yosys/kernel/hashlib.h

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// This is free and unencumbered software released into the public domain.
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//
// Anyone is free to copy, modify, publish, use, compile, sell, or
// distribute this software, either in source code form or as a compiled
// binary, for any purpose, commercial or non-commercial, and by any
// means.
// -------------------------------------------------------
// Written by Claire Xenia Wolf <claire@yosyshq.com> in 2014
// -------------------------------------------------------
#ifndef HASHLIB_H
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#define HASHLIB_H
#include <stdexcept>
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#include <algorithm>
#include <string>
#include <vector>
namespace hashlib {
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const int hashtable_size_trigger = 2;
const int hashtable_size_factor = 3;
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// The XOR version of DJB2
inline unsigned int mkhash(unsigned int a, unsigned int b) {
return ((a << 5) + a) ^ b;
}
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// traditionally 5381 is used as starting value for the djb2 hash
const unsigned int mkhash_init = 5381;
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// The ADD version of DJB2
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// (use this version for cache locality in b)
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inline unsigned int mkhash_add(unsigned int a, unsigned int b) {
return ((a << 5) + a) + b;
}
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inline unsigned int mkhash_xorshift(unsigned int a) {
if (sizeof(a) == 4) {
a ^= a << 13;
a ^= a >> 17;
a ^= a << 5;
} else if (sizeof(a) == 8) {
a ^= a << 13;
a ^= a >> 7;
a ^= a << 17;
} else
throw std::runtime_error("mkhash_xorshift() only implemented for 32 bit and 64 bit ints");
return a;
}
template<typename T> struct hash_ops {
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static inline bool cmp(const T &a, const T &b) {
return a == b;
}
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static inline unsigned int hash(const T &a) {
return a.hash();
}
};
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struct hash_int_ops {
template<typename T>
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static inline bool cmp(T a, T b) {
return a == b;
}
};
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template<> struct hash_ops<bool> : hash_int_ops
{
static inline unsigned int hash(bool a) {
return a ? 1 : 0;
}
};
template<> struct hash_ops<int32_t> : hash_int_ops
{
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static inline unsigned int hash(int32_t a) {
return a;
}
};
template<> struct hash_ops<int64_t> : hash_int_ops
{
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static inline unsigned int hash(int64_t a) {
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return mkhash((unsigned int)(a), (unsigned int)(a >> 32));
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}
};
template<> struct hash_ops<uint32_t> : hash_int_ops
{
static inline unsigned int hash(uint32_t a) {
return a;
}
};
template<> struct hash_ops<uint64_t> : hash_int_ops
{
static inline unsigned int hash(uint64_t a) {
return mkhash((unsigned int)(a), (unsigned int)(a >> 32));
}
};
template<> struct hash_ops<std::string> {
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static inline bool cmp(const std::string &a, const std::string &b) {
return a == b;
}
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static inline unsigned int hash(const std::string &a) {
unsigned int v = 0;
for (auto c : a)
v = mkhash(v, c);
return v;
}
};
template<typename P, typename Q> struct hash_ops<std::pair<P, Q>> {
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static inline bool cmp(std::pair<P, Q> a, std::pair<P, Q> b) {
return a == b;
}
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static inline unsigned int hash(std::pair<P, Q> a) {
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return mkhash(hash_ops<P>::hash(a.first), hash_ops<Q>::hash(a.second));
}
};
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template<typename... T> struct hash_ops<std::tuple<T...>> {
static inline bool cmp(std::tuple<T...> a, std::tuple<T...> b) {
return a == b;
}
template<size_t I = 0>
static inline typename std::enable_if<I == sizeof...(T), unsigned int>::type hash(std::tuple<T...>) {
return mkhash_init;
}
template<size_t I = 0>
static inline typename std::enable_if<I != sizeof...(T), unsigned int>::type hash(std::tuple<T...> a) {
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typedef hash_ops<typename std::tuple_element<I, std::tuple<T...>>::type> element_ops_t;
return mkhash(hash<I+1>(a), element_ops_t::hash(std::get<I>(a)));
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}
};
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template<typename T> struct hash_ops<std::vector<T>> {
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static inline bool cmp(std::vector<T> a, std::vector<T> b) {
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return a == b;
}
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static inline unsigned int hash(std::vector<T> a) {
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unsigned int h = mkhash_init;
for (auto k : a)
h = mkhash(h, hash_ops<T>::hash(k));
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return h;
}
};
struct hash_cstr_ops {
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static inline bool cmp(const char *a, const char *b) {
for (int i = 0; a[i] || b[i]; i++)
if (a[i] != b[i])
return false;
return true;
}
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static inline unsigned int hash(const char *a) {
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unsigned int hash = mkhash_init;
while (*a)
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hash = mkhash(hash, *(a++));
return hash;
}
};
struct hash_ptr_ops {
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static inline bool cmp(const void *a, const void *b) {
return a == b;
}
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static inline unsigned int hash(const void *a) {
return (uintptr_t)a;
}
};
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struct hash_obj_ops {
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static inline bool cmp(const void *a, const void *b) {
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return a == b;
}
template<typename T>
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static inline unsigned int hash(const T *a) {
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return a ? a->hash() : 0;
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}
};
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template<typename T>
inline unsigned int mkhash(const T &v) {
return hash_ops<T>().hash(v);
}
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inline int hashtable_size(int min_size)
{
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static std::vector<int> zero_and_some_primes = {
0, 23, 29, 37, 47, 59, 79, 101, 127, 163, 211, 269, 337, 431, 541, 677,
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853, 1069, 1361, 1709, 2137, 2677, 3347, 4201, 5261, 6577, 8231, 10289,
12889, 16127, 20161, 25219, 31531, 39419, 49277, 61603, 77017, 96281,
120371, 150473, 188107, 235159, 293957, 367453, 459317, 574157, 717697,
897133, 1121423, 1401791, 1752239, 2190299, 2737937, 3422429, 4278037,
5347553, 6684443, 8355563, 10444457, 13055587, 16319519, 20399411,
25499291, 31874149, 39842687, 49803361, 62254207, 77817767, 97272239,
121590311, 151987889, 189984863, 237481091, 296851369, 371064217
};
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for (auto p : zero_and_some_primes)
if (p >= min_size) return p;
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if (sizeof(int) == 4)
throw std::length_error("hash table exceeded maximum size.\nDesign is likely too large for yosys to handle, if possible try not to flatten the design.");
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for (auto p : zero_and_some_primes)
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if (100129 * p > min_size) return 100129 * p;
throw std::length_error("hash table exceeded maximum size.");
}
template<typename K, typename T, typename OPS = hash_ops<K>> class dict;
template<typename K, int offset = 0, typename OPS = hash_ops<K>> class idict;
template<typename K, typename OPS = hash_ops<K>> class pool;
template<typename K, typename OPS = hash_ops<K>> class mfp;
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template<typename K, typename T, typename OPS>
class dict
{
struct entry_t
{
std::pair<K, T> udata;
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int next;
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entry_t() { }
entry_t(const std::pair<K, T> &udata, int next) : udata(udata), next(next) { }
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entry_t(std::pair<K, T> &&udata, int next) : udata(std::move(udata)), next(next) { }
bool operator<(const entry_t &other) const { return udata.first < other.udata.first; }
};
std::vector<int> hashtable;
std::vector<entry_t> entries;
OPS ops;
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#ifdef NDEBUG
static inline void do_assert(bool) { }
#else
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static inline void do_assert(bool cond) {
if (!cond) throw std::runtime_error("dict<> assert failed.");
}
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#endif
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int do_hash(const K &key) const
{
unsigned int hash = 0;
if (!hashtable.empty())
hash = ops.hash(key) % (unsigned int)(hashtable.size());
return hash;
}
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void do_rehash()
{
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hashtable.clear();
hashtable.resize(hashtable_size(entries.capacity() * hashtable_size_factor), -1);
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for (int i = 0; i < int(entries.size()); i++) {
do_assert(-1 <= entries[i].next && entries[i].next < int(entries.size()));
int hash = do_hash(entries[i].udata.first);
entries[i].next = hashtable[hash];
hashtable[hash] = i;
}
}
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int do_erase(int index, int hash)
{
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do_assert(index < int(entries.size()));
if (hashtable.empty() || index < 0)
return 0;
int k = hashtable[hash];
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do_assert(0 <= k && k < int(entries.size()));
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if (k == index) {
hashtable[hash] = entries[index].next;
} else {
while (entries[k].next != index) {
k = entries[k].next;
do_assert(0 <= k && k < int(entries.size()));
}
entries[k].next = entries[index].next;
}
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int back_idx = entries.size()-1;
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if (index != back_idx)
{
int back_hash = do_hash(entries[back_idx].udata.first);
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k = hashtable[back_hash];
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do_assert(0 <= k && k < int(entries.size()));
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if (k == back_idx) {
hashtable[back_hash] = index;
} else {
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while (entries[k].next != back_idx) {
k = entries[k].next;
do_assert(0 <= k && k < int(entries.size()));
}
entries[k].next = index;
}
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entries[index] = std::move(entries[back_idx]);
}
entries.pop_back();
if (entries.empty())
hashtable.clear();
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return 1;
}
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int do_lookup(const K &key, int &hash) const
{
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if (hashtable.empty())
return -1;
if (entries.size() * hashtable_size_trigger > hashtable.size()) {
((dict*)this)->do_rehash();
hash = do_hash(key);
}
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int index = hashtable[hash];
while (index >= 0 && !ops.cmp(entries[index].udata.first, key)) {
index = entries[index].next;
do_assert(-1 <= index && index < int(entries.size()));
}
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return index;
}
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int do_insert(const K &key, int &hash)
{
if (hashtable.empty()) {
entries.emplace_back(std::pair<K, T>(key, T()), -1);
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do_rehash();
hash = do_hash(key);
} else {
entries.emplace_back(std::pair<K, T>(key, T()), hashtable[hash]);
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hashtable[hash] = entries.size() - 1;
}
return entries.size() - 1;
}
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int do_insert(const std::pair<K, T> &value, int &hash)
{
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if (hashtable.empty()) {
entries.emplace_back(value, -1);
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do_rehash();
hash = do_hash(value.first);
} else {
entries.emplace_back(value, hashtable[hash]);
hashtable[hash] = entries.size() - 1;
}
return entries.size() - 1;
}
int do_insert(std::pair<K, T> &&rvalue, int &hash)
{
if (hashtable.empty()) {
auto key = rvalue.first;
entries.emplace_back(std::forward<std::pair<K, T>>(rvalue), -1);
do_rehash();
hash = do_hash(key);
} else {
entries.emplace_back(std::forward<std::pair<K, T>>(rvalue), hashtable[hash]);
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hashtable[hash] = entries.size() - 1;
}
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return entries.size() - 1;
}
public:
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class const_iterator : public std::iterator<std::forward_iterator_tag, std::pair<K, T>>
{
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friend class dict;
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protected:
const dict *ptr;
int index;
const_iterator(const dict *ptr, int index) : ptr(ptr), index(index) { }
public:
const_iterator() { }
const_iterator operator++() { index--; return *this; }
const_iterator operator+=(int amt) { index -= amt; return *this; }
bool operator<(const const_iterator &other) const { return index > other.index; }
bool operator==(const const_iterator &other) const { return index == other.index; }
bool operator!=(const const_iterator &other) const { return index != other.index; }
const std::pair<K, T> &operator*() const { return ptr->entries[index].udata; }
const std::pair<K, T> *operator->() const { return &ptr->entries[index].udata; }
};
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class iterator : public std::iterator<std::forward_iterator_tag, std::pair<K, T>>
{
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friend class dict;
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protected:
dict *ptr;
int index;
iterator(dict *ptr, int index) : ptr(ptr), index(index) { }
public:
iterator() { }
iterator operator++() { index--; return *this; }
iterator operator+=(int amt) { index -= amt; return *this; }
bool operator<(const iterator &other) const { return index > other.index; }
bool operator==(const iterator &other) const { return index == other.index; }
bool operator!=(const iterator &other) const { return index != other.index; }
std::pair<K, T> &operator*() { return ptr->entries[index].udata; }
std::pair<K, T> *operator->() { return &ptr->entries[index].udata; }
const std::pair<K, T> &operator*() const { return ptr->entries[index].udata; }
const std::pair<K, T> *operator->() const { return &ptr->entries[index].udata; }
operator const_iterator() const { return const_iterator(ptr, index); }
};
dict()
{
}
dict(const dict &other)
{
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entries = other.entries;
do_rehash();
}
dict(dict &&other)
{
swap(other);
}
dict &operator=(const dict &other) {
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entries = other.entries;
do_rehash();
return *this;
}
dict &operator=(dict &&other) {
clear();
swap(other);
return *this;
}
dict(const std::initializer_list<std::pair<K, T>> &list)
{
for (auto &it : list)
insert(it);
}
template<class InputIterator>
dict(InputIterator first, InputIterator last)
{
insert(first, last);
}
template<class InputIterator>
void insert(InputIterator first, InputIterator last)
{
for (; first != last; ++first)
insert(*first);
}
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std::pair<iterator, bool> insert(const K &key)
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(key, hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> insert(const std::pair<K, T> &value)
{
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int hash = do_hash(value.first);
int i = do_lookup(value.first, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
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i = do_insert(value, hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> insert(std::pair<K, T> &&rvalue)
{
int hash = do_hash(rvalue.first);
int i = do_lookup(rvalue.first, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::forward<std::pair<K, T>>(rvalue), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> emplace(K const &key, T const &value)
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::make_pair(key, value), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> emplace(K const &key, T &&rvalue)
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::make_pair(key, std::forward<T>(rvalue)), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> emplace(K &&rkey, T const &value)
{
int hash = do_hash(rkey);
int i = do_lookup(rkey, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::make_pair(std::forward<K>(rkey), value), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> emplace(K &&rkey, T &&rvalue)
{
int hash = do_hash(rkey);
int i = do_lookup(rkey, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::make_pair(std::forward<K>(rkey), std::forward<T>(rvalue)), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
int erase(const K &key)
{
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int hash = do_hash(key);
int index = do_lookup(key, hash);
return do_erase(index, hash);
}
iterator erase(iterator it)
{
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int hash = do_hash(it->first);
do_erase(it.index, hash);
return ++it;
}
int count(const K &key) const
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
return i < 0 ? 0 : 1;
}
int count(const K &key, const_iterator it) const
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
return i < 0 || i > it.index ? 0 : 1;
}
iterator find(const K &key)
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
return end();
return iterator(this, i);
}
const_iterator find(const K &key) const
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
return end();
return const_iterator(this, i);
}
T& at(const K &key)
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
throw std::out_of_range("dict::at()");
return entries[i].udata.second;
}
const T& at(const K &key) const
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
throw std::out_of_range("dict::at()");
return entries[i].udata.second;
}
const T& at(const K &key, const T &defval) const
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
return defval;
return entries[i].udata.second;
}
T& operator[](const K &key)
{
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int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
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i = do_insert(std::pair<K, T>(key, T()), hash);
return entries[i].udata.second;
}
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template<typename Compare = std::less<K>>
void sort(Compare comp = Compare())
{
std::sort(entries.begin(), entries.end(), [comp](const entry_t &a, const entry_t &b){ return comp(b.udata.first, a.udata.first); });
do_rehash();
}
void swap(dict &other)
{
hashtable.swap(other.hashtable);
entries.swap(other.entries);
}
bool operator==(const dict &other) const {
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if (size() != other.size())
return false;
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for (auto &it : entries) {
auto oit = other.find(it.udata.first);
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if (oit == other.end() || !(oit->second == it.udata.second))
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return false;
}
return true;
}
bool operator!=(const dict &other) const {
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return !operator==(other);
}
unsigned int hash() const {
unsigned int h = mkhash_init;
for (auto &entry : entries) {
h ^= hash_ops<K>::hash(entry.udata.first);
h ^= hash_ops<T>::hash(entry.udata.second);
}
return h;
}
void reserve(size_t n) { entries.reserve(n); }
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size_t size() const { return entries.size(); }
bool empty() const { return entries.empty(); }
void clear() { hashtable.clear(); entries.clear(); }
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iterator begin() { return iterator(this, int(entries.size())-1); }
iterator element(int n) { return iterator(this, int(entries.size())-1-n); }
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iterator end() { return iterator(nullptr, -1); }
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const_iterator begin() const { return const_iterator(this, int(entries.size())-1); }
const_iterator element(int n) const { return const_iterator(this, int(entries.size())-1-n); }
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const_iterator end() const { return const_iterator(nullptr, -1); }
};
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template<typename K, typename OPS>
class pool
{
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template<typename, int, typename> friend class idict;
protected:
struct entry_t
{
K udata;
int next;
entry_t() { }
entry_t(const K &udata, int next) : udata(udata), next(next) { }
entry_t(K &&udata, int next) : udata(std::move(udata)), next(next) { }
};
std::vector<int> hashtable;
std::vector<entry_t> entries;
OPS ops;
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#ifdef NDEBUG
static inline void do_assert(bool) { }
#else
static inline void do_assert(bool cond) {
if (!cond) throw std::runtime_error("pool<> assert failed.");
}
#endif
int do_hash(const K &key) const
{
unsigned int hash = 0;
if (!hashtable.empty())
hash = ops.hash(key) % (unsigned int)(hashtable.size());
return hash;
}
void do_rehash()
{
hashtable.clear();
hashtable.resize(hashtable_size(entries.capacity() * hashtable_size_factor), -1);
for (int i = 0; i < int(entries.size()); i++) {
do_assert(-1 <= entries[i].next && entries[i].next < int(entries.size()));
int hash = do_hash(entries[i].udata);
entries[i].next = hashtable[hash];
hashtable[hash] = i;
}
}
int do_erase(int index, int hash)
{
do_assert(index < int(entries.size()));
if (hashtable.empty() || index < 0)
return 0;
int k = hashtable[hash];
if (k == index) {
hashtable[hash] = entries[index].next;
} else {
while (entries[k].next != index) {
k = entries[k].next;
do_assert(0 <= k && k < int(entries.size()));
}
entries[k].next = entries[index].next;
}
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int back_idx = entries.size()-1;
if (index != back_idx)
{
int back_hash = do_hash(entries[back_idx].udata);
k = hashtable[back_hash];
if (k == back_idx) {
hashtable[back_hash] = index;
} else {
while (entries[k].next != back_idx) {
k = entries[k].next;
do_assert(0 <= k && k < int(entries.size()));
}
entries[k].next = index;
}
entries[index] = std::move(entries[back_idx]);
}
entries.pop_back();
if (entries.empty())
hashtable.clear();
return 1;
}
int do_lookup(const K &key, int &hash) const
{
if (hashtable.empty())
return -1;
if (entries.size() * hashtable_size_trigger > hashtable.size()) {
((pool*)this)->do_rehash();
hash = do_hash(key);
}
int index = hashtable[hash];
while (index >= 0 && !ops.cmp(entries[index].udata, key)) {
index = entries[index].next;
do_assert(-1 <= index && index < int(entries.size()));
}
return index;
}
int do_insert(const K &value, int &hash)
{
if (hashtable.empty()) {
entries.emplace_back(value, -1);
do_rehash();
hash = do_hash(value);
} else {
entries.emplace_back(value, hashtable[hash]);
hashtable[hash] = entries.size() - 1;
}
return entries.size() - 1;
}
int do_insert(K &&rvalue, int &hash)
{
if (hashtable.empty()) {
entries.emplace_back(std::forward<K>(rvalue), -1);
do_rehash();
hash = do_hash(rvalue);
} else {
entries.emplace_back(std::forward<K>(rvalue), hashtable[hash]);
hashtable[hash] = entries.size() - 1;
}
return entries.size() - 1;
}
public:
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class const_iterator : public std::iterator<std::forward_iterator_tag, K>
{
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friend class pool;
protected:
const pool *ptr;
int index;
const_iterator(const pool *ptr, int index) : ptr(ptr), index(index) { }
public:
const_iterator() { }
const_iterator operator++() { index--; return *this; }
bool operator==(const const_iterator &other) const { return index == other.index; }
bool operator!=(const const_iterator &other) const { return index != other.index; }
const K &operator*() const { return ptr->entries[index].udata; }
const K *operator->() const { return &ptr->entries[index].udata; }
};
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class iterator : public std::iterator<std::forward_iterator_tag, K>
{
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friend class pool;
protected:
pool *ptr;
int index;
iterator(pool *ptr, int index) : ptr(ptr), index(index) { }
public:
iterator() { }
iterator operator++() { index--; return *this; }
bool operator==(const iterator &other) const { return index == other.index; }
bool operator!=(const iterator &other) const { return index != other.index; }
K &operator*() { return ptr->entries[index].udata; }
K *operator->() { return &ptr->entries[index].udata; }
const K &operator*() const { return ptr->entries[index].udata; }
const K *operator->() const { return &ptr->entries[index].udata; }
operator const_iterator() const { return const_iterator(ptr, index); }
};
pool()
{
}
pool(const pool &other)
{
entries = other.entries;
do_rehash();
}
pool(pool &&other)
{
swap(other);
}
pool &operator=(const pool &other) {
entries = other.entries;
do_rehash();
return *this;
}
pool &operator=(pool &&other) {
clear();
swap(other);
return *this;
}
pool(const std::initializer_list<K> &list)
{
for (auto &it : list)
insert(it);
}
template<class InputIterator>
pool(InputIterator first, InputIterator last)
{
insert(first, last);
}
template<class InputIterator>
void insert(InputIterator first, InputIterator last)
{
for (; first != last; ++first)
insert(*first);
}
std::pair<iterator, bool> insert(const K &value)
{
int hash = do_hash(value);
int i = do_lookup(value, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(value, hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
std::pair<iterator, bool> insert(K &&rvalue)
{
int hash = do_hash(rvalue);
int i = do_lookup(rvalue, hash);
if (i >= 0)
return std::pair<iterator, bool>(iterator(this, i), false);
i = do_insert(std::forward<K>(rvalue), hash);
return std::pair<iterator, bool>(iterator(this, i), true);
}
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template<typename... Args>
std::pair<iterator, bool> emplace(Args&&... args)
{
return insert(K(std::forward<Args>(args)...));
}
int erase(const K &key)
{
int hash = do_hash(key);
int index = do_lookup(key, hash);
return do_erase(index, hash);
}
iterator erase(iterator it)
{
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int hash = do_hash(*it);
do_erase(it.index, hash);
return ++it;
}
int count(const K &key) const
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
return i < 0 ? 0 : 1;
}
int count(const K &key, const_iterator it) const
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
return i < 0 || i > it.index ? 0 : 1;
}
iterator find(const K &key)
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
return end();
return iterator(this, i);
}
const_iterator find(const K &key) const
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
if (i < 0)
return end();
return const_iterator(this, i);
}
bool operator[](const K &key)
{
int hash = do_hash(key);
int i = do_lookup(key, hash);
return i >= 0;
}
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template<typename Compare = std::less<K>>
void sort(Compare comp = Compare())
{
std::sort(entries.begin(), entries.end(), [comp](const entry_t &a, const entry_t &b){ return comp(b.udata, a.udata); });
do_rehash();
}
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K pop()
{
iterator it = begin();
K ret = *it;
erase(it);
return ret;
}
void swap(pool &other)
{
hashtable.swap(other.hashtable);
entries.swap(other.entries);
}
bool operator==(const pool &other) const {
if (size() != other.size())
return false;
for (auto &it : entries)
if (!other.count(it.udata))
return false;
return true;
}
bool operator!=(const pool &other) const {
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return !operator==(other);
}
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unsigned int hash() const {
unsigned int hashval = mkhash_init;
for (auto &it : entries)
hashval ^= ops.hash(it.udata);
return hashval;
}
void reserve(size_t n) { entries.reserve(n); }
size_t size() const { return entries.size(); }
bool empty() const { return entries.empty(); }
void clear() { hashtable.clear(); entries.clear(); }
iterator begin() { return iterator(this, int(entries.size())-1); }
iterator element(int n) { return iterator(this, int(entries.size())-1-n); }
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iterator end() { return iterator(nullptr, -1); }
const_iterator begin() const { return const_iterator(this, int(entries.size())-1); }
const_iterator element(int n) const { return const_iterator(this, int(entries.size())-1-n); }
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const_iterator end() const { return const_iterator(nullptr, -1); }
};
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template<typename K, int offset, typename OPS>
class idict
{
pool<K, OPS> database;
public:
class const_iterator : public std::iterator<std::forward_iterator_tag, K>
{
friend class idict;
protected:
const idict &container;
int index;
const_iterator(const idict &container, int index) : container(container), index(index) { }
public:
const_iterator() { }
const_iterator operator++() { index++; return *this; }
bool operator==(const const_iterator &other) const { return index == other.index; }
bool operator!=(const const_iterator &other) const { return index != other.index; }
const K &operator*() const { return container[index]; }
const K *operator->() const { return &container[index]; }
};
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int operator()(const K &key)
{
int hash = database.do_hash(key);
int i = database.do_lookup(key, hash);
if (i < 0)
i = database.do_insert(key, hash);
return i + offset;
}
int at(const K &key) const
{
int hash = database.do_hash(key);
int i = database.do_lookup(key, hash);
if (i < 0)
throw std::out_of_range("idict::at()");
return i + offset;
}
int at(const K &key, int defval) const
{
int hash = database.do_hash(key);
int i = database.do_lookup(key, hash);
if (i < 0)
return defval;
return i + offset;
}
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int count(const K &key) const
{
int hash = database.do_hash(key);
int i = database.do_lookup(key, hash);
return i < 0 ? 0 : 1;
}
void expect(const K &key, int i)
{
int j = (*this)(key);
if (i != j)
throw std::out_of_range("idict::expect()");
}
const K &operator[](int index) const
{
return database.entries.at(index - offset).udata;
}
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void swap(idict &other)
{
database.swap(other.database);
}
void reserve(size_t n) { database.reserve(n); }
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size_t size() const { return database.size(); }
bool empty() const { return database.empty(); }
void clear() { database.clear(); }
const_iterator begin() const { return const_iterator(*this, offset); }
const_iterator element(int n) const { return const_iterator(*this, n); }
const_iterator end() const { return const_iterator(*this, offset + size()); }
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};
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template<typename K, typename OPS>
class mfp
{
mutable idict<K, 0, OPS> database;
mutable std::vector<int> parents;
public:
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typedef typename idict<K, 0, OPS>::const_iterator const_iterator;
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int operator()(const K &key) const
{
int i = database(key);
parents.resize(database.size(), -1);
return i;
}
const K &operator[](int index) const
{
return database[index];
}
int ifind(int i) const
{
int p = i, k = i;
while (parents[p] != -1)
p = parents[p];
while (k != p) {
int next_k = parents[k];
parents[k] = p;
k = next_k;
}
return p;
}
void imerge(int i, int j)
{
i = ifind(i);
j = ifind(j);
if (i != j)
parents[i] = j;
}
void ipromote(int i)
{
int k = i;
while (k != -1) {
int next_k = parents[k];
parents[k] = i;
k = next_k;
}
parents[i] = -1;
}
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int lookup(const K &a) const
{
return ifind((*this)(a));
}
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const K &find(const K &a) const
{
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int i = database.at(a, -1);
if (i < 0)
return a;
return (*this)[ifind(i)];
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}
void merge(const K &a, const K &b)
{
imerge((*this)(a), (*this)(b));
}
void promote(const K &a)
{
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int i = database.at(a, -1);
if (i >= 0)
ipromote(i);
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}
void swap(mfp &other)
{
database.swap(other.database);
parents.swap(other.parents);
}
void reserve(size_t n) { database.reserve(n); }
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size_t size() const { return database.size(); }
bool empty() const { return database.empty(); }
void clear() { database.clear(); parents.clear(); }
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const_iterator begin() const { return database.begin(); }
const_iterator element(int n) const { return database.element(n); }
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const_iterator end() const { return database.end(); }
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};
} /* namespace hashlib */
#endif