aaA.d revision 1.1.1.2
1 1.1 mrg /** 2 1.1 mrg * Implementation of associative arrays. 3 1.1 mrg * 4 1.1 mrg * Copyright: Copyright Digital Mars 2000 - 2015. 5 1.1.1.2 mrg * License: $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0). 6 1.1 mrg * Authors: Martin Nowak 7 1.1.1.2 mrg * Source: $(DRUNTIMESRC rt/_aaA.d) 8 1.1 mrg */ 9 1.1 mrg module rt.aaA; 10 1.1 mrg 11 1.1 mrg /// AA version for debuggers, bump whenever changing the layout 12 1.1 mrg extern (C) immutable int _aaVersion = 1; 13 1.1 mrg 14 1.1 mrg import core.memory : GC; 15 1.1.1.2 mrg import core.internal.util.math : min, max; 16 1.1 mrg 17 1.1 mrg // grow threshold 18 1.1 mrg private enum GROW_NUM = 4; 19 1.1 mrg private enum GROW_DEN = 5; 20 1.1 mrg // shrink threshold 21 1.1 mrg private enum SHRINK_NUM = 1; 22 1.1 mrg private enum SHRINK_DEN = 8; 23 1.1 mrg // grow factor 24 1.1 mrg private enum GROW_FAC = 4; 25 1.1 mrg // growing the AA doubles it's size, so the shrink threshold must be 26 1.1 mrg // smaller than half the grow threshold to have a hysteresis 27 1.1 mrg static assert(GROW_FAC * SHRINK_NUM * GROW_DEN < GROW_NUM * SHRINK_DEN); 28 1.1 mrg // initial load factor (for literals), mean of both thresholds 29 1.1 mrg private enum INIT_NUM = (GROW_DEN * SHRINK_NUM + GROW_NUM * SHRINK_DEN) / 2; 30 1.1 mrg private enum INIT_DEN = SHRINK_DEN * GROW_DEN; 31 1.1 mrg 32 1.1 mrg private enum INIT_NUM_BUCKETS = 8; 33 1.1 mrg // magic hash constants to distinguish empty, deleted, and filled buckets 34 1.1 mrg private enum HASH_EMPTY = 0; 35 1.1 mrg private enum HASH_DELETED = 0x1; 36 1.1 mrg private enum HASH_FILLED_MARK = size_t(1) << 8 * size_t.sizeof - 1; 37 1.1 mrg 38 1.1 mrg /// Opaque AA wrapper 39 1.1 mrg struct AA 40 1.1 mrg { 41 1.1 mrg Impl* impl; 42 1.1 mrg alias impl this; 43 1.1 mrg 44 1.1 mrg private @property bool empty() const pure nothrow @nogc 45 1.1 mrg { 46 1.1 mrg return impl is null || !impl.length; 47 1.1 mrg } 48 1.1 mrg } 49 1.1 mrg 50 1.1 mrg private struct Impl 51 1.1 mrg { 52 1.1 mrg private: 53 1.1.1.2 mrg this(scope const TypeInfo_AssociativeArray ti, size_t sz = INIT_NUM_BUCKETS) 54 1.1 mrg { 55 1.1 mrg keysz = cast(uint) ti.key.tsize; 56 1.1 mrg valsz = cast(uint) ti.value.tsize; 57 1.1 mrg buckets = allocBuckets(sz); 58 1.1 mrg firstUsed = cast(uint) buckets.length; 59 1.1 mrg valoff = cast(uint) talign(keysz, ti.value.talign); 60 1.1 mrg 61 1.1 mrg import rt.lifetime : hasPostblit, unqualify; 62 1.1 mrg 63 1.1 mrg if (hasPostblit(unqualify(ti.key))) 64 1.1 mrg flags |= Flags.keyHasPostblit; 65 1.1 mrg if ((ti.key.flags | ti.value.flags) & 1) 66 1.1 mrg flags |= Flags.hasPointers; 67 1.1.1.2 mrg 68 1.1.1.2 mrg entryTI = fakeEntryTI(this, ti.key, ti.value); 69 1.1 mrg } 70 1.1 mrg 71 1.1 mrg Bucket[] buckets; 72 1.1 mrg uint used; 73 1.1 mrg uint deleted; 74 1.1 mrg TypeInfo_Struct entryTI; 75 1.1 mrg uint firstUsed; 76 1.1 mrg immutable uint keysz; 77 1.1 mrg immutable uint valsz; 78 1.1 mrg immutable uint valoff; 79 1.1 mrg Flags flags; 80 1.1 mrg 81 1.1 mrg enum Flags : ubyte 82 1.1 mrg { 83 1.1 mrg none = 0x0, 84 1.1 mrg keyHasPostblit = 0x1, 85 1.1 mrg hasPointers = 0x2, 86 1.1 mrg } 87 1.1 mrg 88 1.1 mrg @property size_t length() const pure nothrow @nogc 89 1.1 mrg { 90 1.1 mrg assert(used >= deleted); 91 1.1 mrg return used - deleted; 92 1.1 mrg } 93 1.1 mrg 94 1.1 mrg @property size_t dim() const pure nothrow @nogc @safe 95 1.1 mrg { 96 1.1 mrg return buckets.length; 97 1.1 mrg } 98 1.1 mrg 99 1.1 mrg @property size_t mask() const pure nothrow @nogc 100 1.1 mrg { 101 1.1 mrg return dim - 1; 102 1.1 mrg } 103 1.1 mrg 104 1.1 mrg // find the first slot to insert a value with hash 105 1.1 mrg inout(Bucket)* findSlotInsert(size_t hash) inout pure nothrow @nogc 106 1.1 mrg { 107 1.1 mrg for (size_t i = hash & mask, j = 1;; ++j) 108 1.1 mrg { 109 1.1 mrg if (!buckets[i].filled) 110 1.1 mrg return &buckets[i]; 111 1.1 mrg i = (i + j) & mask; 112 1.1 mrg } 113 1.1 mrg } 114 1.1 mrg 115 1.1 mrg // lookup a key 116 1.1.1.2 mrg inout(Bucket)* findSlotLookup(size_t hash, scope const void* pkey, scope const TypeInfo keyti) inout 117 1.1 mrg { 118 1.1 mrg for (size_t i = hash & mask, j = 1;; ++j) 119 1.1 mrg { 120 1.1 mrg if (buckets[i].hash == hash && keyti.equals(pkey, buckets[i].entry)) 121 1.1 mrg return &buckets[i]; 122 1.1 mrg else if (buckets[i].empty) 123 1.1 mrg return null; 124 1.1 mrg i = (i + j) & mask; 125 1.1 mrg } 126 1.1 mrg } 127 1.1 mrg 128 1.1.1.2 mrg void grow(scope const TypeInfo keyti) 129 1.1 mrg { 130 1.1 mrg // If there are so many deleted entries, that growing would push us 131 1.1 mrg // below the shrink threshold, we just purge deleted entries instead. 132 1.1 mrg if (length * SHRINK_DEN < GROW_FAC * dim * SHRINK_NUM) 133 1.1 mrg resize(dim); 134 1.1 mrg else 135 1.1 mrg resize(GROW_FAC * dim); 136 1.1 mrg } 137 1.1 mrg 138 1.1.1.2 mrg void shrink(scope const TypeInfo keyti) 139 1.1 mrg { 140 1.1 mrg if (dim > INIT_NUM_BUCKETS) 141 1.1 mrg resize(dim / GROW_FAC); 142 1.1 mrg } 143 1.1 mrg 144 1.1 mrg void resize(size_t ndim) pure nothrow 145 1.1 mrg { 146 1.1 mrg auto obuckets = buckets; 147 1.1 mrg buckets = allocBuckets(ndim); 148 1.1 mrg 149 1.1 mrg foreach (ref b; obuckets[firstUsed .. $]) 150 1.1 mrg if (b.filled) 151 1.1 mrg *findSlotInsert(b.hash) = b; 152 1.1 mrg 153 1.1 mrg firstUsed = 0; 154 1.1 mrg used -= deleted; 155 1.1 mrg deleted = 0; 156 1.1 mrg GC.free(obuckets.ptr); // safe to free b/c impossible to reference 157 1.1 mrg } 158 1.1 mrg 159 1.1 mrg void clear() pure nothrow 160 1.1 mrg { 161 1.1 mrg import core.stdc.string : memset; 162 1.1 mrg // clear all data, but don't change bucket array length 163 1.1 mrg memset(&buckets[firstUsed], 0, (buckets.length - firstUsed) * Bucket.sizeof); 164 1.1 mrg deleted = used = 0; 165 1.1 mrg firstUsed = cast(uint) dim; 166 1.1 mrg } 167 1.1 mrg } 168 1.1 mrg 169 1.1 mrg //============================================================================== 170 1.1 mrg // Bucket 171 1.1 mrg //------------------------------------------------------------------------------ 172 1.1 mrg 173 1.1 mrg private struct Bucket 174 1.1 mrg { 175 1.1 mrg private pure nothrow @nogc: 176 1.1 mrg size_t hash; 177 1.1 mrg void* entry; 178 1.1 mrg 179 1.1 mrg @property bool empty() const 180 1.1 mrg { 181 1.1 mrg return hash == HASH_EMPTY; 182 1.1 mrg } 183 1.1 mrg 184 1.1 mrg @property bool deleted() const 185 1.1 mrg { 186 1.1 mrg return hash == HASH_DELETED; 187 1.1 mrg } 188 1.1 mrg 189 1.1 mrg @property bool filled() const @safe 190 1.1 mrg { 191 1.1 mrg return cast(ptrdiff_t) hash < 0; 192 1.1 mrg } 193 1.1 mrg } 194 1.1 mrg 195 1.1 mrg Bucket[] allocBuckets(size_t dim) @trusted pure nothrow 196 1.1 mrg { 197 1.1 mrg enum attr = GC.BlkAttr.NO_INTERIOR; 198 1.1 mrg immutable sz = dim * Bucket.sizeof; 199 1.1 mrg return (cast(Bucket*) GC.calloc(sz, attr))[0 .. dim]; 200 1.1 mrg } 201 1.1 mrg 202 1.1 mrg //============================================================================== 203 1.1 mrg // Entry 204 1.1 mrg //------------------------------------------------------------------------------ 205 1.1 mrg 206 1.1.1.2 mrg private void* allocEntry(scope const Impl* aa, scope const void* pkey) 207 1.1 mrg { 208 1.1 mrg import rt.lifetime : _d_newitemU; 209 1.1 mrg import core.stdc.string : memcpy, memset; 210 1.1 mrg 211 1.1 mrg immutable akeysz = aa.valoff; 212 1.1 mrg void* res = void; 213 1.1 mrg if (aa.entryTI) 214 1.1 mrg res = _d_newitemU(aa.entryTI); 215 1.1 mrg else 216 1.1 mrg { 217 1.1 mrg auto flags = (aa.flags & Impl.Flags.hasPointers) ? 0 : GC.BlkAttr.NO_SCAN; 218 1.1 mrg res = GC.malloc(akeysz + aa.valsz, flags); 219 1.1 mrg } 220 1.1 mrg 221 1.1 mrg memcpy(res, pkey, aa.keysz); // copy key 222 1.1 mrg memset(res + akeysz, 0, aa.valsz); // zero value 223 1.1 mrg 224 1.1 mrg return res; 225 1.1 mrg } 226 1.1 mrg 227 1.1 mrg package void entryDtor(void* p, const TypeInfo_Struct sti) 228 1.1 mrg { 229 1.1 mrg // key and value type info stored after the TypeInfo_Struct by tiEntry() 230 1.1 mrg auto sizeti = __traits(classInstanceSize, TypeInfo_Struct); 231 1.1 mrg auto extra = cast(const(TypeInfo)*)(cast(void*) sti + sizeti); 232 1.1 mrg extra[0].destroy(p); 233 1.1 mrg extra[1].destroy(p + talign(extra[0].tsize, extra[1].talign)); 234 1.1 mrg } 235 1.1 mrg 236 1.1 mrg private bool hasDtor(const TypeInfo ti) 237 1.1 mrg { 238 1.1 mrg import rt.lifetime : unqualify; 239 1.1 mrg 240 1.1 mrg if (typeid(ti) is typeid(TypeInfo_Struct)) 241 1.1 mrg if ((cast(TypeInfo_Struct) cast(void*) ti).xdtor) 242 1.1 mrg return true; 243 1.1 mrg if (typeid(ti) is typeid(TypeInfo_StaticArray)) 244 1.1 mrg return hasDtor(unqualify(ti.next)); 245 1.1 mrg 246 1.1 mrg return false; 247 1.1 mrg } 248 1.1 mrg 249 1.1.1.2 mrg private immutable(void)* getRTInfo(const TypeInfo ti) 250 1.1.1.2 mrg { 251 1.1.1.2 mrg // classes are references 252 1.1.1.2 mrg const isNoClass = ti && typeid(ti) !is typeid(TypeInfo_Class); 253 1.1.1.2 mrg return isNoClass ? ti.rtInfo() : rtinfoHasPointers; 254 1.1.1.2 mrg } 255 1.1.1.2 mrg 256 1.1 mrg // build type info for Entry with additional key and value fields 257 1.1.1.2 mrg TypeInfo_Struct fakeEntryTI(ref Impl aa, const TypeInfo keyti, const TypeInfo valti) 258 1.1 mrg { 259 1.1 mrg import rt.lifetime : unqualify; 260 1.1 mrg 261 1.1 mrg auto kti = unqualify(keyti); 262 1.1 mrg auto vti = unqualify(valti); 263 1.1.1.2 mrg 264 1.1.1.2 mrg // figure out whether RTInfo has to be generated (indicated by rtisize > 0) 265 1.1.1.2 mrg enum pointersPerWord = 8 * (void*).sizeof * (void*).sizeof; 266 1.1.1.2 mrg auto rtinfo = rtinfoNoPointers; 267 1.1.1.2 mrg size_t rtisize = 0; 268 1.1.1.2 mrg immutable(size_t)* keyinfo = void; 269 1.1.1.2 mrg immutable(size_t)* valinfo = void; 270 1.1.1.2 mrg if (aa.flags & Impl.Flags.hasPointers) 271 1.1.1.2 mrg { 272 1.1.1.2 mrg // classes are references 273 1.1.1.2 mrg keyinfo = cast(immutable(size_t)*) getRTInfo(keyti); 274 1.1.1.2 mrg valinfo = cast(immutable(size_t)*) getRTInfo(valti); 275 1.1.1.2 mrg 276 1.1.1.2 mrg if (keyinfo is rtinfoHasPointers && valinfo is rtinfoHasPointers) 277 1.1.1.2 mrg rtinfo = rtinfoHasPointers; 278 1.1.1.2 mrg else 279 1.1.1.2 mrg rtisize = 1 + (aa.valoff + aa.valsz + pointersPerWord - 1) / pointersPerWord; 280 1.1.1.2 mrg } 281 1.1.1.2 mrg bool entryHasDtor = hasDtor(kti) || hasDtor(vti); 282 1.1.1.2 mrg if (rtisize == 0 && !entryHasDtor) 283 1.1 mrg return null; 284 1.1 mrg 285 1.1 mrg // save kti and vti after type info for struct 286 1.1 mrg enum sizeti = __traits(classInstanceSize, TypeInfo_Struct); 287 1.1.1.2 mrg void* p = GC.malloc(sizeti + (2 + rtisize) * (void*).sizeof); 288 1.1 mrg import core.stdc.string : memcpy; 289 1.1 mrg 290 1.1.1.2 mrg memcpy(p, __traits(initSymbol, TypeInfo_Struct).ptr, sizeti); 291 1.1 mrg 292 1.1 mrg auto ti = cast(TypeInfo_Struct) p; 293 1.1 mrg auto extra = cast(TypeInfo*)(p + sizeti); 294 1.1 mrg extra[0] = cast() kti; 295 1.1 mrg extra[1] = cast() vti; 296 1.1 mrg 297 1.1.1.2 mrg static immutable tiMangledName = "S2rt3aaA__T5EntryZ"; 298 1.1.1.2 mrg ti.mangledName = tiMangledName; 299 1.1.1.2 mrg 300 1.1.1.2 mrg ti.m_RTInfo = rtisize > 0 ? rtinfoEntry(aa, keyinfo, valinfo, cast(size_t*)(extra + 2), rtisize) : rtinfo; 301 1.1.1.2 mrg ti.m_flags = ti.m_RTInfo is rtinfoNoPointers ? cast(TypeInfo_Struct.StructFlags)0 : TypeInfo_Struct.StructFlags.hasPointers; 302 1.1 mrg 303 1.1 mrg // we don't expect the Entry objects to be used outside of this module, so we have control 304 1.1 mrg // over the non-usage of the callback methods and other entries and can keep these null 305 1.1 mrg // xtoHash, xopEquals, xopCmp, xtoString and xpostblit 306 1.1.1.2 mrg immutable entrySize = aa.valoff + aa.valsz; 307 1.1 mrg ti.m_init = (cast(ubyte*) null)[0 .. entrySize]; // init length, but not ptr 308 1.1 mrg 309 1.1.1.2 mrg if (entryHasDtor) 310 1.1.1.2 mrg { 311 1.1.1.2 mrg // xdtor needs to be built from the dtors of key and value for the GC 312 1.1.1.2 mrg ti.xdtorti = &entryDtor; 313 1.1.1.2 mrg ti.m_flags |= TypeInfo_Struct.StructFlags.isDynamicType; 314 1.1.1.2 mrg } 315 1.1 mrg 316 1.1 mrg ti.m_align = cast(uint) max(kti.talign, vti.talign); 317 1.1 mrg 318 1.1 mrg return ti; 319 1.1 mrg } 320 1.1 mrg 321 1.1.1.2 mrg // build appropriate RTInfo at runtime 322 1.1.1.2 mrg immutable(void)* rtinfoEntry(ref Impl aa, immutable(size_t)* keyinfo, immutable(size_t)* valinfo, size_t* rtinfoData, size_t rtinfoSize) 323 1.1.1.2 mrg { 324 1.1.1.2 mrg enum bitsPerWord = 8 * size_t.sizeof; 325 1.1.1.2 mrg 326 1.1.1.2 mrg rtinfoData[0] = aa.valoff + aa.valsz; 327 1.1.1.2 mrg rtinfoData[1..rtinfoSize] = 0; 328 1.1.1.2 mrg 329 1.1.1.2 mrg void copyKeyInfo(string src)() 330 1.1.1.2 mrg { 331 1.1.1.2 mrg size_t pos = 1; 332 1.1.1.2 mrg size_t keybits = aa.keysz / (void*).sizeof; 333 1.1.1.2 mrg while (keybits >= bitsPerWord) 334 1.1.1.2 mrg { 335 1.1.1.2 mrg rtinfoData[pos] = mixin(src); 336 1.1.1.2 mrg keybits -= bitsPerWord; 337 1.1.1.2 mrg pos++; 338 1.1.1.2 mrg } 339 1.1.1.2 mrg if (keybits > 0) 340 1.1.1.2 mrg rtinfoData[pos] = mixin(src) & ((cast(size_t) 1 << keybits) - 1); 341 1.1.1.2 mrg } 342 1.1.1.2 mrg 343 1.1.1.2 mrg if (keyinfo is rtinfoHasPointers) 344 1.1.1.2 mrg copyKeyInfo!"~cast(size_t) 0"(); 345 1.1.1.2 mrg else if (keyinfo !is rtinfoNoPointers) 346 1.1.1.2 mrg copyKeyInfo!"keyinfo[pos]"(); 347 1.1.1.2 mrg 348 1.1.1.2 mrg void copyValInfo(string src)() 349 1.1.1.2 mrg { 350 1.1.1.2 mrg size_t bitpos = aa.valoff / (void*).sizeof; 351 1.1.1.2 mrg size_t pos = 1; 352 1.1.1.2 mrg size_t dstpos = 1 + bitpos / bitsPerWord; 353 1.1.1.2 mrg size_t begoff = bitpos % bitsPerWord; 354 1.1.1.2 mrg size_t valbits = aa.valsz / (void*).sizeof; 355 1.1.1.2 mrg size_t endoff = (bitpos + valbits) % bitsPerWord; 356 1.1.1.2 mrg for (;;) 357 1.1.1.2 mrg { 358 1.1.1.2 mrg const bits = bitsPerWord - begoff; 359 1.1.1.2 mrg size_t s = mixin(src); 360 1.1.1.2 mrg rtinfoData[dstpos] |= s << begoff; 361 1.1.1.2 mrg if (begoff > 0 && valbits > bits) 362 1.1.1.2 mrg rtinfoData[dstpos+1] |= s >> bits; 363 1.1.1.2 mrg if (valbits < bitsPerWord) 364 1.1.1.2 mrg break; 365 1.1.1.2 mrg valbits -= bitsPerWord; 366 1.1.1.2 mrg dstpos++; 367 1.1.1.2 mrg pos++; 368 1.1.1.2 mrg } 369 1.1.1.2 mrg if (endoff > 0) 370 1.1.1.2 mrg rtinfoData[dstpos] &= ((cast(size_t) 1 << endoff) - 1); 371 1.1.1.2 mrg } 372 1.1.1.2 mrg 373 1.1.1.2 mrg if (valinfo is rtinfoHasPointers) 374 1.1.1.2 mrg copyValInfo!"~cast(size_t) 0"(); 375 1.1.1.2 mrg else if (valinfo !is rtinfoNoPointers) 376 1.1.1.2 mrg copyValInfo!"valinfo[pos]"(); 377 1.1.1.2 mrg 378 1.1.1.2 mrg return cast(immutable(void)*) rtinfoData; 379 1.1.1.2 mrg } 380 1.1.1.2 mrg 381 1.1.1.2 mrg unittest 382 1.1.1.2 mrg { 383 1.1.1.2 mrg void test(K, V)() 384 1.1.1.2 mrg { 385 1.1.1.2 mrg static struct Entry 386 1.1.1.2 mrg { 387 1.1.1.2 mrg K key; 388 1.1.1.2 mrg V val; 389 1.1.1.2 mrg } 390 1.1.1.2 mrg auto keyti = typeid(K); 391 1.1.1.2 mrg auto valti = typeid(V); 392 1.1.1.2 mrg auto valrti = getRTInfo(valti); 393 1.1.1.2 mrg auto keyrti = getRTInfo(keyti); 394 1.1.1.2 mrg 395 1.1.1.2 mrg auto impl = new Impl(typeid(V[K])); 396 1.1.1.2 mrg if (valrti is rtinfoNoPointers && keyrti is rtinfoNoPointers) 397 1.1.1.2 mrg { 398 1.1.1.2 mrg assert(!(impl.flags & Impl.Flags.hasPointers)); 399 1.1.1.2 mrg assert(impl.entryTI is null); 400 1.1.1.2 mrg } 401 1.1.1.2 mrg else if (valrti is rtinfoHasPointers && keyrti is rtinfoHasPointers) 402 1.1.1.2 mrg { 403 1.1.1.2 mrg assert(impl.flags & Impl.Flags.hasPointers); 404 1.1.1.2 mrg assert(impl.entryTI is null); 405 1.1.1.2 mrg } 406 1.1.1.2 mrg else 407 1.1.1.2 mrg { 408 1.1.1.2 mrg auto rtInfo = cast(size_t*) impl.entryTI.rtInfo(); 409 1.1.1.2 mrg auto refInfo = cast(size_t*) typeid(Entry).rtInfo(); 410 1.1.1.2 mrg assert(rtInfo[0] == refInfo[0]); // size 411 1.1.1.2 mrg enum bytesPerWord = 8 * size_t.sizeof * (void*).sizeof; 412 1.1.1.2 mrg size_t words = (rtInfo[0] + bytesPerWord - 1) / bytesPerWord; 413 1.1.1.2 mrg foreach (i; 0 .. words) 414 1.1.1.2 mrg assert(rtInfo[1 + i] == refInfo[i + 1]); 415 1.1.1.2 mrg } 416 1.1.1.2 mrg } 417 1.1.1.2 mrg test!(long, int)(); 418 1.1.1.2 mrg test!(string, string); 419 1.1.1.2 mrg test!(ubyte[16], Object); 420 1.1.1.2 mrg 421 1.1.1.2 mrg static struct Small 422 1.1.1.2 mrg { 423 1.1.1.2 mrg ubyte[16] guid; 424 1.1.1.2 mrg string name; 425 1.1.1.2 mrg } 426 1.1.1.2 mrg test!(string, Small); 427 1.1.1.2 mrg 428 1.1.1.2 mrg static struct Large 429 1.1.1.2 mrg { 430 1.1.1.2 mrg ubyte[1024] data; 431 1.1.1.2 mrg string[412] names; 432 1.1.1.2 mrg ubyte[1024] moredata; 433 1.1.1.2 mrg } 434 1.1.1.2 mrg test!(Large, Large); 435 1.1.1.2 mrg } 436 1.1.1.2 mrg 437 1.1 mrg //============================================================================== 438 1.1 mrg // Helper functions 439 1.1 mrg //------------------------------------------------------------------------------ 440 1.1 mrg 441 1.1 mrg private size_t talign(size_t tsize, size_t algn) @safe pure nothrow @nogc 442 1.1 mrg { 443 1.1 mrg immutable mask = algn - 1; 444 1.1 mrg assert(!(mask & algn)); 445 1.1 mrg return (tsize + mask) & ~mask; 446 1.1 mrg } 447 1.1 mrg 448 1.1 mrg // mix hash to "fix" bad hash functions 449 1.1 mrg private size_t mix(size_t h) @safe pure nothrow @nogc 450 1.1 mrg { 451 1.1 mrg // final mix function of MurmurHash2 452 1.1 mrg enum m = 0x5bd1e995; 453 1.1 mrg h ^= h >> 13; 454 1.1 mrg h *= m; 455 1.1 mrg h ^= h >> 15; 456 1.1 mrg return h; 457 1.1 mrg } 458 1.1 mrg 459 1.1.1.2 mrg private size_t calcHash(scope const void* pkey, scope const TypeInfo keyti) 460 1.1 mrg { 461 1.1 mrg immutable hash = keyti.getHash(pkey); 462 1.1 mrg // highest bit is set to distinguish empty/deleted from filled buckets 463 1.1 mrg return mix(hash) | HASH_FILLED_MARK; 464 1.1 mrg } 465 1.1 mrg 466 1.1.1.2 mrg private size_t nextpow2(const size_t n) pure nothrow @nogc 467 1.1 mrg { 468 1.1 mrg import core.bitop : bsr; 469 1.1 mrg 470 1.1 mrg if (!n) 471 1.1 mrg return 1; 472 1.1 mrg 473 1.1 mrg const isPowerOf2 = !((n - 1) & n); 474 1.1 mrg return 1 << (bsr(n) + !isPowerOf2); 475 1.1 mrg } 476 1.1 mrg 477 1.1 mrg pure nothrow @nogc unittest 478 1.1 mrg { 479 1.1 mrg // 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 480 1.1 mrg foreach (const n, const pow2; [1, 1, 2, 4, 4, 8, 8, 8, 8, 16]) 481 1.1 mrg assert(nextpow2(n) == pow2); 482 1.1 mrg } 483 1.1 mrg 484 1.1 mrg //============================================================================== 485 1.1 mrg // API Implementation 486 1.1 mrg //------------------------------------------------------------------------------ 487 1.1 mrg 488 1.1 mrg /// Determine number of entries in associative array. 489 1.1.1.2 mrg extern (C) size_t _aaLen(scope const AA aa) pure nothrow @nogc 490 1.1 mrg { 491 1.1 mrg return aa ? aa.length : 0; 492 1.1 mrg } 493 1.1 mrg 494 1.1 mrg /****************************** 495 1.1 mrg * Lookup *pkey in aa. 496 1.1 mrg * Called only from implementation of (aa[key]) expressions when value is mutable. 497 1.1 mrg * Params: 498 1.1.1.2 mrg * paa = associative array opaque pointer 499 1.1 mrg * ti = TypeInfo for the associative array 500 1.1 mrg * valsz = ignored 501 1.1 mrg * pkey = pointer to the key value 502 1.1 mrg * Returns: 503 1.1 mrg * if key was in the aa, a mutable pointer to the existing value. 504 1.1 mrg * If key was not in the aa, a mutable pointer to newly inserted value which 505 1.1 mrg * is set to all zeros 506 1.1 mrg */ 507 1.1.1.2 mrg extern (C) void* _aaGetY(scope AA* paa, const TypeInfo_AssociativeArray ti, 508 1.1.1.2 mrg const size_t valsz, scope const void* pkey) 509 1.1 mrg { 510 1.1 mrg bool found; 511 1.1.1.2 mrg return _aaGetX(paa, ti, valsz, pkey, found); 512 1.1 mrg } 513 1.1 mrg 514 1.1 mrg /****************************** 515 1.1 mrg * Lookup *pkey in aa. 516 1.1 mrg * Called only from implementation of require 517 1.1 mrg * Params: 518 1.1.1.2 mrg * paa = associative array opaque pointer 519 1.1 mrg * ti = TypeInfo for the associative array 520 1.1 mrg * valsz = ignored 521 1.1 mrg * pkey = pointer to the key value 522 1.1 mrg * found = true if the value was found 523 1.1 mrg * Returns: 524 1.1 mrg * if key was in the aa, a mutable pointer to the existing value. 525 1.1 mrg * If key was not in the aa, a mutable pointer to newly inserted value which 526 1.1 mrg * is set to all zeros 527 1.1 mrg */ 528 1.1.1.2 mrg extern (C) void* _aaGetX(scope AA* paa, const TypeInfo_AssociativeArray ti, 529 1.1.1.2 mrg const size_t valsz, scope const void* pkey, out bool found) 530 1.1 mrg { 531 1.1 mrg // lazily alloc implementation 532 1.1.1.2 mrg AA aa = *paa; 533 1.1.1.2 mrg if (aa is null) 534 1.1.1.2 mrg { 535 1.1.1.2 mrg aa = new Impl(ti); 536 1.1.1.2 mrg *paa = aa; 537 1.1.1.2 mrg } 538 1.1 mrg 539 1.1 mrg // get hash and bucket for key 540 1.1 mrg immutable hash = calcHash(pkey, ti.key); 541 1.1 mrg 542 1.1 mrg // found a value => return it 543 1.1 mrg if (auto p = aa.findSlotLookup(hash, pkey, ti.key)) 544 1.1 mrg { 545 1.1 mrg found = true; 546 1.1 mrg return p.entry + aa.valoff; 547 1.1 mrg } 548 1.1 mrg 549 1.1 mrg auto p = aa.findSlotInsert(hash); 550 1.1 mrg if (p.deleted) 551 1.1 mrg --aa.deleted; 552 1.1 mrg // check load factor and possibly grow 553 1.1 mrg else if (++aa.used * GROW_DEN > aa.dim * GROW_NUM) 554 1.1 mrg { 555 1.1 mrg aa.grow(ti.key); 556 1.1 mrg p = aa.findSlotInsert(hash); 557 1.1 mrg assert(p.empty); 558 1.1 mrg } 559 1.1 mrg 560 1.1 mrg // update search cache and allocate entry 561 1.1 mrg aa.firstUsed = min(aa.firstUsed, cast(uint)(p - aa.buckets.ptr)); 562 1.1 mrg p.hash = hash; 563 1.1.1.2 mrg p.entry = allocEntry(aa, pkey); 564 1.1 mrg // postblit for key 565 1.1 mrg if (aa.flags & Impl.Flags.keyHasPostblit) 566 1.1 mrg { 567 1.1 mrg import rt.lifetime : __doPostblit, unqualify; 568 1.1 mrg 569 1.1 mrg __doPostblit(p.entry, aa.keysz, unqualify(ti.key)); 570 1.1 mrg } 571 1.1 mrg // return pointer to value 572 1.1 mrg return p.entry + aa.valoff; 573 1.1 mrg } 574 1.1 mrg 575 1.1 mrg /****************************** 576 1.1 mrg * Lookup *pkey in aa. 577 1.1 mrg * Called only from implementation of (aa[key]) expressions when value is not mutable. 578 1.1 mrg * Params: 579 1.1 mrg * aa = associative array opaque pointer 580 1.1 mrg * keyti = TypeInfo for the key 581 1.1 mrg * valsz = ignored 582 1.1 mrg * pkey = pointer to the key value 583 1.1 mrg * Returns: 584 1.1 mrg * pointer to value if present, null otherwise 585 1.1 mrg */ 586 1.1.1.2 mrg extern (C) inout(void)* _aaGetRvalueX(inout AA aa, scope const TypeInfo keyti, const size_t valsz, 587 1.1.1.2 mrg scope const void* pkey) 588 1.1 mrg { 589 1.1 mrg return _aaInX(aa, keyti, pkey); 590 1.1 mrg } 591 1.1 mrg 592 1.1 mrg /****************************** 593 1.1 mrg * Lookup *pkey in aa. 594 1.1 mrg * Called only from implementation of (key in aa) expressions. 595 1.1 mrg * Params: 596 1.1 mrg * aa = associative array opaque pointer 597 1.1 mrg * keyti = TypeInfo for the key 598 1.1 mrg * pkey = pointer to the key value 599 1.1 mrg * Returns: 600 1.1 mrg * pointer to value if present, null otherwise 601 1.1 mrg */ 602 1.1.1.2 mrg extern (C) inout(void)* _aaInX(inout AA aa, scope const TypeInfo keyti, scope const void* pkey) 603 1.1 mrg { 604 1.1 mrg if (aa.empty) 605 1.1 mrg return null; 606 1.1 mrg 607 1.1 mrg immutable hash = calcHash(pkey, keyti); 608 1.1 mrg if (auto p = aa.findSlotLookup(hash, pkey, keyti)) 609 1.1 mrg return p.entry + aa.valoff; 610 1.1 mrg return null; 611 1.1 mrg } 612 1.1 mrg 613 1.1.1.2 mrg /// Delete entry scope const AA, return true if it was present 614 1.1.1.2 mrg extern (C) bool _aaDelX(AA aa, scope const TypeInfo keyti, scope const void* pkey) 615 1.1 mrg { 616 1.1 mrg if (aa.empty) 617 1.1 mrg return false; 618 1.1 mrg 619 1.1 mrg immutable hash = calcHash(pkey, keyti); 620 1.1 mrg if (auto p = aa.findSlotLookup(hash, pkey, keyti)) 621 1.1 mrg { 622 1.1 mrg // clear entry 623 1.1 mrg p.hash = HASH_DELETED; 624 1.1 mrg p.entry = null; 625 1.1 mrg 626 1.1 mrg ++aa.deleted; 627 1.1.1.2 mrg // `shrink` reallocates, and allocating from a finalizer leads to 628 1.1.1.2 mrg // InvalidMemoryError: https://issues.dlang.org/show_bug.cgi?id=21442 629 1.1.1.2 mrg if (aa.length * SHRINK_DEN < aa.dim * SHRINK_NUM && !GC.inFinalizer()) 630 1.1 mrg aa.shrink(keyti); 631 1.1 mrg 632 1.1 mrg return true; 633 1.1 mrg } 634 1.1 mrg return false; 635 1.1 mrg } 636 1.1 mrg 637 1.1 mrg /// Remove all elements from AA. 638 1.1 mrg extern (C) void _aaClear(AA aa) pure nothrow 639 1.1 mrg { 640 1.1 mrg if (!aa.empty) 641 1.1 mrg { 642 1.1.1.2 mrg aa.clear(); 643 1.1 mrg } 644 1.1 mrg } 645 1.1 mrg 646 1.1 mrg /// Rehash AA 647 1.1.1.2 mrg extern (C) void* _aaRehash(AA* paa, scope const TypeInfo keyti) pure nothrow 648 1.1 mrg { 649 1.1.1.2 mrg AA aa = *paa; 650 1.1.1.2 mrg if (!aa.empty) 651 1.1.1.2 mrg aa.resize(nextpow2(INIT_DEN * aa.length / INIT_NUM)); 652 1.1.1.2 mrg return aa; 653 1.1 mrg } 654 1.1 mrg 655 1.1 mrg /// Return a GC allocated array of all values 656 1.1.1.2 mrg extern (C) inout(void[]) _aaValues(inout AA aa, const size_t keysz, const size_t valsz, 657 1.1 mrg const TypeInfo tiValueArray) pure nothrow 658 1.1 mrg { 659 1.1 mrg if (aa.empty) 660 1.1 mrg return null; 661 1.1 mrg 662 1.1 mrg import rt.lifetime : _d_newarrayU; 663 1.1 mrg 664 1.1 mrg auto res = _d_newarrayU(tiValueArray, aa.length).ptr; 665 1.1 mrg auto pval = res; 666 1.1 mrg 667 1.1 mrg immutable off = aa.valoff; 668 1.1 mrg foreach (b; aa.buckets[aa.firstUsed .. $]) 669 1.1 mrg { 670 1.1 mrg if (!b.filled) 671 1.1 mrg continue; 672 1.1 mrg pval[0 .. valsz] = b.entry[off .. valsz + off]; 673 1.1 mrg pval += valsz; 674 1.1 mrg } 675 1.1 mrg // postblit is done in object.values 676 1.1 mrg return (cast(inout(void)*) res)[0 .. aa.length]; // fake length, return number of elements 677 1.1 mrg } 678 1.1 mrg 679 1.1 mrg /// Return a GC allocated array of all keys 680 1.1.1.2 mrg extern (C) inout(void[]) _aaKeys(inout AA aa, const size_t keysz, const TypeInfo tiKeyArray) pure nothrow 681 1.1 mrg { 682 1.1 mrg if (aa.empty) 683 1.1 mrg return null; 684 1.1 mrg 685 1.1 mrg import rt.lifetime : _d_newarrayU; 686 1.1 mrg 687 1.1 mrg auto res = _d_newarrayU(tiKeyArray, aa.length).ptr; 688 1.1 mrg auto pkey = res; 689 1.1 mrg 690 1.1 mrg foreach (b; aa.buckets[aa.firstUsed .. $]) 691 1.1 mrg { 692 1.1 mrg if (!b.filled) 693 1.1 mrg continue; 694 1.1 mrg pkey[0 .. keysz] = b.entry[0 .. keysz]; 695 1.1 mrg pkey += keysz; 696 1.1 mrg } 697 1.1 mrg // postblit is done in object.keys 698 1.1 mrg return (cast(inout(void)*) res)[0 .. aa.length]; // fake length, return number of elements 699 1.1 mrg } 700 1.1 mrg 701 1.1 mrg // opApply callbacks are extern(D) 702 1.1 mrg extern (D) alias dg_t = int delegate(void*); 703 1.1 mrg extern (D) alias dg2_t = int delegate(void*, void*); 704 1.1 mrg 705 1.1 mrg /// foreach opApply over all values 706 1.1.1.2 mrg extern (C) int _aaApply(AA aa, const size_t keysz, dg_t dg) 707 1.1 mrg { 708 1.1 mrg if (aa.empty) 709 1.1 mrg return 0; 710 1.1 mrg 711 1.1 mrg immutable off = aa.valoff; 712 1.1 mrg foreach (b; aa.buckets) 713 1.1 mrg { 714 1.1 mrg if (!b.filled) 715 1.1 mrg continue; 716 1.1 mrg if (auto res = dg(b.entry + off)) 717 1.1 mrg return res; 718 1.1 mrg } 719 1.1 mrg return 0; 720 1.1 mrg } 721 1.1 mrg 722 1.1 mrg /// foreach opApply over all key/value pairs 723 1.1.1.2 mrg extern (C) int _aaApply2(AA aa, const size_t keysz, dg2_t dg) 724 1.1 mrg { 725 1.1 mrg if (aa.empty) 726 1.1 mrg return 0; 727 1.1 mrg 728 1.1 mrg immutable off = aa.valoff; 729 1.1 mrg foreach (b; aa.buckets) 730 1.1 mrg { 731 1.1 mrg if (!b.filled) 732 1.1 mrg continue; 733 1.1 mrg if (auto res = dg(b.entry, b.entry + off)) 734 1.1 mrg return res; 735 1.1 mrg } 736 1.1 mrg return 0; 737 1.1 mrg } 738 1.1 mrg 739 1.1 mrg /// Construct an associative array of type ti from keys and value 740 1.1 mrg extern (C) Impl* _d_assocarrayliteralTX(const TypeInfo_AssociativeArray ti, void[] keys, 741 1.1 mrg void[] vals) 742 1.1 mrg { 743 1.1 mrg assert(keys.length == vals.length); 744 1.1 mrg 745 1.1 mrg immutable keysz = ti.key.tsize; 746 1.1 mrg immutable valsz = ti.value.tsize; 747 1.1 mrg immutable length = keys.length; 748 1.1 mrg 749 1.1 mrg if (!length) 750 1.1 mrg return null; 751 1.1 mrg 752 1.1 mrg auto aa = new Impl(ti, nextpow2(INIT_DEN * length / INIT_NUM)); 753 1.1 mrg 754 1.1 mrg void* pkey = keys.ptr; 755 1.1 mrg void* pval = vals.ptr; 756 1.1 mrg immutable off = aa.valoff; 757 1.1 mrg uint actualLength = 0; 758 1.1 mrg foreach (_; 0 .. length) 759 1.1 mrg { 760 1.1 mrg immutable hash = calcHash(pkey, ti.key); 761 1.1 mrg 762 1.1 mrg auto p = aa.findSlotLookup(hash, pkey, ti.key); 763 1.1 mrg if (p is null) 764 1.1 mrg { 765 1.1 mrg p = aa.findSlotInsert(hash); 766 1.1 mrg p.hash = hash; 767 1.1 mrg p.entry = allocEntry(aa, pkey); // move key, no postblit 768 1.1 mrg aa.firstUsed = min(aa.firstUsed, cast(uint)(p - aa.buckets.ptr)); 769 1.1 mrg actualLength++; 770 1.1 mrg } 771 1.1 mrg else if (aa.entryTI && hasDtor(ti.value)) 772 1.1 mrg { 773 1.1 mrg // destroy existing value before overwriting it 774 1.1 mrg ti.value.destroy(p.entry + off); 775 1.1 mrg } 776 1.1 mrg // set hash and blit value 777 1.1 mrg auto pdst = p.entry + off; 778 1.1 mrg pdst[0 .. valsz] = pval[0 .. valsz]; // move value, no postblit 779 1.1 mrg 780 1.1 mrg pkey += keysz; 781 1.1 mrg pval += valsz; 782 1.1 mrg } 783 1.1 mrg aa.used = actualLength; 784 1.1 mrg return aa; 785 1.1 mrg } 786 1.1 mrg 787 1.1 mrg /// compares 2 AAs for equality 788 1.1.1.2 mrg extern (C) int _aaEqual(scope const TypeInfo tiRaw, scope const AA aa1, scope const AA aa2) 789 1.1 mrg { 790 1.1.1.2 mrg if (aa1 is aa2) 791 1.1 mrg return true; 792 1.1 mrg 793 1.1 mrg immutable len = _aaLen(aa1); 794 1.1 mrg if (len != _aaLen(aa2)) 795 1.1 mrg return false; 796 1.1 mrg 797 1.1 mrg if (!len) // both empty 798 1.1 mrg return true; 799 1.1 mrg 800 1.1 mrg import rt.lifetime : unqualify; 801 1.1 mrg 802 1.1 mrg auto uti = unqualify(tiRaw); 803 1.1 mrg auto ti = *cast(TypeInfo_AssociativeArray*)&uti; 804 1.1 mrg // compare the entries 805 1.1 mrg immutable off = aa1.valoff; 806 1.1 mrg foreach (b1; aa1.buckets) 807 1.1 mrg { 808 1.1 mrg if (!b1.filled) 809 1.1 mrg continue; 810 1.1 mrg auto pb2 = aa2.findSlotLookup(b1.hash, b1.entry, ti.key); 811 1.1 mrg if (pb2 is null || !ti.value.equals(b1.entry + off, pb2.entry + off)) 812 1.1 mrg return false; 813 1.1 mrg } 814 1.1 mrg return true; 815 1.1 mrg } 816 1.1 mrg 817 1.1 mrg /// compute a hash 818 1.1.1.2 mrg extern (C) hash_t _aaGetHash(scope const AA* paa, scope const TypeInfo tiRaw) nothrow 819 1.1 mrg { 820 1.1.1.2 mrg const AA aa = *paa; 821 1.1.1.2 mrg 822 1.1 mrg if (aa.empty) 823 1.1 mrg return 0; 824 1.1 mrg 825 1.1 mrg import rt.lifetime : unqualify; 826 1.1 mrg 827 1.1 mrg auto uti = unqualify(tiRaw); 828 1.1 mrg auto ti = *cast(TypeInfo_AssociativeArray*)&uti; 829 1.1 mrg immutable off = aa.valoff; 830 1.1 mrg auto keyHash = &ti.key.getHash; 831 1.1 mrg auto valHash = &ti.value.getHash; 832 1.1 mrg 833 1.1 mrg size_t h; 834 1.1 mrg foreach (b; aa.buckets) 835 1.1 mrg { 836 1.1 mrg // use addition here, so that hash is independent of element order 837 1.1.1.2 mrg if (b.filled) 838 1.1.1.2 mrg h += hashOf(valHash(b.entry + off), keyHash(b.entry)); 839 1.1 mrg } 840 1.1 mrg 841 1.1 mrg return h; 842 1.1 mrg } 843 1.1 mrg 844 1.1 mrg /** 845 1.1 mrg * _aaRange implements a ForwardRange 846 1.1 mrg */ 847 1.1 mrg struct Range 848 1.1 mrg { 849 1.1 mrg Impl* impl; 850 1.1 mrg size_t idx; 851 1.1 mrg alias impl this; 852 1.1 mrg } 853 1.1 mrg 854 1.1 mrg extern (C) pure nothrow @nogc @safe 855 1.1 mrg { 856 1.1.1.2 mrg Range _aaRange(return scope AA aa) 857 1.1 mrg { 858 1.1 mrg if (!aa) 859 1.1 mrg return Range(); 860 1.1 mrg 861 1.1 mrg foreach (i; aa.firstUsed .. aa.dim) 862 1.1 mrg { 863 1.1 mrg if (aa.buckets[i].filled) 864 1.1.1.2 mrg return Range(aa, i); 865 1.1 mrg } 866 1.1 mrg return Range(aa, aa.dim); 867 1.1 mrg } 868 1.1 mrg 869 1.1 mrg bool _aaRangeEmpty(Range r) 870 1.1 mrg { 871 1.1 mrg return r.impl is null || r.idx >= r.dim; 872 1.1 mrg } 873 1.1 mrg 874 1.1 mrg void* _aaRangeFrontKey(Range r) 875 1.1 mrg { 876 1.1 mrg assert(!_aaRangeEmpty(r)); 877 1.1 mrg if (r.idx >= r.dim) 878 1.1 mrg return null; 879 1.1 mrg return r.buckets[r.idx].entry; 880 1.1 mrg } 881 1.1 mrg 882 1.1 mrg void* _aaRangeFrontValue(Range r) 883 1.1 mrg { 884 1.1 mrg assert(!_aaRangeEmpty(r)); 885 1.1 mrg if (r.idx >= r.dim) 886 1.1 mrg return null; 887 1.1 mrg 888 1.1 mrg auto entry = r.buckets[r.idx].entry; 889 1.1 mrg return entry is null ? 890 1.1 mrg null : 891 1.1 mrg (() @trusted { return entry + r.valoff; } ()); 892 1.1 mrg } 893 1.1 mrg 894 1.1 mrg void _aaRangePopFront(ref Range r) 895 1.1 mrg { 896 1.1 mrg if (r.idx >= r.dim) return; 897 1.1 mrg for (++r.idx; r.idx < r.dim; ++r.idx) 898 1.1 mrg { 899 1.1 mrg if (r.buckets[r.idx].filled) 900 1.1 mrg break; 901 1.1 mrg } 902 1.1 mrg } 903 1.1 mrg } 904 1.1 mrg 905 1.1.1.2 mrg // Most tests are now in test_aa.d 906 1.1 mrg 907 1.1 mrg // test postblit for AA literals 908 1.1 mrg unittest 909 1.1 mrg { 910 1.1 mrg static struct T 911 1.1 mrg { 912 1.1 mrg ubyte field; 913 1.1 mrg static size_t postblit, dtor; 914 1.1 mrg this(this) 915 1.1 mrg { 916 1.1 mrg ++postblit; 917 1.1 mrg } 918 1.1 mrg 919 1.1 mrg ~this() 920 1.1 mrg { 921 1.1 mrg ++dtor; 922 1.1 mrg } 923 1.1 mrg } 924 1.1 mrg 925 1.1 mrg T t; 926 1.1 mrg auto aa1 = [0 : t, 1 : t]; 927 1.1 mrg assert(T.dtor == 0 && T.postblit == 2); 928 1.1 mrg aa1[0] = t; 929 1.1 mrg assert(T.dtor == 1 && T.postblit == 3); 930 1.1 mrg 931 1.1 mrg T.dtor = 0; 932 1.1 mrg T.postblit = 0; 933 1.1 mrg 934 1.1 mrg auto aa2 = [0 : t, 1 : t, 0 : t]; // literal with duplicate key => value overwritten 935 1.1 mrg assert(T.dtor == 1 && T.postblit == 3); 936 1.1 mrg 937 1.1 mrg T.dtor = 0; 938 1.1 mrg T.postblit = 0; 939 1.1 mrg 940 1.1 mrg auto aa3 = [t : 0]; 941 1.1 mrg assert(T.dtor == 0 && T.postblit == 1); 942 1.1 mrg aa3[t] = 1; 943 1.1 mrg assert(T.dtor == 0 && T.postblit == 1); 944 1.1 mrg aa3.remove(t); 945 1.1 mrg assert(T.dtor == 0 && T.postblit == 1); 946 1.1 mrg aa3[t] = 2; 947 1.1 mrg assert(T.dtor == 0 && T.postblit == 2); 948 1.1 mrg 949 1.1 mrg // dtor will be called by GC finalizers 950 1.1 mrg aa1 = null; 951 1.1 mrg aa2 = null; 952 1.1 mrg aa3 = null; 953 1.1 mrg GC.runFinalizers((cast(char*)(&entryDtor))[0 .. 1]); 954 1.1 mrg assert(T.dtor == 6 && T.postblit == 2); 955 1.1 mrg } 956
Indexes created Fri May 01 00:23:41 UTC 2026