559 lines
20 KiB
C++
559 lines
20 KiB
C++
#include "Core.h"
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#include "Console.h"
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#include "Debug.h"
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#include "Export.h"
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#include "PluginManager.h"
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#include "DataDefs.h"
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#include "df/world.h"
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#include "df/plotinfost.h"
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#include "df/building_type.h"
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#include "df/building_farmplotst.h"
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#include "df/buildings_other_id.h"
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#include "df/global_objects.h"
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#include "df/item.h"
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#include "df/item_plantst.h"
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#include "df/item_plant_growthst.h"
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#include "df/item_seedsst.h"
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#include "df/items_other_id.h"
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#include "df/unit.h"
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#include "df/building.h"
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#include "df/plant_raw.h"
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#include "df/plant_raw_flags.h"
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#include "df/biome_type.h"
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#include "modules/Items.h"
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#include "modules/Maps.h"
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#include "modules/World.h"
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#include <queue>
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using namespace DFHack;
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using namespace df::enums;
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using df::global::world;
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using df::global::plotinfo;
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static command_result autofarm(color_ostream& out, std::vector<std::string>& parameters);
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DFHACK_PLUGIN("autofarm");
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DFHACK_PLUGIN_IS_ENABLED(enabled);
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#define CONFIG_KEY "autofarm/config"
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namespace DFHack {
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DBG_DECLARE(autofarm, cycle, DebugCategory::LINFO);
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DBG_DECLARE(autofarm, config, DebugCategory::LINFO);
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}
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class AutoFarm {
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private:
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std::map<int, int> thresholds;
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int defaultThreshold = 50;
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std::map<int, int> lastCounts;
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public:
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void initialize()
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{
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thresholds.clear();
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defaultThreshold = 50;
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lastCounts.clear();
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}
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void setThreshold(int id, int val)
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{
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thresholds[id] = val;
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}
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int getThreshold(int id)
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{
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return (thresholds.count(id) > 0) ? thresholds[id] : defaultThreshold;
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}
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void setDefault(int val)
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{
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defaultThreshold = val;
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}
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private:
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const df::plant_raw_flags seasons[4] = { df::plant_raw_flags::SPRING, df::plant_raw_flags::SUMMER, df::plant_raw_flags::AUTUMN, df::plant_raw_flags::WINTER };
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public:
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bool is_plantable(df::plant_raw* plant)
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{
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bool has_seed = plant->flags.is_set(df::plant_raw_flags::SEED);
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bool is_tree = plant->flags.is_set(df::plant_raw_flags::TREE);
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int8_t season = *df::global::cur_season;
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int harvest = (*df::global::cur_season_tick) + plant->growdur * 10;
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bool can_plant = has_seed && !is_tree && plant->flags.is_set(seasons[season]);
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while (can_plant && harvest >= 10080) {
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season = (season + 1) % 4;
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harvest -= 10080;
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can_plant = can_plant && plant->flags.is_set(seasons[season]);
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}
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return can_plant;
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}
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private:
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std::map<int, std::set<df::biome_type>> plantable_plants;
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const std::map<df::plant_raw_flags, df::biome_type> biomeFlagMap = {
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{ df::plant_raw_flags::BIOME_MOUNTAIN, df::biome_type::MOUNTAIN },
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{ df::plant_raw_flags::BIOME_GLACIER, df::biome_type::GLACIER },
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{ df::plant_raw_flags::BIOME_TUNDRA, df::biome_type::TUNDRA },
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{ df::plant_raw_flags::BIOME_SWAMP_TEMPERATE_FRESHWATER, df::biome_type::SWAMP_TEMPERATE_FRESHWATER },
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{ df::plant_raw_flags::BIOME_SWAMP_TEMPERATE_SALTWATER, df::biome_type::SWAMP_TEMPERATE_SALTWATER },
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{ df::plant_raw_flags::BIOME_MARSH_TEMPERATE_FRESHWATER, df::biome_type::MARSH_TEMPERATE_FRESHWATER },
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{ df::plant_raw_flags::BIOME_MARSH_TEMPERATE_SALTWATER, df::biome_type::MARSH_TEMPERATE_SALTWATER },
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{ df::plant_raw_flags::BIOME_SWAMP_TROPICAL_FRESHWATER, df::biome_type::SWAMP_TROPICAL_FRESHWATER },
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{ df::plant_raw_flags::BIOME_SWAMP_TROPICAL_SALTWATER, df::biome_type::SWAMP_TROPICAL_SALTWATER },
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{ df::plant_raw_flags::BIOME_SWAMP_MANGROVE, df::biome_type::SWAMP_MANGROVE },
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{ df::plant_raw_flags::BIOME_MARSH_TROPICAL_FRESHWATER, df::biome_type::MARSH_TROPICAL_FRESHWATER },
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{ df::plant_raw_flags::BIOME_MARSH_TROPICAL_SALTWATER, df::biome_type::MARSH_TROPICAL_SALTWATER },
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{ df::plant_raw_flags::BIOME_FOREST_TAIGA, df::biome_type::FOREST_TAIGA },
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{ df::plant_raw_flags::BIOME_FOREST_TEMPERATE_CONIFER, df::biome_type::FOREST_TEMPERATE_CONIFER },
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{ df::plant_raw_flags::BIOME_FOREST_TEMPERATE_BROADLEAF, df::biome_type::FOREST_TEMPERATE_BROADLEAF },
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{ df::plant_raw_flags::BIOME_FOREST_TROPICAL_CONIFER, df::biome_type::FOREST_TROPICAL_CONIFER },
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{ df::plant_raw_flags::BIOME_FOREST_TROPICAL_DRY_BROADLEAF, df::biome_type::FOREST_TROPICAL_DRY_BROADLEAF },
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{ df::plant_raw_flags::BIOME_FOREST_TROPICAL_MOIST_BROADLEAF, df::biome_type::FOREST_TROPICAL_MOIST_BROADLEAF },
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{ df::plant_raw_flags::BIOME_GRASSLAND_TEMPERATE, df::biome_type::GRASSLAND_TEMPERATE },
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{ df::plant_raw_flags::BIOME_SAVANNA_TEMPERATE, df::biome_type::SAVANNA_TEMPERATE },
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{ df::plant_raw_flags::BIOME_SHRUBLAND_TEMPERATE, df::biome_type::SHRUBLAND_TEMPERATE },
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{ df::plant_raw_flags::BIOME_GRASSLAND_TROPICAL, df::biome_type::GRASSLAND_TROPICAL },
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{ df::plant_raw_flags::BIOME_SAVANNA_TROPICAL, df::biome_type::SAVANNA_TROPICAL },
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{ df::plant_raw_flags::BIOME_SHRUBLAND_TROPICAL, df::biome_type::SHRUBLAND_TROPICAL },
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{ df::plant_raw_flags::BIOME_DESERT_BADLAND, df::biome_type::DESERT_BADLAND },
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{ df::plant_raw_flags::BIOME_DESERT_ROCK, df::biome_type::DESERT_ROCK },
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{ df::plant_raw_flags::BIOME_DESERT_SAND, df::biome_type::DESERT_SAND },
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{ df::plant_raw_flags::BIOME_OCEAN_TROPICAL, df::biome_type::OCEAN_TROPICAL },
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{ df::plant_raw_flags::BIOME_OCEAN_TEMPERATE, df::biome_type::OCEAN_TEMPERATE },
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{ df::plant_raw_flags::BIOME_OCEAN_ARCTIC, df::biome_type::OCEAN_ARCTIC },
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{ df::plant_raw_flags::BIOME_POOL_TEMPERATE_FRESHWATER, df::biome_type::POOL_TEMPERATE_FRESHWATER },
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{ df::plant_raw_flags::BIOME_POOL_TEMPERATE_BRACKISHWATER, df::biome_type::POOL_TEMPERATE_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_POOL_TEMPERATE_SALTWATER, df::biome_type::POOL_TEMPERATE_SALTWATER },
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{ df::plant_raw_flags::BIOME_POOL_TROPICAL_FRESHWATER, df::biome_type::POOL_TROPICAL_FRESHWATER },
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{ df::plant_raw_flags::BIOME_POOL_TROPICAL_BRACKISHWATER, df::biome_type::POOL_TROPICAL_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_POOL_TROPICAL_SALTWATER, df::biome_type::POOL_TROPICAL_SALTWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TEMPERATE_FRESHWATER, df::biome_type::LAKE_TEMPERATE_FRESHWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TEMPERATE_BRACKISHWATER, df::biome_type::LAKE_TEMPERATE_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TEMPERATE_SALTWATER, df::biome_type::LAKE_TEMPERATE_SALTWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TROPICAL_FRESHWATER, df::biome_type::LAKE_TROPICAL_FRESHWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TROPICAL_BRACKISHWATER, df::biome_type::LAKE_TROPICAL_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_LAKE_TROPICAL_SALTWATER, df::biome_type::LAKE_TROPICAL_SALTWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TEMPERATE_FRESHWATER, df::biome_type::RIVER_TEMPERATE_FRESHWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TEMPERATE_BRACKISHWATER, df::biome_type::RIVER_TEMPERATE_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TEMPERATE_SALTWATER, df::biome_type::RIVER_TEMPERATE_SALTWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TROPICAL_FRESHWATER, df::biome_type::RIVER_TROPICAL_FRESHWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TROPICAL_BRACKISHWATER, df::biome_type::RIVER_TROPICAL_BRACKISHWATER },
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{ df::plant_raw_flags::BIOME_RIVER_TROPICAL_SALTWATER, df::biome_type::RIVER_TROPICAL_SALTWATER },
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{ df::plant_raw_flags::BIOME_SUBTERRANEAN_WATER, df::biome_type::SUBTERRANEAN_WATER },
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{ df::plant_raw_flags::BIOME_SUBTERRANEAN_CHASM, df::biome_type::SUBTERRANEAN_CHASM },
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{ df::plant_raw_flags::BIOME_SUBTERRANEAN_LAVA, df::biome_type::SUBTERRANEAN_LAVA }
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};
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public:
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void find_plantable_plants()
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{
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plantable_plants.clear();
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std::map<int, int> counts;
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const uint32_t bad_flags{
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#define F(x) (df::item_flags::Mask::mask_##x)
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F(dump) | F(forbid) | F(garbage_collect) |
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F(hostile) | F(on_fire) | F(rotten) | F(trader) |
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F(in_building) | F(construction) | F(artifact)
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#undef F
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};
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for (auto& ii : world->items.other[df::items_other_id::SEEDS])
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{
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auto i = virtual_cast<df::item_seedsst>(ii);
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if (i && (i->flags.whole & bad_flags) == 0)
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counts[i->mat_index] += i->stack_size;
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}
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for (auto& ci : counts)
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{
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df::plant_raw* plant = world->raws.plants.all[ci.first];
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if (is_plantable(plant))
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for (auto& flagmap : biomeFlagMap)
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if (plant->flags.is_set(flagmap.first))
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plantable_plants[plant->index].insert(flagmap.second);
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}
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}
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std::string get_plant_name(int plant_id)
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{
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df::plant_raw* raw = df::plant_raw::find(plant_id);
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return raw ? raw->name : "NONE";
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}
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void set_farm(color_ostream& out, int new_plant_id, df::building_farmplotst* farm, int season)
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{
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int old_plant_id = farm->plant_id[season];
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if (old_plant_id != new_plant_id)
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{
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farm->plant_id[season] = new_plant_id;
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INFO(cycle, out).print("autofarm: changing farm #%d from %s to %s\n", farm->id,
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get_plant_name(old_plant_id).c_str(),
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get_plant_name(new_plant_id).c_str());
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}
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}
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void set_farms(color_ostream& out, const std::set<int>& plants, const std::vector<df::building_farmplotst*>& farms)
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{
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// this algorithm attempts to change as few farms as possible, while ensuring that
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// the number of farms planting each eligible plant is "as equal as possible"
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int season = *df::global::cur_season;
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if (farms.empty() || plants.empty())
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{
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// if no more plants were requested, fallow all farms
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// if there were no farms, do nothing
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for (auto farm : farms)
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{
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set_farm(out, -1, farm, season);
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}
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return;
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}
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int min = farms.size() / plants.size(); // the number of farms that should plant each eligible plant, rounded down
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int extra = farms.size() - min * plants.size(); // the remainder that cannot be evenly divided
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std::map<int, int> counters;
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std::queue<df::building_farmplotst*> toChange;
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for (auto farm : farms)
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{
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int o = farm->plant_id[season];
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if (plants.count(o) == 0 || counters[o] > min || (counters[o] == min && extra == 0))
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toChange.push(farm); // this farm is an excess instance for the plant it is currently planting
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else
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{
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if (counters[o] == min)
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extra--; // allocate off one of the remainder farms
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counters[o]++;
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}
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}
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for (auto n : plants)
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{
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int c = counters[n];
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while (toChange.size() > 0 && (c < min || (c == min && extra > 0)))
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{
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// pick one of the excess farms and change it to plant this plant
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df::building_farmplotst* farm = toChange.front();
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set_farm(out, n, farm, season);
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toChange.pop();
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if (c++ == min)
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extra--;
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}
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}
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}
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void process(color_ostream& out)
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{
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if (!enabled)
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return;
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find_plantable_plants();
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lastCounts.clear();
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const uint32_t bad_flags{
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#define F(x) (df::item_flags::Mask::mask_##x)
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F(dump) | F(forbid) | F(garbage_collect) |
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F(hostile) | F(on_fire) | F(rotten) | F(trader) |
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F(in_building) | F(construction) | F(artifact)
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#undef F
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};
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// have to scan both items[PLANT] and items[PLANT_GROWTH] because agricultural products can be either
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auto count = [&, this](df::item* i) {
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auto mat = i->getMaterialIndex();
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if ((i->flags.whole & bad_flags) == 0 &&
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plantable_plants.count(mat) > 0)
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{
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lastCounts[mat] += i->getStackSize();
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}
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};
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for (auto i : world->items.other[df::items_other_id::PLANT])
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count(i);
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for (auto i : world->items.other[df::items_other_id::PLANT_GROWTH])
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count(i);
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std::map<df::biome_type, std::set<int>> plants;
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for (auto& plantable : plantable_plants)
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{
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df::plant_raw* plant = world->raws.plants.all[plantable.first];
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if (lastCounts[plant->index] < getThreshold(plant->index))
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for (auto biome : plantable.second)
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{
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plants[biome].insert(plant->index);
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}
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}
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std::map<df::biome_type, std::vector<df::building_farmplotst*>> farms;
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for (auto& bb : world->buildings.other[df::buildings_other_id::FARM_PLOT])
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{
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auto farm = virtual_cast<df::building_farmplotst>(bb);
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if (farm->flags.bits.exists)
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{
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df::biome_type biome;
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if (Maps::getTileDesignation(bb->centerx, bb->centery, bb->z)->bits.subterranean)
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biome = biome_type::SUBTERRANEAN_WATER;
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else {
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df::coord2d region(Maps::getTileBiomeRgn(df::coord(bb->centerx, bb->centery, bb->z)));
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biome = Maps::GetBiomeType(region.x, region.y);
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}
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farms[biome].push_back(farm);
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}
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}
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for (auto& ff : farms)
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{
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set_farms(out, plants[ff.first], ff.second);
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}
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out << std::flush;
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}
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void status(color_ostream& out)
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{
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out << "Autofarm is " << (enabled ? "Active." : "Stopped.") << '\n';
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for (auto& lc : lastCounts)
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{
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auto plant = world->raws.plants.all[lc.first];
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out << plant->id << " limit " << getThreshold(lc.first) << " current " << lc.second << '\n';
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}
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for (auto& th : thresholds)
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{
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if (lastCounts.count(th.first) > 0)
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continue;
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auto plant = world->raws.plants.all[th.first];
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out << plant->id << " limit " << getThreshold(th.first) << " current 0" << '\n';
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}
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out << "Default: " << defaultThreshold << '\n';
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out << std::flush;
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}
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private:
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PersistentDataItem cfg_default_threshold;
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PersistentDataItem cfg_enabled;
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public:
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void load_state(color_ostream& out)
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{
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initialize();
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if (!(Core::getInstance().isWorldLoaded()))
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return;
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cfg_enabled = World::GetPersistentData("autofarm/enabled");
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if (cfg_enabled.isValid())
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enabled = cfg_enabled.ival(0) != 0;
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else {
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cfg_enabled = World::AddPersistentData("autofarm/enabled");
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cfg_enabled.ival(0) = enabled;
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}
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cfg_default_threshold = World::GetPersistentData("autofarm/default_threshold");
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if (cfg_default_threshold.isValid())
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defaultThreshold = cfg_default_threshold.ival(0);
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else {
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cfg_default_threshold = World::AddPersistentData("autofarm/default_threshold");
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cfg_default_threshold.ival(0) = defaultThreshold;
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}
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std::vector<PersistentDataItem> items;
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World::GetPersistentData(&items, "autofarm/threshold/", true);
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for (auto& i: items) {
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if (i.isValid())
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{
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const auto allPlants = world->raws.plants.all;
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const std::string id = i.val();
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const int val = i.ival(0);
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const auto plant = std::find_if(std::begin(allPlants), std::end(allPlants), [id](df::plant_raw* p) { return p->id == id; });
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if (plant != std::end(allPlants))
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{
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setThreshold((*plant)->index, val);
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INFO(config, out).print("threshold of %d for plant %s in saved configuration loaded\n", val, id.c_str());
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}
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else
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{
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WARN(config, out).print("threshold for unknown plant %s in saved configuration ignored\n", id.c_str());
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}
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}
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}
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}
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void save_state(color_ostream& out)
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{
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cfg_default_threshold.ival(0) = defaultThreshold;
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cfg_enabled.ival(0) = enabled;
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std::vector<PersistentDataItem> items;
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|
World::GetPersistentData(&items, "autofarm/threshold/", true);
|
|
for (auto& i : items)
|
|
World::DeletePersistentData(i);
|
|
|
|
for (const auto& t : thresholds)
|
|
{
|
|
const std::string& plantID = world->raws.plants.all[t.first]->id;
|
|
const std::string keyName = "autofarm/threshold/" + plantID;
|
|
PersistentDataItem cfgThreshold = World::AddPersistentData(keyName);
|
|
cfgThreshold.val() = plantID;
|
|
cfgThreshold.ival(0) = t.second;
|
|
}
|
|
}
|
|
|
|
};
|
|
|
|
static std::unique_ptr<AutoFarm> autofarmInstance;
|
|
|
|
|
|
DFhackCExport command_result plugin_init(color_ostream& out, std::vector <PluginCommand>& commands)
|
|
{
|
|
if (world && plotinfo) {
|
|
commands.push_back(
|
|
PluginCommand("autofarm",
|
|
"Automatically manage farm crop selection.",
|
|
autofarm));
|
|
}
|
|
autofarmInstance = std::move(dts::make_unique<AutoFarm>());
|
|
autofarmInstance->load_state(out);
|
|
return CR_OK;
|
|
}
|
|
|
|
DFhackCExport command_result plugin_shutdown(color_ostream& out)
|
|
{
|
|
autofarmInstance.release();
|
|
|
|
return CR_OK;
|
|
}
|
|
|
|
DFhackCExport command_result plugin_onupdate(color_ostream& out)
|
|
{
|
|
if (!autofarmInstance)
|
|
return CR_OK;
|
|
|
|
if (!Maps::IsValid())
|
|
return CR_OK;
|
|
|
|
if (DFHack::World::ReadPauseState())
|
|
return CR_OK;
|
|
|
|
if (world->frame_counter % 50 != 0) // Check every hour
|
|
return CR_OK;
|
|
|
|
{
|
|
CoreSuspender suspend;
|
|
autofarmInstance->process(out);
|
|
}
|
|
|
|
return CR_OK;
|
|
}
|
|
|
|
DFhackCExport command_result plugin_enable(color_ostream& out, bool enable)
|
|
{
|
|
enabled = enable;
|
|
if (Core::getInstance().isWorldLoaded())
|
|
autofarmInstance->save_state(out);
|
|
return CR_OK;
|
|
}
|
|
|
|
DFhackCExport command_result plugin_onstatechange(color_ostream& out, state_change_event event)
|
|
{
|
|
if (!autofarmInstance)
|
|
return CR_OK;
|
|
|
|
switch (event) {
|
|
case SC_WORLD_LOADED:
|
|
autofarmInstance->load_state(out);
|
|
break;
|
|
case SC_MAP_UNLOADED:
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
|
|
return CR_OK;
|
|
}
|
|
|
|
static command_result setThresholds(color_ostream& out, std::vector<std::string>& parameters)
|
|
{
|
|
int val = atoi(parameters[1].c_str());
|
|
for (size_t i = 2; i < parameters.size(); i++)
|
|
{
|
|
std::string id = parameters[i];
|
|
std::transform(id.begin(), id.end(), id.begin(), ::toupper);
|
|
|
|
bool ok = false;
|
|
for (auto plant : world->raws.plants.all)
|
|
{
|
|
if (plant->flags.is_set(df::plant_raw_flags::SEED) && (plant->id == id))
|
|
{
|
|
autofarmInstance->setThreshold(plant->index, val);
|
|
ok = true;
|
|
break;
|
|
}
|
|
}
|
|
if (!ok)
|
|
{
|
|
out << "Cannot find plant with id " << id << '\n' << std::flush;
|
|
return CR_WRONG_USAGE;
|
|
}
|
|
}
|
|
autofarmInstance->save_state(out);
|
|
return CR_OK;
|
|
}
|
|
|
|
static command_result autofarm(color_ostream& out, std::vector<std::string>& parameters)
|
|
{
|
|
CoreSuspender suspend;
|
|
|
|
if (parameters.size() == 1 && parameters[0] == "runonce")
|
|
{
|
|
if (autofarmInstance) autofarmInstance->process(out);
|
|
}
|
|
else if (parameters.size() == 1 && parameters[0] == "enable")
|
|
plugin_enable(out, true);
|
|
else if (parameters.size() == 1 && parameters[0] == "disable")
|
|
plugin_enable(out, false);
|
|
else if (parameters.size() == 2 && parameters[0] == "default")
|
|
{
|
|
if (autofarmInstance)
|
|
{
|
|
autofarmInstance->setDefault(atoi(parameters[1].c_str()));
|
|
autofarmInstance->save_state(out);
|
|
}
|
|
}
|
|
else if (parameters.size() >= 3 && parameters[0] == "threshold")
|
|
{
|
|
if (autofarmInstance)
|
|
return setThresholds(out, parameters);
|
|
}
|
|
else if (parameters.size() == 0 || (parameters.size() == 1 && parameters[0] == "status"))
|
|
autofarmInstance->status(out);
|
|
else
|
|
return CR_WRONG_USAGE;
|
|
|
|
return CR_OK;
|
|
}
|