Пример #1
0
void ResUtils::ParseJobsResponse(std::list<KP_Job>& jobs, JSONNode &n)
{
    std::string jobId;
    JSONNode::const_iterator i = n.begin();
    if (i != n.end() && i -> name() == TAG_JOBS_STR && i -> type() == JSON_NODE)
    {
        JSONNode::const_iterator ijs = (*i).begin();
        if (ijs != n.end() && ijs -> name() == TAG_ITEMS_STR && ijs -> type() == JSON_ARRAY)
        {
            JSONNode::const_iterator ij = (*ijs).begin();
            while (ij != (*ijs).end())
            {
                if(ij -> type() == JSON_ARRAY || ij -> type() == JSON_NODE)
                {
                    JSONNode::const_iterator ia = (*ij).begin();
                    if (ia != (*ij).end() && ia -> name() == TAG_ID_STR && ia -> type() != JSON_ARRAY && ia -> type() != JSON_NODE)
                    {
                        jobId = ia -> as_string();
                        //cout << "Bp: jobId: " << jobId << endl;
                        jobs.push_back(KP_Job (jobId));
                    }
                }
                ij ++;
            }
        }
    }

}
Пример #2
0
int Condition::Compile(JSONNode columns)
{
	if (operand1[0] == '\'')
	{
		operand1IsConstant = true;
		operand1 = operand1.substr(1, operand1.length() - 2);
	}
	else
	{
		operand1IsConstant = false;
		bool contains = false;
		for (auto j = columns.begin(); !contains && j != columns.end(); ++j)
			if (j->as_string() == operand1)
				contains = true;
		if (!contains)
			return Errors::ERR_NO_COLUMN;
	}
	if (operand2[0] == '\'')
	{
		operand2IsConstant = true;
		operand2 = operand2.substr(1, operand2.length() - 2);
	}
	else
	{
		operand2IsConstant = false;
		bool contains = false;
		for (auto j = columns.begin(); !contains && j != columns.end(); ++j)
			if (j->as_string() == operand2)
				contains = true;
		if (!contains)
			return Errors::ERR_NO_COLUMN;
	}
	return Errors::ERR_OK;
}
Пример #3
0
bool Programmer::loadJSON(JSONNode data) {
  auto devices = data.find("devices");
  if (devices == data.end()) {
    Logger::log(ERR, "No devices found in Programmer");
    return false;
  }

  auto it = devices->begin();
  while (it != devices->end()) {
    Device* device = new Device(it->name(), *it);

    // We're overwriting data here, so make sure to actually delete the old data.
    // if there is any
    if (m_devices.count(device->getId()) > 0)
      delete m_devices[device->getId()];

    m_devices[device->getId()] = device;
    it++;
  }

  auto c = data.find("captured");
  if (c == data.end()) {
    Logger::log(WARN, "No captured set found in Programmer");
    captured = DeviceSet(m_rig);
  }
  else {
    captured = DeviceSet(m_rig, *c);
  }

  return true;
}
Пример #4
0
bool JSONReader::parseAll(const std::string& text, IdType& nextId, std::string& filepath, std::string& checksum,
    std::vector<std::shared_ptr<MetadataStream::VideoSegment>>& segments,
    std::vector<std::shared_ptr<MetadataSchema>>& schemas,
    std::vector<std::shared_ptr<MetadataInternal>>& metadata)
{
    if(text.empty())
    {
        VMF_LOG_ERROR("Empty input JSON string");
        return false;
    }

    schemas.clear();
    metadata.clear();

    JSONNode root;
    try
    {
        root = libjson::parse(text);
    }
    catch(...)
    {
        VMF_LOG_ERROR("Can't get JSON root");
        return false;
    }

    if(root.size() != 1)
    {
        VMF_LOG_ERROR("More than one JSON root");
        return false;
    }

    JSONNode localRootNode = root[0];

    if( localRootNode.name() == TAG_VMF )
    {
        auto nextIdIter = localRootNode.find(ATTR_VMF_NEXTID);
        if(nextIdIter != localRootNode.end() )
            nextId = nextIdIter->as_int();
        auto filepathIter = localRootNode.find(ATTR_VMF_FILEPATH);
        if(filepathIter != localRootNode.end() )
            filepath = filepathIter->as_string();
        auto checksumIter = localRootNode.find(ATTR_VMF_CHECKSUM);
        if(checksumIter != localRootNode.end() )
            checksum = checksumIter->as_string();

	if(!parseVideoSegments(text, segments))
	    return false;
        if(!parseSchemas(text, schemas))
            return false;
        if(!parseMetadata(text, schemas, metadata))
            return false;
    }
    else
    {
        VMF_LOG_ERROR("Root JSON element isn't 'vmf'");
        return false;
    }

    return true;
}
Пример #5
0
void Rig::loadJSON(JSONNode root) {
  //JSONNode::const_iterator i = root.begin();
  JSONNode::iterator i = root.begin();

  auto version = root.find("version");
  if (version == root.end()) {
    Logger::log(ERR, "No version specified for input file. Aborting load.");
    return;
  }
  else {
    stringstream ss;
    stringstream ss2(version->as_string());

    ss << LumiverseCore_VERSION_MAJOR << "." << LumiverseCore_VERSION_MINOR;
    
    float libVer;
    float fileVer;

    ss >> libVer;
    ss2 >> fileVer;

    if (fileVer < libVer) {
      // Friendly warning if you're loading an old file.
      Logger::log(WARN, "File created against earlier version of Lumiverse. Check logs for any load problems.");
    }
    else if (fileVer > libVer) {
      // Loading newer file with older library.
      Logger::log(WARN, "File created against newer version of Lumiverse. Check logs for any load problems.");
    }
  }

  while (i != root.end()){
    // get the node name and value as a string
    std::string nodeName = i->name();

    if (nodeName == "devices") {
      loadDevices(*i);
      Logger::log(INFO, "Device load complete");
    }
    else if (nodeName == "patches") {
	  i->push_back(*root.find("jsonPath"));
      loadPatches(*i);
      Logger::log(INFO, "Patch load complete");
    }
    else if (nodeName == "refreshRate") {
      setRefreshRate(i->as_int());
    }

    //increment the iterator
    ++i;
  }
}
Пример #6
0
void ParseJSON(const JSONNode & n, std::list<KP_Service > & services){
    
    std::string providerId, serviceId;
	bool isHasServiceId = false, isHasProviderId = false;

	JSONNode::const_iterator i = n.begin();
    while (i != n.end()){
        // recursively call ourselves to dig deeper into the tree
        if (i -> type() == JSON_ARRAY || i -> type() == JSON_NODE){
            ParseJSON(*i, services);
        }
 		
        // get the node name and value as a string
        std::string node_name = i -> name();
 		//std::cout<< "Name: "<< node_name << endl;
        // find out where to store the values
        if (node_name == TAG_SERVICE_STR){
	        isHasServiceId = true;
            serviceId = i -> as_string();
        }
        else if (node_name == TAG_PROVIDER_STR){
        	isHasProviderId = true;
            providerId = i -> as_string();
        }
        
        //increment the iterator
        ++i;
    }
    if(isHasServiceId && isHasProviderId)
	    services.push_back(KP_Service (providerId, serviceId));
}
Пример #7
0
void ParseJSON(const JSONNode & n){
    JSONNode::const_iterator i = n.begin();
    while (i != n.end()){
        // recursively call ourselves to dig deeper into the tree
        if (i -> type() == JSON_ARRAY || i -> type() == JSON_NODE){
            ParseJSON(*i);
        }

        // get the node name and value as a string
        std::string node_name = i -> name();

        // find out where to store the values
        if (node_name == "RootA"){
            rootA = i -> as_string();
        }
        else if (node_name == "ChildA"){
            childA = i -> as_string();
        }
        else if (node_name == "ChildB")
            childB = i -> as_int();

        //increment the iterator
        ++i;
    }
}
Пример #8
0
void  baiduparser:: _parserJsonS ( const JSONNode & node_tree )
{
     JSONNode::const_iterator node_iter = node_tree.begin(); 
     while ( node_iter != node_tree.end() )
     {
         
          string  node_name = node_iter->name ();
          if ( node_name == "data" )
          {
               JSONNode::const_iterator arr_first_elem = node_iter->begin();
               JSONNode::const_iterator node_first_elem = arr_first_elem->begin();
               while ( node_first_elem != arr_first_elem->end() )
               {
                    
                    if ( node_first_elem->name() == "dst" )
                    {
                         result_ = node_first_elem->as_string();
                         break;
                    }
                    ++ node_first_elem ;
                     
               }
               break;
                
                              
          }
          
          node_iter ++;
           
     }

}
Пример #9
0
 static void processModel(const JSONNode & nd, MatModel& model) {
     bool nlayset = false;
     bool rangeset = false;
     bool lengthset = false;
     bool heightset = false;
     bool atomsset = false;
     for (auto i = nd.begin(); i != nd.end(); i++) {
         if (i->name() == JsonNames::numlayers) {
             model.mNumLayers = i->as_int();
             nlayset = true;
         } else if (i->name() == JsonNames::range) {
             model.mRadius = i->as_float();
             rangeset = true;
         } else if (i->name() == JsonNames::length) {
             model.mLength = i->as_float();
             lengthset = true;
         } else if (i->name() == JsonNames::height) {
             model.mHeight = i->as_float();
             heightset = true;
         } else if (i->name() == JsonNames::atoms) {
             BNB_ASSERT(nlayset);
             readIntVector(*i, model.mNumLayers, model.mLayersAtoms);
             atomsset = true;
         } else {
             BNB_ERROR_REPORT("Illegal name on parsing model data");
         }
     }
     BNB_ASSERT(nlayset && rangeset && lengthset && heightset && atomsset);
 }
Пример #10
0
 static void readDoubleVector(const JSONNode& nd, int vecsz, double * x) {
     int k = 0;
     for (auto i = nd.begin(); i != nd.end(); i++) {
         double u = i->as_float();
         BNB_ASSERT(k < vecsz);
         x[k++] = u;
     }
     BNB_ASSERT(k == vecsz);
 }
Пример #11
0
 static void readIntVector(const JSONNode& nd, int vecsz, int * x) {
     int k = 0;
     for (auto i = nd.begin(); i != nd.end(); i++) {
         int u = i->as_int();
         BNB_ASSERT(k < vecsz);
         x[k++] = u;
     }
     BNB_ASSERT(k == vecsz);
 }
Пример #12
0
bool USB_device::processMessage(ClientConn& client, string& cmd, JSONNode& n){
	if (cmd == "controlTransfer"){
		unsigned id = jsonIntProp(n, "id", 0);
		uint8_t bmRequestType = jsonIntProp(n, "bmRequestType", 0xC0);
		uint8_t bRequest = jsonIntProp(n, "bRequest");
		uint16_t wValue = jsonIntProp(n, "wValue", 0);
		uint16_t wIndex = jsonIntProp(n, "wIndex", 0);
	
		bool isIn = bmRequestType & 0x80;
		
		JSONNode reply(JSON_NODE);
		reply.push_back(JSONNode("_action", "return"));
		reply.push_back(JSONNode("id", id));
		
		int ret = -1000;
		
		if (isIn){
			uint16_t wLength = jsonIntProp(n, "wLength", 64);
			if (wLength > 64) wLength = 64;
			if (wLength < 0) wLength = 0;
		
			uint8_t data[wLength];
			ret = controlTransfer(bmRequestType, bRequest, wValue, wIndex, data, wLength);
			
			if (ret >= 0){
				JSONNode data_arr(JSON_ARRAY);
				for (int i=0; i<ret && i<wLength; i++){
					data_arr.push_back(JSONNode("", data[i]));
				}
				data_arr.set_name("data");
				reply.push_back(data_arr);
			}
		}else{
			string datastr;
			JSONNode data = n.at("data");
			if (data.type() == JSON_ARRAY){
				for(JSONNode::iterator i=data.begin(); i!=data.end(); i++){
					datastr.push_back(i->as_int());
				}
			}else{
				datastr = data.as_string();
			}
			ret = controlTransfer(bmRequestType, bRequest, wValue, wIndex, (uint8_t *)datastr.data(), datastr.size());
		}
		
		reply.push_back(JSONNode("status", ret));
	
		client.sendJSON(reply);
	}else if(cmd == "enterBootloader"){
		std::cout << "enterBootloader: ";
		int r = controlTransfer(0x40|0x80, 0xBB, 0, 0, NULL, 100);
		std::cout << "return " <<  r << std::endl;
	}else{
		return false;
	}
	return true;
}
Пример #13
0
bool CPPModule::init(const std::string& jsonParams) {
	JSONNode n = libjson::parse(jsonParams);
	std::map<std::string, std::string> tmpParams;
	JSONNode::iterator i = n.begin();
	for(; i!=n.end(); ++i) {
		tmpParams[(*i).name()] = (*i).as_string();
	}
	return onInit(tmpParams);
}
Пример #14
0
Keyframe::Keyframe(JSONNode node) {
  auto jt = node.find("t");
  if (jt == node.end()) {
    Logger::log(ERR, "Keyframe has no assigned time. Defaulting to 0.");
    t = 0;
  }
  else {
    t = jt->as_int();
  }

  auto v = node.find("val");
  if (v == node.end()) {
    val = nullptr;
  }
  else {
    val = shared_ptr<LumiverseType>(LumiverseTypeUtils::loadFromJSON(*v));
  }

  auto ucs = node.find("useCurrentState");
  if (ucs == node.end()) {
    useCurrentState = false;
  }
  else {
    useCurrentState = ucs->as_bool();
  }

  auto tid = node.find("timelineID");
  if (tid == node.end()) {
    timelineID = "";
  }
  else {
    timelineID = tid->as_string();
  }

  auto to = node.find("timelineOffset");
  if (to == node.end()) {
    timelineOffset = 0;
  }
  else {
    timelineOffset = to->as_int();
  }
}
JSONNode JSONNodeHelper::findKey(JSONNode jsonNode, std::string key)
{
    JSONNode returnNode;
    for (JSONNode::const_iterator i = jsonNode.begin(); i != jsonNode.end(); i++){
        if (i->name() == key){
            returnNode = *i;
        }
    }
    // TODO: throw exception if the key is not found
    return returnNode;
}
Пример #16
0
int ResUtils::ParseStatusResponse(JSONNode &n, JSONNode::const_iterator& i,int &outStatus)
{
    bool result = false;
    //JSONNode::const_iterator i = n.begin();
    if (i != n.end() && i -> name() == TAG_STATUS_STR && i -> type() != JSON_NODE && i -> type() != JSON_ARRAY)
    {
        outStatus = i -> as_int();
        result = true;
    }
    return result;
}
Пример #17
0
 static void processBox(const JSONNode & nd, Box<double> & box) {
     int n = box.mDim;
     for (auto i = nd.begin(); i != nd.end(); i++) {
         if (i->name() == JsonNames::boxa) {
             readDoubleVector(*i, n, (double*) (box.mA));
         } else if (i->name() == JsonNames::boxb) {
             readDoubleVector(*i, n, (double*) (box.mB));
         } else {
             BNB_ERROR_REPORT("Unknown name while processing box description");
         }
     }
 }
Пример #18
0
        static void processLattice(const JSONNode & nd, int n, double& v, double* x) {
            for (auto i = nd.begin(); i != nd.end(); i++) {
                if (i->name() == JsonNames::evalue) {
                    v = i->as_float();
                } else if (i->name() == JsonNames::lvector) {
                    readDoubleVector(*i, n, x);
                } else {
                    BNB_ERROR_REPORT("Unknown name while processing lattice description");
                }
            }

        }
bool GameMapEncounterAreaParser::Parse(std::string json, GameMapEncounterArea *encounterArea) {
    JSONNode assetListNode = libjson::parse(json);

    JSONNode::const_iterator i = assetListNode.begin();

    while (i != assetListNode.end()) {
        if (i->name() == "mobs" && i->type() == JSON_ARRAY) {
            this->logger->debug() << "parsing mobs";
            JSONNode::const_iterator j = i->begin();

            while (j != i->end()) {
                if (j->type() == JSON_NODE) {
                    JSONNode::const_iterator k = j->begin();

                    while (k != j->end()) {
                        if (k->name() == "enemies") {
                            this->logger->debug() << "parsing enemies for mob";
                            JSONNode::const_iterator l = k->begin();

                            std::string r = "";
                            std::vector<std::string> mob;

                            while (l != k->end()) {
                                this->logger->debug() << std::setfill ('0') << std::setw(sizeof(unsigned char)*2)
                                << std::hex << l->type();

                                if (l->type() == JSON_STRING) {
                                    r += l->as_string() + ", ";
                                    mob.push_back(l->as_string());
                                }

                                l++;
                            }


                            this->logger->debug() << "parsed mob [" << r << "]";

                            encounterArea->mobs.push_back(mob);
                        }

                        k++;
                    }
                }

                j++;
            }
        }

        i++;
    }

    return true;
}
Пример #20
0
 /**
  * Extracts JSON model from a string input
  * @param input JSON string
  * @param model model to fill in
  */
 static void parseModelData(const std::string& input, MatModel& model) {
     JSONNode nd = libjson::parse(input);
     bool modelset = false;
     for (auto i = nd.begin(); i != nd.end(); i++) {
         if (i->name() == JsonNames::modelname) {
             processModel(*i, model);
             modelset = true;
             break;
         }
     }
     if (!modelset)
         BNB_ERROR_REPORT("Model data missing\n");
 }
Пример #21
0
        /**
         * Parses box data
         * @param input input string with JSON description
         * @param box to fill in
         */
        static void parseBoxData(const std::string& input, Box<double>& box) {
            JSONNode nd = libjson::parse(input);
            bool boxset = false;
            for (auto i = nd.begin(); i != nd.end(); i++) {
                if (i->name() == JsonNames::box) {
                    processBox(*i, box);
                    boxset = true;
                    break;
                }
            }
            if (!boxset)
                BNB_ERROR_REPORT("Lattice data missing\n");

        }
Пример #22
0
        /**
         * Parses lattice definition vector from JSON string
         * @param input JSON string
         * @param model material model
         * @param v energy value to store
         * @param x vector to fill in
         */
        static void parseLatticeData(const std::string& input, const MatModel& model, double& v, double* x) {
            JSONNode nd = libjson::parse(input);
            bool latticeset = false;
            for (auto i = nd.begin(); i != nd.end(); i++) {
                if (i->name() == JsonNames::lattice) {
                    processLattice(*i, model.mNumLayers * 3, v, x);
                    latticeset = true;
                    break;
                }
            }
            if (!latticeset)
                BNB_ERROR_REPORT("Lattice data missing\n");

        }
Пример #23
0
void xmm::Label::from_json(JSONNode root)
{
    try {
        if (root.type() != JSON_NODE)
            throw JSONException("Wrong type: was expecting 'JSON_NODE'", root.name());
        JSONNode::const_iterator root_it = root.begin();
        if (root_it == root.end())
            throw JSONException("JSON Node is incomplete", root_it->name());
        if (root_it->name() != "type")
            throw JSONException("Wrong name: was expecting 'type'", root_it->name());
        if (root_it->type() != JSON_STRING)
            throw JSONException("Wrong type: was expecting 'JSON_STRING'", root_it->name());
        if (root_it->as_string() == "INT")
            type = INT;
        else
            type = SYM;
        ++root_it;
        
        if (root_it == root.end())
            throw JSONException("JSON Node is incomplete", root_it->name());
        if (root_it->name() != "value")
            throw JSONException("Wrong name: was expecting 'value'", root_it->name());
        if (type == INT) {
            if (root_it->type() != JSON_NUMBER)
                throw JSONException("Wrong type: was expecting 'JSON_NUMBER'", root_it->name());
            intLabel_ = static_cast<int>(root_it->as_int());
        } else {
            if (root_it->type() != JSON_STRING)
                throw JSONException("Wrong type: was expecting 'JSON_STRING'", root_it->name());
            symLabel_ = root_it->as_string();
        }
    } catch (JSONException &e) {
        throw JSONException(e, root.name());
    } catch (std::exception &e) {
        throw JSONException(e, root.name());
    }
}
Пример #24
0
void  baiduparser:: _parserJsonW ( const JSONNode & node_tree )
{
     JSONNode::const_iterator node_iter = node_tree.begin(); 
     while ( node_iter != node_tree.end() )
     {
         
          string  node_name = node_iter->name ();

         
          
          if  ( node_iter->name () == "result" )
          {
               result_.clear();
          }
         
          else if ( node_name == "pre")
          {
               result_ += node_iter->as_string() + "\n";
                
          }
          else if ( node_name == "cont" )
          {
               JSONNode::const_iterator result_iter = node_iter->begin();
               while ( result_iter != node_iter->end() )
               {
                    result_ += result_iter->name() + " |";
                    result_iter ++;
                     
               }
               result_ += "\n";
                
               node_iter ++  ;
               continue;
                
          }


          if ( node_iter->type() == JSON_ARRAY || node_iter->type() == JSON_NODE )
          {
               _parserJsonW( *node_iter );
               
          }
          
          node_iter ++;
           
     }

}
Пример #25
0
void SimulationAnimationPatch::loadJSON(const JSONNode data) {
	string patchName = data.name();

	// Load options for raytracer application. (window, ray tracer, filter)
	JSONNode::const_iterator i = data.begin();

	while (i != data.end()) {
		std::string nodeName = i->name();

		if (nodeName == "frameDirectory") {
			JSONNode fileName = *i;
			m_file_frameManager = new ArnoldFileFrameManager(fileName.as_string());
		}

		i++;
	}
}
Пример #26
0
void Rig::loadDevices(JSONNode root) {
  JSONNode::const_iterator i = root.begin();

  // for this we want to iterate through all children and have the device class
  // parse the sub-element.
  while (i != root.end()){
    // get the node name and value as a string
    std::string nodeName = i->name();

    // Node name is the Device id
    Device* device = new Device(nodeName, *i);
    addDevice(device);

    //increment the iterator
    ++i;
  }
}
Пример #27
0
// parse json/config, get filename and tilesize
void Tilemap::parseConfig(const JSONNode& n)
{
    JSONNode::const_iterator it = n.begin();
    while (it != n.end())
    {
	string nodeName = it->name();
	// might need stupid workaround, for some reason it->as_int() doesn't link!
	if (nodeName == "tilesize")
	    tileSize = atoi((it->as_string()).c_str());
	if (nodeName == "tilemap") {
	    tilemapFile = it->as_string();
	}
	++it;
    }

    createTexture();
}
Пример #28
0
int load_file(const string &filename,
              uid_user_map_t &uum,
              vector<msg_t> &msg_vec,
              log_t *log) {
    ifstream ifile;
    string line;
    string content;
    string home;
    long uid;
    int num = 0;

    ifile.open(filename.c_str());
    if (ifile.is_open()) {
        while (getline(ifile, line)) {
            msg_t one_msg;
            user_t one_user = {-1, "", ""};
            JSONNode node = libjson::parse(line);
            JSONNode::const_iterator jit = node.begin();
            while (jit != node.end()) {
                string name = (string)jit->name();
                if (name == "id") {
                    one_msg.mid = atol(jit->as_string().c_str());
                } else if (name == "user_id") {
                    uid = atol(jit->as_string().c_str());
                    one_user.uid = uid;
                    one_msg.uid = uid;
                } else if (name == "user_name") {
                    one_user.name = jit->as_string();
                } else if (name == "location") {
                    one_user.home = jit->as_string();
                } else if (name == "text") {
                    one_msg.content = jit->as_string();
                }
                ++jit;
            }
            check_user(one_user, uum);
            msg_vec.push_back(one_msg);
            ++num;
        }
        ifile.close();
    } else {
        error(log, "open raw file %s error", filename.c_str());
    }
    return num;
}
Пример #29
0
    /**
     * Reads the description from the string
     * @param json the json description as a string
     * @param kd the resulting knapsack data
     */
    static void readJson(const std::string& json, KnapData< T >& kd) {

        struct {
            bool mNSet;
            bool mCSet;
            bool mWSet;
            bool mPSet;
        } checklist = {false, false, false, false};

        JSONNode nd = libjson::parse(json);
        JSONNode::const_iterator i = nd.begin();
        kd.mN = 0;
        kd.mTP = 0;
        kd.mTW = 0;
        kd.mCoe = NULL;


        while (i != nd.end()) {
            std::string name = i->name();
            //std::cout << "node \"" << name << "\"\n";
            if (name == JSON_KNAP_N) {
                kd.mN = i->as_int();
                kd.mCoe = new KnapRecord<T>[kd.mN];
                BNB_ASSERT(kd.mCoe);
                checklist.mNSet = true;
            } else if (name == JSON_KNAP_C) {
                kd.mC = i->as_int();
                checklist.mCSet = true;
            } else if (name == JSON_KNAP_W) {
                BNB_ASSERT(kd.mCoe);
                parseW(*i, kd, checklist.mPSet);
                checklist.mWSet = true;
            } else if (name == JSON_KNAP_P) {
                BNB_ASSERT(kd.mCoe);
                parseP(*i, kd, checklist.mWSet);
                checklist.mPSet = true;
            }
            i++;
        }
    }
Пример #30
0
void Tilemap::load(char* fname)
{
    // load tilemap.json (json)
    char* buffer = 0;
    long length;
    FILE* f = fopen("tilemap.json", "rb");

    if (f)
    {
	fseek (f, 0, SEEK_END);
	length = ftell(f);
	fseek (f, 0, SEEK_SET);
	buffer = new char [length+1];
	fread(buffer, 1, length, f);
	buffer[length] = 0;
	fclose(f);
    }
    JSONNode tilemap = libjson::parse(buffer);

    JSONNode::const_iterator it = tilemap.begin();
    while (it != tilemap.end()) 
    {
	string nodeName = it->name();
	if (nodeName == "config")
	    parseConfig(*it);
	else if (nodeName == "tiles")
	    parseTiles(*it);

	//increment the iterator
	++it;
    }


    // load tilemap w/ stbi_
    // calc tilesperline=tilemap_width/tilesize


    delete buffer;
}