| /** |
| * Implementation of associative arrays. |
| * |
| * Copyright: Copyright Digital Mars 2000 - 2015. |
| * License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0). |
| * Authors: Martin Nowak |
| */ |
| module rt.aaA; |
| |
| /// AA version for debuggers, bump whenever changing the layout |
| extern (C) immutable int _aaVersion = 1; |
| |
| import core.memory : GC; |
| |
| // grow threshold |
| private enum GROW_NUM = 4; |
| private enum GROW_DEN = 5; |
| // shrink threshold |
| private enum SHRINK_NUM = 1; |
| private enum SHRINK_DEN = 8; |
| // grow factor |
| private enum GROW_FAC = 4; |
| // growing the AA doubles it's size, so the shrink threshold must be |
| // smaller than half the grow threshold to have a hysteresis |
| static assert(GROW_FAC * SHRINK_NUM * GROW_DEN < GROW_NUM * SHRINK_DEN); |
| // initial load factor (for literals), mean of both thresholds |
| private enum INIT_NUM = (GROW_DEN * SHRINK_NUM + GROW_NUM * SHRINK_DEN) / 2; |
| private enum INIT_DEN = SHRINK_DEN * GROW_DEN; |
| |
| private enum INIT_NUM_BUCKETS = 8; |
| // magic hash constants to distinguish empty, deleted, and filled buckets |
| private enum HASH_EMPTY = 0; |
| private enum HASH_DELETED = 0x1; |
| private enum HASH_FILLED_MARK = size_t(1) << 8 * size_t.sizeof - 1; |
| |
| /// Opaque AA wrapper |
| struct AA |
| { |
| Impl* impl; |
| alias impl this; |
| |
| private @property bool empty() const pure nothrow @nogc |
| { |
| return impl is null || !impl.length; |
| } |
| } |
| |
| private struct Impl |
| { |
| private: |
| this(in TypeInfo_AssociativeArray ti, size_t sz = INIT_NUM_BUCKETS) |
| { |
| keysz = cast(uint) ti.key.tsize; |
| valsz = cast(uint) ti.value.tsize; |
| buckets = allocBuckets(sz); |
| firstUsed = cast(uint) buckets.length; |
| entryTI = fakeEntryTI(ti.key, ti.value); |
| valoff = cast(uint) talign(keysz, ti.value.talign); |
| |
| import rt.lifetime : hasPostblit, unqualify; |
| |
| if (hasPostblit(unqualify(ti.key))) |
| flags |= Flags.keyHasPostblit; |
| if ((ti.key.flags | ti.value.flags) & 1) |
| flags |= Flags.hasPointers; |
| } |
| |
| Bucket[] buckets; |
| uint used; |
| uint deleted; |
| TypeInfo_Struct entryTI; |
| uint firstUsed; |
| immutable uint keysz; |
| immutable uint valsz; |
| immutable uint valoff; |
| Flags flags; |
| |
| enum Flags : ubyte |
| { |
| none = 0x0, |
| keyHasPostblit = 0x1, |
| hasPointers = 0x2, |
| } |
| |
| @property size_t length() const pure nothrow @nogc |
| { |
| assert(used >= deleted); |
| return used - deleted; |
| } |
| |
| @property size_t dim() const pure nothrow @nogc @safe |
| { |
| return buckets.length; |
| } |
| |
| @property size_t mask() const pure nothrow @nogc |
| { |
| return dim - 1; |
| } |
| |
| // find the first slot to insert a value with hash |
| inout(Bucket)* findSlotInsert(size_t hash) inout pure nothrow @nogc |
| { |
| for (size_t i = hash & mask, j = 1;; ++j) |
| { |
| if (!buckets[i].filled) |
| return &buckets[i]; |
| i = (i + j) & mask; |
| } |
| } |
| |
| // lookup a key |
| inout(Bucket)* findSlotLookup(size_t hash, in void* pkey, in TypeInfo keyti) inout |
| { |
| for (size_t i = hash & mask, j = 1;; ++j) |
| { |
| if (buckets[i].hash == hash && keyti.equals(pkey, buckets[i].entry)) |
| return &buckets[i]; |
| else if (buckets[i].empty) |
| return null; |
| i = (i + j) & mask; |
| } |
| } |
| |
| void grow(in TypeInfo keyti) |
| { |
| // If there are so many deleted entries, that growing would push us |
| // below the shrink threshold, we just purge deleted entries instead. |
| if (length * SHRINK_DEN < GROW_FAC * dim * SHRINK_NUM) |
| resize(dim); |
| else |
| resize(GROW_FAC * dim); |
| } |
| |
| void shrink(in TypeInfo keyti) |
| { |
| if (dim > INIT_NUM_BUCKETS) |
| resize(dim / GROW_FAC); |
| } |
| |
| void resize(size_t ndim) pure nothrow |
| { |
| auto obuckets = buckets; |
| buckets = allocBuckets(ndim); |
| |
| foreach (ref b; obuckets[firstUsed .. $]) |
| if (b.filled) |
| *findSlotInsert(b.hash) = b; |
| |
| firstUsed = 0; |
| used -= deleted; |
| deleted = 0; |
| GC.free(obuckets.ptr); // safe to free b/c impossible to reference |
| } |
| |
| void clear() pure nothrow |
| { |
| import core.stdc.string : memset; |
| // clear all data, but don't change bucket array length |
| memset(&buckets[firstUsed], 0, (buckets.length - firstUsed) * Bucket.sizeof); |
| deleted = used = 0; |
| firstUsed = cast(uint) dim; |
| } |
| } |
| |
| //============================================================================== |
| // Bucket |
| //------------------------------------------------------------------------------ |
| |
| private struct Bucket |
| { |
| private pure nothrow @nogc: |
| size_t hash; |
| void* entry; |
| |
| @property bool empty() const |
| { |
| return hash == HASH_EMPTY; |
| } |
| |
| @property bool deleted() const |
| { |
| return hash == HASH_DELETED; |
| } |
| |
| @property bool filled() const @safe |
| { |
| return cast(ptrdiff_t) hash < 0; |
| } |
| } |
| |
| Bucket[] allocBuckets(size_t dim) @trusted pure nothrow |
| { |
| enum attr = GC.BlkAttr.NO_INTERIOR; |
| immutable sz = dim * Bucket.sizeof; |
| return (cast(Bucket*) GC.calloc(sz, attr))[0 .. dim]; |
| } |
| |
| //============================================================================== |
| // Entry |
| //------------------------------------------------------------------------------ |
| |
| private void* allocEntry(in Impl* aa, in void* pkey) |
| { |
| import rt.lifetime : _d_newitemU; |
| import core.stdc.string : memcpy, memset; |
| |
| immutable akeysz = aa.valoff; |
| void* res = void; |
| if (aa.entryTI) |
| res = _d_newitemU(aa.entryTI); |
| else |
| { |
| auto flags = (aa.flags & Impl.Flags.hasPointers) ? 0 : GC.BlkAttr.NO_SCAN; |
| res = GC.malloc(akeysz + aa.valsz, flags); |
| } |
| |
| memcpy(res, pkey, aa.keysz); // copy key |
| memset(res + akeysz, 0, aa.valsz); // zero value |
| |
| return res; |
| } |
| |
| package void entryDtor(void* p, const TypeInfo_Struct sti) |
| { |
| // key and value type info stored after the TypeInfo_Struct by tiEntry() |
| auto sizeti = __traits(classInstanceSize, TypeInfo_Struct); |
| auto extra = cast(const(TypeInfo)*)(cast(void*) sti + sizeti); |
| extra[0].destroy(p); |
| extra[1].destroy(p + talign(extra[0].tsize, extra[1].talign)); |
| } |
| |
| private bool hasDtor(const TypeInfo ti) |
| { |
| import rt.lifetime : unqualify; |
| |
| if (typeid(ti) is typeid(TypeInfo_Struct)) |
| if ((cast(TypeInfo_Struct) cast(void*) ti).xdtor) |
| return true; |
| if (typeid(ti) is typeid(TypeInfo_StaticArray)) |
| return hasDtor(unqualify(ti.next)); |
| |
| return false; |
| } |
| |
| // build type info for Entry with additional key and value fields |
| TypeInfo_Struct fakeEntryTI(const TypeInfo keyti, const TypeInfo valti) |
| { |
| import rt.lifetime : unqualify; |
| |
| auto kti = unqualify(keyti); |
| auto vti = unqualify(valti); |
| if (!hasDtor(kti) && !hasDtor(vti)) |
| return null; |
| |
| // save kti and vti after type info for struct |
| enum sizeti = __traits(classInstanceSize, TypeInfo_Struct); |
| void* p = GC.malloc(sizeti + 2 * (void*).sizeof); |
| import core.stdc.string : memcpy; |
| |
| memcpy(p, typeid(TypeInfo_Struct).initializer().ptr, sizeti); |
| |
| auto ti = cast(TypeInfo_Struct) p; |
| auto extra = cast(TypeInfo*)(p + sizeti); |
| extra[0] = cast() kti; |
| extra[1] = cast() vti; |
| |
| static immutable tiName = __MODULE__ ~ ".Entry!(...)"; |
| ti.name = tiName; |
| |
| // we don't expect the Entry objects to be used outside of this module, so we have control |
| // over the non-usage of the callback methods and other entries and can keep these null |
| // xtoHash, xopEquals, xopCmp, xtoString and xpostblit |
| ti.m_RTInfo = rtinfoNoPointers; |
| immutable entrySize = talign(kti.tsize, vti.talign) + vti.tsize; |
| ti.m_init = (cast(ubyte*) null)[0 .. entrySize]; // init length, but not ptr |
| |
| // xdtor needs to be built from the dtors of key and value for the GC |
| ti.xdtorti = &entryDtor; |
| |
| ti.m_flags = TypeInfo_Struct.StructFlags.isDynamicType; |
| ti.m_flags |= (keyti.flags | valti.flags) & TypeInfo_Struct.StructFlags.hasPointers; |
| ti.m_align = cast(uint) max(kti.talign, vti.talign); |
| |
| return ti; |
| } |
| |
| //============================================================================== |
| // Helper functions |
| //------------------------------------------------------------------------------ |
| |
| private size_t talign(size_t tsize, size_t algn) @safe pure nothrow @nogc |
| { |
| immutable mask = algn - 1; |
| assert(!(mask & algn)); |
| return (tsize + mask) & ~mask; |
| } |
| |
| // mix hash to "fix" bad hash functions |
| private size_t mix(size_t h) @safe pure nothrow @nogc |
| { |
| // final mix function of MurmurHash2 |
| enum m = 0x5bd1e995; |
| h ^= h >> 13; |
| h *= m; |
| h ^= h >> 15; |
| return h; |
| } |
| |
| private size_t calcHash(in void* pkey, in TypeInfo keyti) |
| { |
| immutable hash = keyti.getHash(pkey); |
| // highest bit is set to distinguish empty/deleted from filled buckets |
| return mix(hash) | HASH_FILLED_MARK; |
| } |
| |
| private size_t nextpow2(in size_t n) pure nothrow @nogc |
| { |
| import core.bitop : bsr; |
| |
| if (!n) |
| return 1; |
| |
| const isPowerOf2 = !((n - 1) & n); |
| return 1 << (bsr(n) + !isPowerOf2); |
| } |
| |
| pure nothrow @nogc unittest |
| { |
| // 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 |
| foreach (const n, const pow2; [1, 1, 2, 4, 4, 8, 8, 8, 8, 16]) |
| assert(nextpow2(n) == pow2); |
| } |
| |
| private T min(T)(T a, T b) pure nothrow @nogc |
| { |
| return a < b ? a : b; |
| } |
| |
| private T max(T)(T a, T b) pure nothrow @nogc |
| { |
| return b < a ? a : b; |
| } |
| |
| //============================================================================== |
| // API Implementation |
| //------------------------------------------------------------------------------ |
| |
| /// Determine number of entries in associative array. |
| extern (C) size_t _aaLen(in AA aa) pure nothrow @nogc |
| { |
| return aa ? aa.length : 0; |
| } |
| |
| /****************************** |
| * Lookup *pkey in aa. |
| * Called only from implementation of (aa[key]) expressions when value is mutable. |
| * Params: |
| * aa = associative array opaque pointer |
| * ti = TypeInfo for the associative array |
| * valsz = ignored |
| * pkey = pointer to the key value |
| * Returns: |
| * if key was in the aa, a mutable pointer to the existing value. |
| * If key was not in the aa, a mutable pointer to newly inserted value which |
| * is set to all zeros |
| */ |
| extern (C) void* _aaGetY(AA* aa, const TypeInfo_AssociativeArray ti, |
| in size_t valsz, in void* pkey) |
| { |
| bool found; |
| return _aaGetX(aa, ti, valsz, pkey, found); |
| } |
| |
| /****************************** |
| * Lookup *pkey in aa. |
| * Called only from implementation of require |
| * Params: |
| * aa = associative array opaque pointer |
| * ti = TypeInfo for the associative array |
| * valsz = ignored |
| * pkey = pointer to the key value |
| * found = true if the value was found |
| * Returns: |
| * if key was in the aa, a mutable pointer to the existing value. |
| * If key was not in the aa, a mutable pointer to newly inserted value which |
| * is set to all zeros |
| */ |
| extern (C) void* _aaGetX(AA* aa, const TypeInfo_AssociativeArray ti, |
| in size_t valsz, in void* pkey, out bool found) |
| { |
| // lazily alloc implementation |
| if (aa.impl is null) |
| aa.impl = new Impl(ti); |
| |
| // get hash and bucket for key |
| immutable hash = calcHash(pkey, ti.key); |
| |
| // found a value => return it |
| if (auto p = aa.findSlotLookup(hash, pkey, ti.key)) |
| { |
| found = true; |
| return p.entry + aa.valoff; |
| } |
| |
| auto p = aa.findSlotInsert(hash); |
| if (p.deleted) |
| --aa.deleted; |
| // check load factor and possibly grow |
| else if (++aa.used * GROW_DEN > aa.dim * GROW_NUM) |
| { |
| aa.grow(ti.key); |
| p = aa.findSlotInsert(hash); |
| assert(p.empty); |
| } |
| |
| // update search cache and allocate entry |
| aa.firstUsed = min(aa.firstUsed, cast(uint)(p - aa.buckets.ptr)); |
| p.hash = hash; |
| p.entry = allocEntry(aa.impl, pkey); |
| // postblit for key |
| if (aa.flags & Impl.Flags.keyHasPostblit) |
| { |
| import rt.lifetime : __doPostblit, unqualify; |
| |
| __doPostblit(p.entry, aa.keysz, unqualify(ti.key)); |
| } |
| // return pointer to value |
| return p.entry + aa.valoff; |
| } |
| |
| /****************************** |
| * Lookup *pkey in aa. |
| * Called only from implementation of (aa[key]) expressions when value is not mutable. |
| * Params: |
| * aa = associative array opaque pointer |
| * keyti = TypeInfo for the key |
| * valsz = ignored |
| * pkey = pointer to the key value |
| * Returns: |
| * pointer to value if present, null otherwise |
| */ |
| extern (C) inout(void)* _aaGetRvalueX(inout AA aa, in TypeInfo keyti, in size_t valsz, |
| in void* pkey) |
| { |
| return _aaInX(aa, keyti, pkey); |
| } |
| |
| /****************************** |
| * Lookup *pkey in aa. |
| * Called only from implementation of (key in aa) expressions. |
| * Params: |
| * aa = associative array opaque pointer |
| * keyti = TypeInfo for the key |
| * pkey = pointer to the key value |
| * Returns: |
| * pointer to value if present, null otherwise |
| */ |
| extern (C) inout(void)* _aaInX(inout AA aa, in TypeInfo keyti, in void* pkey) |
| { |
| if (aa.empty) |
| return null; |
| |
| immutable hash = calcHash(pkey, keyti); |
| if (auto p = aa.findSlotLookup(hash, pkey, keyti)) |
| return p.entry + aa.valoff; |
| return null; |
| } |
| |
| /// Delete entry in AA, return true if it was present |
| extern (C) bool _aaDelX(AA aa, in TypeInfo keyti, in void* pkey) |
| { |
| if (aa.empty) |
| return false; |
| |
| immutable hash = calcHash(pkey, keyti); |
| if (auto p = aa.findSlotLookup(hash, pkey, keyti)) |
| { |
| // clear entry |
| p.hash = HASH_DELETED; |
| p.entry = null; |
| |
| ++aa.deleted; |
| if (aa.length * SHRINK_DEN < aa.dim * SHRINK_NUM) |
| aa.shrink(keyti); |
| |
| return true; |
| } |
| return false; |
| } |
| |
| /// Remove all elements from AA. |
| extern (C) void _aaClear(AA aa) pure nothrow |
| { |
| if (!aa.empty) |
| { |
| aa.impl.clear(); |
| } |
| } |
| |
| /// Rehash AA |
| extern (C) void* _aaRehash(AA* paa, in TypeInfo keyti) pure nothrow |
| { |
| if (!paa.empty) |
| paa.resize(nextpow2(INIT_DEN * paa.length / INIT_NUM)); |
| return *paa; |
| } |
| |
| /// Return a GC allocated array of all values |
| extern (C) inout(void[]) _aaValues(inout AA aa, in size_t keysz, in size_t valsz, |
| const TypeInfo tiValueArray) pure nothrow |
| { |
| if (aa.empty) |
| return null; |
| |
| import rt.lifetime : _d_newarrayU; |
| |
| auto res = _d_newarrayU(tiValueArray, aa.length).ptr; |
| auto pval = res; |
| |
| immutable off = aa.valoff; |
| foreach (b; aa.buckets[aa.firstUsed .. $]) |
| { |
| if (!b.filled) |
| continue; |
| pval[0 .. valsz] = b.entry[off .. valsz + off]; |
| pval += valsz; |
| } |
| // postblit is done in object.values |
| return (cast(inout(void)*) res)[0 .. aa.length]; // fake length, return number of elements |
| } |
| |
| /// Return a GC allocated array of all keys |
| extern (C) inout(void[]) _aaKeys(inout AA aa, in size_t keysz, const TypeInfo tiKeyArray) pure nothrow |
| { |
| if (aa.empty) |
| return null; |
| |
| import rt.lifetime : _d_newarrayU; |
| |
| auto res = _d_newarrayU(tiKeyArray, aa.length).ptr; |
| auto pkey = res; |
| |
| foreach (b; aa.buckets[aa.firstUsed .. $]) |
| { |
| if (!b.filled) |
| continue; |
| pkey[0 .. keysz] = b.entry[0 .. keysz]; |
| pkey += keysz; |
| } |
| // postblit is done in object.keys |
| return (cast(inout(void)*) res)[0 .. aa.length]; // fake length, return number of elements |
| } |
| |
| // opApply callbacks are extern(D) |
| extern (D) alias dg_t = int delegate(void*); |
| extern (D) alias dg2_t = int delegate(void*, void*); |
| |
| /// foreach opApply over all values |
| extern (C) int _aaApply(AA aa, in size_t keysz, dg_t dg) |
| { |
| if (aa.empty) |
| return 0; |
| |
| immutable off = aa.valoff; |
| foreach (b; aa.buckets) |
| { |
| if (!b.filled) |
| continue; |
| if (auto res = dg(b.entry + off)) |
| return res; |
| } |
| return 0; |
| } |
| |
| /// foreach opApply over all key/value pairs |
| extern (C) int _aaApply2(AA aa, in size_t keysz, dg2_t dg) |
| { |
| if (aa.empty) |
| return 0; |
| |
| immutable off = aa.valoff; |
| foreach (b; aa.buckets) |
| { |
| if (!b.filled) |
| continue; |
| if (auto res = dg(b.entry, b.entry + off)) |
| return res; |
| } |
| return 0; |
| } |
| |
| /// Construct an associative array of type ti from keys and value |
| extern (C) Impl* _d_assocarrayliteralTX(const TypeInfo_AssociativeArray ti, void[] keys, |
| void[] vals) |
| { |
| assert(keys.length == vals.length); |
| |
| immutable keysz = ti.key.tsize; |
| immutable valsz = ti.value.tsize; |
| immutable length = keys.length; |
| |
| if (!length) |
| return null; |
| |
| auto aa = new Impl(ti, nextpow2(INIT_DEN * length / INIT_NUM)); |
| |
| void* pkey = keys.ptr; |
| void* pval = vals.ptr; |
| immutable off = aa.valoff; |
| uint actualLength = 0; |
| foreach (_; 0 .. length) |
| { |
| immutable hash = calcHash(pkey, ti.key); |
| |
| auto p = aa.findSlotLookup(hash, pkey, ti.key); |
| if (p is null) |
| { |
| p = aa.findSlotInsert(hash); |
| p.hash = hash; |
| p.entry = allocEntry(aa, pkey); // move key, no postblit |
| aa.firstUsed = min(aa.firstUsed, cast(uint)(p - aa.buckets.ptr)); |
| actualLength++; |
| } |
| else if (aa.entryTI && hasDtor(ti.value)) |
| { |
| // destroy existing value before overwriting it |
| ti.value.destroy(p.entry + off); |
| } |
| // set hash and blit value |
| auto pdst = p.entry + off; |
| pdst[0 .. valsz] = pval[0 .. valsz]; // move value, no postblit |
| |
| pkey += keysz; |
| pval += valsz; |
| } |
| aa.used = actualLength; |
| return aa; |
| } |
| |
| /// compares 2 AAs for equality |
| extern (C) int _aaEqual(in TypeInfo tiRaw, in AA aa1, in AA aa2) |
| { |
| if (aa1.impl is aa2.impl) |
| return true; |
| |
| immutable len = _aaLen(aa1); |
| if (len != _aaLen(aa2)) |
| return false; |
| |
| if (!len) // both empty |
| return true; |
| |
| import rt.lifetime : unqualify; |
| |
| auto uti = unqualify(tiRaw); |
| auto ti = *cast(TypeInfo_AssociativeArray*)&uti; |
| // compare the entries |
| immutable off = aa1.valoff; |
| foreach (b1; aa1.buckets) |
| { |
| if (!b1.filled) |
| continue; |
| auto pb2 = aa2.findSlotLookup(b1.hash, b1.entry, ti.key); |
| if (pb2 is null || !ti.value.equals(b1.entry + off, pb2.entry + off)) |
| return false; |
| } |
| return true; |
| } |
| |
| /// compute a hash |
| extern (C) hash_t _aaGetHash(in AA* aa, in TypeInfo tiRaw) nothrow |
| { |
| if (aa.empty) |
| return 0; |
| |
| import rt.lifetime : unqualify; |
| |
| auto uti = unqualify(tiRaw); |
| auto ti = *cast(TypeInfo_AssociativeArray*)&uti; |
| immutable off = aa.valoff; |
| auto keyHash = &ti.key.getHash; |
| auto valHash = &ti.value.getHash; |
| |
| size_t h; |
| foreach (b; aa.buckets) |
| { |
| if (!b.filled) |
| continue; |
| size_t[2] h2 = [keyHash(b.entry), valHash(b.entry + off)]; |
| // use addition here, so that hash is independent of element order |
| h += hashOf(h2); |
| } |
| |
| return h; |
| } |
| |
| /** |
| * _aaRange implements a ForwardRange |
| */ |
| struct Range |
| { |
| Impl* impl; |
| size_t idx; |
| alias impl this; |
| } |
| |
| extern (C) pure nothrow @nogc @safe |
| { |
| Range _aaRange(AA aa) |
| { |
| if (!aa) |
| return Range(); |
| |
| foreach (i; aa.firstUsed .. aa.dim) |
| { |
| if (aa.buckets[i].filled) |
| return Range(aa.impl, i); |
| } |
| return Range(aa, aa.dim); |
| } |
| |
| bool _aaRangeEmpty(Range r) |
| { |
| return r.impl is null || r.idx >= r.dim; |
| } |
| |
| void* _aaRangeFrontKey(Range r) |
| { |
| assert(!_aaRangeEmpty(r)); |
| if (r.idx >= r.dim) |
| return null; |
| return r.buckets[r.idx].entry; |
| } |
| |
| void* _aaRangeFrontValue(Range r) |
| { |
| assert(!_aaRangeEmpty(r)); |
| if (r.idx >= r.dim) |
| return null; |
| |
| auto entry = r.buckets[r.idx].entry; |
| return entry is null ? |
| null : |
| (() @trusted { return entry + r.valoff; } ()); |
| } |
| |
| void _aaRangePopFront(ref Range r) |
| { |
| if (r.idx >= r.dim) return; |
| for (++r.idx; r.idx < r.dim; ++r.idx) |
| { |
| if (r.buckets[r.idx].filled) |
| break; |
| } |
| } |
| } |
| |
| // Most tests are now in in test_aa.d |
| |
| // test postblit for AA literals |
| unittest |
| { |
| static struct T |
| { |
| ubyte field; |
| static size_t postblit, dtor; |
| this(this) |
| { |
| ++postblit; |
| } |
| |
| ~this() |
| { |
| ++dtor; |
| } |
| } |
| |
| T t; |
| auto aa1 = [0 : t, 1 : t]; |
| assert(T.dtor == 0 && T.postblit == 2); |
| aa1[0] = t; |
| assert(T.dtor == 1 && T.postblit == 3); |
| |
| T.dtor = 0; |
| T.postblit = 0; |
| |
| auto aa2 = [0 : t, 1 : t, 0 : t]; // literal with duplicate key => value overwritten |
| assert(T.dtor == 1 && T.postblit == 3); |
| |
| T.dtor = 0; |
| T.postblit = 0; |
| |
| auto aa3 = [t : 0]; |
| assert(T.dtor == 0 && T.postblit == 1); |
| aa3[t] = 1; |
| assert(T.dtor == 0 && T.postblit == 1); |
| aa3.remove(t); |
| assert(T.dtor == 0 && T.postblit == 1); |
| aa3[t] = 2; |
| assert(T.dtor == 0 && T.postblit == 2); |
| |
| // dtor will be called by GC finalizers |
| aa1 = null; |
| aa2 = null; |
| aa3 = null; |
| GC.runFinalizers((cast(char*)(&entryDtor))[0 .. 1]); |
| assert(T.dtor == 6 && T.postblit == 2); |
| } |