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#include "ff_ngrams.h"
#include <cstring>
#include <iostream>
#include <boost/scoped_ptr.hpp>
#include "filelib.h"
#include "stringlib.h"
#include "hg.h"
#include "tdict.h"
using namespace std;
static const unsigned char HAS_FULL_CONTEXT = 1;
static const unsigned char HAS_EOS_ON_RIGHT = 2;
static const unsigned char MASK = 7;
namespace {
template <unsigned MAX_ORDER = 5>
struct State {
explicit State() {
memset(state, 0, sizeof(state));
}
explicit State(int order) {
memset(state, 0, (order - 1) * sizeof(WordID));
}
State<MAX_ORDER>(char order, const WordID* mem) {
memcpy(state, mem, (order - 1) * sizeof(WordID));
}
State(const State<MAX_ORDER>& other) {
memcpy(state, other.state, sizeof(state));
}
const State& operator=(const State<MAX_ORDER>& other) {
memcpy(state, other.state, sizeof(state));
return *this;
}
explicit State(const State<MAX_ORDER>& other, unsigned order, WordID extend) {
unsigned om1 = order - 1;
if (!om1) { memset(state, 0, sizeof(state)); return; }
for (unsigned i = 1; i < om1; ++i) state[i - 1]= other.state[i];
state[om1 - 1] = extend;
}
const WordID& operator[](size_t i) const { return state[i]; }
WordID& operator[](size_t i) { return state[i]; }
WordID state[MAX_ORDER];
};
}
namespace {
string Escape(const string& x) {
if (x.find('=') == string::npos && x.find(';') == string::npos) {
return x;
}
string y = x;
for (int i = 0; i < y.size(); ++i) {
if (y[i] == '=') y[i]='_';
if (y[i] == ';') y[i]='_';
}
return y;
}
}
static bool ParseArgs(string const& in, bool* explicit_markers, unsigned* order, vector<string>& prefixes, string& target_separator, string* cluster_file, string* featname) {
vector<string> const& argv=SplitOnWhitespace(in);
*featname = "";
*explicit_markers = false;
*order = 3;
prefixes.push_back("NOT-USED");
prefixes.push_back("U:"); // default unigram prefix
prefixes.push_back("B:"); // default bigram prefix
prefixes.push_back("T:"); // ...etc
prefixes.push_back("4:"); // ...etc
prefixes.push_back("5:"); // max allowed!
target_separator = "_";
#define LMSPEC_NEXTARG if (i==argv.end()) { \
cerr << "Missing argument for "<<*last<<". "; goto usage; \
} else { ++i; }
for (vector<string>::const_iterator last,i=argv.begin(),e=argv.end();i!=e;++i) {
string const& s=*i;
if (s[0]=='-') {
if (s.size()>2) goto fail;
switch (s[1]) {
case 'x':
*explicit_markers = true;
break;
case 'n':
LMSPEC_NEXTARG; *featname=*i;
break;
case 'U':
LMSPEC_NEXTARG;
prefixes[1] = *i;
break;
case 'B':
LMSPEC_NEXTARG;
prefixes[2] = *i;
break;
case 'T':
LMSPEC_NEXTARG;
prefixes[3] = *i;
break;
case '4':
LMSPEC_NEXTARG;
prefixes[4] = *i;
break;
case '5':
LMSPEC_NEXTARG;
prefixes[5] = *i;
break;
case 'c':
LMSPEC_NEXTARG;
*cluster_file = *i;
break;
case 'S':
LMSPEC_NEXTARG;
target_separator = *i;
break;
case 'o':
LMSPEC_NEXTARG; *order=atoi((*i).c_str());
break;
#undef LMSPEC_NEXTARG
default:
fail:
cerr<<"Unknown option on NgramFeatures "<<s<<" ; ";
goto usage;
}
}
}
return true;
usage:
cerr << "Wrong parameters for NgramFeatures.\n\n"
<< "NgramFeatures Usage: \n"
<< " feature_function=NgramFeatures filename.lm [-x] [-o <order>] \n"
<< " [-c <cluster-file>]\n"
<< " [-U <unigram-prefix>] [-B <bigram-prefix>][-T <trigram-prefix>]\n"
<< " [-4 <4-gram-prefix>] [-5 <5-gram-prefix>] [-S <separator>]\n\n"
<< "Defaults: \n"
<< " <order> = 3\n"
<< " <unigram-prefix> = U:\n"
<< " <bigram-prefix> = B:\n"
<< " <trigram-prefix> = T:\n"
<< " <4-gram-prefix> = 4:\n"
<< " <5-gram-prefix> = 5:\n"
<< " <separator> = _\n"
<< " -x (i.e. explicit sos/eos markers) is turned off\n\n"
<< "Example configuration: \n"
<< " feature_function=NgramFeatures -o 3 -T tri: -S |\n\n"
<< "Example feature instantiation: \n"
<< " tri:a|b|c \n\n";
abort();
}
class NgramDetectorImpl {
// returns the number of unscored words at the left edge of a span
inline int UnscoredSize(const void* state) const {
return *(static_cast<const char*>(state) + unscored_size_offset_);
}
inline void SetUnscoredSize(int size, void* state) const {
*(static_cast<char*>(state) + unscored_size_offset_) = size;
}
inline State<5> RemnantLMState(const void* cstate) const {
return State<5>(order_, static_cast<const WordID*>(cstate));
}
inline const State<5> BeginSentenceState() const {
State<5> state(order_);
state.state[0] = kSOS_;
return state;
}
inline void SetRemnantLMState(const State<5>& lmstate, void* state) const {
// if we were clever, we could use the memory pointed to by state to do all
// the work, avoiding this copy
memcpy(state, lmstate.state, (order_-1) * sizeof(WordID));
}
WordID IthUnscoredWord(int i, const void* state) const {
const WordID* const mem = reinterpret_cast<const WordID*>(static_cast<const char*>(state) + unscored_words_offset_);
return mem[i];
}
void SetIthUnscoredWord(int i, const WordID index, void *state) const {
WordID* mem = reinterpret_cast<WordID*>(static_cast<char*>(state) + unscored_words_offset_);
mem[i] = index;
}
inline bool GetFlag(const void *state, unsigned char flag) const {
return (*(static_cast<const char*>(state) + is_complete_offset_) & flag);
}
inline void SetFlag(bool on, unsigned char flag, void *state) const {
if (on) {
*(static_cast<char*>(state) + is_complete_offset_) |= flag;
} else {
*(static_cast<char*>(state) + is_complete_offset_) &= (MASK ^ flag);
}
}
inline bool HasFullContext(const void *state) const {
return GetFlag(state, HAS_FULL_CONTEXT);
}
inline void SetHasFullContext(bool flag, void *state) const {
SetFlag(flag, HAS_FULL_CONTEXT, state);
}
WordID MapToClusterIfNecessary(WordID w) const {
if (cluster_map.size() == 0) return w;
if (w >= cluster_map.size()) return kCDEC_UNK;
return cluster_map[w];
}
void FireFeatures(const State<5>& state, WordID cur, SparseVector<double>* feats) {
FidTree* ft = &fidroot_;
int n = 0;
WordID buf[10];
int ci = order_ - 1;
WordID curword = cur;
while(curword) {
buf[n] = curword;
int& fid = ft->fids[curword];
++n;
if (!fid) {
ostringstream os;
os << featname_;
os << prefixes_[n];
for (int i = n-1; i >= 0; --i) {
os << (i != n-1 ? target_separator_ : "");
const string& tok = TD::Convert(buf[i]);
os << Escape(tok);
}
fid = FD::Convert(os.str());
}
feats->set_value(fid, 1);
ft = &ft->levels[curword];
--ci;
if (ci < 0) break;
curword = state[ci];
}
}
public:
void LookupWords(const TRule& rule, const vector<const void*>& ant_states, SparseVector<double>* feats, SparseVector<double>* est_feats, void* remnant) {
int num_scored = 0;
int num_estimated = 0;
bool saw_eos = false;
bool has_some_history = false;
State<5> state;
const vector<WordID>& e = rule.e();
bool context_complete = false;
for (int j = 0; j < e.size(); ++j) {
if (e[j] < 1) { // handle non-terminal substitution
const void* astate = (ant_states[-e[j]]);
int unscored_ant_len = UnscoredSize(astate);
for (int k = 0; k < unscored_ant_len; ++k) {
const WordID cur_word = IthUnscoredWord(k, astate);
SparseVector<double> p;
if (cur_word == kSOS_) {
state = BeginSentenceState();
if (has_some_history) { // this is immediately fully scored, and bad
p.set_value(FD::Convert("Malformed"), 1.0);
context_complete = true;
} else { // this might be a real <s>
num_scored = max(0, order_ - 2);
}
} else {
FireFeatures(state, cur_word, &p);
const State<5> scopy = State<5>(state, order_, cur_word);
state = scopy;
if (saw_eos) { p.set_value(FD::Convert("Malformed"), 1.0); }
saw_eos = (cur_word == kEOS_);
}
has_some_history = true;
++num_scored;
if (!context_complete) {
if (num_scored >= order_) context_complete = true;
}
if (context_complete) {
(*feats) += p;
} else {
if (remnant)
SetIthUnscoredWord(num_estimated, cur_word, remnant);
++num_estimated;
(*est_feats) += p;
}
}
saw_eos = GetFlag(astate, HAS_EOS_ON_RIGHT);
if (HasFullContext(astate)) { // this is equivalent to the "star" in Chiang 2007
state = RemnantLMState(astate);
context_complete = true;
}
} else { // handle terminal
const WordID cur_word = MapToClusterIfNecessary(e[j]);
SparseVector<double> p;
if (cur_word == kSOS_) {
state = BeginSentenceState();
if (has_some_history) { // this is immediately fully scored, and bad
p.set_value(FD::Convert("Malformed"), -100);
context_complete = true;
} else { // this might be a real <s>
num_scored = max(0, order_ - 2);
}
} else {
FireFeatures(state, cur_word, &p);
const State<5> scopy = State<5>(state, order_, cur_word);
state = scopy;
if (saw_eos) { p.set_value(FD::Convert("Malformed"), 1.0); }
saw_eos = (cur_word == kEOS_);
}
has_some_history = true;
++num_scored;
if (!context_complete) {
if (num_scored >= order_) context_complete = true;
}
if (context_complete) {
(*feats) += p;
} else {
if (remnant)
SetIthUnscoredWord(num_estimated, cur_word, remnant);
++num_estimated;
(*est_feats) += p;
}
}
}
if (remnant) {
SetFlag(saw_eos, HAS_EOS_ON_RIGHT, remnant);
SetRemnantLMState(state, remnant);
SetUnscoredSize(num_estimated, remnant);
SetHasFullContext(context_complete || (num_scored >= order_), remnant);
}
}
// this assumes no target words on final unary -> goal rule. is that ok?
// for <s> (n-1 left words) and (n-1 right words) </s>
void FinalTraversal(const void* state, SparseVector<double>* feats) {
if (add_sos_eos_) { // rules do not produce <s> </s>, so do it here
SetRemnantLMState(BeginSentenceState(), dummy_state_);
SetHasFullContext(1, dummy_state_);
SetUnscoredSize(0, dummy_state_);
dummy_ants_[1] = state;
LookupWords(*dummy_rule_, dummy_ants_, feats, NULL, NULL);
} else { // rules DO produce <s> ... </s>
#if 0
double p = 0;
if (!GetFlag(state, HAS_EOS_ON_RIGHT)) { p -= 100; }
if (UnscoredSize(state) > 0) { // are there unscored words
if (kSOS_ != IthUnscoredWord(0, state)) {
p -= 100 * UnscoredSize(state);
}
}
return p;
#endif
}
}
// the cluster file is formatted as follows:
// cluster word
// cluster word
void ReadClusterFile(const string& clusters) {
ReadFile rf(clusters);
istream& in = *rf.stream();
string line;
int lc = 0;
string cluster;
string word;
while(getline(in, line)) {
++lc;
if (line.size() == 0) continue;
if (line[0] == '#') continue;
unsigned cend = 1;
while((line[cend] != ' ' && line[cend] != '\t') && cend < line.size()) {
++cend;
}
if (cend == line.size()) {
cerr << "Line " << lc << " in " << clusters << " malformed: " << line << endl;
abort();
}
unsigned wbeg = cend + 1;
while((line[wbeg] == ' ' || line[wbeg] == '\t') && wbeg < line.size()) {
++wbeg;
}
if (wbeg == line.size()) {
cerr << "Line " << lc << " in " << clusters << " malformed: " << line << endl;
abort();
}
unsigned wend = wbeg + 1;
while((line[wend] != ' ' && line[wend] != '\t') && wend < line.size()) {
++wend;
}
const WordID clusterid = TD::Convert(line.substr(0, cend));
const WordID wordid = TD::Convert(line.substr(wbeg, wend - wbeg));
if (wordid >= cluster_map.size())
cluster_map.resize(wordid + 10, kCDEC_UNK);
cluster_map[wordid] = clusterid;
}
cluster_map[kSOS_] = kSOS_;
cluster_map[kEOS_] = kEOS_;
}
vector<WordID> cluster_map;
public:
explicit NgramDetectorImpl(bool explicit_markers, unsigned order,
vector<string>& prefixes, string& target_separator, const string& clusters,
const string& featname) :
kCDEC_UNK(TD::Convert("<unk>")) ,
add_sos_eos_(!explicit_markers) {
order_ = order;
state_size_ = (order_ - 1) * sizeof(WordID) + 2 + (order_ - 1) * sizeof(WordID);
unscored_size_offset_ = (order_ - 1) * sizeof(WordID);
is_complete_offset_ = unscored_size_offset_ + 1;
unscored_words_offset_ = is_complete_offset_ + 1;
prefixes_ = prefixes;
target_separator_ = target_separator;
featname_ = featname;
// special handling of beginning / ending sentence markers
dummy_state_ = new char[state_size_];
memset(dummy_state_, 0, state_size_);
dummy_ants_.push_back(dummy_state_);
dummy_ants_.push_back(NULL);
dummy_rule_.reset(new TRule("[DUMMY] ||| [BOS] [DUMMY] ||| [1] [2] </s> ||| X=0"));
kSOS_ = TD::Convert("<s>");
kEOS_ = TD::Convert("</s>");
if (clusters.size())
ReadClusterFile(clusters);
}
~NgramDetectorImpl() {
delete[] dummy_state_;
}
int ReserveStateSize() const { return state_size_; }
private:
const WordID kCDEC_UNK;
WordID kSOS_; // <s> - requires special handling.
WordID kEOS_; // </s>
const bool add_sos_eos_; // flag indicating whether the hypergraph produces <s> and </s>
// if this is true, FinalTransitionFeatures will "add" <s> and </s>
// if false, FinalTransitionFeatures will score anything with the
// markers in the right place (i.e., the beginning and end of
// the sentence) with 0, and anything else with -100
int order_;
int state_size_;
int unscored_size_offset_;
int is_complete_offset_;
int unscored_words_offset_;
char* dummy_state_;
vector<const void*> dummy_ants_;
TRulePtr dummy_rule_;
vector<string> prefixes_;
string target_separator_;
string featname_;
struct FidTree {
map<WordID, int> fids;
map<WordID, FidTree> levels;
};
mutable FidTree fidroot_;
};
NgramDetector::NgramDetector(const string& param) {
string filename, mapfile, featname, target_separator;
vector<string> prefixes;
bool explicit_markers = false;
unsigned order = 3;
string clusters;
ParseArgs(param, &explicit_markers, &order, prefixes, target_separator, &clusters, &featname);
pimpl_ = new NgramDetectorImpl(explicit_markers, order, prefixes,
target_separator, clusters, featname);
SetStateSize(pimpl_->ReserveStateSize());
}
NgramDetector::~NgramDetector() {
delete pimpl_;
}
void NgramDetector::TraversalFeaturesImpl(const SentenceMetadata& /* smeta */,
const Hypergraph::Edge& edge,
const vector<const void*>& ant_states,
SparseVector<double>* features,
SparseVector<double>* estimated_features,
void* state) const {
pimpl_->LookupWords(*edge.rule_, ant_states, features, estimated_features, state);
}
void NgramDetector::FinalTraversalFeatures(const void* ant_state,
SparseVector<double>* features) const {
pimpl_->FinalTraversal(ant_state, features);
}
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