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/*
 * Copyright (C) 2017 Mentor Graphics Development (Deutschland) GmbH
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

//
// Created by m on 7/27/17.
//

#include <algorithm>

#include "json_helper.hpp"
#include "layers.hpp"
#include "util.hpp"

namespace wm {

using json = nlohmann::json;

layer::layer(nlohmann::json const &j) {
   DB(j);
   if (j["type"] == "range") {
      this->id_min = get<int>(j["first_surface_id"]);
      this->id_max = get<int>(j["last_surface_id"]);
   } else {
      this->id_min = this->id_max = get<int>(j["surface_id"]);
   }
   this->name = j["name"].get<std::string>();
   this->layer_id = get<int>(j["layer_id"]);
   this->rect = genivi::full_rect;
   if (j["area"]["type"] == "rect") {
      auto jr = j["area"]["rect"];
      this->rect = genivi::rect{
         get<int32_t>(jr["width"]), get<int32_t>(jr["height"]),
         get<int32_t>(jr["x"]), get<int32_t>(jr["y"]),
      };
   }
}

struct result<struct layer_map> to_layer_map(nlohmann::json const &j) {
   DB(j);
   try {
      layer_map stl{};
      auto m = j["mappings"];
      stl.layers.reserve(m.size());
      std::transform(std::cbegin(m), std::cend(m),
                     std::inserter(stl.mapping, stl.mapping.end()),
                     [&stl](nlohmann::json const &j) {
                        auto k = layer(j);
                        stl.layers.push_back(unsigned(k.layer_id));
                        return k;
                     });
      // XXX need to sort layers?
      for (auto i : stl.mapping) {
         if (i.name.empty()) {
            return Err<struct layer_map>("Found mapping w/o name");
         }
         if (i.layer_id == -1 || i.id_min == -1 || i.id_max == -1) {
            return Err<struct layer_map>("Found invalid/unset IDs in mapping");
         }
      }

      // Check lookup
      auto jtests = j.value("tests", json());

      if (!jtests.empty()) {
         DB("Embedded tests...");
         std::vector<std::pair<int, int>> tests;
         tests.reserve(jtests.size());
         std::transform(std::cbegin(jtests), std::cend(jtests),
                        std::back_inserter(tests), [](json const &j) {
                           return std::make_pair(
                              get<int>(j["surface_id"]),
                              get<int>(j["expect_layer_id"]));
                        });

         for (auto sid : tests) {
            int lid = stl.get_layer_id(sid.first).value_or(-1);
            DB("this=" << sid.first << ", that=" << lid
                       << ", expect=" << sid.second);
            if (lid != sid.second) {
               return Err<layer_map>("ID Map embedded test failed!");
            }
         }
      }

      return Ok(stl);
   } catch (std::exception &e) {
      return Err<struct layer_map>(e.what());
   }
}

// Helper to allow std::lower_bound with a int key only
inline bool
   operator<(struct layer const &a, int b) {
   return a.id_max < b;
}

namespace {
optional<layer> get_surface_id_to_layer(struct layer_map const *s2l,
                                        int surface_id) {
   auto i = std::lower_bound(std::cbegin(s2l->mapping), std::cend(s2l->mapping),
                             surface_id);

   if (i != s2l->mapping.end()) {
      // std::less only checks for layer::id_max, so check
      // that we are actually inside of an interval here.
      if (i->id_min <= surface_id) {
         return optional<layer>(*i);
      }
   }

   return nullopt;
}
}

optional<int> layer_map::get_layer_id(int surface_id) {
   auto e = get_surface_id_to_layer(this, surface_id);
   return e ? optional<int>(e->layer_id) : nullopt;
}

optional<genivi::rect> layer_map::get_layer_rect(int surface_id) {
   auto e = get_surface_id_to_layer(this, surface_id);
   return e ? optional<genivi::rect>(e->rect) : nullopt;
}

json layer::to_json() const {
   auto is_full = this->rect == genivi::full_rect;

   json r{};
   if (is_full) {
      r = {{"type", "full"}};
   } else {
      r = {{"type", "rect"},
           {"rect",
            {{"x", this->rect.x},
             {"y", this->rect.y},
             {"width", this->rect.w},
             {"height", this->rect.h}}}};
   }

   return {
      {"id_min", this->id_min},
      {"id_max", this->id_max},
      {"name", this->name},
      {"layer_id", this->layer_id},
      {"area", r},
   };
}

json layer_map::to_json() const {
   json j{};
   for (auto const &i: this->mapping) {
      j.push_back(i.to_json());
   }
   return j;
}

}  // namespace wm