コード例 #1
0
QuiddityCommand::ptr QuiddityCommand::make_command_from_tree(InfoTree::ptr tree) {
  QuiddityCommand::ptr command = std::make_shared<QuiddityCommand>();
  std::string command_str = tree->branch_get_value("command");
  command->set_id(QuiddityCommand::get_id_from_string(command_str.c_str()));
  command->time_ = tree->branch_get_value("calling time");
  {
    std::string args_str("arguments.");
    auto arguments = tree->get_child_keys(args_str);
    for (auto& it : arguments) {
      std::string arg = tree->branch_get_value(args_str + it);
      if (!arg.empty()) {
        command->add_arg(arg);
      } else {
        command->add_arg("null");
      }
    }
  }
  {
    std::string vect_str("vector argument.");
    auto arguments = tree->get_child_keys(vect_str);
    std::vector<std::string> string_vect_arg;
    for (auto& it : arguments) {
      std::string arg = tree->branch_get_value(vect_str + it);
      if (!arg.empty()) {
        string_vect_arg.push_back(arg);
      } else {
        string_vect_arg.push_back("null");
      }
    }
    command->set_vector_arg(string_vect_arg);
  }
  {
    std::string res_str("results.");
    auto results = tree->get_child_keys(res_str);
    std::vector<std::string> expected_result;
    for (auto& it : results) {
      std::string res = tree->branch_get_value(res_str + it);
      if (!res.empty()) expected_result.push_back(res);
    }
    command->expected_result_ = expected_result;
  }
  return command;
}
コード例 #2
0
void ShmdataStat::update_tree(const InfoTree::ptr& tree, const std::string& key) const {
  tree->graft(key + ".stat.byte_rate", InfoTree::make(bytes_));
  tree->graft(key + ".stat.rate", InfoTree::make(accesses_));
}
コード例 #3
0
ファイル: property-quid.cpp プロジェクト: nicobou/switcher
PropertyQuid::PropertyQuid(quid::Config&& conf)
    : Quiddity(std::forward<quid::Config>(conf)),
      bool_id_(pmanage<MPtr(&PContainer::make_bool)>("bool_",
                                                     [this](bool val) {
                                                       bool_ = val;
                                                       return true;
                                                     },
                                                     [this]() { return bool_; },
                                                     "Bool Example",
                                                     "This property is an example for type bool",
                                                     bool_)),
      string_id_(
          pmanage<MPtr(&PContainer::make_string)>("string_",
                                                  [this](const std::string& val) {
                                                    string_ = val;
                                                    return true;
                                                  },
                                                  [this]() { return string_; },
                                                  "String Example",
                                                  "This property is an example for type string",
                                                  string_)),
      char_id_(pmanage<MPtr(&PContainer::make_char)>("char_",
                                                     [this](const char& val) {
                                                       char_ = val;
                                                       return true;
                                                     },
                                                     [this]() { return char_; },
                                                     "Char Example",
                                                     "This property is an example for type char",
                                                     char_)),
      color_id_(pmanage<MPtr(&PContainer::make_color)>("color_",
                                                       [this](const Color& val) {
                                                         color_ = val;
                                                         return true;
                                                       },
                                                       [this]() { return color_; },
                                                       "Color Example",
                                                       "This property is an example for type color",
                                                       color_)),
      integral_group_id_(pmanage<MPtr(&PContainer::make_group)>(
          "integrals",
          "Integral Group Example",
          "This property is an example for grouping integral types")),
      int_id_(pmanage<MPtr(&PContainer::make_parented_int)>(  // PContainer factory
          "int_",                                             // string id
          "integrals",                                        // parent
          [this](int val) {
            int_ = val;
            return true;
          },                                           // setter
          [this]() { return int_; },                   // getter
          "Int Example",                               // name
          "This property is an example for type int",  // description
          int_,                                        // default value
          -10,                                         // min
          10)),                                        // max
      short_id_(pmanage<MPtr(&PContainer::make_parented_short)>(
          "short_",
          "integrals",
          [this](short val) {
            short_ = val;
            return true;
          },
          [this]() { return short_; },
          "Short Example",
          "This property is an example for type short",
          short_,
          -11,
          11)),
      long_id_(pmanage<MPtr(&PContainer::make_parented_long)>(
          "long_",
          "integrals",
          [this](long val) {
            long_ = val;
            return true;
          },
          [this]() { return long_; },
          "Long Example",
          "This property is an example for type long",
          long_,
          -20,
          20)),
      long_long_id_(pmanage<MPtr(&PContainer::make_parented_long_long)>(
          "long_long_",
          "integrals",
          [this](long long val) {
            long_long_ = val;
            return true;
          },
          [this]() { return long_long_; },
          "Long Long Example",
          "This property is an example for type long long",
          long_long_,
          -21,
          21)),
      unsigned_int_id_(pmanage<MPtr(&PContainer::make_parented_unsigned_int)>(
          "unsigned_int_",
          "integrals",
          [this](unsigned int val) {
            unsigned_int_ = val;
            return true;
          },
          [this]() { return unsigned_int_; },
          "Unsigned Int Example",
          "This property is an example for type unsigned int",
          unsigned_int_,
          0,
          10)),
      unsigned_short_id_(pmanage<MPtr(&PContainer::make_parented_unsigned_short)>(
          "unsigned_short_",
          "integrals",
          [this](unsigned short val) {
            unsigned_short_ = val;
            return true;
          },
          [this]() { return unsigned_short_; },
          "Unsigned Short Example",
          "This property is an example for type unsigned short",
          unsigned_short_,
          1,
          11)),
      unsigned_long_id_(pmanage<MPtr(&PContainer::make_parented_unsigned_long)>(
          "unsigned_long_",
          "integrals",
          [this](unsigned long val) {
            unsigned_long_ = val;
            return true;
          },
          [this]() { return unsigned_long_; },
          "Unsigned Long Example",
          "This property is an example for type unsigned long",
          unsigned_long_,
          4,
          200)),
      unsigned_long_long_id_(pmanage<MPtr(&PContainer::make_parented_unsigned_long_long)>(
          "unsigned_long_long_",
          "integrals",
          [this](unsigned long long val) {
            unsigned_long_long_ = val;
            return true;
          },
          [this]() { return unsigned_long_long_; },
          "Unsigned Long Long Example",
          "This property is an example for type unsigned long long",
          unsigned_long_long_,
          2,
          210)),
      floating_point_group_id_(pmanage<MPtr(&PContainer::make_group)>(
          "floats",
          "Floating Point Group Example",
          "This property is an example for grouping floating points")),
      float_id_(pmanage<MPtr(&PContainer::make_parented_float)>(
          "float_",
          "floats",
          [this](float val) {
            float_ = val;
            return true;
          },
          [this]() { return float_; },
          "Float Example",
          "This property is an example for type float",
          float_,
          -1.f,
          1.f)),
      double_id_(pmanage<MPtr(&PContainer::make_parented_double)>(
          "double_",
          "floats",
          [this](double val) {
            double_ = val;
            return true;
          },
          [this]() { return double_; },
          "Double Example",
          "This property is an example for type double",
          double_,
          -1.f,
          10.f)),
      long_double_id_(pmanage<MPtr(&PContainer::make_parented_long_double)>(
          "long_double_",
          "floats",
          [this](long double val) {
            long_double_ = val;
            return true;
          },
          [this]() { return long_double_; },
          "Long Double Example",
          "This property is an example for type long double",
          long_double_,
          -1.f,
          10.f)),
      selection_id_(
          pmanage<MPtr(&PContainer::make_selection<>)>("enum_",
                                                       [this](const IndexOrName& val) {
                                                         selection_.select(val);
                                                         return true;
                                                       },
                                                       [this]() { return selection_.get(); },
                                                       "Selection Example",
                                                       "This property is an example for type enum",
                                                       selection_)),
      tuple_id_(
          pmanage<MPtr(&PContainer::make_tuple<MyTuple>)>("tuple_",
                                                          [this](const MyTuple& val) {
                                                            tuple_ = val;
                                                            return true;
                                                          },
                                                          [this]() { return tuple_; },
                                                          "Tuple Example",
                                                          "This property is an example for tuple",
                                                          tuple_)),
      fraction_id_(
          pmanage<MPtr(&PContainer::make_fraction)>("fraction_",
                                                    [this](const Fraction& val) {
                                                      fraction_ = val;
                                                      return true;
                                                    },
                                                    [this]() { return fraction_; },
                                                    "Fraction Example",
                                                    "This property is an example for fraction",
                                                    fraction_,
                                                    -10,
                                                    1,  // min num/denom
                                                    10,
                                                    10)  // max num/denom
      ) {
  // std::cout << pmanage<MPtr(&PContainer::get<int>)>( int_id_) << std::endl;
  // std::cout << pmanage<MPtr(&PContainer::get<unsigned int>)>( uint_id_) <<
  // std::endl;

  pmanage<MPtr(&PContainer::set<MyTuple>)>(
      tuple_id_, std::make_tuple<long long, float, std::string>(2, 2.2, "a22"));

  std::cout << std::get<0>(tuple_) << " "    // 2
            << std::get<1>(tuple_) << " "    // 2.2
            << std::get<2>(tuple_) << "\n";  // a22

  // creating some custom infos
  InfoTree::ptr tree = InfoTree::make();
  tree->graft(".child1.child2", InfoTree::make("switch"));
  tree->graft(".child1.child3", InfoTree::make(1.2f));
  tree->graft(".child1.child2.bla1", InfoTree::make("wire"));
  tree->graft(".child1.child2.bla2", InfoTree::make("hub"));
  // attaching it to the quiddity (at the root)
  graft_tree(".custom.information.", tree);
  debug("hello from plugin");
}
コード例 #4
0
std::string QuiddityManager::get_serialized_command_history() const {
  auto quiddities = manager_impl_->get_instances();
  for (auto& it : quiddities_at_reset_) {
    auto tmp = std::find(quiddities.begin(), quiddities.end(), it);
    if (quiddities.end() != tmp) quiddities.erase(tmp);
  }
  if (quiddities.empty()) {
    g_warning("nothing to save");
    return {};
  }

  InfoTree::ptr tree = InfoTree::make();

  // saving history
  for (unsigned int i = 0; i < command_history_.history_.size(); i++) {
    tree->graft(std::string("history.") + std::to_string(i),
                command_history_.history_[i]->get_info_tree());
  }
  tree->tag_as_array("history", true);

  // saving per-quiddity information
  auto quid_str = std::string(".quiddities.");
  for (auto& quid_name : quiddities) {
    // name and class
    auto quid_class = manager_impl_->get_quiddity(quid_name)->get_documentation()->get_class_name();
    tree->graft(quid_str + quid_name, InfoTree::make(quid_class));
    // saving custom tree if some is provided
    auto custom_tree = manager_impl_->get_quiddity(quid_name)->on_saving();
    if (custom_tree && !custom_tree->empty())
      tree->graft(".custom_states." + quid_name, std::move(custom_tree));

    // user data
    auto quid_user_data_tree = user_data<MPtr(&InfoTree::get_tree)>(quid_name, ".");
    if (!quid_user_data_tree->empty()) {
      tree->graft(".userdata." + quid_name, user_data<MPtr(&InfoTree::get_tree)>(quid_name, "."));
    }
    // writable property values
    use_prop<MPtr(&PContainer::update_values_in_tree)>(quid_name);
    auto props = use_tree<MPtr(&InfoTree::get_child_keys)>(quid_name, "property");
    for (auto& prop : props) {
      if (use_tree<MPtr(&InfoTree::branch_get_value)>(
              quid_name, std::string("property.") + prop + ".writable")) {
        tree->graft(".properties." + quid_name + "." + prop,
                    InfoTree::make(use_tree<MPtr(&InfoTree::branch_get_value)>(
                        quid_name, std::string("property.") + prop + ".value")));
      }
    }

    // Record shmdata connections.
    // Ignore them if no connect-to methods is installed for this quiddity.
    if (!manager_impl_->get_quiddity(quid_name)->has_method("connect")) continue;

    auto readers = use_tree<MPtr(&InfoTree::get_child_keys)>(quid_name, "shmdata.reader");
    int nb = 0;
    for (auto& reader : readers) {
      if (!reader.empty()) {
        tree->graft(".readers." + quid_name + ".reader_" + std::to_string(++nb),
                    InfoTree::make(reader));
      }
    }
    tree->tag_as_array(".readers." + quid_name, true);
  }
  // calling on_saved callback
  for (auto& quid_name : quiddities) {
    manager_impl_->get_quiddity(quid_name)->on_saved();
  }

  return JSONSerializer::serialize(tree.get());
}
コード例 #5
0
//---------------- test
int main() {
  using namespace switcher;

  auto string_compare = [](const std::string& first, const std::string& second) {
    return (0 == first.compare(second));
  };

  {  // node data as std::string
    InfoTree::ptr tree = InfoTree::make(std::string("truc"));
    assert(tree->is_leaf());
    std::string data = tree->get_value();
    assert(0 == data.compare("truc"));
  }
  {  // node data as const char * (converted to std::string)
    InfoTree::ptr tree = InfoTree::make("test");
    assert(tree->is_leaf());
  }
  {  // node data as float
    InfoTree::ptr tree = InfoTree::make(1.2f);
    float val = tree->get_value();
    assert(1.2f == val);
  }
  {  // graft a multiple childs and get them
    InfoTree::ptr tree = InfoTree::make();
    tree->graft("...child1....child2..", InfoTree::make(1.2f));
    assert(!tree->is_leaf());
    InfoTree::ptr child2 = tree->get_tree("..child1.child2");
    assert(child2);
    assert(child2->is_leaf());
    float data = child2->get_value();
    assert(1.2f == data);
    InfoTree::ptr child1 = tree->get_tree(".child1..");
    assert(!child1->is_leaf());
    assert(tree->get_tree("child1.foo")->empty());  // this is not a child
  }
  {  // graft a childs and prune it
    InfoTree::ptr tree = InfoTree::make();
    tree->graft("child1.child2", InfoTree::make());
    assert(!tree->is_leaf());
    InfoTree::ptr child1 = tree->prune("child1");
    assert(child1);
    assert(tree->is_leaf());
    assert(!child1->is_leaf());
    // child2 from the pruned child1
    InfoTree::ptr child2 = child1->prune("child2");
    assert(child2);
    assert(child1->is_leaf());
    assert(child2->is_leaf());
  }
  {  // absolute prune
    InfoTree::ptr tree = InfoTree::make();
    tree->graft("child1.child2", InfoTree::make());
    InfoTree::ptr child2 = tree->prune("child1.child2");
    assert(!tree->is_leaf());
    assert(tree->branch_is_leaf("child1"));
  }
  {  // is_leaf with path
    InfoTree::ptr tree = InfoTree::make();
    tree->graft("child1", InfoTree::make());
    tree->graft("child1.child2", InfoTree::make());
    tree->graft("child1.child2.child3", InfoTree::make());
    assert(tree->branch_is_leaf("child1.child2.child3"));
    assert(!tree->branch_is_leaf("child1.child2"));
    assert(!tree->branch_is_leaf("child1"));
    assert(!tree->branch_is_leaf("foofoo"));
  }
  {  // set/get data with path
    InfoTree::ptr tree = InfoTree::make();
    // tree->set_value ("", 1.2f);  // this is not possible
    // float tree_data = tree->get_value (".");  // this is not possible
    // assert (1.2f == tree_data);
    tree->graft("child1.child2", InfoTree::make());
    assert(tree->branch_set_value("child1.child2", nullptr));
    assert(tree->branch_set_value("child1", 1.2f));
    std::string child2_data = tree->branch_get_value("child1.child2");
    assert("" == child2_data);
    float child1_data = tree->branch_get_value("child1");
    assert(1.2f == child1_data);
  }
  {  // removing using empty data
    InfoTree::ptr tree = InfoTree::make();
    tree->set_value("test");
    assert(tree->has_data());
    tree->set_value(Any());
    assert(!tree->has_data());
    tree->graft("child1.child2", InfoTree::make());
    assert(tree->branch_set_value("child1.child2", "test"));
    assert(tree->branch_set_value("child1", "test"));
    assert(tree->branch_has_data("child1.child2"));
    assert(tree->branch_has_data("child1"));
    assert(tree->branch_set_value("child1.child2", Any()));
    assert(tree->branch_set_value("child1", Any()));
    assert(!tree->branch_has_data("child1.child2"));
    assert(!tree->branch_has_data("child1"));
  }
  {  // Any to string
    Any n;
    Any a(std::string("test"));
    Any b(1.2f);
    Widget widget;
    Any w(std::move(widget));
    SerializableWidget serializable_widget;
    Any sw(serializable_widget);

    std::stringstream ss;
    ss << n << "-" << a << "-" << b << "-" << w << "-" << sw;
    // std::cout << ss.str () << '\n';
    assert(0 == ss.str().compare("null-test-1.200000-not serializable-hello"));
  }
  {  // basic serialization
    InfoTree::ptr tree = InfoTree::make();
    tree->graft(".child1.child2", InfoTree::make("switch"));
    tree->graft(".child1.child3", InfoTree::make(1.2f));
    tree->graft(".child1.child2.bla1", InfoTree::make("wire"));
    tree->graft(".child1.child2.bla2", InfoTree::make("hub"));

    std::string serialized = BasicSerializer::serialize(tree.get());
    // std::cout << serialized << '\n';

    InfoTree::ptr tree2 = BasicSerializer::deserialize(serialized);
    assert(tree2);
    std::string serialized2 = BasicSerializer::serialize(tree2.get());
    // std::cout << serialized2 << '\n';

    assert(serialized == serialized2);
  }
  {
    // JSON serialization with child1.child2 as an array
    InfoTree::ptr tree = InfoTree::make();

    // if children are grafted to child3, its value
    // will be serialized with "key_value, as follow:
    // "child3" : {
    //  "key_value" : 1.2,
    //  "child4" : "float"
    //  }
    tree->graft(".child1.child3", InfoTree::make(1.2f));
    tree->graft(".child1.child3.child4", InfoTree::make("a string value"));
    tree->graft(".int_type", InfoTree::make(9));
    tree->graft(".bool_type", InfoTree::make(true));
    tree->graft(".float_type", InfoTree::make(3.14));
    tree->graft(".null_type", InfoTree::make());

    // if the array is made with a value, it will not be serialized
    // a node trageted as an array should be created like this :
    // tree->graft (".child1.child2", InfoTree::make ());
    // however, this is accepted:
    tree->graft(".child1.child2", InfoTree::make("switch"));
    //
    InfoTree::ptr elem1 = InfoTree::make();
    elem1->graft("equipment", InfoTree::make("door"));
    elem1->graft("color", InfoTree::make("red"));
    InfoTree::ptr elem2 = InfoTree::make();
    elem2->graft("equipment", InfoTree::make("door"));
    elem2->graft("color", InfoTree::make("black"));
    tree->graft(".child1.child2.red_door", elem1);
    tree->graft(".child1.child2.black_door", elem2);
    tree->tag_as_array(".child1.child2", true);

    std::string serialized = JSONSerializer::serialize(tree.get());
    // std::cout << serialized << '\n';
    auto deserialized_tree = JSONSerializer::deserialize(serialized);
    auto deserialized_string = JSONSerializer::serialize(deserialized_tree.get());
    // std::cout << deserialized_string << '\n';
    assert(serialized == deserialized_string);

    // test copy
    auto tree_cpy = InfoTree::copy(tree.get());
    assert(serialized == JSONSerializer::serialize(tree_cpy.get()));
    auto tree_cpy2 = tree->branch_get_copy(".");
    assert(serialized == JSONSerializer::serialize(tree_cpy2.get()));
  }

  {  // get childs keys inserting in an existing container
    InfoTree::ptr tree = InfoTree::make();
    std::list<std::string> childs{
        "child1", "child2", "child3", "child4", "child5", "child6", "child7", "child8", "child9"};
    std::for_each(childs.begin(), childs.end(), [tree](const std::string& val) {
      tree->graft(".root." + val, InfoTree::make("val"));
    });
    std::vector<std::string> child_keys;
    auto insert_it = std::insert_iterator<decltype(child_keys)>(child_keys, child_keys.begin());
    tree->copy_and_insert_child_keys(".root", insert_it);
    assert(std::equal(childs.begin(),
                      childs.end(),
                      child_keys.begin(),
                      [](const std::string& first, const std::string& second) {
                        return (0 == first.compare(second));
                      }));
  }

  {  // get childs keys in a newly allocated container
    InfoTree::ptr tree = InfoTree::make();
    std::list<std::string> childs{
        "child1", "child2", "child3", "child4", "child5", "child6", "child7", "child8", "child9"};
    std::for_each(childs.begin(), childs.end(), [tree](const std::string& val) {
      tree->graft(".root." + val, InfoTree::make("val"));
    });

    // using a default container
    auto child_keys_list = tree->get_child_keys(".root");
    assert(std::equal(childs.begin(), childs.end(), child_keys_list.begin(), string_compare));
  }

  {  // copy_leaf_values
    InfoTree::ptr tree = InfoTree::make();
    std::list<std::string> original_values{"0", "1", "2"};
    for (auto& it : original_values)
      tree->graft(std::string(".branch.item" + it), InfoTree::make(it));
    tree->graft(".other.branch", InfoTree::make());  // not into copy_leaf_values
    tree->tag_as_array("branch.", true);
    // std::string serialized = JSONSerializer::serialize(tree);
    // std::cout << serialized << '\n';
    std::list<std::string> values = tree->copy_leaf_values(".branch");
    assert(
        std::equal(original_values.begin(), original_values.end(), values.begin(), string_compare));
    // for (auto &it : values)
    //   std::cout << it << '\n';
  }

  {  // collecting data
    InfoTree::ptr tree = InfoTree::make();
    tree->graft("root.1.id", InfoTree::make(0));
    tree->graft("root.2.1.id", InfoTree::make(2));
    tree->graft("root.3.21.id", InfoTree::make(4));
    tree->graft("root.4.id", InfoTree::make(8));
    tree->graft("root.5.id", InfoTree::make(16));
    tree->graft("root.5.id.id", InfoTree::make(1));  // subtree of root.5.id
    tree->graft("root.1.2.id", InfoTree::make(3));   // sibling of root.1.id
    auto collected =
        InfoTree::collect_values(tree.get(),
                                 [](const std::string& key, InfoTree::ptrc) { return key == "id"; },
                                 false);  // do not continue search on siblings and subtree
    assert(5 == collected.size());
    std::vector<int> values{0, 2, 4, 8, 16};
    for (auto& it : collected) {
      assert(values.end() != std::find(values.cbegin(), values.cend(), it.copy_as<int>()));
    }
  }

  return 0;
}
コード例 #6
0
InfoTree::ptr AnalogSourceDevice::getTree() const {
  InfoTree::ptr tree = SourceDevice::getTree();
  tree->graft("type", InfoTree::make("vrpn_Analog"));
  tree->graft("numChannels", InfoTree::make(properties_.size()));
  return tree;
}