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libzinnia.cpp

//
//  Zinnia: Online hand recognition system with machine learning
//
//  $Id: libzinnia.cpp 17 2009-04-05 11:40:32Z taku-ku $;
//
//  Copyright(C) 2008 Taku Kudo <taku@chasen.org>
//
#include <iostream>
#include <string>
#include <vector>
#include <fstream>
#include "param.h"
#include "zinnia.h"
#include "stream_wrapper.h"
#include "scoped_ptr.h"

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#if defined(_WIN32) && !defined(__CYGWIN__)
#include <windows.h>
#endif

00025 struct zinnia_character_t {
  zinnia::Character *ptr;
};

00029 struct zinnia_recognizer_t {
  zinnia::Recognizer *ptr;
};

00033 struct zinnia_result_t {
  zinnia::Result *ptr;
};

00037 struct zinnia_trainer_t {
  zinnia::Trainer *ptr;
};

zinnia_character_t* zinnia_character_new() {
  zinnia_character_t *character = new zinnia_character_t;
  character->ptr = zinnia::Character::create();
  return character;
}

void zinnia_character_destroy(zinnia_character_t *character) {
  delete character->ptr;
  delete character;
  character = 0;
}

void zinnia_character_set_value(zinnia_character_t *character,
                                const char *str) {
  return character->ptr->set_value(str);
}

void zinnia_character_set_value2(zinnia_character_t *character,
                                 const char *str, size_t length) {
  return character->ptr->set_value(str, length);
}

const char *zinnia_character_value(zinnia_character_t *character) {
  return character->ptr->value();
}

void zinnia_character_set_width(zinnia_character_t *character, size_t width) {
  return character->ptr->set_width(width);
}

void zinnia_character_set_height(zinnia_character_t *character, size_t height) {
  return character->ptr->set_height(height);
}

size_t zinnia_character_width(zinnia_character_t *character) {
  return character->ptr->width();
}

size_t zinnia_character_height(zinnia_character_t *character) {
  return character->ptr->height();
}

void zinnia_character_clear(zinnia_character_t *character) {
  return character->ptr->clear();
}

int zinnia_character_add(zinnia_character_t *character,
                         size_t id, int x, int y) {
  return character->ptr->add(id, x, y);
}

size_t zinnia_character_strokes_size(zinnia_character_t *character) {
  return character->ptr->strokes_size();
}

size_t zinnia_character_stroke_size(zinnia_character_t *character, size_t id) {
  return character->ptr->stroke_size(id);
}

int zinnia_character_x(zinnia_character_t *character, size_t id, size_t i) {
  return character->ptr->x(id, i);
}

int zinnia_character_y(zinnia_character_t *character, size_t id, size_t i) {
  return character->ptr->y(id, i);
}

int zinnia_character_parse(zinnia_character_t *character, const char *str) {
  return character->ptr->parse(str);
}

int zinnia_character_parse2(zinnia_character_t *character,
                            const char *str, size_t length) {
  return character->ptr->parse(str, length);
}

int zinnia_character_to_string(zinnia_character_t *character,
                               char *buf, size_t length) {
  return character->ptr->toString(buf, length);
}

const char* zinnia_character_strerror(zinnia_character_t *character) {
  return character->ptr->what();
}

const char *zinnia_result_value(zinnia_result_t *result, size_t i) {
  return result->ptr->value(i);
}

float zinnia_result_score(zinnia_result_t *result, size_t i) {
  return result->ptr->score(i);
}

size_t zinnia_result_size(zinnia_result_t *result) {
  return result->ptr->size();
}

void zinnia_result_destroy(zinnia_result_t *result) {
  delete result->ptr;
  delete result;
  result = 0;
}

zinnia_recognizer_t *zinnia_recognizer_new() {
  zinnia_recognizer_t *recognizer = new zinnia_recognizer_t;
  recognizer->ptr = zinnia::Recognizer::create();
  return recognizer;
}

void zinnia_recognizer_destroy(zinnia_recognizer_t *recognizer) {
  delete recognizer->ptr;
  delete recognizer;
  recognizer = 0;
}

int zinnia_recognizer_open(zinnia_recognizer_t *recognizer,
                           const char *filename) {
  return recognizer->ptr->open(filename);
}

int zinnia_recognizer_open_from_ptr(zinnia_recognizer_t *recognizer,
                                    const char *ptr, size_t size) {
  return recognizer->ptr->open(ptr, size);
}

int zinnia_recognizer_close(zinnia_recognizer_t *recognizer) {
  return recognizer->ptr->close();
}

size_t zinnia_recognizer_size(zinnia_recognizer_t *recognizer) {
  return recognizer->ptr->size();
}

const char *zinnia_recognizer_value(zinnia_recognizer_t *recognizer,
                                    size_t i) {
  return recognizer->ptr->value(i);
}

const char* zinnia_recognizer_strerror(zinnia_recognizer_t *recognizer) {
  return recognizer->ptr->what();
}

zinnia_result_t *zinnia_recognizer_classify(zinnia_recognizer_t *recognizer,
                                            const zinnia_character_t *character,
                                            size_t nbest) {
  zinnia::Result *r = recognizer->ptr->classify(*(character->ptr), nbest);
  if (r) {
    zinnia_result_t *result = new zinnia_result_t;
    result->ptr = r;
    return result;
  } else {
    return 0;
  }
}

/* Trainer */
zinnia_trainer_t *zinnia_trainer_new() {
  zinnia_trainer_t *trainer = new zinnia_trainer_t;
  trainer->ptr = zinnia::Trainer::create();
  return trainer;
}

void zinnia_trainer_destroy(zinnia_trainer_t *trainer) {
  delete trainer->ptr;
  delete trainer;
  trainer = 0;
}

int zinnia_trainer_add(zinnia_trainer_t *trainer,
                       const zinnia_character_t* character) {
  return trainer->ptr->add(*(character->ptr));
}

void zinnia_trainer_clear(zinnia_trainer_t *trainer) {
  return trainer->ptr->clear();
}

int zinnia_trainer_train(zinnia_trainer_t *trainer, const char *filename) {
  return trainer->ptr->train(filename);
}

const char *zinnia_trainer_strerror(zinnia_trainer_t *trainer) {
  return trainer->ptr->what();
}

int zinnia_trainer_convert_model(const char *txt_model,
                                 const char *binary_model,
                                 double compression_threshold) {
  return zinnia::Trainer::convert(txt_model, binary_model,
                                  compression_threshold);
}

int zinnia_trainer_make_header(const char *txt_model, const char *header_file,
                               const char *name,
                               double compression_threshold) {
  return zinnia::Trainer::makeHeader(txt_model, header_file,
                                     name, compression_threshold);
}

const char* zinnia_version() {
  return VERSION;
}

namespace zinnia {
const char *version() { return VERSION; }
}

int zinnia_do(int argc, char **argv) {
  using namespace zinnia;

  static const zinnia::Option long_options[] = {
    { "output", 'o', "", "FILE", "set FILE as output file" },
    { "model", 'm', 0, "FILE", "use FILE as model file" },
    { "nbest", 'n', "10", "NUM", "obtain best n results" },
    { "version", 'v', 0, 0, "show the version and exit" },
    { "help", 'h', 0, 0, "show this help and exit." },
    { 0, 0, 0, 0 }
  };

  zinnia::Param param;

  if (!param.open(argc, argv, long_options)) {
    std::cout << param.what() << "\n\n" << COPYRIGHT
              << "\ntry '--help' for more information." << std::endl;
    return -1;
  }

  if (!param.help_version()) return 0;

  std::string model = param.get<std::string>("model");
  size_t nbest = param.get<size_t>("nbest");

  std::string output = param.get<std::string>("output");
  if (output.empty()) output = "-";
  zinnia::ostream_wrapper ofs(output.c_str());
  CHECK_DIE(*ofs) << "no such file or directory: " << output;

  const std::vector<std::string>& _rest = param.rest_args();
  std::vector<std::string> rest = _rest;
  if (rest.empty()) rest.push_back("-");

  std::string line;
  zinnia::scoped_ptr<zinnia::Character> character(zinnia::Character::create());
  zinnia::scoped_ptr<zinnia::Recognizer>
      recognizer(zinnia::Recognizer::create());

  CHECK_DIE(recognizer->open(model.c_str())) << recognizer->what();

  for (size_t i = 0; i < rest.size(); ++i) {
    zinnia::istream_wrapper ifs(rest[i].c_str());
    CHECK_DIE(*ifs) << "no such file or directory: " << rest[i];
    while (std::getline(*ifs, line)) {
      CHECK_DIE(character->parse(line.c_str(), line.size()))
          << character->what();
      *ofs << "Answer: " << character->value() << std::endl;
      zinnia::scoped_ptr<zinnia::Result>
          result(recognizer->classify(*(character.get()), nbest));
      if (!result.get()) {
        std::cerr << "failed: " <<
            character->value() << " " << recognizer->what();
        continue;
      }
      for (size_t i = 0; i < result->size(); ++i)
        *ofs << result->value(i) << " "
             << result->score(i) << std::endl;
    }
  }

  return 0;
}

int zinnia_learn(int argc, char **argv) {
  using namespace zinnia;

  static const zinnia::Option long_options[] = {
    { "version", 'v', 0, 0, "show the version and exit" },
    { "help", 'h', 0, 0, "show this help and exit." },
    { 0, 0, 0, 0 }
  };

  zinnia::Param param;

  if (!param.open(argc, argv, long_options)) {
    std::cout << param.what() << "\n\n" << COPYRIGHT
              << "\ntry '--help' for more information." << std::endl;
    return -1;
  }

  if (!param.help_version()) return 0;

  const std::vector<std::string>& rest = param.rest_args();
  CHECK_DIE(rest.size() == 2)
      << "Usage: " << argv[0] << " trainig-file model-file";

  const std::string train_file = rest[0];
  const std::string model_file = rest[1];

  std::string line;
  zinnia::scoped_ptr<zinnia::Character> character(zinnia::Character::create());
  zinnia::scoped_ptr<zinnia::Trainer> trainer(zinnia::Trainer::create());

  std::ifstream ifs(train_file.c_str());
  CHECK_DIE(ifs) << "no such file or directory: " << train_file;
  while (std::getline(ifs, line)) {
    if (!character->parse(line.c_str(), line.size())) {
      std::cerr << character->what() << std::endl;
      continue;
    }
    if (!trainer->add(*character)) {
      std::cerr << character->what()
                << " " << trainer->what() << std::endl;
      continue;
    }
  }

  CHECK_DIE(trainer->train(model_file.c_str())) << trainer->what();

  return 0;
}

int zinnia_convert(int argc, char **argv) {
  using namespace zinnia;

  static const zinnia::Option long_options[] = {
    { "version", 'v', 0, 0, "show the version and exit" },
    { "make-header", 'H', 0, 0, "make header mode" },
    { "header-name", 'n', "zinnia_model", "STR", "header name" },
    { "compression-threshold", 'c', "0.00001", "FLOAT", "compression level" },
    { "help", 'h', 0, 0, "show this help and exit." },
    { 0, 0, 0, 0 }
  };

  zinnia::Param param;

  if (!param.open(argc, argv, long_options)) {
    std::cout << param.what() << "\n\n" << COPYRIGHT
              << "\ntry '--help' for more information." << std::endl;
    return -1;
  }

  if (!param.help_version()) return 0;

  const std::vector<std::string>& rest = param.rest_args();
  CHECK_DIE(rest.size() == 2)
      << "Usage: " << argv[0] << " text-model-file binary-model-file";

  const std::string text_file = rest[0];
  const std::string model_file = rest[1];

  const double c = param.get<double>("compression-threshold");

  if (param.get<bool>("make-header")) {
    const std::string &header_name = param.get<std::string>("header-name");
    CHECK_DIE(zinnia::Trainer::makeHeader(text_file.c_str(), model_file.c_str(),
                                          header_name.c_str(),
                                          c));
    return 0;
  }

  CHECK_DIE(zinnia::Trainer::convert(text_file.c_str(), model_file.c_str(), c));

  return 0;
}

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