#pragma once #include #include #include #include #include #include namespace GreenCRDT { template struct List { struct ListID { AgentType id; uint64_t seq{0}; // strictly increasing for that agent bool operator<(const ListID& rhs) const { if (seq < rhs.seq) { return true; } else if (seq > rhs.seq) { return false; } else { // == return id < rhs.id; } } bool operator==(const ListID& rhs) const { return seq == rhs.seq && id == rhs.id; } bool operator!=(const ListID& rhs) const { return seq != rhs.seq || id != rhs.id; } }; // almost the same as entry struct OpAdd { ListID id; std::optional parent_left; std::optional parent_right; ValueType value; }; struct OpDel { ListID id; }; // TODO: replace with SoA struct Entry { ListID id; // Yjs std::optional parent_left; std::optional parent_right; // might be deleted (yes, *sigh*, crtds need tombstones) std::optional value; }; // TODO: use something better std::vector list; // number of not deleted entries size_t doc_size {0}; std::map last_seen_seq; std::optional findIdx(const ListID& list_id) const { verify(); for (size_t i = 0; i < list.size(); i++) { if (list[i].id == list_id) { return i; } } return std::nullopt; } // returns false if missing OPs // based on YjsMod https://github.com/josephg/reference-crdts/blob/9f4f9c3a97b497e2df8ae4473d1e521d3c3bf2d2/crdts.ts#L293-L348 // which is a modified Yjs(YATA) algo bool add(const ListID& list_id, const ValueType& value, const std::optional& parent_left, const std::optional& parent_right) { verify(); // check agent op order if (!last_seen_seq.count(list_id.id)) { // we dont know this agent yet, first seq needs to be 0 if (list_id.seq != 0) { return false; } } else { // making sure we dont skip operations by that agent if (list_id.seq != last_seen_seq.at(list_id.id) + 1) { return false; } } size_t insert_idx = 0; if (list.empty()) { if (parent_left.has_value() || parent_right.has_value()) { // empty, missing parents return false; } } else { // find left std::optional left_idx = std::nullopt; if (parent_left.has_value()) { left_idx = findIdx(parent_left.value()); if (!left_idx.has_value()) { // missing parent left return false; } // we insert before the it, so we need to go past the left parent insert_idx = left_idx.value() + 1; } // else insert_idx = 0 // find right size_t right_idx = list.size(); if (parent_right.has_value()) { auto tmp_right = findIdx(parent_right.value()); if (!tmp_right.has_value()) { return false; } right_idx = tmp_right.value(); } bool scanning {false}; for(size_t i = insert_idx;; i++) { if (!scanning) { insert_idx = i; } // if right parent / end of doc, insert if (insert_idx == right_idx) { break; } // we ran past right o.o ? if (insert_idx == list.size()) { break; } const Entry& at_i = list[i]; // parents left and right std::optional i_left_idx {std::nullopt}; if (at_i.parent_left.has_value()) { i_left_idx = findIdx(at_i.parent_left.value()); if (!i_left_idx.has_value()) { assert(false && "item in list with unknown parent left!!"); return false; } } // possibility map // // | ir < r | ir == r | ir > r // ------------------------------------- // il < l | insert | insert | insert // il == l | ? | agentfallback | ? // il > l | skip | skip | skip if (i_left_idx < left_idx) { break; } else if (i_left_idx == left_idx) { // get i parent_right size_t i_right_idx = list.size(); if (at_i.parent_right.has_value()) { auto tmp_right = findIdx(at_i.parent_right.value()); if (!tmp_right.has_value()) { assert(false && "item in list with unknown parent right!!"); return false; } i_right_idx = tmp_right.value(); } if (i_right_idx < right_idx) { scanning = true; } else if (i_right_idx == right_idx) { // agent id tie breaker if (list_id.id < at_i.id.id) { break; } else { scanning = false; } } else { // i_right_idx > right_idx scanning = false; } } else { // il > l // do nothing } } } list.emplace(list.begin() + insert_idx, Entry{ list_id, parent_left, parent_right, value }); doc_size++; last_seen_seq[list_id.id] = list_id.seq; verify(); return true; } // returns false if not found bool del(const ListID& id) { verify(); for (auto& it : list) { if (it.id == id) { if (it.value.has_value()) { it.value.reset(); doc_size--; verify(); return true; } else { verify(); return false; // TODO: allow double deletes?,,,, need ids } } } verify(); assert(false); // not found return false; } void verify(void) const { size_t actual_size = 0; for (const auto& it : list) { if (it.value.has_value()) { actual_size++; } } assert(doc_size == actual_size); } }; } // GreenCRDT