f8/cpp/tiledmap.cc

#include <a8/a8.h>
#include <a8/stringlist.h>
#include "framework/cpp/tiledmap.h"

a8::XValue TiledObject::GetProperty(const std::string& prop_name)
{
    auto itr = prop_hash.find(prop_name);
    return itr != prop_hash.end() ? itr->second : a8::XValue();
}

bool TiledObject::HasProperty(const std::string& prop_name)
{
    auto itr = prop_hash.find(prop_name);
    return itr != prop_hash.end();
}


a8::XValue TiledLayer::GetProperty(const std::string& prop_name)
{
    auto itr = prop_hash.find(prop_name);
    return itr != prop_hash.end() ? itr->second : a8::XValue();
}

bool TiledLayer::HasProperty(const std::string& prop_name)
{
    auto itr = prop_hash.find(prop_name);
    return itr != prop_hash.end();
}

bool TiledMap::LoadTmxFile(const std::string& filename)
{
    a8::XObject xobj;
    if (!xobj.ReadFromXmlFile(filename)) {
        return false;
    }

    std::shared_ptr<a8::XObject> tileset_node = xobj.At("child_node.tileset")->At(0);
    tile_count = tileset_node->At("attrs.tilecount")->AsXValue();
    tile_width = tileset_node->At("attrs.tilewidth")->AsXValue();
    tile_height = tileset_node->At("attrs.tileheight")->AsXValue();
    tile_columns = tileset_node->At("attrs.columns")->AsXValue();
    for (int i = 0; i < xobj.At("child_node.layer")->Size(); ++i) {
        std::shared_ptr<a8::XObject> layer_node = xobj.At("child_node.layer")->At(i);

        TiledLayer layer;
        {
            for (int ii = 0; ii < layer_node->At("attr_names")->Size(); ++ii) {
                std::string attr_name  = layer_node->At("attr_names")->At(ii)->AsXValue();
                layer.prop_hash[attr_name] = layer_node->At("attrs." + attr_name)->AsXValue();
            }
            std::shared_ptr<a8::XObject> prop_nodes = layer_node->At("child_node.properties")->At(0)->At("child_node.property");
            for (int j = 0; j < prop_nodes->Size(); ++j) {
                std::shared_ptr<a8::XObject> prop_node = prop_nodes->At(j);
                layer.prop_hash[prop_node->At("attrs.name")->AsXValue()] = prop_node->At("attrs.value")->AsXValue();
            }

            std::shared_ptr<a8::XObject> data_node = layer_node->At("child_node.data")->At(0);
            layer.data = data_node->At("node_value")->AsXValue();
        }

        std::string layer_name = layer_node->At("attrs.name")->AsXValue();
        auto itr = layer_hash.find(layer_name);
        if (itr != layer_hash.end()) {
            itr->second.push_back(layer);
        } else {
            layer_hash[layer_name]  = std::list<TiledLayer>({layer});
        }
    }

	std::shared_ptr<a8::XObject> objgroup_node = xobj.At("child_node.objectgroup")->At(0);
	for (int i = 0; i < objgroup_node->At("child_node.object")->Size(); i++) {
		std::shared_ptr<a8::XObject> object_node = objgroup_node->At("child_node.object")->At(i);
		TiledObject object;
		{
			for (int ii = 0; ii < object_node->At("attr_names")->Size(); ii++) {
				std::string attr_name = object_node->At("attr_names")->At(ii)->AsXValue();
				object.prop_hash[attr_name] = object_node->At("attrs." + attr_name)->AsXValue();
			}
			std::shared_ptr<a8::XObject> prop_nodes = object_node->At("child_node.properties")->At(0)->At("child_node.property");
			for (int j = 0; j < prop_nodes->Size(); j++) {
				std::shared_ptr<a8::XObject> prop_node = prop_nodes->At(j);
				object.prop_hash[prop_node->At("attrs.name")->AsXValue()] = prop_node->At("attrs.value")->AsXValue();
			}
		}

		std::string object_name = object_node->At("attrs.name")->AsXValue();
		auto itr = object_group_hash.find(object_name);
		if (itr != object_group_hash.end()) {
			itr->second.push_back(object);
		}
		else
		{
			object_group_hash[object_name] = std::list<TiledObject>({ object });
		}

	}


    return true;
}

std::list<TiledObject>* TiledMap::GetObjectGroup(const std::string& object_class_name)
{
    auto itr = object_group_hash.find(object_class_name);
    return itr != object_group_hash.end() ? &itr->second : nullptr;
}

void TiledMap::Init()
{
    grid_cell_list.reserve(tile_count);
    grid_cell_list.assign(tile_count,GridCell{});

    for (auto& pair : layer_hash) {
        for (auto& layer : pair.second) {

            std::string name = layer.GetProperty("name").GetString();
            bool has_speed = layer.HasProperty("speed");
            int speed = layer.GetProperty("speed");

            bool has_trigger = layer.HasProperty("isTrigger");
            bool istrigger = layer.GetProperty("isTrigger");;
            std::string trigger_point = layer.GetProperty("objName").GetString();

            bool has_num = layer.HasProperty("num");
            //int num = layer.GetProperty("num");

            std::vector<GridCell*> grid_cell_path_list;
            a8::StringList str_list;
            str_list.SetText(layer.data.GetString().c_str());
            for (int i = 2; i < str_list.Count(); ++i) {
                std::string str_line = str_list.String(i);
                std::vector<std::string> split_list;
                a8::Split(str_line, split_list);
                int split_count = split_list.size()-1;

                for(int j = 0; j < split_count; ++j){
                    int value = a8::XValue(split_list[j]);
                    if(value > 0){
                        int index = (i-2)*tile_columns + j;
                        if (has_speed) {
                            grid_cell_list[index].x = i-1;
                            grid_cell_list[index].y = j+1;
                            grid_cell_list[index].speed = speed;
                            grid_cell_list[index].value = value;
                        }
                        if (has_trigger) {
                            TriggerPoint tp;
                            {
                                tp.x = i;
                                tp.y = j+1;
                                tp.point = trigger_point;
                                tp.istrigger = istrigger;
                                trigger_list.push_back(tp);
                            }
                        }
                        if (has_num) {
                            grid_cell_path_list.push_back(&grid_cell_list[index]);
                        }
                    }
                }
            }

            if (grid_cell_path_list.size() > 0) {
                stage_path_hash[name] = grid_cell_path_list;
            }
        }
    }

    for (auto& pair : object_group_hash) {
        for (auto& object : pair.second) {
            StagePoint sp;
            sp.x = object.GetProperty("tile_x");
            sp.y = object.GetProperty("tile_y");
            sp.point = object.GetProperty("location").GetString();
            std::string str_relation  = object.GetProperty("relation").GetString();
            std::vector<std::string> split_list;
            a8::Split(str_relation, split_list, ',');
            for (auto& point : split_list) {
                sp.relation_list.push_back(point);
            }
            std::string name = object.GetProperty("name").GetString();
            stage_object_hash[name] = sp;
         }
    }
}

void TiledMap::Dump()
{
    Init();
    #if 0
    for (auto& pair : stage_path_hash) {
        a8::XPrintf("stage$:%s\n", {pair.first});
        for (auto& gc : pair.second) {
            a8::XPrintf("path$x:%d,y:%d,speed:%d,value:%d\n", {gc->x, gc->y, gc->speed, gc->value});
        }
    }
    #endif
    #if 0
    for (auto& tp : trigger_list) {
        a8::XPrintf("x:%d,y:%d,point:%d,istrigger:%d\n", {tp.x, tp.y, tp.point, a8::XValue(tp.istrigger)});
    }
    #endif
    #if 0
    int len = grid_cell_list.size();
    a8::XPrintf("grid_cell_size:%s\n", {len});
    for (int i= 0; i < len; ++i) {
        auto gc = grid_cell_list[i];
        a8::XPrintf("i:%d, x:%d,y:%d,speed:%d,value:%d\n", {i, gc.x, gc.y, gc.speed, gc.value});
    }
    #endif
    #if 0
    for (auto& pair : stage_object_hash) {
        a8::XPrintf("object$:%s\n", {pair.first});
        a8::XPrintf("value$x:%d,y:%d,p:%s,relation:", {pair.second.x, pair.second.y, pair.second.point});
        for (auto& relation : pair.second.relation_list) {
            a8::XPrintf("%s,", {relation});
        }
        a8::XPrintf("\n",{});
    }
    #endif
    return;

    a8::XPrintf("map$tile_count:%d\n", {tile_count});
	a8::XPrintf("map$tile_width:%d\n", { tile_width });
	a8::XPrintf("map$tile_height:%d\n", { tile_height });
    a8::XPrintf("layer$layer_hash.size:%d\n", {layer_hash.size()});
    for (auto& pair : layer_hash) {
        a8::XPrintf("  layer$layer_type:%s\n", {pair.first});
        for (auto& layer : pair.second) {
            a8::XPrintf("data$data:%s\n",{layer.data});
            for (auto& pair2 : layer.prop_hash) {
                a8::XPrintf("  layer$%s:%s\n", {pair2.first, pair2.second});
            }
        }
    }
    a8::XPrintf("object$object_group_hash.size:%d\n", {object_group_hash.size()});
    for (auto& pair : object_group_hash) {
        a8::XPrintf("  object$layer_type:%s\n", {pair.first});
        for (auto& layer : pair.second) {
            for (auto& pair2 : layer.prop_hash) {
                a8::XPrintf("  object$%s:%s\n", {pair2.first, pair2.second});
            }
        }
    }
}