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Diffstat (limited to 'third_party/immer/immer/detail/hamts/node.hpp')
-rw-r--r-- | third_party/immer/immer/detail/hamts/node.hpp | 717 |
1 files changed, 717 insertions, 0 deletions
diff --git a/third_party/immer/immer/detail/hamts/node.hpp b/third_party/immer/immer/detail/hamts/node.hpp new file mode 100644 index 000000000000..216e82b7874f --- /dev/null +++ b/third_party/immer/immer/detail/hamts/node.hpp @@ -0,0 +1,717 @@ +// +// immer: immutable data structures for C++ +// Copyright (C) 2016, 2017, 2018 Juan Pedro Bolivar Puente +// +// This software is distributed under the Boost Software License, Version 1.0. +// See accompanying file LICENSE or copy at http://boost.org/LICENSE_1_0.txt +// + +#pragma once + +#include <immer/detail/combine_standard_layout.hpp> +#include <immer/detail/hamts/bits.hpp> +#include <immer/detail/util.hpp> + +#include <cassert> + +namespace immer { +namespace detail { +namespace hamts { + +template <typename T, + typename Hash, + typename Equal, + typename MemoryPolicy, + bits_t B> +struct node +{ + using node_t = node; + + using memory = MemoryPolicy; + using heap_policy = typename memory::heap; + using heap = typename heap_policy::type; + using transience = typename memory::transience_t; + using refs_t = typename memory::refcount; + using ownee_t = typename transience::ownee; + using edit_t = typename transience::edit; + using value_t = T; + using bitmap_t = typename get_bitmap_type<B>::type; + + enum class kind_t + { + collision, + inner + }; + + struct collision_t + { + count_t count; + aligned_storage_for<T> buffer; + }; + + struct values_data_t + { + aligned_storage_for<T> buffer; + }; + + using values_t = combine_standard_layout_t<values_data_t, refs_t>; + + struct inner_t + { + bitmap_t nodemap; + bitmap_t datamap; + values_t* values; + aligned_storage_for<node_t*> buffer; + }; + + union data_t + { + inner_t inner; + collision_t collision; + }; + + struct impl_data_t + { +#if IMMER_TAGGED_NODE + kind_t kind; +#endif + data_t data; + }; + + using impl_t = combine_standard_layout_t<impl_data_t, refs_t>; + + impl_t impl; + + constexpr static std::size_t sizeof_values_n(count_t count) + { + return std::max(sizeof(values_t), + immer_offsetof(values_t, d.buffer) + + sizeof(values_data_t::buffer) * count); + } + + constexpr static std::size_t sizeof_collision_n(count_t count) + { + return immer_offsetof(impl_t, d.data.collision.buffer) + + sizeof(collision_t::buffer) * count; + } + + constexpr static std::size_t sizeof_inner_n(count_t count) + { + return immer_offsetof(impl_t, d.data.inner.buffer) + + sizeof(inner_t::buffer) * count; + } + +#if IMMER_TAGGED_NODE + kind_t kind() const { return impl.d.kind; } +#endif + + auto values() + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + assert(impl.d.data.inner.values); + return (T*) &impl.d.data.inner.values->d.buffer; + } + + auto values() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + assert(impl.d.data.inner.values); + return (const T*) &impl.d.data.inner.values->d.buffer; + } + + auto children() + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + return (node_t**) &impl.d.data.inner.buffer; + } + + auto children() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + return (const node_t* const*) &impl.d.data.inner.buffer; + } + + auto datamap() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + return impl.d.data.inner.datamap; + } + + auto nodemap() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::inner); + return impl.d.data.inner.nodemap; + } + + auto collision_count() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::collision); + return impl.d.data.collision.count; + } + + T* collisions() + { + IMMER_ASSERT_TAGGED(kind() == kind_t::collision); + return (T*) &impl.d.data.collision.buffer; + } + + const T* collisions() const + { + IMMER_ASSERT_TAGGED(kind() == kind_t::collision); + return (const T*) &impl.d.data.collision.buffer; + } + + static refs_t& refs(const values_t* x) + { + return auto_const_cast(get<refs_t>(*x)); + } + static const ownee_t& ownee(const values_t* x) { return get<ownee_t>(*x); } + static ownee_t& ownee(values_t* x) { return get<ownee_t>(*x); } + + static refs_t& refs(const node_t* x) + { + return auto_const_cast(get<refs_t>(x->impl)); + } + static const ownee_t& ownee(const node_t* x) + { + return get<ownee_t>(x->impl); + } + static ownee_t& ownee(node_t* x) { return get<ownee_t>(x->impl); } + + static node_t* make_inner_n(count_t n) + { + assert(n <= branches<B>); + auto m = heap::allocate(sizeof_inner_n(n)); + auto p = new (m) node_t; +#if IMMER_TAGGED_NODE + p->impl.d.kind = node_t::kind_t::inner; +#endif + p->impl.d.data.inner.nodemap = 0; + p->impl.d.data.inner.datamap = 0; + p->impl.d.data.inner.values = nullptr; + return p; + } + + static node_t* make_inner_n(count_t n, values_t* values) + { + auto p = make_inner_n(n); + if (values) { + p->impl.d.data.inner.values = values; + refs(values).inc(); + } + return p; + } + + static node_t* make_inner_n(count_t n, count_t nv) + { + assert(nv <= branches<B>); + auto p = make_inner_n(n); + if (nv) { + try { + p->impl.d.data.inner.values = + new (heap::allocate(sizeof_values_n(nv))) values_t{}; + } catch (...) { + deallocate_inner(p, n); + throw; + } + } + return p; + } + + static node_t* make_inner_n(count_t n, count_t idx, node_t* child) + { + assert(n >= 1); + auto p = make_inner_n(n); + p->impl.d.data.inner.nodemap = bitmap_t{1u} << idx; + p->children()[0] = child; + return p; + } + + static node_t* make_inner_n(count_t n, bitmap_t bitmap, T x) + { + auto p = make_inner_n(n, 1); + p->impl.d.data.inner.datamap = bitmap; + try { + new (p->values()) T{std::move(x)}; + } catch (...) { + deallocate_inner(p, n, 1); + throw; + } + return p; + } + + static node_t* + make_inner_n(count_t n, count_t idx1, T x1, count_t idx2, T x2) + { + assert(idx1 != idx2); + auto p = make_inner_n(n, 2); + p->impl.d.data.inner.datamap = + (bitmap_t{1u} << idx1) | (bitmap_t{1u} << idx2); + auto assign = [&](auto&& x1, auto&& x2) { + auto vp = p->values(); + try { + new (vp) T{std::move(x1)}; + try { + new (vp + 1) T{std::move(x2)}; + } catch (...) { + vp->~T(); + throw; + } + } catch (...) { + deallocate_inner(p, n, 2); + throw; + } + }; + if (idx1 < idx2) + assign(x1, x2); + else + assign(x2, x1); + return p; + } + + static node_t* make_collision_n(count_t n) + { + auto m = heap::allocate(sizeof_collision_n(n)); + auto p = new (m) node_t; +#if IMMER_TAGGED_NODE + p->impl.d.kind = node_t::kind_t::collision; +#endif + p->impl.d.data.collision.count = n; + return p; + } + + static node_t* make_collision(T v1, T v2) + { + auto m = heap::allocate(sizeof_collision_n(2)); + auto p = new (m) node_t; +#if IMMER_TAGGED_NODE + p->impl.d.kind = node_t::kind_t::collision; +#endif + p->impl.d.data.collision.count = 2; + auto cols = p->collisions(); + try { + new (cols) T{std::move(v1)}; + try { + new (cols + 1) T{std::move(v2)}; + } catch (...) { + cols->~T(); + throw; + } + } catch (...) { + deallocate_collision(p, 2); + throw; + } + return p; + } + + static node_t* copy_collision_insert(node_t* src, T v) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::collision); + auto n = src->collision_count(); + auto dst = make_collision_n(n + 1); + auto srcp = src->collisions(); + auto dstp = dst->collisions(); + try { + new (dstp) T{std::move(v)}; + try { + std::uninitialized_copy(srcp, srcp + n, dstp + 1); + } catch (...) { + dstp->~T(); + throw; + } + } catch (...) { + deallocate_collision(dst, n + 1); + throw; + } + return dst; + } + + static node_t* copy_collision_remove(node_t* src, T* v) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::collision); + assert(src->collision_count() > 1); + auto n = src->collision_count(); + auto dst = make_collision_n(n - 1); + auto srcp = src->collisions(); + auto dstp = dst->collisions(); + try { + dstp = std::uninitialized_copy(srcp, v, dstp); + try { + std::uninitialized_copy(v + 1, srcp + n, dstp); + } catch (...) { + destroy(dst->collisions(), dstp); + throw; + } + } catch (...) { + deallocate_collision(dst, n - 1); + throw; + } + return dst; + } + + static node_t* copy_collision_replace(node_t* src, T* pos, T v) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::collision); + auto n = src->collision_count(); + auto dst = make_collision_n(n); + auto srcp = src->collisions(); + auto dstp = dst->collisions(); + assert(pos >= srcp && pos < srcp + n); + try { + new (dstp) T{std::move(v)}; + try { + dstp = std::uninitialized_copy(srcp, pos, dstp + 1); + try { + std::uninitialized_copy(pos + 1, srcp + n, dstp); + } catch (...) { + destroy(dst->collisions(), dstp); + throw; + } + } catch (...) { + dst->collisions()->~T(); + throw; + } + } catch (...) { + deallocate_collision(dst, n); + throw; + } + return dst; + } + + static node_t* + copy_inner_replace(node_t* src, count_t offset, node_t* child) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + auto n = popcount(src->nodemap()); + auto dst = make_inner_n(n, src->impl.d.data.inner.values); + auto srcp = src->children(); + auto dstp = dst->children(); + dst->impl.d.data.inner.datamap = src->datamap(); + dst->impl.d.data.inner.nodemap = src->nodemap(); + std::uninitialized_copy(srcp, srcp + n, dstp); + inc_nodes(srcp, n); + srcp[offset]->dec_unsafe(); + dstp[offset] = child; + return dst; + } + + static node_t* copy_inner_replace_value(node_t* src, count_t offset, T v) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + assert(offset < popcount(src->datamap())); + auto n = popcount(src->nodemap()); + auto nv = popcount(src->datamap()); + auto dst = make_inner_n(n, nv); + dst->impl.d.data.inner.datamap = src->datamap(); + dst->impl.d.data.inner.nodemap = src->nodemap(); + try { + std::uninitialized_copy( + src->values(), src->values() + nv, dst->values()); + try { + dst->values()[offset] = std::move(v); + } catch (...) { + destroy_n(dst->values(), nv); + throw; + } + } catch (...) { + deallocate_inner(dst, n, nv); + throw; + } + inc_nodes(src->children(), n); + std::uninitialized_copy( + src->children(), src->children() + n, dst->children()); + return dst; + } + + static node_t* copy_inner_replace_merged(node_t* src, + bitmap_t bit, + count_t voffset, + node_t* node) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + assert(!(src->nodemap() & bit)); + assert(src->datamap() & bit); + assert(voffset == popcount(src->datamap() & (bit - 1))); + auto n = popcount(src->nodemap()); + auto nv = popcount(src->datamap()); + auto dst = make_inner_n(n + 1, nv - 1); + auto noffset = popcount(src->nodemap() & (bit - 1)); + dst->impl.d.data.inner.datamap = src->datamap() & ~bit; + dst->impl.d.data.inner.nodemap = src->nodemap() | bit; + if (nv > 1) { + try { + std::uninitialized_copy( + src->values(), src->values() + voffset, dst->values()); + try { + std::uninitialized_copy(src->values() + voffset + 1, + src->values() + nv, + dst->values() + voffset); + } catch (...) { + destroy_n(dst->values(), voffset); + throw; + } + } catch (...) { + deallocate_inner(dst, n + 1, nv - 1); + throw; + } + } + inc_nodes(src->children(), n); + std::uninitialized_copy( + src->children(), src->children() + noffset, dst->children()); + std::uninitialized_copy(src->children() + noffset, + src->children() + n, + dst->children() + noffset + 1); + dst->children()[noffset] = node; + return dst; + } + + static node_t* copy_inner_replace_inline(node_t* src, + bitmap_t bit, + count_t noffset, + T value) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + assert(!(src->datamap() & bit)); + assert(src->nodemap() & bit); + assert(noffset == popcount(src->nodemap() & (bit - 1))); + auto n = popcount(src->nodemap()); + auto nv = popcount(src->datamap()); + auto dst = make_inner_n(n - 1, nv + 1); + auto voffset = popcount(src->datamap() & (bit - 1)); + dst->impl.d.data.inner.nodemap = src->nodemap() & ~bit; + dst->impl.d.data.inner.datamap = src->datamap() | bit; + try { + if (nv) + std::uninitialized_copy( + src->values(), src->values() + voffset, dst->values()); + try { + new (dst->values() + voffset) T{std::move(value)}; + try { + if (nv) + std::uninitialized_copy(src->values() + voffset, + src->values() + nv, + dst->values() + voffset + 1); + } catch (...) { + dst->values()[voffset].~T(); + throw; + } + } catch (...) { + destroy_n(dst->values(), voffset); + throw; + } + } catch (...) { + deallocate_inner(dst, n - 1, nv + 1); + throw; + } + inc_nodes(src->children(), n); + src->children()[noffset]->dec_unsafe(); + std::uninitialized_copy( + src->children(), src->children() + noffset, dst->children()); + std::uninitialized_copy(src->children() + noffset + 1, + src->children() + n, + dst->children() + noffset); + return dst; + } + + static node_t* + copy_inner_remove_value(node_t* src, bitmap_t bit, count_t voffset) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + assert(!(src->nodemap() & bit)); + assert(src->datamap() & bit); + assert(voffset == popcount(src->datamap() & (bit - 1))); + auto n = popcount(src->nodemap()); + auto nv = popcount(src->datamap()); + auto dst = make_inner_n(n, nv - 1); + dst->impl.d.data.inner.datamap = src->datamap() & ~bit; + dst->impl.d.data.inner.nodemap = src->nodemap(); + if (nv > 1) { + try { + std::uninitialized_copy( + src->values(), src->values() + voffset, dst->values()); + try { + std::uninitialized_copy(src->values() + voffset + 1, + src->values() + nv, + dst->values() + voffset); + } catch (...) { + destroy_n(dst->values(), voffset); + throw; + } + } catch (...) { + deallocate_inner(dst, n, nv - 1); + throw; + } + } + inc_nodes(src->children(), n); + std::uninitialized_copy( + src->children(), src->children() + n, dst->children()); + return dst; + } + + static node_t* copy_inner_insert_value(node_t* src, bitmap_t bit, T v) + { + IMMER_ASSERT_TAGGED(src->kind() == kind_t::inner); + auto n = popcount(src->nodemap()); + auto nv = popcount(src->datamap()); + auto offset = popcount(src->datamap() & (bit - 1)); + auto dst = make_inner_n(n, nv + 1); + dst->impl.d.data.inner.datamap = src->datamap() | bit; + dst->impl.d.data.inner.nodemap = src->nodemap(); + try { + if (nv) + std::uninitialized_copy( + src->values(), src->values() + offset, dst->values()); + try { + new (dst->values() + offset) T{std::move(v)}; + try { + if (nv) + std::uninitialized_copy(src->values() + offset, + src->values() + nv, + dst->values() + offset + 1); + } catch (...) { + dst->values()[offset].~T(); + throw; + } + } catch (...) { + destroy_n(dst->values(), offset); + throw; + } + } catch (...) { + deallocate_inner(dst, n, nv + 1); + throw; + } + inc_nodes(src->children(), n); + std::uninitialized_copy( + src->children(), src->children() + n, dst->children()); + return dst; + } + + static node_t* + make_merged(shift_t shift, T v1, hash_t hash1, T v2, hash_t hash2) + { + if (shift < max_shift<B>) { + auto idx1 = hash1 & (mask<B> << shift); + auto idx2 = hash2 & (mask<B> << shift); + if (idx1 == idx2) { + auto merged = make_merged( + shift + B, std::move(v1), hash1, std::move(v2), hash2); + try { + return make_inner_n(1, idx1 >> shift, merged); + } catch (...) { + delete_deep_shift(merged, shift + B); + throw; + } + } else { + return make_inner_n(0, + idx1 >> shift, + std::move(v1), + idx2 >> shift, + std::move(v2)); + } + } else { + return make_collision(std::move(v1), std::move(v2)); + } + } + + node_t* inc() + { + refs(this).inc(); + return this; + } + + const node_t* inc() const + { + refs(this).inc(); + return this; + } + + bool dec() const { return refs(this).dec(); } + void dec_unsafe() const { refs(this).dec_unsafe(); } + + static void inc_nodes(node_t** p, count_t n) + { + for (auto i = p, e = i + n; i != e; ++i) + refs(*i).inc(); + } + + static void delete_values(values_t* p, count_t n) + { + assert(p); + deallocate_values(p, n); + } + + static void delete_inner(node_t* p) + { + assert(p); + IMMER_ASSERT_TAGGED(p->kind() == kind_t::inner); + auto vp = p->impl.d.data.inner.values; + if (vp && refs(vp).dec()) + delete_values(vp, popcount(p->datamap())); + deallocate_inner(p, popcount(p->nodemap())); + } + + static void delete_collision(node_t* p) + { + assert(p); + IMMER_ASSERT_TAGGED(p->kind() == kind_t::collision); + auto n = p->collision_count(); + deallocate_collision(p, n); + } + + static void delete_deep(node_t* p, shift_t s) + { + if (s == max_depth<B>) + delete_collision(p); + else { + auto fst = p->children(); + auto lst = fst + popcount(p->nodemap()); + for (; fst != lst; ++fst) + if ((*fst)->dec()) + delete_deep(*fst, s + 1); + delete_inner(p); + } + } + + static void delete_deep_shift(node_t* p, shift_t s) + { + if (s == max_shift<B>) + delete_collision(p); + else { + auto fst = p->children(); + auto lst = fst + popcount(p->nodemap()); + for (; fst != lst; ++fst) + if ((*fst)->dec()) + delete_deep_shift(*fst, s + B); + delete_inner(p); + } + } + + static void deallocate_values(values_t* p, count_t n) + { + destroy_n((T*) &p->d.buffer, n); + heap::deallocate(node_t::sizeof_values_n(n), p); + } + + static void deallocate_collision(node_t* p, count_t n) + { + destroy_n(p->collisions(), n); + heap::deallocate(node_t::sizeof_collision_n(n), p); + } + + static void deallocate_inner(node_t* p, count_t n) + { + heap::deallocate(node_t::sizeof_inner_n(n), p); + } + + static void deallocate_inner(node_t* p, count_t n, count_t nv) + { + assert(nv); + heap::deallocate(node_t::sizeof_values_n(nv), + p->impl.d.data.inner.values); + heap::deallocate(node_t::sizeof_inner_n(n), p); + } +}; + +} // namespace hamts +} // namespace detail +} // namespace immer |