Losh } 554*8e3e3a7aSWarner Losh 555*8e3e3a7aSWarner Losh 556*8e3e3a7aSWarner Losh const TValue *luaH_getstr (Table *t, TString *key) { 557*8e3e3a7aSWarner Losh if (key->tt == LUA_TSHRSTR) 558*8e3e3a7aSWarner Losh return luaH_getshortstr(t, key); 559*8e3e3a7aSWarner Losh else { /* for long strings, use generic case */ 560*8e3e3a7aSWarner Losh TValue ko; 561*8e3e3a7aSWarner Losh setsvalue(cast(lua_State *, NULL), &ko, key); 562*8e3e3a7aSWarner Losh return getgeneric(t, &ko); 563*8e3e3a7aSWarner Losh } 564*8e3e3a7aSWarner Losh } 565*8e3e3a7aSWarner Losh 566*8e3e3a7aSWarner Losh 567*8e3e3a7aSWarner Losh /* 568*8e3e3a7aSWarner Losh ** main search function 569*8e3e3a7aSWarner Losh */ 570*8e3e3a7aSWarner Losh const TValue *luaH_get (Table *t, const TValue *key) { 571*8e3e3a7aSWarner Losh switch (ttype(key)) { 572*8e3e3a7aSWarner Losh case LUA_TSHRSTR: return luaH_getshortstr(t, tsvalue(key)); 573*8e3e3a7aSWarner Losh case LUA_TNUMINT: return luaH_getint(t, ivalue(key)); 574*8e3e3a7aSWarner Losh case LUA_TNIL: return luaO_nilobject; 575*8e3e3a7aSWarner Losh case LUA_TNUMFLT: { 576*8e3e3a7aSWarner Losh lua_Integer k; 577*8e3e3a7aSWarner Losh if (luaV_tointeger(key, &k, 0)) /* index is int? */ 578*8e3e3a7aSWarner Losh return luaH_getint(t, k); /* use specialized version */ 579*8e3e3a7aSWarner Losh /* else... */ 580*8e3e3a7aSWarner Losh } /* FALLTHROUGH */ 581*8e3e3a7aSWarner Losh default: 582*8e3e3a7aSWarner Losh return getgeneric(t, key); 583*8e3e3a7aSWarner Losh } 584*8e3e3a7aSWarner Losh } 585*8e3e3a7aSWarner Losh 586*8e3e3a7aSWarner Losh 587*8e3e3a7aSWarner Losh /* 588*8e3e3a7aSWarner Losh ** beware: when using this function you probably need to check a GC 589*8e3e3a7aSWarner Losh ** barrier and invalidate the TM cache. 590*8e3e3a7aSWarner Losh */ 591*8e3e3a7aSWarner Losh TValue *luaH_set (lua_State *L, Table *t, const TValue *key) { 592*8e3e3a7aSWarner Losh const TValue *p = luaH_get(t, key); 593*8e3e3a7aSWarner Losh if (p != luaO_nilobject) 594*8e3e3a7aSWarner Losh return cast(TValue *, p); 595*8e3e3a7aSWarner Losh else return luaH_newkey(L, t, key); 596*8e3e3a7aSWarner Losh } 597*8e3e3a7aSWarner Losh 598*8e3e3a7aSWarner Losh 599*8e3e3a7aSWarner Losh void luaH_setint (lua_State *L, Table *t, lua_Integer key, TValue *value) { 600*8e3e3a7aSWarner Losh const TValue *p = luaH_getint(t, key); 601*8e3e3a7aSWarner Losh TValue *cell; 602*8e3e3a7aSWarner Losh if (p != luaO_nilobject) 603*8e3e3a7aSWarner Losh cell = cast(TValue *, p); 604*8e3e3a7aSWarner Losh else { 605*8e3e3a7aSWarner Losh TValue k; 606*8e3e3a7aSWarner Losh setivalue(&k, key); 607*8e3e3a7aSWarner Losh cell = luaH_newkey(L, t, &k); 608*8e3e3a7aSWarner Losh } 609*8e3e3a7aSWarner Losh setobj2t(L, cell, value); 610*8e3e3a7aSWarner Losh } 611*8e3e3a7aSWarner Losh 612*8e3e3a7aSWarner Losh 613*8e3e3a7aSWarner Losh static int unbound_search (Table *t, unsigned int j) { 614*8e3e3a7aSWarner Losh unsigned int i = j; /* i is zero or a present index */ 615*8e3e3a7aSWarner Losh j++; 616*8e3e3a7aSWarner Losh /* find 'i' and 'j' such that i is present and j is not */ 617*8e3e3a7aSWarner Losh while (!ttisnil(luaH_getint(t, j))) { 618*8e3e3a7aSWarner Losh i = j; 619*8e3e3a7aSWarner Losh if (j > cast(unsigned int, MAX_INT)/2) { /* overflow? */ 620*8e3e3a7aSWarner Losh /* table was built with bad purposes: resort to linear search */ 621*8e3e3a7aSWarner Losh i = 1; 622*8e3e3a7aSWarner Losh while (!ttisnil(luaH_getint(t, i))) i++; 623*8e3e3a7aSWarner Losh return i - 1; 624*8e3e3a7aSWarner Losh } 625*8e3e3a7aSWarner Losh j *= 2; 626*8e3e3a7aSWarner Losh } 627*8e3e3a7aSWarner Losh /* now do a binary search between them */ 628*8e3e3a7aSWarner Losh while (j - i > 1) { 629*8e3e3a7aSWarner Losh unsigned int m = (i+j)/2; 630*8e3e3a7aSWarner Losh if (ttisnil(luaH_getint(t, m))) j = m; 631*8e3e3a7aSWarner Losh else i = m; 632*8e3e3a7aSWarner Losh } 633*8e3e3a7aSWarner Losh return i; 634*8e3e3a7aSWarner Losh } 635*8e3e3a7aSWarner Losh 636*8e3e3a7aSWarner Losh 637*8e3e3a7aSWarner Losh /* 638*8e3e3a7aSWarner Losh ** Try to find a boundary in table 't'. A 'boundary' is an integer index 639*8e3e3a7aSWarner Losh ** such that t[i] is non-nil and t[i+1] is nil (and 0 if t[1] is nil). 640*8e3e3a7aSWarner Losh */ 641*8e3e3a7aSWarner Losh int luaH_getn (Table *t) { 642*8e3e3a7aSWarner Losh unsigned int j = t->sizearray; 643*8e3e3a7aSWarner Losh if (j > 0 && ttisnil(&t->array[j - 1])) { 644*8e3e3a7aSWarner Losh /* there is a boundary in the array part: (binary) search for it */ 645*8e3e3a7aSWarner Losh unsigned int i = 0; 646*8e3e3a7aSWarner Losh while (j - i > 1) { 647*8e3e3a7aSWarner Losh unsigned int m = (i+j)/2; 648*8e3e3a7aSWarner Losh if (ttisnil(&t->array[m - 1])) j = m; 649*8e3e3a7aSWarner Losh else i = m; 650*8e3e3a7aSWarner Losh } 651*8e3e3a7aSWarner Losh return i; 652*8e3e3a7aSWarner Losh } 653*8e3e3a7aSWarner Losh /* else must find a boundary in hash part */ 654*8e3e3a7aSWarner Losh else if (isdummy(t)) /* hash part is empty? */ 655*8e3e3a7aSWarner Losh return j; /* that is easy... */ 656*8e3e3a7aSWarner Losh else return unbound_search(t, j); 657*8e3e3a7aSWarner Losh } 658*8e3e3a7aSWarner Losh 659*8e3e3a7aSWarner Losh 660*8e3e3a7aSWarner Losh 661*8e3e3a7aSWarner Losh #if defined(LUA_DEBUG) 662*8e3e3a7aSWarner Losh 663*8e3e3a7aSWarner Losh Node *luaH_mainposition (const Table *t, const TValue *key) { 664*8e3e3a7aSWarner Losh return mainposition(t, key); 665*8e3e3a7aSWarner Losh } 666*8e3e3a7aSWarner Losh 667*8e3e3a7aSWarner Losh int luaH_isdummy (const Table *t) { return isdummy(t); } 668*8e3e3a7aSWarner Losh 669*8e3e3a7aSWarner Losh #endif 670