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Minigrid2PRISM/util/Grid.cpp

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initial commit after modifications for Importance Driven Testing
1 year ago
added basic config parser added unlocked door handling
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added basic config parser added unlocked door handling
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added module config added overwrite some fixes
1 year ago
added config print
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added keys and doors to walkable tiles changed key init value handling
1 year ago
added basic config parser added unlocked door handling
1 year ago
added keys and doors to walkable tiles changed key init value handling
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added module config added overwrite some fixes
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added keys and doors to walkable tiles changed key init value handling
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added keys and doors to walkable tiles changed key init value handling
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
added config print
1 year ago
initial commit after modifications for Importance Driven Testing
1 year ago
  1. #include "Grid.h"
  3. #include <algorithm>
  5. Grid::Grid(cells gridCells, cells background, const GridOptions &gridOptions, const std::map<coordinates, float> &stateRewards)
  6. : allGridCells(gridCells), background(background), gridOptions(gridOptions), stateRewards(stateRewards)
  7. {
  8. cell max = allGridCells.at(allGridCells.size() - 1);
  9. maxBoundaries = std::make_pair(max.row - 1, max.column - 1);
  10. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(walls), [](cell c) {
  11. return c.type == Type::Wall;
  12. });
  13. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(lava), [](cell c) {
  14. return c.type == Type::Lava;
  15. });
  16. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(floor), [](cell c) {
  17. return c.type == Type::Floor;
  18. });
  19. std::copy_if(background.begin(), background.end(), std::back_inserter(slipperyNorth), [](cell c) {
  20. return c.type == Type::SlipperyNorth;
  21. });
  22. std::copy_if(background.begin(), background.end(), std::back_inserter(slipperyEast), [](cell c) {
  23. return c.type == Type::SlipperyEast;
  24. });
  25. std::copy_if(background.begin(), background.end(), std::back_inserter(slipperySouth), [](cell c) {
  26. return c.type == Type::SlipperySouth;
  27. });
  28. std::copy_if(background.begin(), background.end(), std::back_inserter(slipperyWest), [](cell c) {
  29. return c.type == Type::SlipperyWest;
  30. });
  31. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(lockedDoors), [](cell c) {
  32. return c.type == Type::LockedDoor;
  33. });
  34. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(unlockedDoors), [](cell c) {
  35. return c.type == Type::Door;
  36. });
  37. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(goals), [](cell c) {
  38. return c.type == Type::Goal;
  39. });
  40. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(keys), [](cell c) {
  41. return c.type == Type::Key;
  42. });
  43. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(boxes), [](cell c) {
  44. return c.type == Type::Box;
  45. });
  46. agent = *std::find_if(gridCells.begin(), gridCells.end(), [](cell c) {
  47. return c.type == Type::Agent;
  48. });
  49. std::copy_if(gridCells.begin(), gridCells.end(), std::back_inserter(adversaries), [](cell c) {
  50. return c.type == Type::Adversary;
  51. });
  52. agentNameAndPositionMap.insert({ "Agent", agent.getCoordinates() });
  53. for(auto const& adversary : adversaries) {
  54. std::string color = adversary.getColor();
  55. color.at(0) = std::toupper(color.at(0));
  56. try {
  57. if(gridOptions.agentsToBeConsidered.size() != 0 && std::find(gridOptions.agentsToBeConsidered.begin(), gridOptions.agentsToBeConsidered.end(), color) == gridOptions.agentsToBeConsidered.end()) continue;
  58. auto success = agentNameAndPositionMap.insert({ color, adversary.getCoordinates() });
  59. if(!success.second) {
  60. throw std::logic_error("Agent with " + color + " already present\n");
  61. }
  62. } catch(const std::logic_error& e) {
  63. std::cerr << "Expected agents colors to be different. Agent with color : '" << color << "' already present." << std::endl;
  64. throw;
  65. }
  66. }
  67. for(auto const& color : allColors) {
  68. cells cellsOfColor;
  69. std::copy_if(background.begin(), background.end(), std::back_inserter(cellsOfColor), [&color](cell c) {
  70. return c.type == Type::Floor && c.color == color;
  71. });
  72. if(cellsOfColor.size() > 0) {
  73. backgroundTiles.emplace(color, cellsOfColor);
  74. }
  75. }
  76. }
  78. std::ostream& operator<<(std::ostream& os, const Grid& grid) {
  79. int lastRow = 1;
  80. for(auto const& cell : grid.allGridCells) {
  81. if(lastRow != cell.row)
  82. os << std::endl;
  83. os << static_cast<char>(cell.type) << static_cast<char>(cell.color);
  84. lastRow = cell.row;
  85. }
  86. return os;
  87. }
  89. cells Grid::getGridCells() {
  90. return allGridCells;
  91. }
  93. bool Grid::isBlocked(coordinates p) {
  94. return isWall(p) || isLockedDoor(p) || isKey(p);
  95. }
  97. bool Grid::isWall(coordinates p) {
  98. return std::find_if(walls.begin(), walls.end(),
  99. [p](cell cell) {
  100. return cell.row == p.first && cell.column == p.second;
  101. }) != walls.end();
  102. }
  104. bool Grid::isLockedDoor(coordinates p) {
  105. return std::find_if(lockedDoors.begin(), lockedDoors.end(),
  106. [p](cell cell) {
  107. return cell.row == p.first && cell.column == p.second;
  108. }) != lockedDoors.end();
  109. }
  111. bool Grid::isUnlockedDoor(coordinates p) {
  112. return std::find_if(unlockedDoors.begin(), unlockedDoors.end(),
  113. [p](cell cell) {
  114. return cell.row == p.first && cell.column == p.second;
  115. }) != unlockedDoors.end();
  116. }
  118. bool Grid::isKey(coordinates p) {
  119. return std::find_if(keys.begin(), keys.end(),
  120. [p](cell cell) {
  121. return cell.row == p.first && cell.column == p.second;
  122. }) != keys.end();
  123. }
  125. bool Grid::isBox(coordinates p) {
  126. return std::find_if(boxes.begin(), boxes.end(),
  127. [p](cell cell) {
  128. return cell.row == p.first && cell.column == p.second;
  129. }) != boxes.end();
  130. }
  132. void Grid::applyOverwrites(std::string& str, std::vector<Configuration>& configuration) {
  133. for (auto& config : configuration) {
  134. if (!config.overwrite_) {
  135. continue;
  136. }
  137. size_t start_pos;
  139. if (config.type_ == ConfigType::Formula) {
  140. start_pos = str.find("formula " + config.identifier_);
  141. } else if (config.type_ == ConfigType::Label) {
  142. start_pos = str.find("label " + config.identifier_);
  143. } else if (config.type_ == ConfigType::Module) {
  144. start_pos = str.find(config.identifier_);
  145. }
  147. size_t end_pos = str.find(';', start_pos) + 1;
  149. std::string expression = config.expression_;
  151. str.replace(start_pos, end_pos - start_pos , expression);
  152. }
  153. }
  155. void Grid::printToPrism(std::ostream& os, std::vector<Configuration>& configuration ,const prism::ModelType& modelType) {
  156. cells northRestriction;
  157. cells eastRestriction;
  158. cells southRestriction;
  159. cells westRestriction;
  160. cells walkable = floor;
  161. walkable.insert(walkable.end(), goals.begin(), goals.end());
  162. walkable.insert(walkable.end(), boxes.begin(), boxes.end());
  163. walkable.push_back(agent);
  164. walkable.insert(walkable.end(), adversaries.begin(), adversaries.end());
  165. walkable.insert(walkable.end(), lava.begin(), lava.end());
  166. walkable.insert(walkable.end(), keys.begin(), keys.end());
  167. walkable.insert(walkable.end(), lockedDoors.begin(), lockedDoors.end());
  168. walkable.insert(walkable.end(), unlockedDoors.begin(), unlockedDoors.end());
  170. for(auto const& c : walkable) {
  171. if(isBlocked(c.getNorth())) northRestriction.push_back(c);
  172. if(isBlocked(c.getEast())) eastRestriction.push_back(c);
  173. if(isBlocked(c.getSouth())) southRestriction.push_back(c);
  174. if(isBlocked(c.getWest())) westRestriction.push_back(c);
  175. }
  177. prism::PrismModulesPrinter printer(modelType, agentNameAndPositionMap.size(), configuration, gridOptions.enforceOneWays);
  178. printer.printModel(os, modelType);
  179. if(modelType == prism::ModelType::SMG) {
  180. printer.printGlobalMoveVariable(os, agentNameAndPositionMap.size());
  181. }
  182. for(auto const &backgroundTilesOfColor : backgroundTiles) {
  183. for(auto agentNameAndPosition = agentNameAndPositionMap.begin(); agentNameAndPosition != agentNameAndPositionMap.end(); ++agentNameAndPosition) {
  184. printer.printBackgroundLabels(os, agentNameAndPosition->first, backgroundTilesOfColor);
  185. }
  186. }
  187. cells noTurnFloor;
  188. if(gridOptions.enforceOneWays) {
  189. for(auto const& c : floor) {
  190. cell east = c.getEast(allGridCells);
  191. cell south = c.getSouth(allGridCells);
  192. cell west = c.getWest(allGridCells);
  193. cell north = c.getNorth(allGridCells);
  194. if( (east.type == Type::Wall && west.type == Type::Wall) or
  195. (north.type == Type::Wall && south.type == Type::Wall) ) {
  196. noTurnFloor.push_back(c);
  197. }
  198. }
  199. }
  201. for(auto agentNameAndPosition = agentNameAndPositionMap.begin(); agentNameAndPosition != agentNameAndPositionMap.end(); ++agentNameAndPosition) {
  202. printer.printFormulas(os, agentNameAndPosition->first, northRestriction, eastRestriction, southRestriction, westRestriction, { slipperyNorth, slipperyEast, slipperySouth, slipperyWest }, lava, walls, noTurnFloor, slipperyNorth, slipperyEast, slipperySouth, slipperyWest);
  203. printer.printGoalLabel(os, agentNameAndPosition->first, goals);
  204. printer.printKeysLabels(os, agentNameAndPosition->first, keys);
  205. }
  207. std::vector<AgentName> agentNames;
  208. std::transform(agentNameAndPositionMap.begin(),
  209. agentNameAndPositionMap.end(),
  210. std::back_inserter(agentNames),
  211. [](const std::map<AgentNameAndPosition::first_type,AgentNameAndPosition::second_type>::value_type &pair){return pair.first;});
  212. if(modelType == prism::ModelType::SMG) {
  213. printer.printCrashLabel(os, agentNames);
  214. }
  215. size_t agentIndex = 0;
  216. for(auto agentNameAndPosition = agentNameAndPositionMap.begin(); agentNameAndPosition != agentNameAndPositionMap.end(); ++agentNameAndPosition, agentIndex++) {
  217. AgentName agentName = agentNameAndPosition->first;
  218. //std::cout << "Agent Name: " << agentName << std::endl;
  219. bool agentWithView = std::find(gridOptions.agentsWithView.begin(), gridOptions.agentsWithView.end(), agentName) != gridOptions.agentsWithView.end();
  220. bool agentWithProbabilisticBehaviour = std::find(gridOptions.agentsWithProbabilisticBehaviour.begin(), gridOptions.agentsWithProbabilisticBehaviour.end(), agentName) != gridOptions.agentsWithProbabilisticBehaviour.end();
  221. std::set<std::string> slipperyActions;
  222. printer.printInitStruct(os, agentName, keys);
  223. if(agentWithProbabilisticBehaviour) printer.printModule(os, agentName, agentIndex, maxBoundaries, agentNameAndPosition->second, keys, backgroundTiles, agentWithView, gridOptions.probabilitiesForActions);
  224. else printer.printModule(os, agentName, agentIndex, maxBoundaries, agentNameAndPosition->second, keys, backgroundTiles, agentWithView);
  225. for(auto const& c : slipperyNorth) {
  226. printer.printSlipperyMove(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::North);
  227. if(!gridOptions.enforceOneWays) printer.printSlipperyTurn(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::North);
  229. }
  230. for(auto const& c : slipperyEast) {
  231. printer.printSlipperyMove(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::East);
  232. if(!gridOptions.enforceOneWays) printer.printSlipperyTurn(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::East);
  233. }
  234. for(auto const& c : slipperySouth) {
  235. printer.printSlipperyMove(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::South);
  236. if(!gridOptions.enforceOneWays) printer.printSlipperyTurn(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::South);
  237. }
  238. for(auto const& c : slipperyWest) {
  239. printer.printSlipperyMove(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::West);
  240. if(!gridOptions.enforceOneWays) printer.printSlipperyTurn(os, agentName, agentIndex, c.getCoordinates(), slipperyActions, getWalkableDirOf8Neighborhood(c), prism::PrismModulesPrinter::SlipperyType::West);
  241. }
  243. printer.printEndmodule(os);
  244. if(modelType == prism::ModelType::SMG) {
  245. if(agentWithProbabilisticBehaviour) printer.printPlayerStruct(os, agentNameAndPosition->first, agentWithView, gridOptions.probabilitiesForActions, slipperyActions);
  246. else printer.printPlayerStruct(os, agentNameAndPosition->first, agentWithView, {}, slipperyActions);
  247. }
  248. //if(!stateRewards.empty()) {
  249. printer.printRewards(os, agentName, stateRewards, lava, goals, backgroundTiles);
  250. //}
  252. if (!configuration.empty()) {
  253. printer.printConfiguration(os, configuration);
  254. }
  255. }
  256. }
  259. std::array<bool, 8> Grid::getWalkableDirOf8Neighborhood(cell c) /* const */ {
  260. return (std::array<bool, 8>)
  261. {
  262. !isBlocked(c.getNorth()),
  263. !isBlocked(c.getNorth(allGridCells).getEast()),
  264. !isBlocked(c.getEast()),
  265. !isBlocked(c.getSouth(allGridCells).getEast()),
  266. !isBlocked(c.getSouth()),
  267. !isBlocked(c.getSouth(allGridCells).getWest()),
  268. !isBlocked(c.getWest()),
  269. !isBlocked(c.getNorth(allGridCells).getWest())
  270. };
  271. }