dfhack/plugins/logistics.cpp

756 lines
27 KiB
C++

#include "Debug.h"
#include "LuaTools.h"
#include "PluginManager.h"
#include "modules/Buildings.h"
#include "modules/Job.h"
#include "modules/Persistence.h"
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#include "modules/Units.h"
#include "modules/World.h"
#include "df/building.h"
#include "df/building_stockpilest.h"
#include "df/building_tradedepotst.h"
#include "df/caravan_state.h"
#include "df/general_ref_building_holderst.h"
#include "df/plotinfost.h"
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#include "df/training_assignment.h"
#include "df/world.h"
using std::string;
using std::unordered_map;
using std::vector;
using namespace DFHack;
DFHACK_PLUGIN("logistics");
DFHACK_PLUGIN_IS_ENABLED(is_enabled);
REQUIRE_GLOBAL(plotinfo);
REQUIRE_GLOBAL(world);
namespace DFHack {
DBG_DECLARE(logistics, status, DebugCategory::LINFO);
DBG_DECLARE(logistics, cycle, DebugCategory::LINFO);
}
static const string CONFIG_KEY_PREFIX = string(plugin_name) + "/";
static unordered_map<int32_t, PersistentDataItem> watched_stockpiles;
enum StockpileConfigValues {
STOCKPILE_CONFIG_STOCKPILE_NUMBER = 0,
STOCKPILE_CONFIG_MELT = 1,
STOCKPILE_CONFIG_TRADE = 2,
STOCKPILE_CONFIG_DUMP = 3,
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STOCKPILE_CONFIG_TRAIN = 4,
};
static int get_config_val(PersistentDataItem& c, int index) {
if (!c.isValid())
return -1;
return c.ival(index);
}
static bool get_config_bool(PersistentDataItem& c, int index) {
return get_config_val(c, index) == 1;
}
static void set_config_val(PersistentDataItem& c, int index, int value) {
if (c.isValid())
c.ival(index) = value;
}
static void set_config_bool(PersistentDataItem& c, int index, bool value) {
set_config_val(c, index, value ? 1 : 0);
}
static PersistentDataItem& ensure_stockpile_config(color_ostream& out, int stockpile_number) {
DEBUG(cycle, out).print("ensuring stockpile config stockpile_number=%d\n", stockpile_number);
if (watched_stockpiles.count(stockpile_number)) {
DEBUG(cycle, out).print("stockpile exists in watched_stockpiles\n");
return watched_stockpiles[stockpile_number];
}
string keyname = CONFIG_KEY_PREFIX + int_to_string(stockpile_number);
DEBUG(status, out).print("creating new persistent key for stockpile %d\n", stockpile_number);
watched_stockpiles.emplace(stockpile_number, World::GetPersistentData(keyname, NULL));
PersistentDataItem& c = watched_stockpiles[stockpile_number];
set_config_val(c, STOCKPILE_CONFIG_STOCKPILE_NUMBER, stockpile_number);
set_config_bool(c, STOCKPILE_CONFIG_MELT, false);
set_config_bool(c, STOCKPILE_CONFIG_TRADE, false);
set_config_bool(c, STOCKPILE_CONFIG_DUMP, false);
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set_config_bool(c, STOCKPILE_CONFIG_TRAIN, false);
return c;
}
static void remove_stockpile_config(color_ostream& out, int stockpile_number) {
if (!watched_stockpiles.count(stockpile_number))
return;
DEBUG(status, out).print("removing persistent key for stockpile %d\n", stockpile_number);
World::DeletePersistentData(watched_stockpiles[stockpile_number]);
watched_stockpiles.erase(stockpile_number);
}
static const int32_t CYCLE_TICKS = 600;
static int32_t cycle_timestamp = 0; // world->frame_counter at last cycle
static command_result do_command(color_ostream &out, vector<string> &parameters);
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static void do_cycle(color_ostream& out, int32_t& melt_count, int32_t& trade_count, int32_t& dump_count, int32_t& train_count);
DFhackCExport command_result plugin_init(color_ostream &out, vector<PluginCommand> &commands) {
DEBUG(status, out).print("initializing %s\n", plugin_name);
commands.push_back(PluginCommand(
plugin_name,
"Automatically mark and route items in monitored stockpiles.",
do_command));
return CR_OK;
}
DFhackCExport command_result plugin_enable(color_ostream &out, bool enable) {
is_enabled = enable;
DEBUG(status, out).print("now %s\n", is_enabled ? "enabled" : "disabled");
return CR_OK;
}
static df::building_stockpilest* find_stockpile(int32_t stockpile_number) {
return binsearch_in_vector(world->buildings.other.STOCKPILE,
&df::building_stockpilest::stockpile_number, stockpile_number);
}
static void validate_stockpile_configs(color_ostream& out,
unordered_map<df::building_stockpilest *, PersistentDataItem> &cache) {
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vector<int> to_remove;
for (auto& entry : watched_stockpiles) {
int stockpile_number = entry.first;
PersistentDataItem &c = entry.second;
auto bld = find_stockpile(stockpile_number);
if (!bld || (
!get_config_bool(c, STOCKPILE_CONFIG_MELT) &&
!get_config_bool(c, STOCKPILE_CONFIG_TRADE) &&
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!get_config_bool(c, STOCKPILE_CONFIG_DUMP) &&
!get_config_bool(c, STOCKPILE_CONFIG_TRAIN))) {
to_remove.push_back(stockpile_number);
continue;
}
cache.emplace(bld, c);
}
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for (int stockpile_number : to_remove)
remove_stockpile_config(out, stockpile_number);
}
// remove this function once saves from 50.08 are no longer compatible
static void migrate_old_keys(color_ostream &out) {
vector<PersistentDataItem> old_data;
World::GetPersistentData(&old_data, "automelt/stockpile/", true);
const size_t num_old_keys = old_data.size();
for (size_t idx = 0; idx < num_old_keys; ++idx) {
auto& old_c = old_data[idx];
int32_t bld_id = get_config_val(old_c, 0);
bool melt_was_on = get_config_bool(old_c, 1);
World::DeletePersistentData(old_c);
auto bld = df::building::find(bld_id);
if (!bld || bld->getType() != df::building_type::Stockpile ||
watched_stockpiles.count(static_cast<df::building_stockpilest *>(bld)->stockpile_number))
continue;
auto &c = ensure_stockpile_config(out, static_cast<df::building_stockpilest *>(bld)->stockpile_number);
set_config_bool(c, STOCKPILE_CONFIG_MELT, melt_was_on);
}
}
DFhackCExport command_result plugin_load_data(color_ostream &out) {
cycle_timestamp = 0;
vector<PersistentDataItem> loaded_persist_data;
World::GetPersistentData(&loaded_persist_data, CONFIG_KEY_PREFIX, true);
watched_stockpiles.clear();
const size_t num_watched_stockpiles = loaded_persist_data.size();
for (size_t idx = 0; idx < num_watched_stockpiles; ++idx) {
auto& c = loaded_persist_data[idx];
watched_stockpiles.emplace(get_config_val(c, STOCKPILE_CONFIG_STOCKPILE_NUMBER), c);
}
migrate_old_keys(out);
return CR_OK;
}
DFhackCExport command_result plugin_onupdate(color_ostream &out) {
if (!is_enabled || !Core::getInstance().isWorldLoaded())
return CR_OK;
if (world->frame_counter - cycle_timestamp >= CYCLE_TICKS) {
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int32_t melt_count = 0, trade_count = 0, dump_count = 0, train_count = 0;
do_cycle(out, melt_count, trade_count, dump_count, train_count);
if (0 < melt_count)
out.print("logistics: marked %d item(s) for melting\n", melt_count);
if (0 < trade_count)
out.print("logistics: marked %d item(s) for trading\n", trade_count);
if (0 < dump_count)
out.print("logistics: marked %d item(s) for dumping\n", dump_count);
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if (0 < train_count)
out.print("logistics: marked %d animal(s) for training\n", dump_count);
}
return CR_OK;
}
static bool call_logistics_lua(color_ostream* out, const char* fn_name,
int nargs = 0, int nres = 0,
Lua::LuaLambda && args_lambda = Lua::DEFAULT_LUA_LAMBDA,
Lua::LuaLambda && res_lambda = Lua::DEFAULT_LUA_LAMBDA) {
DEBUG(status).print("calling logistics lua function: '%s'\n", fn_name);
CoreSuspender guard;
auto L = Lua::Core::State;
Lua::StackUnwinder top(L);
if (!out)
out = &Core::getInstance().getConsole();
return Lua::CallLuaModuleFunction(*out, L, "plugins.logistics", fn_name,
nargs, nres,
std::forward<Lua::LuaLambda&&>(args_lambda),
std::forward<Lua::LuaLambda&&>(res_lambda));
}
static command_result do_command(color_ostream &out, vector<string> &parameters) {
CoreSuspender suspend;
bool show_help = false;
if (!call_logistics_lua(&out, "parse_commandline", 1, 1,
[&](lua_State *L) {
Lua::PushVector(L, parameters);
},
[&](lua_State *L) {
show_help = !lua_toboolean(L, -1);
})) {
return CR_FAILURE;
}
return show_help ? CR_WRONG_USAGE : CR_OK;
}
/////////////////////////////////////////////////////
// cycle
//
typedef unordered_map<int32_t, size_t> StatMap;
struct ProcessorStats {
size_t newly_designated = 0;
StatMap designated_counts, can_designate_counts;
};
class StockProcessor {
public:
const string name;
const int32_t stockpile_number;
const bool enabled;
ProcessorStats &stats;
protected:
StockProcessor(const string &name, int32_t stockpile_number, bool enabled, ProcessorStats &stats)
: name(name), stockpile_number(stockpile_number), enabled(enabled), stats(stats) { }
public:
virtual bool is_designated(color_ostream &out, df::item *item) = 0;
virtual bool can_designate(color_ostream &out, df::item *item) = 0;
virtual bool designate(color_ostream &out, df::item *item) = 0;
};
class MeltStockProcessor : public StockProcessor {
public:
MeltStockProcessor(int32_t stockpile_number, bool enabled, ProcessorStats &stats)
: StockProcessor("melt", stockpile_number, enabled, stats) { }
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bool is_designated(color_ostream &out, df::item *item) override {
return item->flags.bits.melt;
}
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bool can_designate(color_ostream &out, df::item *item) override {
MaterialInfo mat(item);
if (mat.getCraftClass() != df::craft_material_class::Metal)
return false;
if (item->getType() == df::item_type::BAR)
return false;
for (auto &g : item->general_refs) {
switch (g->getType()) {
case df::general_ref_type::CONTAINS_ITEM:
case df::general_ref_type::UNIT_HOLDER:
case df::general_ref_type::CONTAINS_UNIT:
return false;
case df::general_ref_type::CONTAINED_IN_ITEM:
{
df::item *c = g->getItem();
for (auto &gg : c->general_refs) {
if (gg->getType() == df::general_ref_type::UNIT_HOLDER)
return false;
}
break;
}
default:
break;
}
}
if (item->getQuality() >= df::item_quality::Masterful)
return false;
return true;
}
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bool designate(color_ostream &out, df::item *item) override {
insert_into_vector(world->items.other.ANY_MELT_DESIGNATED, &df::item::id, item);
item->flags.bits.melt = 1;
return true;
}
};
class TradeStockProcessor: public StockProcessor {
public:
TradeStockProcessor(int32_t stockpile_number, bool enabled, ProcessorStats& stats)
: StockProcessor("trade", stockpile_number, enabled && get_active_trade_depot(), stats),
depot(get_active_trade_depot()) { }
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bool is_designated(color_ostream& out, df::item* item) override {
auto ref = Items::getSpecificRef(item, df::specific_ref_type::JOB);
return ref && ref->data.job &&
ref->data.job->job_type == df::job_type::BringItemToDepot;
}
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bool can_designate(color_ostream& out, df::item* item) override {
return Items::canTradeAnyWithContents(item);
}
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bool designate(color_ostream& out, df::item* item) override {
if (!depot)
return false;
return Items::markForTrade(item, depot);
}
private:
df::building_tradedepotst * const depot;
static df::building_tradedepotst * get_active_trade_depot() {
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// at least one non-tribute caravan must be approaching or ready to trade
if (!plotinfo->caravans.size())
return NULL;
bool found = false;
for (auto caravan : plotinfo->caravans) {
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if (caravan->flags.bits.tribute)
continue;
auto trade_state = caravan->trade_state;
auto time_remaining = caravan->time_remaining;
if ((trade_state == df::caravan_state::T_trade_state::Approaching ||
trade_state == df::caravan_state::T_trade_state::AtDepot) && time_remaining != 0) {
found = true;
break;
}
}
if (!found)
return NULL;
// at least one trade depot must be ready to receive goods
for (auto bld : world->buildings.other.TRADE_DEPOT) {
if (bld->getBuildStage() < bld->getMaxBuildStage())
continue;
if (bld->jobs.size() == 1 &&
bld->jobs[0]->job_type == df::job_type::DestroyBuilding)
continue;
return bld;
}
return NULL;
}
};
class DumpStockProcessor: public StockProcessor {
public:
DumpStockProcessor(int32_t stockpile_number, bool enabled, ProcessorStats& stats)
: StockProcessor("dump", stockpile_number, enabled, stats) { }
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bool is_designated(color_ostream& out, df::item* item) override {
return item->flags.bits.dump;
}
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bool can_designate(color_ostream& out, df::item* item) override {
return true;
}
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bool designate(color_ostream& out, df::item* item) override {
item->flags.bits.dump = true;
return true;
}
};
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class TrainStockProcessor : public StockProcessor {
public:
TrainStockProcessor(int32_t stockpile_number, bool enabled, ProcessorStats& stats)
: StockProcessor("train", stockpile_number, enabled, stats) {}
bool is_designated(color_ostream& out, df::item* item) override {
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auto unit = get_caged_unit(item);
return unit && Units::isMarkedForTraining(unit);
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}
bool can_designate(color_ostream& out, df::item* item) override {
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auto unit = get_caged_unit(item);
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return unit && !Units::isInvader(unit) &&
Units::isTamable(unit) && !Units::isTame(unit) &&
!Units::isMarkedForTraining(unit);
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}
bool designate(color_ostream& out, df::item* item) override {
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auto unit = get_caged_unit(item);
if (!unit)
return false;
df::training_assignment *assignment = new df::training_assignment();
assignment->animal_id = unit->id;
assignment->trainer_id = -1;
assignment->flags.bits.any_trainer = true;
insert_into_vector(df::global::plotinfo->equipment.training_assignments,
&df::training_assignment::animal_id, assignment);
return true;
}
private:
static df::unit* get_caged_unit(df::item* item) {
if (item->getType() != df::item_type::CAGE)
return NULL;
auto gref = Items::getGeneralRef(item, df::general_ref_type::CONTAINS_UNIT);
if (!gref)
return NULL;
return gref->getUnit();
}
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};
static const struct BadFlags {
const uint32_t whole;
BadFlags() : whole(get_bad_flags()) { }
private:
uint32_t get_bad_flags() {
df::item_flags flags;
#define F(x) flags.bits.x = true;
F(forbid); F(garbage_collect); F(hostile); F(on_fire);
F(rotten); F(trader); F(in_building); F(construction);
F(artifact); F(spider_web); F(owned); F(in_job);
#undef F
return flags.whole;
}
} bad_flags;
static void scan_item(color_ostream &out, df::item *item, StockProcessor &processor) {
DEBUG(cycle,out).print("scan_item [%s] item_id=%d\n", processor.name.c_str(), item->id);
if (DBG_NAME(cycle).isEnabled(DebugCategory::LTRACE)) {
string name = "";
item->getItemDescription(&name, 0);
TRACE(cycle,out).print("item: %s\n", name.c_str());
}
if (item->flags.whole & bad_flags.whole) {
TRACE(cycle,out).print("rejected flag check\n");
return;
}
if (processor.is_designated(out, item)) {
TRACE(cycle,out).print("already designated\n");
++processor.stats.designated_counts[processor.stockpile_number];
return;
}
if (!processor.can_designate(out, item)) {
TRACE(cycle,out).print("cannot designate\n");
return;
}
if (!processor.enabled) {
++processor.stats.can_designate_counts[processor.stockpile_number];
return;
}
processor.designate(out, item);
++processor.stats.newly_designated;
++processor.stats.designated_counts[processor.stockpile_number];
}
static void scan_stockpile(color_ostream &out, df::building_stockpilest *bld,
MeltStockProcessor &melt_stock_processor,
TradeStockProcessor &trade_stock_processor,
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DumpStockProcessor &dump_stock_processor,
TrainStockProcessor &train_stock_processor) {
auto id = bld->id;
Buildings::StockpileIterator items;
for (items.begin(bld); !items.done(); ++items) {
df::item *item = *items;
scan_item(out, item, trade_stock_processor);
if (0 == (item->flags.whole & bad_flags.whole) &&
item->isAssignedToThisStockpile(id)) {
TRACE(cycle,out).print("assignedToStockpile\n");
vector<df::item *> contents;
Items::getContainedItems(item, &contents);
for (df::item *contained_item : contents) {
scan_item(out, contained_item, melt_stock_processor);
scan_item(out, contained_item, dump_stock_processor);
}
continue;
}
scan_item(out, item, melt_stock_processor);
scan_item(out, item, dump_stock_processor);
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scan_item(out, item, train_stock_processor);
}
}
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static void do_cycle(color_ostream& out, int32_t& melt_count, int32_t& trade_count, int32_t& dump_count, int32_t& train_count) {
DEBUG(cycle,out).print("running %s cycle\n", plugin_name);
cycle_timestamp = world->frame_counter;
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ProcessorStats melt_stats, trade_stats, dump_stats, train_stats;
unordered_map<df::building_stockpilest *, PersistentDataItem> cache;
validate_stockpile_configs(out, cache);
for (auto &entry : cache) {
df::building_stockpilest *bld = entry.first;
PersistentDataItem &c = entry.second;
int32_t stockpile_number = bld->stockpile_number;
bool melt = get_config_bool(c, STOCKPILE_CONFIG_MELT);
bool trade = get_config_bool(c, STOCKPILE_CONFIG_TRADE);
bool dump = get_config_bool(c, STOCKPILE_CONFIG_DUMP);
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bool train = get_config_bool(c, STOCKPILE_CONFIG_TRAIN);
MeltStockProcessor melt_stock_processor(stockpile_number, melt, melt_stats);
TradeStockProcessor trade_stock_processor(stockpile_number, trade, trade_stats);
DumpStockProcessor dump_stock_processor(stockpile_number, dump, dump_stats);
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TrainStockProcessor train_stock_processor(stockpile_number, train, train_stats);
scan_stockpile(out, bld, melt_stock_processor,
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trade_stock_processor, dump_stock_processor, train_stock_processor);
}
melt_count = melt_stats.newly_designated;
trade_count = trade_stats.newly_designated;
dump_count = dump_stats.newly_designated;
TRACE(cycle,out).print("exit %s do_cycle\n", plugin_name);
}
/////////////////////////////////////////////////////
// Lua API
//
static int logistics_getStockpileData(lua_State *L) {
color_ostream *out = Lua::GetOutput(L);
if (!out)
out = &Core::getInstance().getConsole();
DEBUG(status,*out).print("entering logistics_getStockpileData\n");
unordered_map<df::building_stockpilest *, PersistentDataItem> cache;
validate_stockpile_configs(*out, cache);
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ProcessorStats melt_stats, trade_stats, dump_stats, train_stats;
for (auto bld : df::global::world->buildings.other.STOCKPILE) {
int32_t stockpile_number = bld->stockpile_number;
MeltStockProcessor melt_stock_processor(stockpile_number, false, melt_stats);
TradeStockProcessor trade_stock_processor(stockpile_number, false, trade_stats);
DumpStockProcessor dump_stock_processor(stockpile_number, false, dump_stats);
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TrainStockProcessor train_stock_processor(stockpile_number, false, train_stats);
scan_stockpile(*out, bld, melt_stock_processor,
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trade_stock_processor, dump_stock_processor, train_stock_processor);
}
unordered_map<string, StatMap> stats;
stats.emplace("melt_designated", melt_stats.designated_counts);
stats.emplace("melt_can_designate", melt_stats.can_designate_counts);
stats.emplace("trade_designated", trade_stats.designated_counts);
stats.emplace("trade_can_designate", trade_stats.can_designate_counts);
stats.emplace("dump_designated", dump_stats.designated_counts);
stats.emplace("dump_can_designate", dump_stats.can_designate_counts);
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stats.emplace("train_designated", train_stats.designated_counts);
stats.emplace("train_can_designate", train_stats.can_designate_counts);
Lua::Push(L, stats);
unordered_map<int32_t, unordered_map<string, string>> configs;
for (auto &entry : cache) {
df::building_stockpilest *bld = entry.first;
PersistentDataItem &c = entry.second;
bool melt = get_config_bool(c, STOCKPILE_CONFIG_MELT);
bool trade = get_config_bool(c, STOCKPILE_CONFIG_TRADE);
bool dump = get_config_bool(c, STOCKPILE_CONFIG_DUMP);
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bool train = get_config_bool(c, STOCKPILE_CONFIG_TRAIN);
unordered_map<string, string> config;
config.emplace("melt", melt ? "true" : "false");
config.emplace("trade", trade ? "true" : "false");
config.emplace("dump", dump ? "true" : "false");
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config.emplace("train", train ? "true" : "false");
configs.emplace(bld->stockpile_number, config);
}
Lua::Push(L, configs);
TRACE(cycle, *out).print("exit logistics_getStockpileData\n");
return 2;
}
static void logistics_cycle(color_ostream &out) {
DEBUG(status, out).print("entering logistics_cycle\n");
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int32_t melt_count = 0, trade_count = 0, dump_count = 0, train_count = 0;
do_cycle(out, melt_count, trade_count, dump_count, train_count);
out.print("logistics: marked %d item(s) for melting\n", melt_count);
out.print("logistics: marked %d item(s) for trading\n", trade_count);
out.print("logistics: marked %d item(s) for dumping\n", dump_count);
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out.print("logistics: marked %d animal(s) for train\n", train_count);
}
static void find_stockpiles(lua_State *L, int idx,
vector<df::building_stockpilest*> &sps) {
if (lua_isnumber(L, idx)) {
sps.emplace_back(find_stockpile(lua_tointeger(L, -1)));
return;
}
const char * pname = lua_tostring(L, -1);
if (!pname || !*pname)
return;
string name(pname);
for (auto sp : world->buildings.other.STOCKPILE) {
if (name == sp->name)
sps.emplace_back(sp);
}
}
static unordered_map<string, int> get_stockpile_config(int32_t stockpile_number) {
unordered_map<string, int> stockpile_config;
stockpile_config.emplace("stockpile_number", stockpile_number);
if (watched_stockpiles.count(stockpile_number)) {
PersistentDataItem &c = watched_stockpiles[stockpile_number];
stockpile_config.emplace("melt", get_config_bool(c, STOCKPILE_CONFIG_MELT));
stockpile_config.emplace("trade", get_config_bool(c, STOCKPILE_CONFIG_TRADE));
stockpile_config.emplace("dump", get_config_bool(c, STOCKPILE_CONFIG_DUMP));
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stockpile_config.emplace("train", get_config_bool(c, STOCKPILE_CONFIG_TRAIN));
} else {
stockpile_config.emplace("melt", false);
stockpile_config.emplace("trade", false);
stockpile_config.emplace("dump", false);
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stockpile_config.emplace("train", false);
}
return stockpile_config;
}
static int logistics_getStockpileConfigs(lua_State *L) {
color_ostream *out = Lua::GetOutput(L);
if (!out)
out = &Core::getInstance().getConsole();
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DEBUG(status, *out).print("entering logistics_getStockpileConfigs\n");
unordered_map<df::building_stockpilest*, PersistentDataItem> cache;
validate_stockpile_configs(*out, cache);
vector<df::building_stockpilest*> sps;
find_stockpiles(L, -1, sps);
if (sps.empty())
return 0;
vector<unordered_map<string, int>> configs;
for (auto sp : sps)
configs.emplace_back(get_stockpile_config(sp->stockpile_number));
Lua::PushVector(L, configs);
return 1;
}
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static void logistics_setStockpileConfig(color_ostream& out, int stockpile_number, bool melt, bool trade, bool dump, bool train) {
DEBUG(status, out).print("entering logistics_setStockpileConfig stockpile_number=%d, melt=%d, trade=%d, dump=%d, train=%d\n",
stockpile_number, melt, trade, dump, train);
if (!find_stockpile(stockpile_number)) {
out.printerr("invalid stockpile number: %d\n", stockpile_number);
return;
}
auto &c = ensure_stockpile_config(out, stockpile_number);
set_config_bool(c, STOCKPILE_CONFIG_MELT, melt);
set_config_bool(c, STOCKPILE_CONFIG_TRADE, trade);
set_config_bool(c, STOCKPILE_CONFIG_DUMP, dump);
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set_config_bool(c, STOCKPILE_CONFIG_TRAIN, train);
}
static int logistics_clearStockpileConfig(lua_State *L) {
color_ostream *out = Lua::GetOutput(L);
if (!out)
out = &Core::getInstance().getConsole();
DEBUG(status, *out).print("entering logistics_clearStockpileConfig\n");
vector<df::building_stockpilest*> sps;
find_stockpiles(L, -1, sps);
if (sps.empty())
return 0;
for (auto sp : sps)
remove_stockpile_config(*out, sp->stockpile_number);
return 0;
}
static void logistics_clearAllStockpileConfigs(color_ostream &out) {
DEBUG(status, out).print("entering logistics_clearAllStockpileConfigs\n");
for (auto &entry : watched_stockpiles)
World::DeletePersistentData(entry.second);
watched_stockpiles.clear();
}
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static int logistics_getGlobalCounts(lua_State *L) {
color_ostream *out = Lua::GetOutput(L);
if (!out)
out = &Core::getInstance().getConsole();
DEBUG(status,*out).print("entering logistics_getGlobalCounts\n");
size_t num_melt = df::global::world->items.other.ANY_MELT_DESIGNATED.size();
size_t num_trade = 0;
for (auto link = world->jobs.list.next; link; link = link->next) {
df::job *job = link->item;
if (job->job_type == df::job_type::BringItemToDepot)
++num_trade;
}
size_t num_dump = 0;
for (auto item : world->items.other.IN_PLAY) {
if (item->flags.bits.dump)
++num_dump;
}
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size_t num_train = 0;
// TODO
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unordered_map<string, size_t> results;
results.emplace("total_melt", num_melt);
results.emplace("total_trade", num_trade);
results.emplace("total_dump", num_dump);
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results.emplace("total_train", num_train);
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Lua::Push(L, results);
TRACE(cycle, *out).print("exit logistics_getGlobalCounts\n");
return 1;
}
DFHACK_PLUGIN_LUA_FUNCTIONS{
DFHACK_LUA_FUNCTION(logistics_cycle),
DFHACK_LUA_FUNCTION(logistics_setStockpileConfig),
DFHACK_LUA_FUNCTION(logistics_clearAllStockpileConfigs),
DFHACK_LUA_END};
DFHACK_PLUGIN_LUA_COMMANDS{
DFHACK_LUA_COMMAND(logistics_getStockpileData),
DFHACK_LUA_COMMAND(logistics_getStockpileConfigs),
DFHACK_LUA_COMMAND(logistics_clearStockpileConfig),
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DFHACK_LUA_COMMAND(logistics_getGlobalCounts),
DFHACK_LUA_END};