mirror of
https://github.com/YosysHQ/yosys
synced 2026-07-15 11:45:41 +00:00
430 lines
12 KiB
C++
430 lines
12 KiB
C++
#ifndef YOSYS_TWINE_H
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#define YOSYS_TWINE_H
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#include "kernel/yosys_common.h"
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#include "kernel/hashlib.h"
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#include "libs/plf_colony/plf_colony.h"
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#include <cstdint>
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#include <limits>
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#include <span>
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#include <sstream>
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#include <string>
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#include <string_view>
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#include <unordered_set>
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#include <list>
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#include <variant>
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#include <vector>
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YOSYS_NAMESPACE_BEGIN
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struct Twine;
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struct TwinePool;
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using TwineRef = size_t;
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enum : short {
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STATIC_TWINE_BEGIN = 0,
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#define X(N) IDX_##N,
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#include "kernel/constids.inc"
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#undef X
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STATIC_TWINE_END
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};
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struct TW {
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#define X(N) static constexpr TwineRef N = IDX_##N;
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#include "kernel/constids.inc"
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#undef X
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};
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struct Twine {
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static constexpr TwineRef Null = std::numeric_limits<size_t>::max();
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struct Suffix {
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TwineRef prefix;
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std::string tail;
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// TODO check
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auto operator<=>(const Suffix&) const = default;
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};
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std::variant<std::monostate, std::string, std::vector<TwineRef>, Suffix> data;
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bool is_dead() const { return std::holds_alternative<std::monostate>(data); }
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bool is_leaf() const { return std::holds_alternative<std::string>(data); }
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bool is_concat() const { return std::holds_alternative<std::vector<TwineRef>>(data); }
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bool is_suffix() const { return std::holds_alternative<Suffix>(data); }
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bool is_flat() const { return is_leaf() || is_suffix(); }
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const std::string &leaf() const { return std::get<std::string>(data); }
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const std::vector<TwineRef> &children() const { return std::get<std::vector<TwineRef>>(data); }
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const Suffix &suffix() const { return std::get<Suffix>(data); }
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};
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struct TwineHash {
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using is_transparent = void;
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const TwinePool* pool = nullptr;
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size_t operator()(const Twine& t) const noexcept;
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size_t operator()(TwineRef ref) const noexcept;
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// size_t operator()(std::string_view v) const noexcept;
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};
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struct TwineEq {
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using is_transparent = void;
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const TwinePool* pool = nullptr;
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bool operator()(TwineRef a, TwineRef b) const noexcept;
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bool operator()(TwineRef a, const Twine& b) const noexcept;
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bool operator()(const Twine& a, TwineRef b) const noexcept;
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// bool operator()(TwineRef a, std::string_view b) const noexcept;
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// bool operator()(std::string_view a, TwineRef b) const noexcept;
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};
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TwineRef twine_populate(std::string name);
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void twine_prepopulate();
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struct TwinePool {
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static std::vector<Twine> globals_;
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plf::colony<Twine> backing;
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std::unordered_set<TwineRef, TwineHash, TwineEq> index;
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const Twine& operator[] (TwineRef ref) const {
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if (ref < STATIC_TWINE_END)
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return globals_[ref];
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else
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return backing[ref - STATIC_TWINE_END];
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}
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void dump(TwineRef ref, std::ostream& os = std::cout) const {
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const Twine& twine = (*this)[ref];
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std::visit([&](const auto& val) {
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using T = std::decay_t<decltype(val)>;
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if constexpr (std::is_same_v<T, std::monostate>) {
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os << "Dead()";
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} else if constexpr (std::is_same_v<T, std::string>) {
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os << "Leaf(\"" << val << "\")";
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} else if constexpr (std::is_same_v<T, std::vector<TwineRef>>) {
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os << "Concat[";
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for (size_t i = 0; i < val.size(); ++i) {
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if (i > 0)
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os << ", ";
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dump(val[i], os);
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}
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os << "]";
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} else if constexpr (std::is_same_v<T, Twine::Suffix>) {
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os << "Suffix(prefix: ";
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dump(val.prefix, os);
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os << ", tail: \"" << val.tail << "\")";
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}
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}, twine.data);
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}
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void print(TwineRef ref, std::ostream& os = std::cout) const {
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std::visit([&](const auto& val) {
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using T = std::decay_t<decltype(val)>;
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if constexpr (std::is_same_v<T, std::monostate>) {
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} else if constexpr (std::is_same_v<T, std::string>) {
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os << val;
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} else if constexpr (std::is_same_v<T, std::vector<TwineRef>>) {
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for (size_t i = 0; i < val.size(); ++i) {
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if (i > 0)
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os << "|";
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print(val[i], os);
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}
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} else if constexpr (std::is_same_v<T, Twine::Suffix>) {
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print(val.prefix, os);
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os << val.tail;
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}
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}, (*this)[ref].data);
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}
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std::string str(TwineRef ref) const {
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std::ostringstream os;
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print(ref, os);
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return os.str();
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}
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TwinePool() : index(0, TwineHash{this}, TwineEq{this}) {
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rebuild_index();
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}
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TwinePool(const TwinePool& other) : backing(other.backing), index(0, TwineHash{this}, TwineEq{this}) {
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rebuild_index();
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}
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TwinePool(TwinePool&& other) : backing(std::move(other.backing)), index(0, TwineHash{this}, TwineEq{this}) {
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rebuild_index();
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}
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TwinePool& operator=(const TwinePool& other) {
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if (this != &other) {
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backing = other.backing;
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index = std::unordered_set<TwineRef, TwineHash, TwineEq>(0, TwineHash{this}, TwineEq{this});
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rebuild_index();
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}
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return *this;
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}
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TwinePool& operator=(TwinePool&& other) {
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if (this != &other) {
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backing = std::move(other.backing);
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index = std::unordered_set<TwineRef, TwineHash, TwineEq>(0, TwineHash{this}, TwineEq{this});
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rebuild_index();
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}
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return *this;
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}
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void rebuild_index() {
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for (TwineRef ref = 0; ref < globals_.size(); ref++)
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index.insert(ref);
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for (auto it = backing.begin(); it != backing.end(); ++it)
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index.insert(STATIC_TWINE_END + backing.get_index(it));
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}
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TwineRef find(const Twine& t) const {
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if (auto it = index.find(t); it != index.end()) {
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return *it;
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}
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return Twine::Null;
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}
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TwineRef add(Twine t) {
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if (auto it = index.find(t); it != index.end()) {
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return *it;
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}
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auto colony_it = backing.insert(std::move(t));
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TwineRef ref = STATIC_TWINE_END + backing.get_index(colony_it);
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index.insert(ref);
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return ref;
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}
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void dump(std::ostream& os = std::cout) const {
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os << "--- TwinePool Dump (" << backing.size() << " nodes) ---\n";
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for (auto it = backing.begin(); it != backing.end(); ++it) {
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TwineRef ref = STATIC_TWINE_END + backing.get_index(it);
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os << ref << " -> ";
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dump(ref, os);
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os << '\n';
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}
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os << "--------------------------------\n";
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}
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// Silly compat
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std::string flat_string(TwineRef t) const { return str(t); }
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};
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inline size_t TwineHash::operator()(const Twine& t) const noexcept {
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// size_t h = std::hash<size_t>{}(t.data.index());
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Hasher h;
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std::visit([&h](const auto& val) {
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using T = std::decay_t<decltype(val)>;
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// auto combine = [&h](auto v) {
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// h ^= v + 0x9e3779b9 + (h << 6) + (h >> 2);
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// };
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if constexpr (std::is_same_v<T, std::string>) {
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h.eat(val);
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// combine(std::hash<std::string>{}(val));
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} else if constexpr (std::is_same_v<T, std::vector<TwineRef>>) {
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for (auto ref : val) {
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h.eat(ref);
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// combine(std::hash<TwineRef>{}(ref));
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}
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} else if constexpr (std::is_same_v<T, Twine::Suffix>) {
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h.eat(val.prefix);
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h.eat(val.tail);
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// combine(std::hash<TwineRef>{}(val.prefix));
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// combine(std::hash<std::string>{}(val.tail));
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}
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}, t.data);
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return h.yield();
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}
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inline size_t TwineHash::operator()(TwineRef ref) const noexcept {
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return (*this)((*pool)[ref]);
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}
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inline bool TwineEq::operator()(TwineRef a, TwineRef b) const noexcept {
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return (*pool)[a].data == (*pool)[b].data;
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}
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inline bool TwineEq::operator()(TwineRef a, const Twine& b) const noexcept {
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return (*pool)[a].data == b.data;
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}
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inline bool TwineEq::operator()(const Twine& a, TwineRef b) const noexcept {
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return a.data == (*pool)[b].data;
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}
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struct DeepTwineHash {
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using is_transparent = void;
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const TwinePool* pool = nullptr;
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// FNV-1a constants for 64-bit
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static constexpr size_t FNV_OFFSET_BASIS = 14695981039346656037ull;
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static constexpr size_t FNV_PRIME = 1099511628211ull;
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static void combine(size_t& hash, std::string_view sv) noexcept {
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for (char c : sv) {
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hash ^= static_cast<size_t>(c);
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hash *= FNV_PRIME;
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}
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}
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// Recursively hash the fragments of a Twine
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void combine(size_t& hash, TwineRef t) const noexcept {
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if (t == Twine::Null)
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return;
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const Twine& n = (*pool)[t];
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if (n.is_dead()) return;
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if (n.is_leaf()) {
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combine(hash, std::string_view(n.leaf()));
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} else if (n.is_concat()) {
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for (auto child : n.children()) combine(hash, child);
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} else if (n.is_suffix()) {
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combine(hash, n.suffix().prefix);
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combine(hash, std::string_view(n.suffix().tail));
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}
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}
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size_t operator()(std::string_view sv) const noexcept {
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size_t h = FNV_OFFSET_BASIS;
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combine(h, sv);
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return h;
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}
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size_t operator()(TwineRef t) const noexcept {
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size_t h = FNV_OFFSET_BASIS;
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combine(h, t);
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return h;
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}
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};
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struct DeepTwineEq {
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using is_transparent = void;
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const TwinePool* pool = nullptr;
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// Recursively consumes the string_view to check for deep equality
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bool consume(TwineRef t, std::string_view& sv) const noexcept {
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if (t == Twine::Null)
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return true;
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const Twine& n = (*pool)[t];
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if (n.is_dead()) return true;
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if (n.is_leaf()) {
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if (!sv.starts_with(n.leaf())) return false;
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sv.remove_prefix(n.leaf().size());
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return true;
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} else if (n.is_concat()) {
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for (auto child : n.children()) {
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if (!consume(child, sv)) return false;
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}
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return true;
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} else if (n.is_suffix()) {
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if (!consume(n.suffix().prefix, sv)) return false;
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if (!sv.starts_with(n.suffix().tail)) return false;
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sv.remove_prefix(n.suffix().tail.size());
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return true;
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}
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return false;
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}
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bool operator()(TwineRef t, std::string_view sv) const noexcept {
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return consume(t, sv) && sv.empty();
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}
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bool operator()(std::string_view sv, TwineRef t) const noexcept {
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return (*this)(t, sv);
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}
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// Required by unordered_set to handle hash collisions between two TwineRefs.
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bool operator()(TwineRef a, TwineRef b) const {
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if (a == b) return true; // Index or structural equality shortcut
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std::string fb = flatten(b);
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return (*this)(a, std::string_view(fb));
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}
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// Helper to flatten a twine (used only during rare hash collisions)
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std::string flatten(TwineRef t) const {
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std::string result;
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auto append = [&](auto& self, TwineRef ref) -> void {
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if (ref == Twine::Null)
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return;
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const Twine& node = (*pool)[ref];
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if (node.is_dead()) return;
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if (node.is_leaf()) result += node.leaf();
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else if (node.is_concat()) {
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for (auto child : node.children()) self(self, child);
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} else if (node.is_suffix()) {
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self(self, node.suffix().prefix);
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result += node.suffix().tail;
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}
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};
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append(append, t);
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return result;
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}
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};
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struct TwineSearch {
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TwinePool* pool;
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std::unordered_set<TwineRef, DeepTwineHash, DeepTwineEq> index;
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TwineSearch(TwinePool* pool) : pool(pool), index(0, DeepTwineHash{pool}, DeepTwineEq{pool}) {
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for (auto it = pool->backing.begin(); it != pool->backing.end(); ++it) {
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index.insert(STATIC_TWINE_END + pool->backing.get_index(it));
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}
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}
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TwineRef find(std::string_view sv) const {
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if (auto it = index.find(sv); it != index.end()) {
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return *it;
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}
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return Twine::Null;
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}
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};
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// struct TwinePoolExtender {
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// TwinePool& pool;
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// size_t offset;
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// private:
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// size_t resize_for_idx(size_t idx) {
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// auto real_idx = offset + idx;
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// pool.nodes_.resize(std::max(pool.nodes_.size(), real_idx + 1));
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// return real_idx;
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// }
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// void commit(Twine&& twine, size_t idx) {
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// pool.nodes_[idx] = std::move(twine);
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// pool.leaf_index_.insert(&pool.nodes_[idx]);
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// }
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// public:
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// // TwinePoolExtender(Design* design) : pool(design->twines), offset(design->twines.size()) {}
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// void extend_leaf(std::string leaf, size_t idx) {
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// auto real_idx = resize_for_idx(idx);
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// commit(Twine(leaf), real_idx);
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// }
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// void extend_concat(std::vector<size_t> children, size_t idx) {
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// auto real_idx = resize_for_idx(idx);
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// Twine* first = &pool.nodes_.front() + offset;
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// std::vector<Twine*> real_children;
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// real_children.reserve(children.size());
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// for (auto child : children)
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// real_children.push_back(first + child);
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// commit(Twine(std::move(real_children)), real_idx);
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// }
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// void extend_suffix(size_t prefix, std::string tail, size_t idx) {
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// auto real_idx = resize_for_idx(idx);
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// Twine* first = &pool.nodes_.front() + offset;
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// Twine* real_prefix = first + prefix;
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// commit(Twine(Twine::Suffix(real_prefix, std::move(tail))), real_idx);
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// }
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// void finish() {
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// for (size_t i = offset; i < pool.nodes_.size(); i++)
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// if (pool.nodes_[i].is_dead())
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// pool.free_list_.push_back(&pool.nodes_[i]);
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// }
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// };
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YOSYS_NAMESPACE_END
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#endif
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