// Wide-area traffic designation utility. // Flood-fill from cursor or fill entire map. #include //For toupper(). #include //for min(). #include #include #include "Core.h" #include "Console.h" #include "Export.h" #include "PluginManager.h" #include "modules/Maps.h" #include "modules/MapCache.h" #include "modules/Gui.h" using std::stack; using MapExtras::MapCache; using namespace DFHack; //Function pointer type for whole-map tile checks. typedef void (*checkTile)(DFHack::DFCoord, MapExtras::MapCache *); //Forward Declarations for Commands DFhackCExport command_result filltraffic(DFHack::Core * c, std::vector & params); DFhackCExport command_result alltraffic(DFHack::Core * c, std::vector & params); //Forward Declarations for Utility Functions DFhackCExport command_result setAllMatching(DFHack::Core * c, checkTile checkProc, DFHack::DFCoord minCoord = DFHack::DFCoord(0, 0, 0), DFHack::DFCoord maxCoord = DFHack::DFCoord(0xFFFF, 0xFFFF, 0xFFFF)); void allHigh(DFHack::DFCoord coord, MapExtras::MapCache * map); void allNormal(DFHack::DFCoord coord, MapExtras::MapCache * map); void allLow(DFHack::DFCoord coord, MapExtras::MapCache * map); void allRestricted(DFHack::DFCoord coord, MapExtras::MapCache * map); DFhackCExport const char * plugin_name ( void ) { return "filltraffic"; } DFhackCExport command_result plugin_init ( Core * c, std::vector &commands) { commands.clear(); commands.push_back(PluginCommand("filltraffic","Flood-fill with selected traffic designation from cursor",filltraffic)); commands.push_back(PluginCommand("alltraffic","Set traffic for the entire map",alltraffic)); return CR_OK; } DFhackCExport command_result plugin_shutdown ( Core * c ) { return CR_OK; } DFhackCExport command_result filltraffic(DFHack::Core * c, std::vector & params) { //Maximum map size. uint32_t x_max,y_max,z_max; //Source and target traffic types. e_traffic source = traffic_normal; e_traffic target = traffic_normal; //Option flags bool updown = false; bool checkpit = true; bool checkbuilding = true; //Loop through parameters for(int i = 0; i < params.size();i++) { if(params[i] == "help" || params[i] == "?") { c->con.print("Flood-fill selected traffic type from the cursor.\n" "Traffic Type Codes:\n" "\tH: High Traffic\n" "\tN: Normal Traffic\n" "\tL: Low Traffic\n" "\tR: Restricted Traffic\n" "Other Options:\n" "\tX: Fill across z-levels.\n" "\tB: Include buildings and stockpiles.\n" "\tP: Include empty space.\n" "Example:\n" "'filltraffic H' - When used in a room with doors,\n" " it will set traffic to HIGH in just that room." ); return CR_OK; } switch (toupper(params[i][0])) { case 'H': target = traffic_high; break; case 'N': target = traffic_normal; break; case 'L': target = traffic_low; break; case 'R': target = traffic_restricted; break; case 'X': updown = true; break; case 'B': checkbuilding = false; break; case 'P': checkpit = false; break; } } //Initialization. c->Suspend(); DFHack::Maps * Maps = c->getMaps(); DFHack::Gui * Gui = c->getGui(); // init the map if(!Maps->Start()) { c->con.printerr("Can't init map. Make sure you have a map loaded in DF.\n"); c->Resume(); return CR_FAILURE; } int32_t cx, cy, cz; Maps->getSize(x_max,y_max,z_max); uint32_t tx_max = x_max * 16; uint32_t ty_max = y_max * 16; Gui->getCursorCoords(cx,cy,cz); while(cx == -30000) { c->con.printerr("Cursor is not active.\n"); c->Resume(); return CR_FAILURE; } DFHack::DFCoord xy ((uint32_t)cx,(uint32_t)cy,cz); MapExtras::MapCache * MCache = new MapExtras::MapCache(Maps); DFHack::t_designation des = MCache->designationAt(xy); int16_t tt = MCache->tiletypeAt(xy); DFHack::t_occupancy oc; if (checkbuilding) oc = MCache->occupancyAt(xy); source = des.bits.traffic; if(source == target) { c->con.printerr("This tile is already set to the target traffic type.\n"); delete MCache; c->Resume(); return CR_FAILURE; } if(DFHack::isWallTerrain(tt)) { c->con.printerr("This tile is a wall. Please select a passable tile.\n"); delete MCache; c->Resume(); return CR_FAILURE; } if(checkpit && DFHack::isOpenTerrain(tt)) { c->con.printerr("This tile is a hole. Please select a passable tile.\n"); delete MCache; c->Resume(); return CR_FAILURE; } if(checkbuilding && oc.bits.building) { c->con.printerr("This tile contains a building. Please select an empty tile.\n"); delete MCache; c->Resume(); return CR_FAILURE; } c->con.print("%d/%d/%d ... FILLING!\n", cx,cy,cz); //Naive four-way or six-way flood fill with possible tiles on a stack. stack flood; flood.push(xy); while(!flood.empty()) { xy = flood.top(); flood.pop(); des = MCache->designationAt(xy); if (des.bits.traffic != source) continue; tt = MCache->tiletypeAt(xy); if(DFHack::isWallTerrain(tt)) continue; if(checkpit && DFHack::isOpenTerrain(tt)) continue; if (checkbuilding) { oc = MCache->occupancyAt(xy); if(oc.bits.building) continue; } //This tile is ready. Set its traffic level and add surrounding tiles. if (MCache->testCoord(xy)) { des.bits.traffic = target; MCache->setDesignationAt(xy,des); if (xy.x > 0) { flood.push(DFHack::DFCoord(xy.x - 1, xy.y, xy.z)); } if (xy.x < tx_max - 1) { flood.push(DFHack::DFCoord(xy.x + 1, xy.y, xy.z)); } if (xy.y > 0) { flood.push(DFHack::DFCoord(xy.x, xy.y - 1, xy.z)); } if (xy.y < ty_max - 1) { flood.push(DFHack::DFCoord(xy.x, xy.y + 1, xy.z)); } if (updown) { if (xy.z > 0 && DFHack::LowPassable(tt)) { flood.push(DFHack::DFCoord(xy.x, xy.y, xy.z - 1)); } if (xy.z < z_max && DFHack::HighPassable(tt)) { flood.push(DFHack::DFCoord(xy.x, xy.y, xy.z + 1)); } } } } MCache->WriteAll(); c->Resume(); return CR_OK; } enum e_checktype {no_check, check_equal, check_nequal}; DFhackCExport command_result alltraffic(DFHack::Core * c, std::vector & params) { void (*proc)(DFHack::DFCoord, MapExtras::MapCache *) = allNormal; //Loop through parameters for(int i = 0; i < params.size();i++) { if(params[i] == "help" || params[i] == "?") { c->con.print("Set traffic types for all tiles on the map.\n" "Traffic Type Codes:\n" " H: High Traffic\n" " N: Normal Traffic\n" " L: Low Traffic\n" " R: Restricted Traffic\n" ); return CR_OK; } //Pick traffic type. Possibly set bounding rectangle later. switch (toupper(params[i][0])) { case 'H': proc = allHigh; break; case 'N': proc = allNormal; break; case 'L': proc = allLow; break; case 'R': proc = allRestricted; break; } } return setAllMatching(c, proc); } //Helper function for writing new functions that check every tile on the map. //newTraffic is the traffic designation to set. //check takes a coordinate and the map cache as arguments, and returns true if the criteria is met. //minCoord and maxCoord can be used to specify a bounding cube. DFhackCExport command_result setAllMatching(DFHack::Core * c, checkTile checkProc, DFHack::DFCoord minCoord, DFHack::DFCoord maxCoord) { //Initialization. c->Suspend(); DFHack::Maps * Maps = c->getMaps(); DFHack::Gui * Gui = c->getGui(); // init the map if(!Maps->Start()) { c->con.printerr("Can't init map. Make sure you have a map loaded in DF.\n"); c->Resume(); return CR_FAILURE; } //Maximum map size. uint32_t x_max,y_max,z_max; Maps->getSize(x_max,y_max,z_max); uint32_t tx_max = x_max * 16; uint32_t ty_max = y_max * 16; //Ensure maximum coordinate is within map. Truncate to map edge. maxCoord.x = std::min((uint32_t) maxCoord.x, tx_max); maxCoord.y = std::min((uint32_t) maxCoord.y, ty_max); maxCoord.z = std::min(maxCoord.z, z_max); //Check minimum co-ordinates against maximum map size if (minCoord.x > maxCoord.x) { c->con.printerr("Minimum x coordinate is greater than maximum x coordinate.\n"); c->Resume(); return CR_FAILURE; } if (minCoord.y > maxCoord.y) { c->con.printerr("Minimum y coordinate is greater than maximum y coordinate.\n"); c->Resume(); return CR_FAILURE; } if (minCoord.z > maxCoord.y) { c->con.printerr("Minimum z coordinate is greater than maximum z coordinate.\n"); c->Resume(); return CR_FAILURE; } MapExtras::MapCache * MCache = new MapExtras::MapCache(Maps); c->con.print("Setting traffic...\n"); //Loop through every single tile for(uint32_t x = minCoord.x; x <= maxCoord.x; x++) { for(uint32_t y = minCoord.y; y <= maxCoord.y; y++) { for(uint32_t z = minCoord.z; z <= maxCoord.z; z++) { DFHack::DFCoord tile = DFHack::DFCoord(x, y, z); checkProc(tile, MCache); } } } MCache->WriteAll(); c->con.print("Complete!\n"); c->Resume(); return CR_OK; } //Unconditionally set map to target traffic type void allHigh(DFHack::DFCoord coord, MapExtras::MapCache * map) { DFHack::t_designation des = map->designationAt(coord); des.bits.traffic = traffic_high; map->setDesignationAt(coord, des); } void allNormal(DFHack::DFCoord coord, MapExtras::MapCache * map) { DFHack::t_designation des = map->designationAt(coord); des.bits.traffic = traffic_normal; map->setDesignationAt(coord, des); } void allLow(DFHack::DFCoord coord, MapExtras::MapCache * map) { DFHack::t_designation des = map->designationAt(coord); des.bits.traffic = traffic_low; map->setDesignationAt(coord, des); } void allRestricted(DFHack::DFCoord coord, MapExtras::MapCache * map) { DFHack::t_designation des = map->designationAt(coord); des.bits.traffic = traffic_restricted; map->setDesignationAt(coord, des); }