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#include <iostream>
#include <vector>
#include <utility>
#include <cstdlib>
#include <tr1/unordered_map>
#include <boost/functional/hash.hpp>
#include <boost/program_options.hpp>
#include <boost/program_options/variables_map.hpp>
#include "tdict.h"
#include "sentence_pair.h"
#include "fdict.h"
#include "extract.h"
using namespace std;
using namespace std::tr1;
namespace po = boost::program_options;
static const size_t MAX_LINE_LENGTH = 64000000;
bool use_hadoop_counters = false;
namespace {
inline bool IsWhitespace(char c) { return c == ' ' || c == '\t'; }
inline void SkipWhitespace(const char* buf, int* ptr) {
while (buf[*ptr] && IsWhitespace(buf[*ptr])) { ++(*ptr); }
}
}
void InitCommandLine(int argc, char** argv, po::variables_map* conf) {
po::options_description opts("Configuration options");
opts.add_options()
("phrase_marginals,p", "Compute phrase marginals")
("use_hadoop_counters,C", "Enable this if running inside Hadoop")
("bidir,b", "Rules are tagged as being F->E or E->F, invert E rules in output")
("help,h", "Print this help message and exit");
po::options_description clo("Command line options");
po::options_description dcmdline_options;
dcmdline_options.add(opts);
po::store(parse_command_line(argc, argv, dcmdline_options), *conf);
po::notify(*conf);
if (conf->count("help")) {
cerr << "\nUsage: mr_stripe_rule_reduce [-options]\n";
cerr << dcmdline_options << endl;
exit(1);
}
}
typedef unordered_map<vector<WordID>, RuleStatistics, boost::hash<vector<WordID> > > ID2RuleStatistics;
void PlusEquals(const ID2RuleStatistics& v, ID2RuleStatistics* self) {
for (ID2RuleStatistics::const_iterator it = v.begin(); it != v.end(); ++it) {
RuleStatistics& dest = (*self)[it->first];
dest += it->second;
// TODO - do something smarter about alignments?
if (dest.aligns.empty() && !it->second.aligns.empty())
dest.aligns = it->second.aligns;
}
}
int ReadPhraseUntilDividerOrEnd(const char* buf, const int sstart, const int end, vector<WordID>* p) {
static const WordID kDIV = TD::Convert("|||");
int ptr = sstart;
while(ptr < end) {
while(ptr < end && IsWhitespace(buf[ptr])) { ++ptr; }
int start = ptr;
while(ptr < end && !IsWhitespace(buf[ptr])) { ++ptr; }
if (ptr == start) {cerr << "Warning! empty token.\n"; return ptr; }
const WordID w = TD::Convert(string(buf, start, ptr - start));
if (w == kDIV) return ptr;
p->push_back(w);
}
return ptr;
}
void ParseLine(const char* buf, vector<WordID>* cur_key, ID2RuleStatistics* counts) {
static const WordID kDIV = TD::Convert("|||");
counts->clear();
int ptr = 0;
while(buf[ptr] != 0 && buf[ptr] != '\t') { ++ptr; }
if (buf[ptr] != '\t') {
cerr << "Missing tab separator between key and value!\n INPUT=" << buf << endl;
exit(1);
}
cur_key->clear();
// key is: "[X] ||| word word word"
int tmpp = ReadPhraseUntilDividerOrEnd(buf, 0, ptr, cur_key);
if (buf[tmpp] != '\t') {
cur_key->push_back(kDIV);
ReadPhraseUntilDividerOrEnd(buf, tmpp, ptr, cur_key);
}
++ptr;
int start = ptr;
int end = ptr;
int state = 0; // 0=reading label, 1=reading count
vector<WordID> name;
while(buf[ptr] != 0) {
while(buf[ptr] != 0 && buf[ptr] != '|') { ++ptr; }
if (buf[ptr] == '|') {
++ptr;
if (buf[ptr] == '|') {
++ptr;
if (buf[ptr] == '|') {
++ptr;
end = ptr - 3;
while (end > start && IsWhitespace(buf[end-1])) { --end; }
if (start == end) {
cerr << "Got empty token!\n LINE=" << buf << endl;
exit(1);
}
switch (state) {
case 0: ++state; name.clear(); ReadPhraseUntilDividerOrEnd(buf, start, end, &name); break;
case 1: --state; (*counts)[name].ParseRuleStatistics(buf, start, end); break;
default: cerr << "Can't happen\n"; abort();
}
SkipWhitespace(buf, &ptr);
start = ptr;
}
}
}
}
end=ptr;
while (end > start && IsWhitespace(buf[end-1])) { --end; }
if (end > start) {
switch (state) {
case 0: ++state; name.clear(); ReadPhraseUntilDividerOrEnd(buf, start, end, &name); break;
case 1: --state; (*counts)[name].ParseRuleStatistics(buf, start, end); break;
default: cerr << "Can't happen\n"; abort();
}
}
}
void WriteKeyValue(const vector<WordID>& key, const ID2RuleStatistics& val) {
cout << TD::GetString(key) << '\t';
bool needdiv = false;
for (ID2RuleStatistics::const_iterator it = val.begin(); it != val.end(); ++it) {
if (needdiv) cout << " ||| "; else needdiv = true;
cout << TD::GetString(it->first) << " ||| " << it->second;
}
cout << endl;
if (use_hadoop_counters) cerr << "reporter:counter:UserCounters,RuleCount," << val.size() << endl;
}
void DoPhraseMarginals(const vector<WordID>& key, const bool bidir, ID2RuleStatistics* val) {
static const WordID kF = TD::Convert("F");
static const WordID kE = TD::Convert("E");
static const int kCF = FD::Convert("CF");
static const int kCE = FD::Convert("CE");
static const int kCFE = FD::Convert("CFE");
assert(key.size() > 0);
int cur_marginal_id = kCF;
if (bidir) {
if (key[0] != kF && key[0] != kE) {
cerr << "DoPhraseMarginals expects keys to have the from 'F|E [NT] word word word'\n";
cerr << " but got: " << TD::GetString(key) << endl;
exit(1);
}
if (key[0] == kE) cur_marginal_id = kCE;
}
double tot = 0;
for (ID2RuleStatistics::iterator it = val->begin(); it != val->end(); ++it)
tot += it->second.counts.value(kCFE);
for (ID2RuleStatistics::iterator it = val->begin(); it != val->end(); ++it) {
it->second.counts.set_value(cur_marginal_id, tot);
// prevent double counting of the joint
if (cur_marginal_id == kCE) it->second.counts.clear_value(kCFE);
}
}
void WriteWithInversions(const vector<WordID>& key, const ID2RuleStatistics& val) {
static const WordID kE = TD::Convert("E");
static const WordID kDIV = TD::Convert("|||");
vector<WordID> new_key(key.size() - 1);
for (int i = 1; i < key.size(); ++i)
new_key[i - 1] = key[i];
const bool do_invert = (key[0] == kE);
if (!do_invert) {
WriteKeyValue(new_key, val);
} else {
ID2RuleStatistics inv;
assert(new_key.size() > 2);
vector<WordID> tk(new_key.size() - 2);
for (int i = 0; i < tk.size(); ++i)
tk[i] = new_key[2 + i];
RuleStatistics& inv_stats = inv[tk];
for (ID2RuleStatistics::const_iterator it = val.begin(); it != val.end(); ++it) {
inv_stats.counts = it->second.counts;
vector<WordID> ekey(2 + it->first.size());
ekey[0] = key[1];
ekey[1] = kDIV;
for (int i = 0; i < it->first.size(); ++i)
ekey[2+i] = it->first[i];
WriteKeyValue(ekey, inv);
}
}
}
int main(int argc, char** argv) {
po::variables_map conf;
InitCommandLine(argc, argv, &conf);
char* buf = new char[MAX_LINE_LENGTH];
ID2RuleStatistics acc, cur_counts;
vector<WordID> key, cur_key;
int line = 0;
use_hadoop_counters = conf.count("use_hadoop_counters") > 0;
const bool phrase_marginals = conf.count("phrase_marginals") > 0;
const bool bidir = conf.count("bidir") > 0;
while(cin) {
++line;
cin.getline(buf, MAX_LINE_LENGTH);
if (buf[0] == 0) continue;
ParseLine(buf, &cur_key, &cur_counts);
if (cur_key != key) {
if (key.size() > 0) {
if (phrase_marginals)
DoPhraseMarginals(key, bidir, &acc);
if (bidir)
WriteWithInversions(key, acc);
else
WriteKeyValue(key, acc);
acc.clear();
}
key = cur_key;
}
PlusEquals(cur_counts, &acc);
}
if (key.size() > 0) {
if (phrase_marginals)
DoPhraseMarginals(key, bidir, &acc);
if (bidir)
WriteWithInversions(key, acc);
else
WriteKeyValue(key, acc);
}
return 0;
}
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