mosesdecoder/moses/Parameter.cpp

1613 lines
62 KiB
C++

// $Id$
/***********************************************************************
Moses - factored phrase-based language decoder
Copyright (C) 2006 University of Edinburgh
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
***********************************************************************/
#include <ctime>
#include <iostream>
#include <iterator>
#include <fstream>
#include <sstream>
#include <algorithm>
#include <boost/algorithm/string/predicate.hpp>
#include "Parameter.h"
#include "Util.h"
#include "InputFileStream.h"
#include "StaticData.h"
#include "util/exception.hh"
#include <boost/program_options.hpp>
using namespace std;
using namespace boost::algorithm;
namespace po = boost::program_options;
namespace Moses
{
/** define allowed parameters */
Parameter::Parameter()
{
///////////////////////////////////////////////////////////////////////////////////////
// general options
po::options_description main_opts("Main Options");
AddParam(main_opts,"config", "f", "location of the configuration file");
AddParam(main_opts,"input-file", "i", "location of the input file to be translated");
AddParam(main_opts,"verbose", "v", "verbosity level of the logging");
AddParam(main_opts,"show-weights", "print feature weights and exit");
AddParam(main_opts,"time-out", "seconds after which is interrupted (-1=no time-out, default is -1)");
///////////////////////////////////////////////////////////////////////////////////////
// factorization options
po::options_description factor_opts("General Factorization Options");
AddParam(factor_opts,"factor-delimiter", "fd", "specify a different factor delimiter than the default");
// one should be able to specify different factor delimiters for intput and output
AddParam(factor_opts,"mapping", "description of decoding steps"); // whatever that means ...
AddParam(factor_opts,"placeholder-factor", "Which source factor to use to store the original text for placeholders. The factor must not be used by a translation or gen model");
///////////////////////////////////////////////////////////////////////////////////////
// general search options
po::options_description search_opts("Search Options");
string desc = "Which search algorithm to use.\n";
desc += "0=normal stack (default)\n";
desc += "1=cube pruning\n";
desc += "3=chart (with cube pruning)\n";
desc += "4=stack with batched lm requests\n";
desc += "5=chart (with incremental search)\n";
desc += "6=string-to-tree\n";
desc += "7=tree-to-string\n";
desc += "8=tree-to-string (SCFG-based)\n";
desc += "9=forest-to-string";
AddParam(search_opts,"search-algorithm", desc);
AddParam(search_opts,"beam-threshold", "b", "threshold for threshold pruning");
AddParam(search_opts,"early-discarding-threshold", "edt", "threshold for constructing hypotheses based on estimate cost");
AddParam(search_opts,"stack", "s", "maximum stack size for histogram pruning. 0 = unlimited stack size");
AddParam(search_opts,"stack-diversity", "sd", "minimum number of hypothesis of each coverage in stack (default 0)");
// feature weight-related options
AddParam(search_opts,"weight-file", "wf", "feature weights file. Do *not* put weights for 'core' features in here - they go in moses.ini");
AddParam(search_opts,"weight", "weights for ALL models, 1 per line 'WeightName value'. Weight names can be repeated");
AddParam(search_opts,"feature-overwrite", "Override arguments in a particular feature function with a particular key. Format: -feature-overwrite \"FeatureName key=value\"");
po::options_description tune_opts("Options used in tuning.");
AddParam(tune_opts,"weight-overwrite", "special parameter for mert. All on 1 line. Overrides weights specified in 'weights' argument");
AddParam(tune_opts,"feature-add", "Add a feature function on the command line. Used by mira to add BLEU feature");
AddParam(tune_opts,"weight-add", "Add weight for FF if it doesn't exist, i.e weights here are added 1st, and can be override by the ini file or on the command line. Used to specify initial weights for FF that was also specified on the copmmand line");
// phrase table limitations:
AddParam(search_opts,"max-partial-trans-opt", "maximum number of partial translation options per input span (during mapping steps)");
AddParam(search_opts,"max-trans-opt-per-coverage", "maximum number of translation options per input span (after applying mapping steps)");
AddParam(search_opts,"max-phrase-length", "maximum phrase length (default 20)");
AddParam(search_opts,"translation-option-threshold", "tot", "threshold for translation options relative to best for input phrase");
// miscellaneous search options
AddParam(search_opts,"disable-discarding", "dd", "disable hypothesis discarding"); // ??? memory management? UG
AddParam(search_opts,"phrase-drop-allowed", "da", "if present, allow dropping of source words"); //da = drop any (word); see -du for comparison
AddParam(search_opts,"threads","th", "number of threads to use in decoding (defaults to single-threaded)");
// distortion options
po::options_description disto_opts("Distortion options");
AddParam(disto_opts,"distortion-limit", "dl", "distortion (reordering) limit in maximum number of words (0 = monotone, -1 = unlimited)");
AddParam(disto_opts,"monotone-at-punctuation", "mp", "do not reorder over punctuation");
AddParam(disto_opts,"early-distortion-cost", "edc", "include estimate of distortion cost yet to be incurred in the score [Moore & Quirk 2007]. Default is no");
AddParam(disto_opts,"distortion", "configurations for each factorized/lexicalized reordering model."); // zombie parameter?
// cube pruning
po::options_description cube_opts("Cube pruning options.");
AddParam(cube_opts,"cube-pruning-pop-limit", "cbp", "How many hypotheses should be popped for each stack. (default = 1000)");
AddParam(cube_opts,"cube-pruning-diversity", "cbd", "How many hypotheses should be created for each coverage. (default = 0)");
AddParam(cube_opts,"cube-pruning-lazy-scoring", "cbls", "Don't fully score a hypothesis until it is popped");
///////////////////////////////////////////////////////////////////////////////////////
// minimum bayes risk decoding
po::options_description mbr_opts("Minimum Bayes Risk (MBR), Lattice MBR, and Consensus decoding");
AddParam(mbr_opts,"minimum-bayes-risk", "mbr", "use miminum Bayes risk to determine best translation");
AddParam(mbr_opts,"mbr-size", "number of translation candidates considered in MBR decoding (default 200)");
AddParam(mbr_opts,"mbr-scale", "scaling factor to convert log linear score probability in MBR decoding (default 1.0)");
AddParam(mbr_opts,"lminimum-bayes-risk", "lmbr", "use lattice miminum Bayes risk to determine best translation");
AddParam(mbr_opts,"consensus-decoding", "con", "use consensus decoding (De Nero et. al. 2009)");
po::options_description lmbr_opts("Options specific to Lattic MBR");
AddParam(lmbr_opts,"lmbr-p", "unigram precision value for lattice mbr");
AddParam(lmbr_opts,"lmbr-r", "ngram precision decay value for lattice mbr");
AddParam(lmbr_opts,"lmbr-thetas", "theta(s) for lattice mbr calculation");
AddParam(mbr_opts,"lmbr-map-weight", "weight given to map solution when doing lattice MBR (default 0)");
AddParam(mbr_opts,"lmbr-pruning-factor", "average number of nodes/word wanted in pruned lattice");
AddParam(mbr_opts,"lattice-hypo-set", "to use lattice as hypo set during lattice MBR");
///////////////////////////////////////////////////////////////////////////////////////
// OOV handling options
po::options_description oov_opts("OOV Handling Options");
AddParam(oov_opts,"drop-unknown", "du", "drop unknown words instead of copying them");
AddParam(oov_opts,"mark-unknown", "mu", "mark unknown words in output");
AddParam(oov_opts,"lmodel-oov-feature", "add language model oov feature, one per model");
AddParam(oov_opts,"output-unknowns", "Output the unknown (OOV) words to the given file, one line per sentence");
///////////////////////////////////////////////////////////////////////////////////////
// input options
po::options_description input_opts("Input Format Options");
AddParam(input_opts,"input-factors", "list of factors in the input");
AddParam(input_opts,"inputtype", "text (0), confusion network (1), word lattice (2), tree (3) (default = 0)");
AddParam(input_opts,"xml-input", "xi", "allows markup of input with desired translations and probabilities. values can be 'pass-through' (default), 'inclusive', 'exclusive', 'constraint', 'ignore'");
AddParam(input_opts,"xml-brackets", "xb", "specify strings to be used as xml tags opening and closing, e.g. \"{{ }}\" (default \"< >\"). Avoid square brackets because of configuration file format. Valid only with text input mode" );
AddParam(input_opts,"start-translation-id", "Id of 1st input. Default = 0");
AddParam(input_opts,"alternate-weight-setting", "aws", "alternate set of weights to used per xml specification");
///////////////////////////////////////////////////////////////////////////////////////
// output options
po::options_description output_opts("Output Options");
AddParam(output_opts,"report-all-factors", "report all factors in output, not just first");
AddParam(output_opts,"output-factors", "list if factors in the output");
AddParam(output_opts,"print-id", "prefix translations with id. Default if false");
AddParam(output_opts,"print-passthrough", "output the sgml tag <passthrough> without any computation on that. Default is false");
AddParam(output_opts,"print-passthrough-in-n-best", "output the sgml tag <passthrough> without any computation on that in each entry of the n-best-list. Default is false");
AddParam(output_opts,"output-factors", "list of factors in the output");
AddParam(output_opts,"print-all-derivations", "to print all derivations in search graph");
AddParam(output_opts,"translation-details", "T", "for each best hypothesis, report translation details to the given file");
AddParam(output_opts,"output-hypo-score", "Output the hypo score to stdout with the output string. For search error analysis. Default is false");
AddParam(output_opts,"output-word-graph", "owg", "Output stack info as word graph. Takes filename, 0=only hypos in stack, 1=stack + nbest hypos");
AddParam(output_opts,"tree-translation-details", "Ttree", "for each hypothesis, report translation details with tree fragment info to given file");
AddParam(output_opts,"print-alignment-info", "Output word-to-word alignment to standard out, separated from translation by |||. Word-to-word alignments are takne from the phrase table if any. Default is false");
AddParam(output_opts,"alignment-output-file", "print output word alignments into given file");
AddParam(output_opts,"sort-word-alignment", "Sort word alignments for more consistent display. 0=no sort (default), 1=target order");
AddParam(output_opts,"report-segmentation", "t", "report phrase segmentation in the output");
AddParam(output_opts,"report-segmentation-enriched", "tt", "report phrase segmentation in the output with additional information");
// translation-all-details was introduced in the context of DIMwid: Decoder Inspection for Moses (using Widgets)
// see here: https://ufal.mff.cuni.cz/pbml/100/art-kurtz-seemann-braune-maletti.pdf
AddParam(output_opts,"translation-all-details", "Tall", "for all hypotheses, report translation details to the given file");
po::options_description osg_opts("Options for outputting search graphs");
AddParam(osg_opts,"output-search-graph", "osg", "Output connected hypotheses of search into specified filename");
AddParam(osg_opts,"output-search-graph-extended", "osgx", "Output connected hypotheses of search into specified filename, in extended format");
AddParam(osg_opts,"unpruned-search-graph", "usg", "When outputting chart search graph, do not exclude dead ends. Note: stack pruning may have eliminated some hypotheses");
AddParam(osg_opts,"output-search-graph-slf", "slf", "Output connected hypotheses of search into specified directory, one file per sentence, in HTK standard lattice format (SLF) - the flag should be followed by a directory name, which must exist");
AddParam(output_opts,"include-lhs-in-search-graph", "lhssg", "When outputting chart search graph, include the label of the LHS of the rule (useful when using syntax)");
#ifdef HAVE_PROTOBUF
AddParam(osg_opts,"output-search-graph-pb", "pb", "Write phrase lattice to protocol buffer objects in the specified path.");
#endif
AddParam(osg_opts,"output-search-graph-hypergraph", "DEPRECATED! Output connected hypotheses of search into specified directory, one file per sentence, in a hypergraph format (see Kenneth Heafield's lazy hypergraph decoder). This flag is followed by 3 values: 'true (gz|txt|bz) directory-name'");
///////////////////////////////////////////////////////////////////////////////////////
// nbest-options
po::options_description nbest_opts("N-best Options");
AddParam(nbest_opts,"n-best-list", "file and size of n-best-list to be generated; specify - as the file in order to write to STDOUT");
// AddParam(nbest_opts,"n-best-list-file", "file of n-best-list to be generated; specify - as the file in order to write to STDOUT");
// AddParam(nbest_opts,"n-best-list-size", "size of n-best-list to be generated; specify - as the file in order to write to STDOUT");
AddParam(nbest_opts,"labeled-n-best-list", "print out labels for each weight type in n-best list. default is true");
AddParam(nbest_opts,"n-best-trees", "Write n-best target-side trees to n-best-list");
AddParam(nbest_opts,"n-best-factor", "factor to compute the maximum number of contenders (=factor*nbest-size). value 0 means infinity, i.e. no threshold. default is 0");
AddParam(nbest_opts,"report-all-factors-in-n-best", "Report all factors in n-best-lists. Default is false");
AddParam(nbest_opts,"lattice-samples", "generate samples from lattice, in same format as nbest list. Uses the file and size arguments, as in n-best-list");
AddParam(nbest_opts,"include-segmentation-in-n-best", "include phrasal segmentation in the n-best list. default is false");
AddParam(nbest_opts,"print-alignment-info-in-n-best",
"Include word-to-word alignment in the n-best list. Word-to-word alignments are taken from the phrase table if any. Default is false");
///////////////////////////////////////////////////////////////////////////////////////
// server options
po::options_description server_opts("Moses Server Options");
AddParam(server_opts,"server", "Run moses as a translation server.");
AddParam(server_opts,"server-port", "Port for moses server");
AddParam(server_opts,"server-log", "Log destination for moses server");
AddParam(server_opts,"serial", "Run server in serial mode, processing only one request at a time.");
po::options_description irstlm_opts("IRSTLM Options");
AddParam(irstlm_opts,"clean-lm-cache",
"clean language model caches after N translations (default N=1)");
po::options_description chart_opts("Chart Decoding Options");
AddParam(chart_opts,"max-chart-span", "maximum num. of source word chart rules can consume (default 10)");
AddParam(chart_opts,"non-terminals", "list of non-term symbols, space separated");
AddParam(chart_opts,"rule-limit", "a little like table limit. But for chart decoding rules. Default is DEFAULT_MAX_TRANS_OPT_SIZE");
AddParam(chart_opts,"source-label-overlap", "What happens if a span already has a label. 0=add more. 1=replace. 2=discard. Default is 0");
AddParam(chart_opts,"unknown-lhs", "file containing target lhs of unknown words. 1 per line: LHS prob");
po::options_description misc_opts("Miscellaneous Options");
AddParam(misc_opts,"mira", "do mira training");
AddParam(misc_opts,"description", "Source language, target language, description");
AddParam(misc_opts,"no-cache", "Disable all phrase-table caching. Default = false (ie. enable caching)");
AddParam(misc_opts,"default-non-term-for-empty-range-only", "Don't add [X] to all ranges, just ranges where there isn't a source non-term. Default = false (ie. add [X] everywhere)");
AddParam(misc_opts,"s2t-parsing-algorithm", "Which S2T parsing algorithm to use. 0=recursive CYK+, 1=scope-3 (default = 0)");
//AddParam(o,"continue-partial-translation", "cpt", "start from nonempty hypothesis");
AddParam(misc_opts,"decoding-graph-backoff", "dpb", "only use subsequent decoding paths for unknown spans of given length");
AddParam(misc_opts,"references", "Reference file(s) - used for bleu score feature");
AddParam(misc_opts,"recover-input-path", "r", "(conf net/word lattice only) - recover input path corresponding to the best translation");
AddParam(misc_opts,"link-param-count", "Number of parameters on word links when using confusion networks or lattices (default = 1)");
AddParam(misc_opts,"description", "Source language, target language, description");
AddParam(misc_opts,"feature-name-overwrite", "Override feature name (NOT arguments). Eg. SRILM-->KENLM, PhraseDictionaryMemory-->PhraseDictionaryScope3");
AddParam(misc_opts,"feature", "All the feature functions should be here");
// Compact phrase table and reordering table.
po::options_description cpt_opts("Options when using compact phrase and reordering tables.");
AddParam(cpt_opts,"minphr-memory", "Load phrase table in minphr format into memory");
AddParam(cpt_opts,"minlexr-memory", "Load lexical reordering table in minlexr format into memory");
po::options_description spe_opts("Simulated Post-editing Options");
AddParam(spe_opts,"spe-src", "Simulated post-editing. Source filename");
AddParam(spe_opts,"spe-trg", "Simulated post-editing. Target filename");
AddParam(spe_opts,"spe-aln", "Simulated post-editing. Alignment filename");
///////////////////////////////////////////////////////////////////////////////////////
// DEPRECATED options
po::options_description deprec_opts("Deprecated Options");
AddParam(deprec_opts,"link-param-count", "DEPRECATED. DO NOT USE. Number of parameters on word links when using confusion networks or lattices (default = 1)");
AddParam(deprec_opts,"weight-slm", "slm", "DEPRECATED. DO NOT USE. weight(s) for syntactic language model");
AddParam(deprec_opts,"weight-bl", "bl", "DEPRECATED. DO NOT USE. weight for bleu score feature");
AddParam(deprec_opts,"weight-d", "d", "DEPRECATED. DO NOT USE. weight(s) for distortion (reordering components)");
AddParam(deprec_opts,"weight-dlm", "dlm", "DEPRECATED. DO NOT USE. weight for discriminative LM feature function (on top of sparse weights)");
AddParam(deprec_opts,"weight-lr", "lr", "DEPRECATED. DO NOT USE. weight(s) for lexicalized reordering, if not included in weight-d");
AddParam(deprec_opts,"weight-generation", "g", "DEPRECATED. DO NOT USE. weight(s) for generation components");
AddParam(deprec_opts,"weight-i", "I", "DEPRECATED. DO NOT USE. weight(s) for word insertion - used for parameters from confusion network and lattice input links");
AddParam(deprec_opts,"weight-l", "lm", "DEPRECATED. DO NOT USE. weight(s) for language models");
AddParam(deprec_opts,"weight-lex", "lex", "DEPRECATED. DO NOT USE. weight for global lexical model");
AddParam(deprec_opts,"weight-glm", "glm", "DEPRECATED. DO NOT USE. weight for global lexical feature, sparse producer");
AddParam(deprec_opts,"weight-wt", "wt", "DEPRECATED. DO NOT USE. weight for word translation feature");
AddParam(deprec_opts,"weight-pp", "pp", "DEPRECATED. DO NOT USE. weight for phrase pair feature");
AddParam(deprec_opts,"weight-pb", "pb", "DEPRECATED. DO NOT USE. weight for phrase boundary feature");
AddParam(deprec_opts,"weight-t", "tm", "DEPRECATED. DO NOT USE. weights for translation model components");
AddParam(deprec_opts,"weight-p", "w", "DEPRECATED. DO NOT USE. weight for phrase penalty");
AddParam(deprec_opts,"weight-w", "w", "DEPRECATED. DO NOT USE. weight for word penalty");
AddParam(deprec_opts,"weight-u", "u", "DEPRECATED. DO NOT USE. weight for unknown word penalty");
AddParam(deprec_opts,"weight-e", "e", "DEPRECATED. DO NOT USE. weight for word deletion");
AddParam(deprec_opts,"text-type", "DEPRECATED. DO NOT USE. should be one of dev/devtest/test, used for domain adaptation features");
AddParam(deprec_opts,"input-scores", "DEPRECATED. DO NOT USE. 2 numbers on 2 lines - [1] of scores on each edge of a confusion network or lattice input (default=1). [2] Number of 'real' word scores (0 or 1. default=0)");
AddParam(deprec_opts,"dlm-model", "DEPRECATED. DO NOT USE. Order, factor and vocabulary file for discriminative LM. Use * for filename to indicate unlimited vocabulary.");
AddParam(deprec_opts,"generation-file", "DEPRECATED. DO NOT USE. location and properties of the generation table");
AddParam(deprec_opts,"global-lexical-file", "gl", "DEPRECATED. DO NOT USE. discriminatively trained global lexical translation model file");
AddParam(deprec_opts,"glm-feature", "DEPRECATED. DO NOT USE. discriminatively trained global lexical translation feature, sparse producer");
AddParam(deprec_opts,"lmodel-file", "DEPRECATED. DO NOT USE. location and properties of the language models");
AddParam(deprec_opts,"lmodel-dub", "DEPRECATED. DO NOT USE. dictionary upper bounds of language models");
#ifdef HAVE_SYNLM
AddParam(deprec_opts,"slmodel-file", "DEPRECATED. DO NOT USE. location of the syntactic language model file(s)");
AddParam(deprec_opts,"slmodel-factor", "DEPRECATED. DO NOT USE. factor to use with syntactic language model");
AddParam(deprec_opts,"slmodel-beam", "DEPRECATED. DO NOT USE. beam width to use with syntactic language model's parser");
#endif
AddParam(deprec_opts,"ttable-file", "DEPRECATED. DO NOT USE. location and properties of the translation tables");
AddParam(deprec_opts,"phrase-pair-feature", "DEPRECATED. DO NOT USE. Source and target factors for phrase pair feature");
AddParam(deprec_opts,"phrase-boundary-source-feature", "DEPRECATED. DO NOT USE. Source factors for phrase boundary feature");
AddParam(deprec_opts,"phrase-boundary-target-feature", "DEPRECATED. DO NOT USE. Target factors for phrase boundary feature");
AddParam(deprec_opts,"phrase-length-feature", "DEPRECATED. DO NOT USE. Count features for source length, target length, both of each phrase");
AddParam(deprec_opts,"target-word-insertion-feature", "DEPRECATED. DO NOT USE. Count feature for each unaligned target word");
AddParam(deprec_opts,"source-word-deletion-feature", "DEPRECATED. DO NOT USE. Count feature for each unaligned source word");
AddParam(deprec_opts,"word-translation-feature", "DEPRECATED. DO NOT USE. Count feature for word translation according to word alignment");
po::options_description zombie_opts("Zombie Options");
AddParam(zombie_opts,"distortion-file", "source factors (0 if table independent of source), target factors, location of the factorized/lexicalized reordering tables");
mbr_opts.add(lmbr_opts);
search_opts.add(cube_opts);
search_opts.add(mbr_opts);
search_opts.add(disto_opts);
search_opts.add(chart_opts);
input_opts.add(spe_opts);
output_opts.add(nbest_opts);
output_opts.add(osg_opts);
m_options.add(main_opts);
m_options.add(server_opts);
m_options.add(input_opts);
m_options.add(search_opts);
m_options.add(output_opts);
m_options.add(oov_opts);
m_options.add(factor_opts);
m_options.add(cpt_opts);
m_options.add(irstlm_opts);
m_options.add(tune_opts);
m_options.add(misc_opts);
m_options.add(deprec_opts);
m_options.add(zombie_opts);
}
Parameter::~Parameter()
{
}
const PARAM_VEC *Parameter::GetParam(const std::string &paramName) const
{
PARAM_MAP::const_iterator iter = m_setting.find( paramName );
if (iter == m_setting.end()) {
return NULL;
} else {
return &iter->second;
}
}
/** initialize a parameter, sub of constructor */
void
Parameter::
AddParam(po::options_description& optgroup,
string const& paramName,
string const& description)
{
m_valid[paramName] = true;
m_description[paramName] = description;
optgroup.add_options()(paramName.c_str(), description.c_str());
}
/** initialize a parameter (including abbreviation), sub of constructor */
void
Parameter::
AddParam(po::options_description& optgroup,
string const& paramName,
string const& abbrevName,
string const& description)
{
m_valid[paramName] = true;
m_valid[abbrevName] = true;
m_abbreviation[paramName] = abbrevName;
m_fullname[abbrevName] = paramName;
m_description[paramName] = description;
string optname = paramName;
if (abbrevName.size() == 1)
{
optname += string(",")+abbrevName;
// m_confusable[abbrevName[0]].insert(paramName);
}
optgroup.add_options()(optname.c_str(),description.c_str());
}
/** print descriptions of all parameters */
void
Parameter::
Explain()
{
cerr << "Usage:" << endl;
cerr << m_options << endl;
// for(PARAM_STRING::const_iterator iterParam = m_description.begin();
// iterParam != m_description.end(); iterParam++)
// {
// const string paramName = iterParam->first;
// const string paramDescription = iterParam->second;
// cerr << "\t-" << paramName;
// PARAM_STRING::const_iterator iterAbbr = m_abbreviation.find( paramName );
// if ( iterAbbr != m_abbreviation.end() )
// cerr << " (" << iterAbbr->second << ")";
// cerr << ": " << paramDescription << endl;
// }
}
/** check whether an item on the command line is a switch or a value
* \param token token on the command line to checked **/
bool
Parameter::
isOption(const char* token)
{
if (! token) return false;
std::string tokenString(token);
size_t length = tokenString.size();
if (length <= 1) return false;
if (!starts_with(tokenString, "-")) return false;
if (tokenString.substr(1,1).find_first_not_of("0123456789") == 0) return true;
return false;
}
/** load all parameters from the configuration file and the command line switches */
bool
Parameter::
LoadParam(const string &filePath)
{
const char *argv[] = {"executable", "-f", filePath.c_str() };
return LoadParam(3, (char**) argv);
}
/** load all parameters from the configuration file and the command line switches */
bool
Parameter::
LoadParam(int argc, char* xargv[])
{
// legacy parameter handling: all parameters are expected
// to start with a single dash
char* argv[argc+1];
for (int i = 0; i < argc; ++i)
{
argv[i] = xargv[i];
if (strlen(argv[i]) > 2 && argv[i][0] == '-' && argv[i][1] == '-')
++argv[i];
}
// config file (-f) arg mandatory
string configPath;
if ( (configPath = FindParam("-f", argc, argv)) == ""
&& (configPath = FindParam("-config", argc, argv)) == "") {
PrintCredit();
Explain();
PrintFF();
cerr << endl;
cerr << "No configuration file was specified. Use -config or -f";
cerr << endl;
return false;
} else {
if (!ReadConfigFile(configPath)) {
std::cerr << "Could not read " << configPath;
return false;
}
}
// overwrite parameters with values from switches
for(PARAM_STRING::const_iterator iterParam = m_description.begin();
iterParam != m_description.end(); iterParam++) {
const string paramName = iterParam->first;
OverwriteParam("-" + paramName, paramName, argc, argv);
}
// ... also shortcuts
for(PARAM_STRING::const_iterator iterParam = m_abbreviation.begin();
iterParam != m_abbreviation.end(); iterParam++) {
const string paramName = iterParam->first;
const string paramShortName = iterParam->second;
OverwriteParam("-" + paramShortName, paramName, argc, argv);
}
AddFeaturesCmd();
// logging of parameters that were set in either config or switch
int verbose = 1;
if (m_setting.find("verbose") != m_setting.end() &&
m_setting["verbose"].size() > 0)
verbose = Scan<int>(m_setting["verbose"][0]);
if (verbose >= 1) { // only if verbose
TRACE_ERR( "Defined parameters (per moses.ini or switch):" << endl);
for(PARAM_MAP::const_iterator iterParam = m_setting.begin() ;
iterParam != m_setting.end(); iterParam++) {
TRACE_ERR( "\t" << iterParam->first << ": ");
for ( size_t i = 0; i < iterParam->second.size(); i++ )
TRACE_ERR( iterParam->second[i] << " ");
TRACE_ERR( endl);
}
}
// don't mix old and new format
if ((GetParam("feature") || GetParam("weight"))
&& (GetParam("weight-slm") || GetParam("weight-bl") || GetParam("weight-d") ||
GetParam("weight-dlm") || GetParam("weight-lrl") || GetParam("weight-generation") ||
GetParam("weight-i") || GetParam("weight-l") || GetParam("weight-lex") ||
GetParam("weight-glm") || GetParam("weight-wt") || GetParam("weight-pp") ||
GetParam("weight-pb") || GetParam("weight-t") || GetParam("weight-w") ||
GetParam("weight-p") ||
GetParam("weight-u") || GetParam("weight-e") ||
GetParam("dlm-mode") || GetParam("generation-file") || GetParam("global-lexical-file") ||
GetParam("glm-feature") || GetParam("lmodel-file") || GetParam("lmodel-dub") ||
GetParam("slmodel-file") || GetParam("slmodel-factor") ||
GetParam("slmodel-beam") || GetParam("ttable-file") || GetParam("phrase-pair-feature") ||
GetParam("phrase-boundary-source-feature") || GetParam("phrase-boundary-target-feature") || GetParam("phrase-length-feature") ||
GetParam("target-word-insertion-feature") || GetParam("source-word-deletion-feature") || GetParam("word-translation-feature")
)
) {
UTIL_THROW(util::Exception, "Don't mix old and new ini file format");
}
// convert old weights args to new format
if (GetParam("feature") == NULL) {
ConvertWeightArgs();
}
CreateWeightsMap();
WeightOverwrite();
// check for illegal parameters
bool noErrorFlag = true;
for (int i = 0 ; i < argc ; i++) {
if (isOption(argv[i])) {
string paramSwitch = (string) argv[i];
string paramName = paramSwitch.substr(1);
if (m_valid.find(paramName) == m_valid.end()) {
std::cerr << "illegal switch: " << paramSwitch;
noErrorFlag = false;
}
}
}
//Save("/tmp/moses.ini.new");
// check if parameters make sense
return Validate() && noErrorFlag;
}
void
Parameter::
AddFeaturesCmd()
{
const PARAM_VEC *params = GetParam("feature-add");
if (params) {
PARAM_VEC::const_iterator iter;
for (iter = params->begin(); iter != params->end(); ++iter) {
const string &line = *iter;
AddFeature(line);
}
m_setting.erase("feature-add");
}
}
std::vector<float>
Parameter::
GetWeights(const std::string &name)
{
std::vector<float> ret = m_weights[name];
// cerr << "WEIGHT " << name << "=";
// for (size_t i = 0; i < ret.size(); ++i) {
// cerr << ret[i] << ",";
// }
// cerr << endl;
return ret;
}
void
Parameter::
SetWeight(const std::string &name, size_t ind, float weight)
{
PARAM_VEC &newWeights = m_setting["weight"];
string line = name + SPrint(ind) + "= " + SPrint(weight);
newWeights.push_back(line);
}
void Parameter::SetWeight(const std::string &name, size_t ind, const vector<float> &weights)
{
PARAM_VEC &newWeights = m_setting["weight"];
string line = name + SPrint(ind) + "=";
for (size_t i = 0; i < weights.size(); ++i) {
line += " " + SPrint(weights[i]);
}
newWeights.push_back(line);
}
void
Parameter::
AddWeight(const std::string &name, size_t ind,
const std::vector<float> &weights)
{
PARAM_VEC &newWeights = m_setting["weight"];
string sought = name + SPrint(ind) + "=";
for (size_t i = 0; i < newWeights.size(); ++i) {
string &line = newWeights[i];
if (line.find(sought) == 0) {
// found existing weight, most likely to be input weights. Append to this line
for (size_t i = 0; i < weights.size(); ++i) {
line += " " + SPrint(weights[i]);
}
return;
}
}
// nothing found. Just set
SetWeight(name, ind, weights);
}
void
Parameter::
ConvertWeightArgsSingleWeight(const string &oldWeightName, const string &newWeightName)
{
size_t ind = 0;
PARAM_MAP::iterator iterMap;
iterMap = m_setting.find(oldWeightName);
if (iterMap != m_setting.end()) {
const PARAM_VEC &weights = iterMap->second;
for (size_t i = 0; i < weights.size(); ++i) {
SetWeight(newWeightName, ind, Scan<float>(weights[i]));
}
m_setting.erase(iterMap);
}
}
void
Parameter::
ConvertWeightArgsPhraseModel(const string &oldWeightName)
{
const PARAM_VEC *params;
// process input weights 1st
params = GetParam("weight-i");
if (params) {
vector<float> inputWeights = Scan<float>(*params);
PARAM_VEC &numInputScores = m_setting["input-scores"];
if (inputWeights.size() == 1) {
UTIL_THROW_IF2(numInputScores.size() != 0, "No [input-scores] section allowed");
numInputScores.push_back("1");
numInputScores.push_back("0");
} else if (inputWeights.size() == 2) {
UTIL_THROW_IF2(numInputScores.size() != 0, "No [input-scores] section allowed");
numInputScores.push_back("1");
numInputScores.push_back("1");
}
SetWeight("PhraseDictionaryBinary", 0, inputWeights);
}
// convert actually pt feature
VERBOSE(2,"Creating phrase table features" << endl);
size_t numInputScores = 0;
size_t numRealWordsInInput = 0;
map<string, size_t> ptIndices;
params = GetParam("input-scores");
if (params) {
numInputScores = Scan<size_t>(params->at(0));
if (params->size() > 1) {
numRealWordsInInput = Scan<size_t>(params->at(1));
}
}
// load phrase translation tables
params = GetParam("ttable-file");
if (params) {
// weights
const vector<string> translationVector = *params;
vector<size_t> maxTargetPhrase;
params = GetParam("ttable-limit");
if (params) {
maxTargetPhrase = Scan<size_t>(*params);
}
if(maxTargetPhrase.size() == 1 && translationVector.size() > 1) {
VERBOSE(1, "Using uniform ttable-limit of " << maxTargetPhrase[0] << " for all translation tables." << endl);
for(size_t i = 1; i < translationVector.size(); i++)
maxTargetPhrase.push_back(maxTargetPhrase[0]);
} else if(maxTargetPhrase.size() != 1 && maxTargetPhrase.size() < translationVector.size()) {
std::cerr << "You specified " << translationVector.size() << " translation tables, but only " << maxTargetPhrase.size() << " ttable-limits.";
return;
}
// MAIN LOOP
const PARAM_VEC &oldWeights = m_setting[oldWeightName];
size_t currOldInd = 0;
for(size_t currDict = 0 ; currDict < translationVector.size(); currDict++) {
stringstream ptLine;
vector<string> token = Tokenize(translationVector[currDict]);
if(currDict == 0 && token.size() == 4) {
std::cerr << "Phrase table specification in old 4-field format. No longer supported";
return;
}
UTIL_THROW_IF2(token.size() < 5, "Phrase table must have at least 5 scores");
int implementation = Scan<int>(token[0]);
string ptType;
switch (implementation) {
case 0: // Memory
ptType = "PhraseDictionaryMemory";
break;
case 1: // Binary
ptType = "PhraseDictionaryBinary";
break;
case 2: // OnDisk
ptType = "PhraseDictionaryOnDisk";
break;
case 6: // SCFG
ptType = "PhraseDictionaryMemory";
break;
case 12: // Compact
ptType = "PhraseDictionaryCompact";
break;
case 8: // SuffixArray
ptType = "PhraseDictionarySuffixArray";
break;
case 14: // DSuffixArray
ptType = "PhraseDictionaryDynSuffixArray";
break;
case 15: // DCacheBased:
ptType = "PhraseDictionaryDynamicCacheBased";
break;
default:
break;
}
size_t ptInd;
if (ptIndices.find(ptType) == ptIndices.end()) {
ptIndices[ptType] = 0;
ptInd = 0;
} else {
ptInd = ++ptIndices[ptType];
}
// weights
size_t numFFInd = (token.size() == 4) ? 2 : 3;
size_t numFF = Scan<size_t>(token[numFFInd]);
vector<float> weights(numFF);
for (size_t currFF = 0; currFF < numFF; ++currFF) {
UTIL_THROW_IF2(currOldInd >= oldWeights.size(),
"Errors converting old phrase-table weights to new weights");
float weight = Scan<float>(oldWeights[currOldInd]);
weights[currFF] = weight;
++currOldInd;
}
// cerr << weights.size() << " PHRASE TABLE WEIGHTS "
// << __FILE__ << ":" << __LINE__ << endl;
AddWeight(ptType, ptInd, weights);
// actual pt
ptLine << ptType << " ";
ptLine << "input-factor=" << token[1] << " ";
ptLine << "output-factor=" << token[2] << " ";
ptLine << "path=" << token[4] << " ";
//characteristics of the phrase table
vector<FactorType> input = Tokenize<FactorType>(token[1], ",")
,output = Tokenize<FactorType>(token[2], ",");
size_t numScoreComponent = Scan<size_t>(token[3]);
string filePath= token[4];
if(currDict==0) {
// only the 1st pt. THis is shit
// TODO. find what the assumptions made by confusion network about phrase table output which makes
// it only work with binary file. This is a hack
numScoreComponent += numInputScores + numRealWordsInInput;
}
ptLine << "num-features=" << numScoreComponent << " ";
ptLine << "table-limit=" << maxTargetPhrase[currDict] << " ";
if (implementation == 8 || implementation == 14) {
ptLine << "target-path=" << token[5] << " ";
ptLine << "alignment-path=" << token[6] << " ";
}
AddFeature(ptLine.str());
} // for(size_t currDict = 0 ; currDict < translationVector.size(); currDict++) {
} // if (GetParam("ttable-file").size() > 0) {
m_setting.erase("weight-i");
m_setting.erase(oldWeightName);
m_setting.erase("ttable-file");
m_setting.erase("ttable-limit");
}
void
Parameter::
AddFeature(const std::string &line)
{
PARAM_VEC &features = m_setting["feature"];
features.push_back(line);
}
void
Parameter::
ConvertWeightArgsDistortion()
{
const string oldWeightName = "weight-d";
const string oldLexReordingName = "distortion-file";
// distortion / lex distortion
const PARAM_VEC *oldWeights = GetParam(oldWeightName);
if (oldWeights) {
const PARAM_VEC *searchAlgo = GetParam("search-algorithm");
if (searchAlgo == NULL ||
(searchAlgo->size() > 0
&& (Trim(searchAlgo->at(0)) == "0" || Trim(searchAlgo->at(0)) == "1")
)
) {
// phrase-based. Add distance distortion to list of features
AddFeature("Distortion");
SetWeight("Distortion", 0, Scan<float>(oldWeights->at(0)));
}
// everything but the last is lex reordering model
size_t currOldInd = 1;
const PARAM_VEC *lextable = GetParam(oldLexReordingName);
for (size_t indTable = 0; lextable && indTable < lextable->size(); ++indTable) {
const string &line = lextable->at(indTable);
vector<string> toks = Tokenize(line);
size_t numFF = Scan<size_t>(toks[2]);
vector<float> weights(numFF);
for (size_t currFF = 0; currFF < numFF; ++currFF) {
UTIL_THROW_IF2(oldWeights && currOldInd >= oldWeights->size(),
"Errors converting old distortion weights to new weights");
float weight = Scan<float>(oldWeights->at(currOldInd));
weights[currFF] = weight;
++currOldInd;
}
SetWeight("LexicalReordering", indTable, weights);
stringstream strme;
strme << "LexicalReordering "
<< "type=" << toks[1] << " ";
vector<FactorType> factors = Tokenize<FactorType>(toks[0], "-");
UTIL_THROW_IF2(factors.size() != 2,
"Error in old factor specification for lexicalized reordering model: "
<< toks[0]);
strme << "input-factor=" << factors[0]
<< " output-factor=" << factors[1] << " ";
strme << "num-features=" << toks[2] << " ";
strme << "path=" << toks[3];
AddFeature(strme.str());
}
}
m_setting.erase(oldWeightName);
m_setting.erase(oldLexReordingName);
}
void
Parameter::
ConvertWeightArgsLM()
{
const string oldWeightName = "weight-l";
const string oldFeatureName = "lmodel-file";
const PARAM_VEC *params;
bool isChartDecoding = true;
params = GetParam("search-algorithm");
if (params == NULL ||
(params->size() > 0
&& (Trim(params->at(0)) == "0" || Trim(params->at(0)) == "1")
)
) {
isChartDecoding = false;
}
vector<int> oovWeights;
params = GetParam("lmodel-oov-feature");
if (params) {
oovWeights = Scan<int>(*params);
}
PARAM_MAP::iterator iterMap;
iterMap = m_setting.find(oldWeightName);
if (iterMap != m_setting.end()) {
size_t currOldInd = 0;
const PARAM_VEC &weights = iterMap->second;
const PARAM_VEC &models = m_setting[oldFeatureName];
for (size_t lmIndex = 0; lmIndex < models.size(); ++lmIndex) {
const string &line = models[lmIndex];
vector<string> modelToks = Tokenize(line);
int lmType = Scan<int>(modelToks[0]);
string newFeatureName;
switch (lmType) {
case 0:
newFeatureName = "SRILM";
break;
case 1:
newFeatureName = "IRSTLM";
break;
case 8:
case 9:
newFeatureName = "KENLM";
break;
default:
UTIL_THROW2("Unkown language model type id:" << lmType);
}
size_t numFF = 1;
if (oovWeights.size() > lmIndex)
numFF += oovWeights[lmIndex];
vector<float> weightsLM(numFF);
for (size_t currFF = 0; currFF < numFF; ++currFF) {
UTIL_THROW_IF2(currOldInd >= weights.size(),
"Errors converting old LM weights to new weights");
weightsLM[currFF] = Scan<float>(weights[currOldInd]);
if (isChartDecoding) {
weightsLM[currFF] = UntransformLMScore(weightsLM[currFF]);
}
++currOldInd;
}
SetWeight(newFeatureName, lmIndex, weightsLM);
string featureLine = newFeatureName + " "
+ "factor=" + modelToks[1] + " " // factor
+ "order=" + modelToks[2] + " " // order
+ "num-features=" + SPrint(numFF) + " ";
if (lmType == 9) {
featureLine += "lazyken=1 ";
} else if (lmType == 8) {
featureLine += "lazyken=0 ";
}
featureLine += "path=" + modelToks[3]; // file
AddFeature(featureLine);
} // for (size_t lmIndex = 0; lmIndex < models.size(); ++lmIndex) {
m_setting.erase(iterMap);
}
m_setting.erase(oldFeatureName);
}
void
Parameter::
ConvertWeightArgsGeneration(const std::string &oldWeightName, const std::string &newWeightName)
{
string oldFeatureName = "generation-file";
// distortion / lex distortion
PARAM_VEC &oldWeights = m_setting[oldWeightName];
if (oldWeights.size() > 0) {
size_t currOldInd = 0;
PARAM_VEC &models = m_setting[oldFeatureName];
for (size_t indTable = 0; indTable < models.size(); ++indTable) {
string &line = models[indTable];
vector<string> modelToks = Tokenize(line);
size_t numFF = Scan<size_t>(modelToks[2]);
vector<float> weights(numFF);
for (size_t currFF = 0; currFF < numFF; ++currFF) {
UTIL_THROW_IF2(currOldInd >= oldWeights.size(),
"Errors converting old generation weights to new weights");
float weight = Scan<float>(oldWeights[currOldInd]);
weights[currFF] = weight;
++currOldInd;
}
SetWeight(newWeightName, indTable, weights);
stringstream strme;
strme << "Generation "
<< "input-factor=" << modelToks[0] << " "
<< "output-factor=" << modelToks[1] << " "
<< "num-features=" << modelToks[2] << " "
<< "path=" << modelToks[3];
AddFeature(strme.str());
}
}
m_setting.erase(oldWeightName);
m_setting.erase(oldFeatureName);
}
void
Parameter::
ConvertWeightArgsWordPenalty()
{
const std::string oldWeightName = "weight-w";
const std::string newWeightName = "WordPenalty";
bool isChartDecoding = true;
const PARAM_VEC *searchAlgo = GetParam("search-algorithm");
if (searchAlgo == NULL ||
(searchAlgo->size() > 0
&& (Trim(searchAlgo->at(0)) == "0" || Trim(searchAlgo->at(0)) == "1")
)
) {
isChartDecoding = false;
}
PARAM_MAP::iterator iterMap;
iterMap = m_setting.find(oldWeightName);
if (iterMap != m_setting.end()) {
const PARAM_VEC &weights = iterMap->second;
for (size_t i = 0; i < weights.size(); ++i) {
float weight = Scan<float>(weights[i]);
if (isChartDecoding) {
weight *= 0.434294482;
}
SetWeight(newWeightName, i, weight);
}
m_setting.erase(iterMap);
}
}
void
Parameter::
ConvertPhrasePenalty()
{
string oldWeightName = "weight-p";
const PARAM_VEC *params = GetParam(oldWeightName);
if (params) {
UTIL_THROW_IF2(params->size() != 1,
"There should be only 1 phrase-penalty weight");
float weight = Scan<float>(params->at(0));
AddFeature("PhrasePenalty");
SetWeight("PhrasePenalty", 0, weight);
m_setting.erase(oldWeightName);
}
}
void
Parameter::
ConvertWeightArgs()
{
// can't handle discr LM. must do it manually 'cos of bigram/n-gram split
UTIL_THROW_IF2( m_setting.count("weight-dlm") != 0,
"Can't handle discr LM. must do it manually 'cos of bigram/n-gram split");
// check that old & new format aren't mixed
if (m_setting.count("weight") &&
(m_setting.count("weight-i") || m_setting.count("weight-t") || m_setting.count("weight-w") ||
m_setting.count("weight-l") || m_setting.count("weight-u") || m_setting.count("weight-lex") ||
m_setting.count("weight-generation") || m_setting.count("weight-lr") || m_setting.count("weight-d")
)) {
cerr << "Do not mix old and new format for specify weights";
}
ConvertWeightArgsWordPenalty();
ConvertWeightArgsLM();
ConvertWeightArgsSingleWeight("weight-slm", "SyntacticLM");
ConvertWeightArgsSingleWeight("weight-u", "UnknownWordPenalty");
ConvertWeightArgsGeneration("weight-generation", "Generation");
ConvertWeightArgsDistortion();
// don't know or can't be bothered converting these weights
ConvertWeightArgsSingleWeight("weight-lr", "LexicalReordering");
ConvertWeightArgsSingleWeight("weight-bl", "BleuScoreFeature");
ConvertWeightArgsSingleWeight("weight-glm", "GlobalLexicalModel");
ConvertWeightArgsSingleWeight("weight-wt", "WordTranslationFeature");
ConvertWeightArgsSingleWeight("weight-pp", "PhrasePairFeature");
ConvertWeightArgsSingleWeight("weight-pb", "PhraseBoundaryFeature");
ConvertWeightArgsSingleWeight("weight-e", "WordDeletion"); // TODO Can't find real name
ConvertWeightArgsSingleWeight("weight-lex", "GlobalLexicalReordering"); // TODO Can't find real name
ConvertPhrasePenalty();
AddFeature("WordPenalty");
AddFeature("UnknownWordPenalty");
ConvertWeightArgsPhraseModel("weight-t");
}
void
Parameter::
CreateWeightsMap()
{
CreateWeightsMap(m_setting["weight-add"]);
CreateWeightsMap(m_setting["weight"]);
}
void
Parameter::
CreateWeightsMap(const PARAM_VEC &vec)
{
for (size_t i = 0; i < vec.size(); ++i) {
const string &line = vec[i];
vector<string> toks = Tokenize(line);
UTIL_THROW_IF2(toks.size() < 2,
"Error in format of weights: " << line);
string name = toks[0];
name = name.substr(0, name.size() - 1);
vector<float> weights(toks.size() - 1);
for (size_t i = 1; i < toks.size(); ++i) {
float weight = Scan<float>(toks[i]);
weights[i - 1] = weight;
}
m_weights[name] = weights;
}
}
void
Parameter::
WeightOverwrite()
{
PARAM_VEC &vec = m_setting["weight-overwrite"];
if (vec.size() == 0)
return;
// should only be on 1 line
UTIL_THROW_IF2(vec.size() != 1,
"weight-overwrite should only be on 1 line");
string name("");
vector<float> weights;
vector<string> toks = Tokenize(vec[0]);
size_t cnt = 0;
const std::vector<float>* oldWeights = NULL;
for (size_t i = 0; i < toks.size(); ++i) {
const string &tok = toks[i];
if (ends_with(tok, "=")) {
// start of new feature
if (name != "") {
// save previous ff
m_weights[name] = weights;
weights.clear();
}
name = tok.substr(0, tok.size() - 1);
std::map<std::string, std::vector<float> >::const_iterator found = m_weights.find(name);
if (found!=m_weights.end()) {
oldWeights = &(found->second);
} else {
oldWeights = NULL;
}
cnt = 0;
} else {
// a weight for curr ff
if (toks[i] == "x") {
UTIL_THROW_IF2(!oldWeights || cnt>=oldWeights->size(),
"Keeping previous weight failed in weight-overwrite");
weights.push_back(oldWeights->at(cnt));
} else {
float weight = Scan<float>(toks[i]);
weights.push_back(weight);
}
++cnt;
}
}
if (name != "") {
m_weights[name] = weights;
}
}
/** check that parameter settings make sense */
bool
Parameter::
Validate()
{
bool noErrorFlag = true;
PARAM_MAP::const_iterator iterParams;
for (iterParams = m_setting.begin(); iterParams != m_setting.end(); ++iterParams) {
const std::string &key = iterParams->first;
if (m_valid.find(key) == m_valid.end()) {
std::cerr << "Unknown parameter " << key;
noErrorFlag = false;
}
}
if (m_setting["lmodel-dub"].size() > 0) {
if (m_setting["lmodel-file"].size() != m_setting["lmodel-dub"].size()) {
std::cerr << "Config and parameters specify "
<< static_cast<int>(m_setting["lmodel-file"].size())
<< " language model files (lmodel-file), but "
<< static_cast<int>(m_setting["lmodel-dub"].size())
<< " LM upperbounds (lmodel-dub)"
<< endl;
noErrorFlag = false;
}
}
// do files exist?
// input file
if (noErrorFlag && m_setting["input-file"].size() == 1) {
noErrorFlag = FileExists(m_setting["input-file"][0]);
if (!noErrorFlag) {
std::cerr << endl << "Input file " << m_setting["input-file"][0] << " does not exist";
}
}
// generation tables
if (noErrorFlag) {
std::vector<std::string> ext;
//raw tables in either un compressed or compressed form
ext.push_back("");
ext.push_back(".gz");
noErrorFlag = FilesExist("generation-file", 3, ext);
}
// distortion
if (noErrorFlag) {
std::vector<std::string> ext;
//raw tables in either un compressed or compressed form
ext.push_back("");
ext.push_back(".gz");
//prefix tree format
ext.push_back(".binlexr.idx");
//prefix tree format
ext.push_back(".minlexr");
noErrorFlag = FilesExist("distortion-file", 3, ext);
}
return noErrorFlag;
}
/** check whether a file exists */
bool
Parameter::
FilesExist(const string &paramName, int fieldNo,
std::vector<std::string> const& extensions)
{
typedef std::vector<std::string> StringVec;
StringVec::const_iterator iter;
PARAM_MAP::const_iterator iterParam = m_setting.find(paramName);
if (iterParam == m_setting.end()) {
// no param. therefore nothing to check
return true;
}
const StringVec &pathVec = (*iterParam).second;
for (iter = pathVec.begin() ; iter != pathVec.end() ; ++iter) {
StringVec vec = Tokenize(*iter);
size_t tokenizeIndex;
if (fieldNo == -1)
tokenizeIndex = vec.size() - 1;
else
tokenizeIndex = static_cast<size_t>(fieldNo);
if (tokenizeIndex >= vec.size()) {
std::cerr << "Expected at least " << (tokenizeIndex+1) << " tokens per entry in '"
<< paramName << "', but only found "
<< vec.size();
return false;
}
const string &pathStr = vec[tokenizeIndex];
bool fileFound=0;
for(size_t i=0; i<extensions.size() && !fileFound; ++i) {
fileFound|=FileExists(pathStr + extensions[i]);
}
if(!fileFound) {
std::cerr << "File " << pathStr << " does not exist";
return false;
}
}
return true;
}
/** look for a switch in arg, update parameter */
// TODO arg parsing like this does not belong in the library, it belongs
// in moses-cmd
string
Parameter::
FindParam(const string &paramSwitch, int argc, char* argv[])
{
for (int i = 0 ; i < argc ; i++) {
if (string(argv[i]) == paramSwitch) {
if (i+1 < argc) {
return argv[i+1];
} else {
std::cerr << "Option " << paramSwitch << " requires a parameter!";
// TODO return some sort of error, not the empty string
}
}
}
return "";
}
/** update parameter settings with command line switches
* \param paramSwitch (potentially short) name of switch
* \param paramName full name of parameter
* \param argc number of arguments on command line
* \param argv values of paramters on command line */
void
Parameter::
OverwriteParam(const string &paramSwitch, const string &paramName, int argc, char* argv[])
{
int startPos = -1;
for (int i = 0 ; i < argc ; i++) {
if (string(argv[i]) == paramSwitch) {
startPos = i+1;
break;
}
}
if (startPos < 0)
return;
int index = 0;
m_setting[paramName]; // defines the parameter, important for boolean switches
while (startPos < argc && (!isOption(argv[startPos]))) {
if (m_setting[paramName].size() > (size_t)index)
m_setting[paramName][index] = argv[startPos];
else
m_setting[paramName].push_back(argv[startPos]);
index++;
startPos++;
}
}
/** read parameters from a configuration file */
bool
Parameter::
ReadConfigFile(const string &filePath )
{
InputFileStream inFile(filePath);
string line, paramName;
while(getline(inFile, line)) {
// comments
size_t comPos = line.find_first_of("#");
if (comPos != string::npos)
line = line.substr(0, comPos);
// trim leading and trailing spaces/tabs
line = Trim(line);
if (line.size() == 0) {
// blank line. do nothing.
} else if (line[0]=='[') {
// new parameter
for (size_t currPos = 0 ; currPos < line.size() ; currPos++) {
if (line[currPos] == ']') {
paramName = line.substr(1, currPos - 1);
break;
}
}
} else {
// add value to parameter
m_setting[paramName].push_back(line);
}
}
return true;
}
struct Credit {
string name, contact, currentPursuits, areaResponsibility;
int sortId;
Credit(string name, string contact, string currentPursuits, string areaResponsibility) {
this->name = name ;
this->contact = contact ;
this->currentPursuits = currentPursuits ;
this->areaResponsibility = areaResponsibility;
this->sortId = rand() % 1000;
}
bool operator<(const Credit &other) const {
/*
if (areaResponsibility.size() != 0 && other.areaResponsibility.size() ==0)
return true;
if (areaResponsibility.size() == 0 && other.areaResponsibility.size() !=0)
return false;
return name < other.name;
*/
return sortId < other.sortId;
}
};
std::ostream& operator<<(std::ostream &os, const Credit &credit)
{
os << credit.name;
if (credit.contact != "")
os << "\t contact: " << credit.contact;
if (credit.currentPursuits != "")
os << " " << credit.currentPursuits;
if (credit.areaResponsibility != "")
os << " I'll answer question on: " << credit.areaResponsibility;
return os;
}
void
Parameter::
PrintCredit()
{
vector<Credit> everyone;
srand ( time(NULL) );
everyone.push_back(Credit("Nicola Bertoldi"
, "911"
, ""
, "scripts & other stuff"));
everyone.push_back(Credit("Ondrej Bojar"
, ""
, "czech this out!"
, ""));
everyone.push_back(Credit("Chris Callison-Burch"
, "anytime, anywhere"
, "international playboy"
, ""));
everyone.push_back(Credit("Alexandra Constantin"
, ""
, "eu sunt varza"
, ""));
everyone.push_back(Credit("Brooke Cowan"
, "brooke@csail.mit.edu"
, "if you're going to san francisco, be sure to wear a flower in your hair"
, ""));
everyone.push_back(Credit("Chris Dyer"
, "can't. i'll be out driving my mustang"
, "driving my mustang"
, ""));
everyone.push_back(Credit("Marcello Federico"
, "federico at itc at it"
, "Researcher at ITC-irst, Trento, Italy"
, "IRST language model"));
everyone.push_back(Credit("Evan Herbst"
, "Small college in upstate New York"
, ""
, ""));
everyone.push_back(Credit("Philipp Koehn"
, "only between 2 and 4am"
, ""
, "Nothing fazes this dude"));
everyone.push_back(Credit("Christine Moran"
, "weird building at MIT"
, ""
, ""));
everyone.push_back(Credit("Wade Shen"
, "via morse code"
, "buying another laptop"
, ""));
everyone.push_back(Credit("Richard Zens"
, "richard at aachen dot de"
, ""
, "ambiguous source input, confusion networks, confusing source code"));
everyone.push_back(Credit("Hieu Hoang", "http://www.hoang.co.uk/hieu/"
, "phd student at Edinburgh Uni. Original Moses developer"
, "general queries/ flames on Moses."));
sort(everyone.begin(), everyone.end());
cerr << "Moses - A beam search decoder for phrase-based statistical machine translation models" << endl
<< "Copyright (C) 2006 University of Edinburgh" << endl << endl
<< "This library is free software; you can redistribute it and/or" << endl
<< "modify it under the terms of the GNU Lesser General Public" << endl
<< "License as published by the Free Software Foundation; either" << endl
<< "version 2.1 of the License, or (at your option) any later version." << endl << endl
<< "This library is distributed in the hope that it will be useful," << endl
<< "but WITHOUT ANY WARRANTY; without even the implied warranty of" << endl
<< "MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU" << endl
<< "Lesser General Public License for more details." << endl << endl
<< "You should have received a copy of the GNU Lesser General Public" << endl
<< "License along with this library; if not, write to the Free Software" << endl
<< "Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA" << endl << endl
<< "***********************************************************************" << endl << endl
<< "Built on " << __DATE__ << " at " __TIME__ << endl << endl
<< "WHO'S FAULT IS THIS GODDAM SOFTWARE:" << endl;
ostream_iterator<Credit> out(cerr, "\n");
copy(everyone.begin(), everyone.end(), out);
cerr << endl << endl;
}
/** update parameter settings with command line switches
* \param paramName full name of parameter
* \param values inew values for paramName */
void
Parameter::
OverwriteParam(const string &paramName, PARAM_VEC values)
{
VERBOSE(2,"Overwriting parameter " << paramName);
m_setting[paramName]; // defines the parameter, important for boolean switches
if (m_setting[paramName].size() > 1) {
VERBOSE(2," (the parameter had " << m_setting[paramName].size() << " previous values)");
UTIL_THROW_IF2(m_setting[paramName].size() != values.size(),
"Number of weight override for " << paramName
<< " is not the same as the original number of weights");
} else {
VERBOSE(2," (the parameter does not have previous values)");
m_setting[paramName].resize(values.size());
}
VERBOSE(2," with the following values:");
int i=0;
for (PARAM_VEC::iterator iter = values.begin(); iter != values.end() ; iter++, i++) {
m_setting[paramName][i] = *iter;
VERBOSE(2, " " << *iter);
}
VERBOSE(2, std::endl);
}
void
Parameter::
PrintFF() const
{
StaticData::Instance().GetFeatureRegistry().PrintFF();
}
std::set<std::string>
Parameter::
GetWeightNames() const
{
std::set<std::string> ret;
std::map<std::string, std::vector<float> >::const_iterator iter;
for (iter = m_weights.begin(); iter != m_weights.end(); ++iter) {
const string &key = iter->first;
ret.insert(key);
}
return ret;
}
void
Parameter::
Save(const std::string path)
{
ofstream file;
file.open(path.c_str());
PARAM_MAP::const_iterator iterOuter;
for (iterOuter = m_setting.begin(); iterOuter != m_setting.end(); ++iterOuter) {
const std::string &sectionName = iterOuter->first;
file << "[" << sectionName << "]" << endl;
const PARAM_VEC &values = iterOuter->second;
PARAM_VEC::const_iterator iterInner;
for (iterInner = values.begin(); iterInner != values.end(); ++iterInner) {
const std::string &value = *iterInner;
file << value << endl;
}
file << endl;
}
file.close();
}
template<>
void
Parameter::
SetParameter<bool>(bool &parameter, std::string const& parameterName,
bool const& defaultValue) const
{
const PARAM_VEC *params = GetParam(parameterName);
// default value if nothing is specified
parameter = defaultValue;
if (params == NULL) {
return;
}
// if parameter is just specified as, e.g. "-parameter" set it true
if (params->size() == 0) {
parameter = true;
}
// if paramter is specified "-parameter true" or "-parameter false"
else if (params->size() == 1) {
parameter = Scan<bool>( params->at(0));
}
}
} // namespace