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#include "lm/trie.hh"
#include "util/bit_packing.hh"
#include "util/exception.hh"
#include "util/proxy_iterator.hh"
#include "util/sorted_uniform.hh"
#include <assert.h>
namespace lm {
namespace ngram {
namespace trie {
namespace {
// Assumes key is first.
class JustKeyProxy {
public:
JustKeyProxy() : inner_(), base_(), key_mask_(), key_bits_(), total_bits_() {}
operator uint64_t() const { return GetKey(); }
uint64_t GetKey() const {
uint64_t bit_off = inner_ * static_cast<uint64_t>(total_bits_);
return util::ReadInt57(base_ + bit_off / 8, bit_off & 7, key_bits_, key_mask_);
}
private:
friend class util::ProxyIterator<JustKeyProxy>;
friend bool FindBitPacked(const void *base, uint64_t key_mask, uint8_t key_bits, uint8_t total_bits, uint64_t begin_index, uint64_t end_index, WordIndex key, uint64_t &at_index);
JustKeyProxy(const void *base, uint64_t index, uint64_t key_mask, uint8_t key_bits, uint8_t total_bits)
: inner_(index), base_(static_cast<const uint8_t*>(base)), key_mask_(key_mask), key_bits_(key_bits), total_bits_(total_bits) {}
// This is a read-only iterator.
JustKeyProxy &operator=(const JustKeyProxy &other);
typedef uint64_t value_type;
typedef uint64_t InnerIterator;
uint64_t &Inner() { return inner_; }
const uint64_t &Inner() const { return inner_; }
// The address in bits is base_ * 8 + inner_ * total_bits_.
uint64_t inner_;
const uint8_t *const base_;
const uint64_t key_mask_;
const uint8_t key_bits_, total_bits_;
};
bool FindBitPacked(const void *base, uint64_t key_mask, uint8_t key_bits, uint8_t total_bits, uint64_t begin_index, uint64_t end_index, WordIndex key, uint64_t &at_index) {
util::ProxyIterator<JustKeyProxy> begin_it(JustKeyProxy(base, begin_index, key_mask, key_bits, total_bits));
util::ProxyIterator<JustKeyProxy> end_it(JustKeyProxy(base, end_index, key_mask, key_bits, total_bits));
util::ProxyIterator<JustKeyProxy> out;
if (!util::SortedUniformFind(begin_it, end_it, key, out)) return false;
at_index = out.Inner();
return true;
}
} // namespace
std::size_t BitPacked::BaseSize(uint64_t entries, uint64_t max_vocab, uint8_t remaining_bits) {
uint8_t total_bits = util::RequiredBits(max_vocab) + 31 + remaining_bits;
// Extra entry for next pointer at the end.
// +7 then / 8 to round up bits and convert to bytes
// +sizeof(uint64_t) so that ReadInt57 etc don't go segfault.
// Note that this waste is O(order), not O(number of ngrams).
return ((1 + entries) * total_bits + 7) / 8 + sizeof(uint64_t);
}
void BitPacked::BaseInit(void *base, uint64_t max_vocab, uint8_t remaining_bits) {
util::BitPackingSanity();
word_bits_ = util::RequiredBits(max_vocab);
word_mask_ = (1ULL << word_bits_) - 1ULL;
if (word_bits_ > 57) UTIL_THROW(util::Exception, "Sorry, word indices more than " << (1ULL << 57) << " are not implemented. Edit util/bit_packing.hh and fix the bit packing functions.");
prob_bits_ = 31;
total_bits_ = word_bits_ + prob_bits_ + remaining_bits;
base_ = static_cast<uint8_t*>(base);
insert_index_ = 0;
}
std::size_t BitPackedMiddle::Size(uint64_t entries, uint64_t max_vocab, uint64_t max_ptr) {
return BaseSize(entries, max_vocab, 32 + util::RequiredBits(max_ptr));
}
void BitPackedMiddle::Init(void *base, uint64_t max_vocab, uint64_t max_next) {
backoff_bits_ = 32;
next_bits_ = util::RequiredBits(max_next);
if (next_bits_ > 57) UTIL_THROW(util::Exception, "Sorry, this does not support more than " << (1ULL << 57) << " n-grams of a particular order. Edit util/bit_packing.hh and fix the bit packing functions.");
next_mask_ = (1ULL << next_bits_) - 1;
BaseInit(base, max_vocab, backoff_bits_ + next_bits_);
}
void BitPackedMiddle::Insert(WordIndex word, float prob, float backoff, uint64_t next) {
assert(word <= word_mask_);
assert(next <= next_mask_);
uint64_t at_pointer = insert_index_ * total_bits_;
util::WriteInt57(base_ + (at_pointer >> 3), at_pointer & 7, word_bits_, word);
at_pointer += word_bits_;
util::WriteNonPositiveFloat31(base_ + (at_pointer >> 3), at_pointer & 7, prob);
at_pointer += prob_bits_;
util::WriteFloat32(base_ + (at_pointer >> 3), at_pointer & 7, backoff);
at_pointer += backoff_bits_;
util::WriteInt57(base_ + (at_pointer >> 3), at_pointer & 7, next_bits_, next);
++insert_index_;
}
bool BitPackedMiddle::Find(WordIndex word, float &prob, float &backoff, NodeRange &range) const {
uint64_t at_pointer;
if (!FindBitPacked(base_, word_mask_, word_bits_, total_bits_, range.begin, range.end, word, at_pointer)) return false;
at_pointer *= total_bits_;
at_pointer += word_bits_;
prob = util::ReadNonPositiveFloat31(base_ + (at_pointer >> 3), at_pointer & 7);
at_pointer += prob_bits_;
backoff = util::ReadFloat32(base_ + (at_pointer >> 3), at_pointer & 7);
at_pointer += backoff_bits_;
range.begin = util::ReadInt57(base_ + (at_pointer >> 3), at_pointer & 7, next_bits_, next_mask_);
// Read the next entry's pointer.
at_pointer += total_bits_;
range.end = util::ReadInt57(base_ + (at_pointer >> 3), at_pointer & 7, next_bits_, next_mask_);
return true;
}
bool BitPackedMiddle::FindNoProb(WordIndex word, float &backoff, NodeRange &range) const {
uint64_t at_pointer;
if (!FindBitPacked(base_, word_mask_, word_bits_, total_bits_, range.begin, range.end, word, at_pointer)) return false;
at_pointer *= total_bits_;
at_pointer += word_bits_;
at_pointer += prob_bits_;
backoff = util::ReadFloat32(base_ + (at_pointer >> 3), at_pointer & 7);
at_pointer += backoff_bits_;
range.begin = util::ReadInt57(base_ + (at_pointer >> 3), at_pointer & 7, next_bits_, next_mask_);
// Read the next entry's pointer.
at_pointer += total_bits_;
range.end = util::ReadInt57(base_ + (at_pointer >> 3), at_pointer & 7, next_bits_, next_mask_);
return true;
}
void BitPackedMiddle::FinishedLoading(uint64_t next_end) {
assert(next_end <= next_mask_);
uint64_t last_next_write = (insert_index_ + 1) * total_bits_ - next_bits_;
util::WriteInt57(base_ + (last_next_write >> 3), last_next_write & 7, next_bits_, next_end);
}
void BitPackedLongest::Insert(WordIndex index, float prob) {
assert(index <= word_mask_);
uint64_t at_pointer = insert_index_ * total_bits_;
util::WriteInt57(base_ + (at_pointer >> 3), at_pointer & 7, word_bits_, index);
at_pointer += word_bits_;
util::WriteNonPositiveFloat31(base_ + (at_pointer >> 3), at_pointer & 7, prob);
++insert_index_;
}
bool BitPackedLongest::Find(WordIndex word, float &prob, const NodeRange &range) const {
uint64_t at_pointer;
if (!FindBitPacked(base_, word_mask_, word_bits_, total_bits_, range.begin, range.end, word, at_pointer)) return false;
at_pointer = at_pointer * total_bits_ + word_bits_;
prob = util::ReadNonPositiveFloat31(base_ + (at_pointer >> 3), at_pointer & 7);
return true;
}
} // namespace trie
} // namespace ngram
} // namespace lm
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