コード例 #1
1
void MorphemeDisambiguatorClass::test(const string &testFilename) const {
    ifstream ifs(testFilename);

    size_t correctCount = 0;
    size_t allCount = 0;
    while (true) {
        vector<string> sequence = Utility::readSequence(ifs);
        if (!ifs) {
            break;
        }
        vector<string> sentence;
        vector<vector<string>> correctResultList;
        splitSentenceAndResult(sequence, &sentence, &correctResultList);
        auto inferredResultList = tag(sentence);
        assert(inferredResultList.size() == correctResultList.size());
        for (size_t i = 0; i < inferredResultList.size(); ++i) {
            if (inferredResultList[i].size() == correctResultList[i].size() + 2 &&
                equal(inferredResultList[i].begin() + 2, inferredResultList[i].end(), correctResultList[i].begin())) {
                ++correctCount;
            }
            ++allCount;
        }
    }
    ifs.close();
    printf("Accuracy: %d / %d (%1.4f)\n", correctCount, allCount, correctCount / (double)allCount);
}
bool sensor_plugin_loader::get_paths_from_dir(const string &dir_path, vector<string> &hal_paths, vector<string> &sensor_paths)
{
	const string PLUGIN_POSTFIX = ".so";
	const string HAL_POSTFIX = "_hal.so";

	DIR *dir = NULL;
	struct dirent *dir_entry = NULL;

	dir = opendir(dir_path.c_str());

	if (!dir) {
		ERR("Failed to open dir: %s", dir_path.c_str());
		return false;
	}

	string name;

	while (dir_entry = readdir(dir)) {
		name = string(dir_entry->d_name);

		if (equal(PLUGIN_POSTFIX.rbegin(), PLUGIN_POSTFIX.rend(), name.rbegin())) {
			if (equal(HAL_POSTFIX.rbegin(), HAL_POSTFIX.rend(), name.rbegin()))
				hal_paths.push_back(dir_path + "/" + name);
			else
				sensor_paths.push_back(dir_path + "/" + name);
		}
	}

	closedir(dir);
	return true;
}
コード例 #3
0
int main(int argc, char* argv[]) {
  //      3
  //    2   5
  //  1    4 6
  unique_ptr<BinaryTreeNode<int>> root = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{3, nullptr, nullptr});
  root->left = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{2, nullptr, nullptr});
  root->left->left = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{1, nullptr, nullptr});
  root->right = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{5, nullptr, nullptr});
  root->right->left = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{4, nullptr, nullptr});
  root->right->right = unique_ptr<BinaryTreeNode<int>>(
      new BinaryTreeNode<int>{6, nullptr, nullptr});
  // should output 3
  //               2 5
  //               1 4 6
  PrintBinaryTreeDepthOrder(root);
  vector<vector<int>> golden_res = {{3}, {2, 5}, {1, 4, 6}};
  assert(golden_res.size() == results.size() &&
         equal(golden_res.begin(), golden_res.end(), results.begin()));
  return 0;
}
コード例 #4
0
ファイル: matrix.hpp プロジェクト: ryanlevy/ALPSCore
 static bool apply(alps::numeric::matrix<T,MemoryBlock> const& m) {
     typedef typename alps::numeric::matrix<T,MemoryBlock>::const_col_element_iterator col_iterator;
     using alps::hdf5::get_extent;
     using alps::hdf5::is_vectorizable;
     using std::equal;
     if(boost::is_scalar<typename alps::numeric::matrix<T,MemoryBlock>::value_type>::value || m.empty())
         return true;
     else {
         std::vector<std::size_t> first_element_extent(get_extent(m(0,0)));
         for(std::size_t j=0; j < num_cols(m); ++j) {
             for(std::pair<col_iterator,col_iterator> r = col(m,j); r.first != r.second; ++r.first) {
                 if(!is_vectorizable(*r.first)) {
                     return false;
                 } else {
                     std::vector<std::size_t> element_extent(get_extent(*r.first));
                     if(
                         first_element_extent.size() != element_extent.size()
                         || !equal(first_element_extent.begin(), first_element_extent.end(), element_extent.begin())
                     )
                         return false;
                 }
             }
         }
         return true;
     }
 }
コード例 #5
0
ファイル: matrix.hpp プロジェクト: ryanlevy/ALPSCore
 static std::vector<std::size_t> apply(alps::numeric::matrix<T,MemoryBlock> const& m) {
     using alps::hdf5::get_extent;
     using std::copy;
     using std::equal;
     typedef typename alps::numeric::matrix<T,MemoryBlock>::const_col_element_iterator col_iterator;
     std::vector<std::size_t> extent(2);
     extent[0] = num_cols(m);
     extent[1] = num_rows(m);
     if(num_rows(m) && num_cols(m) ) {
         // Get the extent of the first element
         std::vector<std::size_t> first(get_extent(m(0,0)));
         // We require that all elements of the matrix have the same size
         // These loops will check that.
         for(std::size_t j=0; j < num_cols(m); ++j)
             for(std::pair<col_iterator,col_iterator> r = col(m,j); r.first != r.second; ++r.first) {
                 std::vector<std::size_t> size(get_extent(*r.first));
                 if(
                     first.size() != size.size()
                     || !equal(first.begin(),first.end(), size.begin())
                 )
                     throw archive_error("Matrix elements have different sizes." + ALPS_STACKTRACE);
             }
         copy(first.begin(),first.end(), std::back_inserter(extent));
     }
     return extent;
 }
コード例 #6
0
ファイル: copy.cpp プロジェクト: sugawaray/filemanager
END_TEST

START_TEST(should_overwrite_destination_file)
{
	Process_dir_fixture f;
	string src(f.get_path() + "/src");
	create_emptyfile(src);
	vector<char> content(dummy_content());
	write_to_file(src, content);
	vector<char> dest_content(content);
	dest_content.insert(dest_content.end(), content.begin(), content.end());
	random_shuffle(dest_content.begin(), dest_content.end());
	string dest(f.get_path() + "/dest");
	write_to_file(dest, dest_content);

	Io io;
	int r(copy(io, src.c_str(), dest.c_str()));

	fail_unless(r == 0, "result value");
	vector<char> copied;
	read_file(dest, copied);
	fail_unless(content.size() == copied.size(), "size");
	fail_unless(equal(content.begin(), content.end(), copied.begin()),
		"value");
}
コード例 #7
0
bool SyntaxNode::operator==( const SyntaxNode& node ) const
{
    return node_type_ == node.node_type_
        && lexeme_ == node.lexeme_
        && nodes_.size() == node.nodes_.size()
        && equal( nodes_.begin(), nodes_.end(), node.nodes_.begin(), indirect_equal() )
    ;
}
コード例 #8
0
inline bool is_palindrome(string word) { return equal(word.begin(), word.end(), word.rbegin()); }
コード例 #9
0
ファイル: palin.cpp プロジェクト: JesseLiu0/coursework
bool is_palindrome(const string& s)
{
  return equal(s.begin(), s.end(), s.rbegin());
}