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220 lines
11 KiB
220 lines
11 KiB
#include "PrismFormulaPrinter.h"
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#include <map>
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#include <string>
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#include <algorithm>
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std::string oneOffToString(const int &offset) {
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return offset != 0 ? ( offset == 1 ? "+1" : "-1" ) : "";
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}
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std::string vectorToDisjunction(const std::vector<std::string> &formulae) {
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bool first = true;
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std::string disjunction = "";
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for(const auto &formula : formulae) {
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if(first) first = false;
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else disjunction += " | ";
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disjunction += formula;
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}
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return disjunction;
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}
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std::string cellToConjunction(const AgentName &agentName, const cell &c) {
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return "col" + agentName + "=" + std::to_string(c.column) + "&row" + agentName + "=" + std::to_string(c.row);
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}
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std::string cellToConjunctionWithOffset(const AgentName &agentName, const cell &c, const std::string &xOffset, const std::string &yOffset){
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return "col" + agentName + xOffset + "=" + std::to_string(c.column) + "&row" + agentName + yOffset + "=" + std::to_string(c.row);
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}
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std::string coordinatesToConjunction(const AgentName &agentName, const coordinates &c, const ViewDirection viewDirection) {
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return "col" + agentName + "=" + std::to_string(c.first) + "&row" + agentName + "=" + std::to_string(c.second) + "&view" + agentName + "=" + std::to_string(viewDirection);
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}
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std::string objectPositionToConjunction(const AgentName &agentName, const std::string &identifier, const std::pair<int, int> &relativePosition) {
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std::string xOffset = oneOffToString(relativePosition.first);
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std::string yOffset = oneOffToString(relativePosition.second);
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return "col" + agentName + xOffset + "=col" + identifier + "&row" + agentName + yOffset + "=row" + identifier;
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}
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std::string objectPositionToConjunction(const AgentName &agentName, const std::string &identifier, const std::pair<int, int> &relativePosition, const ViewDirection viewDirection) {
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std::string xOffset = oneOffToString(relativePosition.first);
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std::string yOffset = oneOffToString(relativePosition.second);
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return "col" + agentName + xOffset + "=col" + identifier + "&row" + agentName + yOffset + "=row" + identifier + "&view" + agentName + "=" + std::to_string(viewDirection);
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}
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std::map<ViewDirection, coordinates> getAdjacentCells(const cell &c) {
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return {{1, c.getNorth()}, {2, c.getEast()}, {3, c.getSouth()}, {0, c.getWest()}};
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}
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std::map<ViewDirection, std::pair<int, int>> getRelativeAdjacentCells() {
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return { {1, {0,+1}}, {2, {-1,0}}, {3, {0,-1}}, {0, {+1,0}} };
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}
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std::map<std::string, std::pair<int, int>> getRelativeSurroundingCells() {
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return { {"NorthWest", {-1,-1}}, {"North", { 0,-1}}, {"NorthEast", {+1,-1}},
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{"West", {-1, 0}}, {"East", {+1, 0}},
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{"SouthWest", {-1,+1}}, {"South", { 0,+1}}, {"SouthEast", {+1,+1}} };
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}
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namespace prism {
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PrismFormulaPrinter::PrismFormulaPrinter(std::ostream &os, const std::map<std::string, cells> &restrictions, const cells &walls, const cells &boxes, const cells &balls, const cells &lockedDoors, const cells &unlockedDoors, const cells &keys, const std::map<std::string, cells> &slipperyTiles, const cells &lava, const cells &goals)
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: os(os), restrictions(restrictions), walls(walls), boxes(boxes), balls(balls), lockedDoors(lockedDoors), unlockedDoors(unlockedDoors), keys(keys), slipperyTiles(slipperyTiles), lava(lava), goals(goals)
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{ }
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void PrismFormulaPrinter::print(const AgentName &agentName) {
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for(const auto& [direction, cells] : restrictions) {
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printRestrictionFormula(agentName, direction, cells);
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}
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if(slipperyBehaviour()) {
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for(const auto& [direction, cells] : slipperyTiles) {
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printIsOnFormula(agentName, "Slippery", cells, direction);
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}
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std::vector<std::string> allSlipperyDirections = {agentName + "IsOnSlipperyNorth", agentName + "IsOnSlipperyEast", agentName + "IsOnSlipperySouth", agentName + "IsOnSlipperyWest"};
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os << buildFormula(agentName + "IsOnSlippery", vectorToDisjunction(allSlipperyDirections));
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for(const auto& [direction, relativePosition] : getRelativeSurroundingCells()) {
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printSlipRestrictionFormula(agentName, direction);
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}
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} else {
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os << buildFormula(agentName + "IsOnSlippery", "false");
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}
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if(!lava.empty()) printIsOnFormula(agentName, "Lava", lava);
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if(!goals.empty()) printIsOnFormula(agentName, "Goal", goals);
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for(const auto& ball : balls) {
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std::string identifier = capitalize(ball.getColor()) + ball.getType();
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printRelativeRestrictionFormulaWithCondition(agentName, identifier, "!" + identifier + "PickedUp");
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portableObjects.push_back(agentName + "Carrying" + identifier);
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}
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for(const auto& box : boxes) {
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std::string identifier = capitalize(box.getColor()) + box.getType();
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printRelativeRestrictionFormulaWithCondition(agentName, identifier, "!" + identifier + "PickedUp");
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portableObjects.push_back(agentName + "Carrying" + identifier);
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}
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for(const auto& key : keys) {
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std::string identifier = capitalize(key.getColor()) + key.getType();
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printRelativeRestrictionFormulaWithCondition(agentName, identifier, "!" + identifier + "PickedUp");
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portableObjects.push_back(agentName + "Carrying" + identifier);
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}
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for(const auto& door : unlockedDoors) {
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std::string identifier = capitalize(door.getColor()) + door.getType();
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printRestrictionFormulaWithCondition(agentName, identifier, getAdjacentCells(door), "!" + identifier + "Open");
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printIsNextToFormula(agentName, identifier, getAdjacentCells(door));
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}
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for(const auto& door : lockedDoors) {
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std::string identifier = capitalize(door.getColor()) + door.getType();
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printRestrictionFormulaWithCondition(agentName, identifier, getAdjacentCells(door), "!" + identifier + "Open");
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printIsNextToFormula(agentName, identifier, getAdjacentCells(door));
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}
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if(conditionalMovementRestrictions.size() > 0) {
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os << buildFormula(agentName + "CannotMoveConditionally", vectorToDisjunction(conditionalMovementRestrictions));
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os << buildFormula(agentName + "IsCarrying", vectorToDisjunction(portableObjects));
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}
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}
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void PrismFormulaPrinter::printRestrictionFormula(const AgentName &agentName, const std::string &direction, const cells &grid_cells) {
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os << buildFormula(agentName + "CannotMove" + direction + "Wall", buildDisjunction(agentName, grid_cells));
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}
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void PrismFormulaPrinter::printIsOnFormula(const AgentName &agentName, const std::string &type, const cells &grid_cells, const std::string &direction) {
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os << buildFormula(agentName + "IsOn" + type + direction, buildDisjunction(agentName, grid_cells));
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}
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void PrismFormulaPrinter::printIsNextToFormula(const AgentName &agentName, const std::string &type, const std::map<ViewDirection, coordinates> &coordinates) {
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os << buildFormula(agentName + "IsNextTo" + type, buildDisjunction(agentName, coordinates));
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}
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void PrismFormulaPrinter::printRestrictionFormulaWithCondition(const AgentName &agentName, const std::string &reason, const std::map<ViewDirection, coordinates> &coordinates, const std::string &condition) {
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os << buildFormula(agentName + "CannotMove" + reason, "(" + buildDisjunction(agentName, coordinates) + ") & " + condition);
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conditionalMovementRestrictions.push_back(agentName + "CannotMove" + reason);
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}
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void PrismFormulaPrinter::printRelativeRestrictionFormulaWithCondition(const AgentName &agentName, const std::string &reason, const std::string &condition) {
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os << buildFormula(agentName + "CannotMove" + reason, "(" + buildDisjunction(agentName, reason) + ") & " + condition);
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conditionalMovementRestrictions.push_back(agentName + "CannotMove" + reason);
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}
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void PrismFormulaPrinter::printSlipRestrictionFormula(const AgentName &agentName, const std::string &direction) {
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std::pair<int, int> slipCell = getRelativeSurroundingCells().at(direction);
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bool semicolon = anyPortableObject() ? false : true;
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os << buildFormula(agentName + "CannotSlip" + direction, buildDisjunction(agentName, walls, slipCell), semicolon);
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for(auto const key : keys) {
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std::string identifier = capitalize(key.getColor()) + key.getType();
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os << " | " << objectPositionToConjunction(agentName, identifier, slipCell);
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}
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for(auto const ball : balls) {
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std::string identifier = capitalize(ball.getColor()) + ball.getType();
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os << " | " << objectPositionToConjunction(agentName, identifier, slipCell);
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}
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for(auto const box : boxes) {
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std::string identifier = capitalize(box.getColor()) + box.getType();
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os << " | " << objectPositionToConjunction(agentName, identifier, slipCell);
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}
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if(!semicolon) os << ";\n";
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}
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std::string PrismFormulaPrinter::buildFormula(const std::string &formulaName, const std::string &formula, const bool semicolon) {
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return "formula " + formulaName + " = " + formula + (semicolon ? ";\n": "");
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}
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std::string PrismFormulaPrinter::buildDisjunction(const AgentName &agentName, const std::map<ViewDirection, coordinates> &cells) {
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if(cells.size() == 0) return "false";
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bool first = true;
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std::string disjunction = "";
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for(const auto [viewDirection, coordinates] : cells) {
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if(first) first = false;
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else disjunction += " | ";
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disjunction += "(" + coordinatesToConjunction(agentName, coordinates, viewDirection) + ")";
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}
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return disjunction;
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}
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std::string PrismFormulaPrinter::buildDisjunction(const AgentName &agentName, const cells &cells) {
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if(cells.size() == 0) return "false";
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bool first = true;
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std::string disjunction = "";
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for(auto const cell : cells) {
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if(first) first = false;
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else disjunction += " | ";
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disjunction += "(" + cellToConjunction(agentName, cell) + ")";
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}
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return disjunction;
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}
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std::string PrismFormulaPrinter::buildDisjunction(const AgentName &agentName, const std::string &reason) {
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std::string disjunction = "";
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bool first = true;
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for(auto const [viewDirection, relativePosition] : getRelativeAdjacentCells()) {
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if(first) first = false;
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else disjunction += " | ";
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disjunction += "(" + objectPositionToConjunction(agentName, reason, relativePosition, viewDirection) + ")";
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}
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return disjunction;
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}
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std::string PrismFormulaPrinter::buildDisjunction(const AgentName &agentName, const cells &cells, const std::pair<int, int> &offset) {
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std::string disjunction = "";
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bool first = true;
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std::string xOffset = oneOffToString(offset.first);
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std::string yOffset = oneOffToString(offset.second);
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for(auto const cell : cells) {
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if(first) first = false;
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else disjunction += " | ";
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disjunction += "(" + cellToConjunctionWithOffset(agentName, cell, xOffset, yOffset) + ")";
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}
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return disjunction;
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}
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bool PrismFormulaPrinter::slipperyBehaviour() const {
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return !slipperyTiles.at("North").empty() || !slipperyTiles.at("East").empty() || !slipperyTiles.at("South").empty() || !slipperyTiles.at("West").empty();
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}
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bool PrismFormulaPrinter::anyPortableObject() const {
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return !keys.empty() || !boxes.empty() || !balls.empty();
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}
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}
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