dfhack/plugins/workflow.cpp

1544 lines
42 KiB
C++

#include "Core.h"
#include <Console.h>
#include <Export.h>
#include <PluginManager.h>
#include <MiscUtils.h>
#include <modules/Materials.h>
#include <modules/Items.h>
#include <modules/Gui.h>
#include <modules/Job.h>
#include <modules/World.h>
#include <DataDefs.h>
#include <df/world.h>
#include <df/ui.h>
#include <df/building_workshopst.h>
#include <df/building_furnacest.h>
#include <df/job.h>
#include <df/job_item.h>
#include <df/job_list_link.h>
#include <df/dfhack_material_category.h>
#include <df/item.h>
#include <df/items_other_id.h>
#include <df/tool_uses.h>
#include <df/general_ref.h>
#include <df/general_ref_unit_workerst.h>
#include <df/general_ref_unit_holderst.h>
#include <df/general_ref_building_holderst.h>
#include <df/general_ref_contains_itemst.h>
#include <df/general_ref_contained_in_itemst.h>
#include <df/general_ref_contains_unitst.h>
#include <df/itemdef_foodst.h>
#include <df/reaction.h>
#include <df/reaction_reagent_itemst.h>
#include <df/reaction_product_itemst.h>
#include <df/plant_raw.h>
#include <df/inorganic_raw.h>
#include <df/builtin_mats.h>
using std::vector;
using std::string;
using std::endl;
using namespace DFHack;
using namespace df::enums;
using df::global::world;
using df::global::ui;
using df::global::ui_workshop_job_cursor;
using df::global::job_next_id;
/* Plugin registration */
static command_result workflow_cmd(Core *c, vector <string> & parameters);
static void init_state(Core *c);
static void cleanup_state(Core *c);
DFhackCExport const char * plugin_name ( void )
{
return "workflow";
}
DFhackCExport command_result plugin_init (Core *c, std::vector <PluginCommand> &commands)
{
commands.clear();
if (!world || !ui)
return CR_FAILURE;
if (ui_workshop_job_cursor && job_next_id) {
commands.push_back(
PluginCommand(
"workflow", "Manage control of repeat jobs.",
workflow_cmd, false,
" workflow enable [option...]\n"
" workflow disable [option...]\n"
" If no options are specified, enables or disables the plugin.\n"
" Otherwise, enables or disables any of the following options:\n"
" - drybuckets: Automatically empty abandoned water buckets.\n"
" - auto-melt: Resume melt jobs when there are objects to melt.\n"
" workflow jobs\n"
" List workflow-controlled jobs (if in a workshop, filtered by it).\n"
" workflow list\n"
" List active constraints, and their job counts.\n"
" workflow count <constraint-spec> <cnt-limit> [cnt-gap]\n"
" workflow amount <constraint-spec> <cnt-limit> [cnt-gap]\n"
" Set a constraint. The first form counts each stack as only 1 item.\n"
" workflow unlimit <constraint-spec>\n"
" Delete a constraint.\n"
"Function:\n"
" - When the plugin is enabled, it protects all repeat jobs from removal.\n"
" If they do disappear due to any cause, they are immediately re-added\n"
" to their workshop and suspended.\n"
" - In addition, when any constraints on item amounts are set, repeat jobs\n"
" that produce that kind of item are automatically suspended and resumed\n"
" as the item amount goes above or below the limit. The gap specifies how\n"
" much below the limit the amount has to drop before jobs are resumed;\n"
" this is intended to reduce the frequency of jobs being toggled.\n"
"Constraint examples:\n"
" workflow amount AMMO:ITEM_AMMO_BOLTS/METAL 1000 100\n"
" workflow amount AMMO:ITEM_AMMO_BOLTS/WOOD,BONE 200 50\n"
" Keep metal bolts within 900-1000, and wood/bone within 150-200.\n"
" workflow count FOOD 120 30\n"
" workflow count DRINK 120 30\n"
" Keep the number of prepared food & drink stacks between 90 and 120\n"
" workflow count BIN 30\n"
" workflow count BARREL 30\n"
" workflow count BOX/CLOTH,SILK,YARN 30\n"
" Make sure there are always 25-30 empty bins/barrels/bags.\n"
" workflow count BAR//COAL 20\n"
" workflow count BAR//COPPER 30\n"
" Make sure there are always 15-20 coal and 25-30 copper bars.\n"
" workflow count POWDER_MISC/SAND 20\n"
" workflow count BOULDER/CLAY 20\n"
" Collect 15-20 sand bags and clay boulders.\n"
" workflow amount POWDER_MISC//MUSHROOM_CUP_DIMPLE:MILL 100 20\n"
" Make sure there are always 80-100 units of dimple dye.\n"
" In order for this to work, you have to set the material of\n"
" the PLANT input on the Mill Plants job to MUSHROOM_CUP_DIMPLE\n"
" using the 'job item-material' command.\n"
)
);
}
init_state(c);
return CR_OK;
}
DFhackCExport command_result plugin_shutdown ( Core * c )
{
cleanup_state(c);
return CR_OK;
}
DFhackCExport command_result plugin_onstatechange(Core* c, state_change_event event)
{
switch (event) {
case SC_GAME_LOADED:
cleanup_state(c);
init_state(c);
break;
case SC_GAME_UNLOADED:
cleanup_state(c);
break;
default:
break;
}
return CR_OK;
}
/******************************
* JOB STATE TRACKING STRUCTS *
******************************/
const int DAY_TICKS = 1200;
const int MONTH_DAYS = 28;
const int YEAR_MONTHS = 12;
struct ItemConstraint;
struct ProtectedJob {
int id;
int building_id;
int tick_idx;
static int cur_tick_idx;
df::building *holder;
df::job *job_copy;
int reaction_id;
df::job *actual_job;
bool want_resumed;
int resume_time, resume_delay;
std::vector<ItemConstraint*> constraints;
public:
ProtectedJob(df::job *job) : id(job->id)
{
tick_idx = cur_tick_idx;
holder = getJobHolder(job);
building_id = holder ? holder->id : -1;
job_copy = cloneJobStruct(job);
actual_job = job;
reaction_id = -1;
want_resumed = false;
resume_time = 0; resume_delay = DAY_TICKS;
}
~ProtectedJob()
{
deleteJobStruct(job_copy);
}
bool isActuallyResumed() {
return actual_job && !actual_job->flags.bits.suspend;
}
bool isResumed() {
return want_resumed || isActuallyResumed();
}
bool isLive() { return actual_job != NULL; }
void update(df::job *job)
{
actual_job = job;
if (*job == *job_copy)
return;
reaction_id = -1;
deleteJobStruct(job_copy);
job_copy = cloneJobStruct(job);
}
void tick_job(df::job *job, int ticks)
{
tick_idx = cur_tick_idx;
actual_job = job;
if (isActuallyResumed())
{
resume_time = 0;
resume_delay = std::max(DAY_TICKS, resume_delay - ticks);
}
else if (want_resumed)
{
if (!resume_time)
want_resumed = false;
else if (world->frame_counter >= resume_time)
actual_job->flags.bits.suspend = false;
}
}
void recover(df::job *job)
{
actual_job = job;
job->flags.bits.repeat = true;
job->flags.bits.suspend = true;
resume_delay = std::min(DAY_TICKS*MONTH_DAYS, 5*resume_delay/3);
resume_time = world->frame_counter + resume_delay;
}
void set_resumed(bool resume)
{
if (resume)
{
if (world->frame_counter >= resume_time)
actual_job->flags.bits.suspend = false;
}
else
{
resume_time = 0;
if (isActuallyResumed())
resume_delay = DAY_TICKS;
actual_job->flags.bits.suspend = true;
}
want_resumed = resume;
}
};
int ProtectedJob::cur_tick_idx = 0;
typedef std::map<std::pair<int,int>, bool> TMaterialCache;
struct ItemConstraint {
PersistentDataItem config;
ItemTypeInfo item;
MaterialInfo material;
df::dfhack_material_category mat_mask;
int weight;
std::vector<ProtectedJob*> jobs;
int item_amount, item_count, item_inuse;
bool request_suspend, request_resume;
bool is_active, cant_resume_reported;
TMaterialCache material_cache;
public:
ItemConstraint()
: weight(0), item_amount(0), item_count(0), item_inuse(0)
, is_active(false), cant_resume_reported(false)
{}
int goalCount() { return config.ival(0); }
void setGoalCount(int v) { config.ival(0) = v; }
int goalGap() {
int gcnt = std::max(1, goalCount()/2);
return std::min(gcnt, config.ival(1) <= 0 ? 5 : config.ival(1));
}
void setGoalGap(int v) { config.ival(1) = v; }
bool goalByCount() { return config.ival(2) & 1; }
void setGoalByCount(bool v) {
if (v)
config.ival(2) |= 1;
else
config.ival(2) &= ~1;
}
void init(const std::string &str)
{
config.val() = str;
config.ival(2) = 0;
}
void computeRequest()
{
int size = goalByCount() ? item_count : item_amount;
request_resume = (size <= goalCount()-goalGap());
request_suspend = (size >= goalCount());
}
};
/******************************
* GLOBAL VARIABLES *
******************************/
static bool enabled = false;
static PersistentDataItem config;
static int last_tick_frame_count = 0;
static int last_frame_count = 0;
enum ConfigFlags {
CF_ENABLED = 1,
CF_DRYBUCKETS = 2,
CF_AUTOMELT = 4
};
typedef std::map<int, ProtectedJob*> TKnownJobs;
static TKnownJobs known_jobs;
static std::vector<ProtectedJob*> pending_recover;
static std::vector<ItemConstraint*> constraints;
static int meltable_count = 0;
static bool melt_active = false;
/******************************
* MISC FUNCTIONS *
******************************/
static ProtectedJob *get_known(int id)
{
TKnownJobs::iterator it = known_jobs.find(id);
return (it != known_jobs.end()) ? it->second : NULL;
}
static bool isSupportedJob(df::job *job)
{
return job->misc_links.empty() &&
getJobHolder(job) &&
(!job->job_items.empty() ||
job->job_type == job_type::CollectClay ||
job->job_type == job_type::CollectSand);
}
static void enumLiveJobs(std::map<int, df::job*> &rv)
{
df::job_list_link *p = world->job_list.next;
for (; p; p = p->next)
rv[p->item->id] = p->item;
}
static bool isOptionEnabled(unsigned flag)
{
return config.isValid() && (config.ival(0) & flag) != 0;
}
static void setOptionEnabled(ConfigFlags flag, bool on)
{
if (!config.isValid())
return;
if (on)
config.ival(0) |= flag;
else
config.ival(0) &= ~flag;
}
/******************************
* STATE INITIALIZATION *
******************************/
static void stop_protect(Core *c)
{
pending_recover.clear();
if (!known_jobs.empty())
c->con.print("Unprotecting %d jobs.\n", known_jobs.size());
for (TKnownJobs::iterator it = known_jobs.begin(); it != known_jobs.end(); ++it)
delete it->second;
known_jobs.clear();
}
static void cleanup_state(Core *c)
{
config = PersistentDataItem();
stop_protect(c);
for (unsigned i = 0; i < constraints.size(); i++)
delete constraints[i];
constraints.clear();
}
static void check_lost_jobs(Core *c, int ticks);
static ItemConstraint *get_constraint(Core *c, const std::string &str, PersistentDataItem *cfg = NULL);
static void start_protect(Core *c)
{
check_lost_jobs(c, 0);
if (!known_jobs.empty())
c->con.print("Protecting %d jobs.\n", known_jobs.size());
}
static void init_state(Core *c)
{
config = c->getWorld()->GetPersistentData("workflow/config");
if (config.isValid() && config.ival(0) == -1)
config.ival(0) = 0;
enabled = isOptionEnabled(CF_ENABLED);
// Parse constraints
std::vector<PersistentDataItem> items;
c->getWorld()->GetPersistentData(&items, "workflow/constraints");
for (int i = items.size()-1; i >= 0; i--) {
if (get_constraint(c, items[i].val(), &items[i]))
continue;
c->con.printerr("Lost constraint %s\n", items[i].val().c_str());
c->getWorld()->DeletePersistentData(items[i]);
}
last_tick_frame_count = world->frame_counter;
last_frame_count = world->frame_counter;
if (!enabled)
return;
start_protect(c);
}
static void enable_plugin(Core *c)
{
if (!config.isValid())
{
config = c->getWorld()->AddPersistentData("workflow/config");
config.ival(0) = 0;
}
setOptionEnabled(CF_ENABLED, true);
enabled = true;
c->con << "Enabling the plugin." << endl;
start_protect(c);
}
/******************************
* JOB AUTO-RECOVERY *
******************************/
static void forget_job(Core *c, ProtectedJob *pj)
{
known_jobs.erase(pj->id);
delete pj;
}
static bool recover_job(Core *c, ProtectedJob *pj)
{
if (pj->isLive())
return true;
// Check that the building exists
pj->holder = df::building::find(pj->building_id);
if (!pj->holder)
{
c->con.printerr("Forgetting job %d (%s): holder building lost.",
pj->id, ENUM_KEY_STR(job_type, pj->job_copy->job_type));
forget_job(c, pj);
return true;
}
// Check its state and postpone or cancel if invalid
if (pj->holder->jobs.size() >= 10)
{
c->con.printerr("Forgetting job %d (%s): holder building has too many jobs.",
pj->id, ENUM_KEY_STR(job_type, pj->job_copy->job_type));
forget_job(c, pj);
return true;
}
if (!pj->holder->jobs.empty())
{
df::job_type ftype = pj->holder->jobs[0]->job_type;
if (ftype == job_type::DestroyBuilding)
return false;
if (ENUM_ATTR(job_type,type,ftype) == job_type_class::StrangeMood)
return false;
}
// Create and link in the actual job structure
df::job *recovered = cloneJobStruct(pj->job_copy);
if (!linkJobIntoWorld(recovered, false)) // reuse same id
{
deleteJobStruct(recovered);
c->con.printerr("Inconsistency: job %d (%s) already in list.",
pj->id, ENUM_KEY_STR(job_type, pj->job_copy->job_type));
return true;
}
pj->holder->jobs.push_back(recovered);
// Done
pj->recover(recovered);
return true;
}
static void check_lost_jobs(Core *c, int ticks)
{
ProtectedJob::cur_tick_idx++;
if (ticks < 0) ticks = 0;
df::job_list_link *p = world->job_list.next;
for (; p; p = p->next)
{
df::job *job = p->item;
ProtectedJob *pj = get_known(job->id);
if (pj)
{
if (!job->flags.bits.repeat)
forget_job(c, pj);
else
pj->tick_job(job, ticks);
}
else if (job->flags.bits.repeat && isSupportedJob(job))
{
pj = new ProtectedJob(job);
assert(pj->holder);
known_jobs[pj->id] = pj;
}
}
for (TKnownJobs::const_iterator it = known_jobs.begin(); it != known_jobs.end(); ++it)
{
if (it->second->tick_idx == ProtectedJob::cur_tick_idx ||
!it->second->isLive())
continue;
it->second->actual_job = NULL;
pending_recover.push_back(it->second);
}
}
static void update_job_data(Core *c)
{
df::job_list_link *p = world->job_list.next;
for (; p; p = p->next)
{
ProtectedJob *pj = get_known(p->item->id);
if (!pj)
continue;
pj->update(p->item);
}
}
static void recover_jobs(Core *c)
{
for (int i = pending_recover.size()-1; i >= 0; i--)
if (recover_job(c, pending_recover[i]))
vector_erase_at(pending_recover, i);
}
static void process_constraints(Core *c);
DFhackCExport command_result plugin_onupdate(Core* c)
{
if (!enabled)
return CR_OK;
// Every 5 frames check the jobs for disappearance
static unsigned cnt = 0;
if ((++cnt % 5) != 0)
return CR_OK;
check_lost_jobs(c, world->frame_counter - last_tick_frame_count);
last_tick_frame_count = world->frame_counter;
// Proceed every in-game half-day, or when jobs to recover changed
static unsigned last_rlen = 0;
bool check_time = (world->frame_counter - last_frame_count) >= DAY_TICKS/2;
if (pending_recover.size() != last_rlen || check_time)
{
recover_jobs(c);
last_rlen = pending_recover.size();
// If the half-day passed, proceed to update
if (check_time)
{
last_frame_count = world->frame_counter;
update_job_data(c);
process_constraints(c);
}
}
return CR_OK;
}
/******************************
* ITEM COUNT CONSTRAINT *
******************************/
static ItemConstraint *get_constraint(Core *c, const std::string &str, PersistentDataItem *cfg)
{
std::vector<std::string> tokens;
split_string(&tokens, str, "/");
if (tokens.size() > 3)
return NULL;
int weight = 0;
ItemTypeInfo item;
if (!item.find(tokens[0]) || !item.isValid()) {
c->con.printerr("Cannot find item type: %s\n", tokens[0].c_str());
return NULL;
}
if (item.subtype >= 0)
weight += 10000;
df::dfhack_material_category mat_mask;
std::string maskstr = vector_get(tokens,1);
if (!maskstr.empty() && !parseJobMaterialCategory(&mat_mask, maskstr)) {
c->con.printerr("Cannot decode material mask: %s\n", maskstr.c_str());
return NULL;
}
if (mat_mask.whole != 0)
weight += 100;
MaterialInfo material;
std::string matstr = vector_get(tokens,2);
if (!matstr.empty() && (!material.find(matstr) || !material.isValid())) {
c->con.printerr("Cannot find material: %s\n", matstr.c_str());
return NULL;
}
if (material.type >= 0)
weight += (material.index >= 0 ? 5000 : 1000);
if (mat_mask.whole && material.isValid() && !material.matches(mat_mask)) {
c->con.printerr("Material %s doesn't match mask %s\n", matstr.c_str(), maskstr.c_str());
return NULL;
}
for (unsigned i = 0; i < constraints.size(); i++)
{
ItemConstraint *ct = constraints[i];
if (ct->item == item && ct->material == material &&
ct->mat_mask.whole == mat_mask.whole)
return ct;
}
ItemConstraint *nct = new ItemConstraint;
nct->item = item;
nct->material = material;
nct->mat_mask = mat_mask;
nct->weight = weight;
if (cfg)
nct->config = *cfg;
else
{
nct->config = c->getWorld()->AddPersistentData("workflow/constraints");
nct->init(str);
}
constraints.push_back(nct);
return nct;
}
static void delete_constraint(Core *c, ItemConstraint *cv)
{
int idx = linear_index(constraints, cv);
if (idx >= 0)
vector_erase_at(constraints, idx);
c->getWorld()->DeletePersistentData(cv->config);
delete cv;
}
/******************************
* JOB-CONSTRAINT MAPPING *
******************************/
static void link_job_constraint(ProtectedJob *pj, df::item_type itype, int16_t isubtype,
df::dfhack_material_category mat_mask,
int16_t mat_type, int32_t mat_index)
{
MaterialInfo mat(mat_type, mat_index);
for (unsigned i = 0; i < constraints.size(); i++)
{
ItemConstraint *ct = constraints[i];
if (ct->item.type != itype ||
(ct->item.subtype != -1 && ct->item.subtype != isubtype))
continue;
if (!mat.matches(ct->material))
continue;
if (ct->mat_mask.whole)
{
if (mat.isValid())
{
if (!mat.matches(ct->mat_mask))
continue;
}
else
{
if (!(mat_mask.whole & ct->mat_mask.whole))
continue;
}
}
if (linear_index(pj->constraints, ct) >= 0)
continue;
ct->jobs.push_back(pj);
pj->constraints.push_back(ct);
if (!ct->is_active && pj->isResumed())
ct->is_active = true;
}
}
static void compute_custom_job(ProtectedJob *pj, df::job *job)
{
if (pj->reaction_id < 0)
pj->reaction_id = linear_index(df::reaction::get_vector(),
&df::reaction::code, job->reaction_name);
df::reaction *r = df::reaction::find(pj->reaction_id);
if (!r)
return;
for (unsigned i = 0; i < r->products.size(); i++)
{
using namespace df::enums::reaction_product_item_flags;
VIRTUAL_CAST_VAR(prod, df::reaction_product_itemst, r->products[i]);
if (!prod || prod->item_type < 0)
continue;
MaterialInfo mat(prod);
df::dfhack_material_category mat_mask(0);
bool get_mat_prod = prod->flags.is_set(GET_MATERIAL_PRODUCT);
if (get_mat_prod || prod->flags.is_set(GET_MATERIAL_SAME))
{
int reagent_idx = linear_index(r->reagents, &df::reaction_reagent::code,
prod->get_material.reagent_code);
if (reagent_idx < 0)
continue;
int item_idx = linear_index(job->job_items, &df::job_item::reagent_index, reagent_idx);
if (item_idx >= 0)
mat.decode(job->job_items[item_idx]);
else
{
VIRTUAL_CAST_VAR(src, df::reaction_reagent_itemst, r->reagents[reagent_idx]);
if (!src)
continue;
mat.decode(src);
}
if (get_mat_prod)
{
std::string code = prod->get_material.product_code;
if (mat.isValid())
{
int idx = linear_index(mat.material->reaction_product.id, code);
if (idx < 0)
continue;
mat.decode(mat.material->reaction_product.material, idx);
}
else
{
if (code == "SOAP_MAT")
mat_mask.bits.soap = true;
}
}
}
link_job_constraint(pj, prod->item_type, prod->item_subtype,
mat_mask, mat.type, mat.index);
}
}
static void guess_job_material(df::job *job, MaterialInfo &mat, df::dfhack_material_category &mat_mask)
{
using namespace df::enums::job_type;
if (job->job_type == PrepareMeal)
mat.decode(-1);
else
mat.decode(job);
mat_mask.whole = job->material_category.whole;
// Material from the job enum
const char *job_material = ENUM_ATTR(job_type, material, job->job_type);
if (job_material)
{
MaterialInfo info;
if (info.findBuiltin(job_material))
mat = info;
else
parseJobMaterialCategory(&mat_mask, job_material);
}
// Material from the job reagent
if (!mat.isValid() && !job->job_items.empty() &&
(job->job_items.size() == 1 ||
job->job_items[0]->item_type == item_type::PLANT))
{
mat.decode(job->job_items[0]);
switch (job->job_items[0]->item_type)
{
case item_type::WOOD:
mat_mask.bits.wood = mat_mask.bits.wood2 = true;
break;
}
}
}
static void compute_job_outputs(Core *c, ProtectedJob *pj)
{
using namespace df::enums::job_type;
// Custom reactions handled in another function
df::job *job = pj->job_copy;
if (job->job_type == CustomReaction)
{
compute_custom_job(pj, job);
return;
}
// Item type & subtype
df::item_type itype = ENUM_ATTR(job_type, item, job->job_type);
int16_t isubtype = job->item_subtype;
if (itype == item_type::NONE)
return;
// Item material & material category
MaterialInfo mat;
df::dfhack_material_category mat_mask;
guess_job_material(job, mat, mat_mask);
// Job-specific code
switch (job->job_type)
{
case SmeltOre:
if (mat.inorganic)
{
std::vector<int16_t> &ores = mat.inorganic->metal_ore.mat_index;
for (unsigned i = 0; i < ores.size(); i++)
link_job_constraint(pj, item_type::BAR, -1, 0, 0, ores[i]);
}
return;
case ExtractMetalStrands:
if (mat.inorganic)
{
std::vector<int16_t> &threads = mat.inorganic->thread_metal.mat_index;
for (unsigned i = 0; i < threads.size(); i++)
link_job_constraint(pj, item_type::THREAD, -1, 0, 0, threads[i]);
}
return;
case PrepareMeal:
if (job->mat_type != -1)
{
std::vector<df::itemdef_foodst*> &food = df::itemdef_foodst::get_vector();
for (unsigned i = 0; i < food.size(); i++)
if (food[i]->level == job->mat_type)
link_job_constraint(pj, item_type::FOOD, i, 0, -1, -1);
return;
}
break;
#define PLANT_PROCESS_MAT(flag, tag) \
if (mat.plant && mat.plant->flags.is_set(plant_raw_flags::flag)) \
mat.decode(mat.plant->material_defs.type_##tag, \
mat.plant->material_defs.idx_##tag); \
else mat.decode(-1);
case MillPlants:
PLANT_PROCESS_MAT(MILL, mill);
break;
case ProcessPlants:
PLANT_PROCESS_MAT(THREAD, thread);
break;
case ProcessPlantsBag:
PLANT_PROCESS_MAT(LEAVES, leaves);
break;
case ProcessPlantsBarrel:
PLANT_PROCESS_MAT(EXTRACT_BARREL, extract_barrel);
break;
case ProcessPlantsVial:
PLANT_PROCESS_MAT(EXTRACT_VIAL, extract_vial);
break;
case ExtractFromPlants:
PLANT_PROCESS_MAT(EXTRACT_STILL_VIAL, extract_still_vial);
break;
#undef PLANT_PROCESS_MAT
default:
break;
}
link_job_constraint(pj, itype, isubtype, mat_mask, mat.type, mat.index);
}
static void map_job_constraints(Core *c)
{
melt_active = false;
for (unsigned i = 0; i < constraints.size(); i++)
{
constraints[i]->jobs.clear();
constraints[i]->is_active = false;
}
for (TKnownJobs::const_iterator it = known_jobs.begin(); it != known_jobs.end(); ++it)
{
ProtectedJob *pj = it->second;
pj->constraints.clear();
if (!pj->isLive())
continue;
if (!melt_active && pj->actual_job->job_type == job_type::MeltMetalObject)
melt_active = pj->isResumed();
compute_job_outputs(c, pj);
}
}
/******************************
* ITEM-CONSTRAINT MAPPING *
******************************/
static void dryBucket(df::item *item)
{
for (unsigned i = 0; i < item->itemrefs.size(); i++)
{
df::general_ref *ref = item->itemrefs[i];
if (strict_virtual_cast<df::general_ref_contains_itemst>(ref))
{
df::item *obj = ref->getItem();
if (obj &&
obj->getType() == item_type::LIQUID_MISC &&
obj->getMaterial() == builtin_mats::WATER)
{
obj->flags.bits.garbage_colect = true;
obj->flags.bits.hidden = true;
}
}
}
}
static bool itemBusy(df::item *item)
{
using namespace df::enums::item_type;
for (unsigned i = 0; i < item->itemrefs.size(); i++)
{
df::general_ref *ref = item->itemrefs[i];
if (strict_virtual_cast<df::general_ref_contains_itemst>(ref))
{
df::item *obj = ref->getItem();
if (obj && !obj->flags.bits.garbage_colect)
return true;
}
else if (strict_virtual_cast<df::general_ref_contains_unitst>(ref))
return true;
else if (strict_virtual_cast<df::general_ref_unit_holderst>(ref))
{
if (!item->flags.bits.in_job)
return true;
}
else if (strict_virtual_cast<df::general_ref_contained_in_itemst>(ref))
{
df::item *obj = ref->getItem();
if (!obj)
continue;
// Stuff in flasks and backpacks is busy
df::item_type type = obj->getType();
if ((type == FLASK && item->getType() == DRINK) || type == BACKPACK)
return true;
}
}
return false;
}
static bool itemInRealJob(df::item *item)
{
if (!item->flags.bits.in_job)
return false;
if (item->jobs.size() != 1 ||
item->jobs[0]->unk1 != 2 ||
item->jobs[0]->job == NULL)
return true;
return ENUM_ATTR(job_type, type, item->jobs[0]->job->job_type)
!= job_type_class::Hauling;
}
static void map_job_items(Core *c)
{
for (unsigned i = 0; i < constraints.size(); i++)
{
constraints[i]->item_amount = 0;
constraints[i]->item_count = 0;
constraints[i]->item_inuse = 0;
}
meltable_count = 0;
// Precompute a bitmask with the bad flags
df::item_flags bad_flags;
bad_flags.whole = 0;
#define F(x) bad_flags.bits.x = true;
F(dump); F(forbid); F(garbage_colect);
F(hostile); F(on_fire); F(rotten); F(trader);
F(in_building); F(construction); F(artifact1);
#undef F
bool dry_buckets = isOptionEnabled(CF_DRYBUCKETS);
std::vector<df::item*> &items = world->items.other[items_other_id::ANY_FREE];
for (unsigned i = 0; i < items.size(); i++)
{
df::item *item = items[i];
if (item->flags.whole & bad_flags.whole)
continue;
df::item_type itype = item->getType();
int16_t isubtype = item->getSubtype();
int16_t imattype = item->getActualMaterial();
int32_t imatindex = item->getActualMaterialIndex();
// Special handling
if (dry_buckets && itype == item_type::BUCKET && !item->flags.bits.in_job)
dryBucket(item);
if (item->flags.bits.melt && !item->flags.bits.owned && !itemBusy(item))
meltable_count++;
// Match to constraints
TMaterialCache::key_type matkey(imattype, imatindex);
for (unsigned i = 0; i < constraints.size(); i++)
{
ItemConstraint *cv = constraints[i];
if (cv->item.type != itype ||
(cv->item.subtype != -1 && cv->item.subtype != isubtype))
continue;
TMaterialCache::iterator it = cv->material_cache.find(matkey);
bool ok = true;
if (it != cv->material_cache.end())
ok = it->second;
else
{
MaterialInfo mat(imattype, imatindex);
ok = mat.matches(cv->material) &&
(cv->mat_mask.whole == 0 || mat.matches(cv->mat_mask));
cv->material_cache[matkey] = ok;
}
if (!ok)
continue;
if (item->flags.bits.owned ||
item->flags.bits.in_chest ||
item->isAssignedToStockpile() ||
itemInRealJob(item) ||
itemBusy(item))
{
cv->item_inuse++;
}
else
{
cv->item_count++;
cv->item_amount += item->getStackSize();
}
}
}
for (unsigned i = 0; i < constraints.size(); i++)
constraints[i]->computeRequest();
}
/******************************
* ITEM COUNT CONSTRAINT *
******************************/
static std::string shortJobDescription(df::job *job);
static void setJobResumed(Core *c, ProtectedJob *pj, bool goal)
{
bool current = pj->isResumed();
pj->set_resumed(goal);
if (goal != current)
{
c->con.print("%s %s%s\n",
(goal ? "Resuming" : "Suspending"),
shortJobDescription(pj->actual_job).c_str(),
(!goal || pj->isActuallyResumed() ? "" : " (delayed)"));
}
}
static void update_jobs_by_constraints(Core *c)
{
for (TKnownJobs::const_iterator it = known_jobs.begin(); it != known_jobs.end(); ++it)
{
ProtectedJob *pj = it->second;
if (!pj->isLive())
continue;
if (pj->actual_job->job_type == job_type::MeltMetalObject &&
isOptionEnabled(CF_AUTOMELT))
{
setJobResumed(c, pj, meltable_count > 0);
continue;
}
if (pj->constraints.empty())
continue;
int resume_weight = -1;
int suspend_weight = -1;
for (unsigned i = 0; i < pj->constraints.size(); i++)
{
if (pj->constraints[i]->request_resume)
resume_weight = std::max(resume_weight, pj->constraints[i]->weight);
if (pj->constraints[i]->request_suspend)
suspend_weight = std::max(suspend_weight, pj->constraints[i]->weight);
}
bool goal = pj->isResumed();
if (resume_weight >= 0 && resume_weight >= suspend_weight)
goal = true;
else if (suspend_weight >= 0 && suspend_weight >= resume_weight)
goal = false;
setJobResumed(c, pj, goal);
}
for (unsigned i = 0; i < constraints.size(); i++)
{
ItemConstraint *ct = constraints[i];
bool is_running = false;
for (unsigned j = 0; j < ct->jobs.size(); j++)
if (!!(is_running = ct->jobs[j]->isResumed()))
break;
std::string info = ct->item.toString();
if (ct->material.isValid())
info = ct->material.toString() + " " + info;
else if (ct->mat_mask.whole)
info = bitfieldToString(ct->mat_mask) + " " + info;
if (is_running != ct->is_active)
{
if (is_running && ct->request_resume)
showAnnouncement("Resuming production: " + info, 2, false);
else if (!is_running && !ct->request_resume)
showAnnouncement("Stopping production: " + info, 3, false);
}
if (ct->request_resume && !is_running)
{
if (!ct->cant_resume_reported)
showAnnouncement("Cannot produce: " + info, 6, true);
ct->cant_resume_reported = true;
}
else
{
ct->cant_resume_reported = false;
}
}
}
static void process_constraints(Core *c)
{
if (constraints.empty() &&
!isOptionEnabled(CF_DRYBUCKETS | CF_AUTOMELT))
return;
map_job_constraints(c);
map_job_items(c);
update_jobs_by_constraints(c);
}
/******************************
* PRINTING AND THE COMMAND *
******************************/
static std::string shortJobDescription(df::job *job)
{
std::string rv = stl_sprintf("job %d: ", job->id);
if (job->job_type != job_type::CustomReaction)
rv += ENUM_KEY_STR(job_type, job->job_type);
else
rv += job->reaction_name;
MaterialInfo mat;
df::dfhack_material_category mat_mask;
guess_job_material(job, mat, mat_mask);
if (mat.isValid())
rv += " [" + mat.toString() + "]";
else if (mat_mask.whole)
rv += " [" + bitfieldToString(mat_mask) + "]";
return rv;
}
static void print_constraint(Core *c, ItemConstraint *cv, bool no_job = false, std::string prefix = "")
{
Console::color_value color;
if (cv->request_resume)
color = Console::COLOR_GREEN;
else if (cv->request_suspend)
color = Console::COLOR_CYAN;
else
color = Console::COLOR_DARKGREY;
c->con.color(color);
c->con << prefix << "Constraint " << flush;
c->con.color(Console::COLOR_GREY);
c->con << cv->config.val() << " " << flush;
c->con.color(color);
c->con << (cv->goalByCount() ? "count " : "amount ")
<< cv->goalCount() << " (gap " << cv->goalGap() << ")" << endl;
c->con.reset_color();
if (cv->item_count || cv->item_inuse)
c->con << prefix << " items: amount " << cv->item_amount << "; "
<< cv->item_count << " stacks available, "
<< cv->item_inuse << " in use." << endl;
if (no_job) return;
if (cv->jobs.empty())
c->con.printerr(" (no jobs)\n");
std::vector<ProtectedJob*> unique_jobs;
std::vector<int> unique_counts;
for (int i = 0; i < cv->jobs.size(); i++)
{
ProtectedJob *pj = cv->jobs[i];
for (int j = 0; j < unique_jobs.size(); j++)
{
if (unique_jobs[j]->building_id == pj->building_id &&
*unique_jobs[j]->actual_job == *pj->actual_job)
{
unique_counts[j]++;
goto next_job;
}
}
unique_jobs.push_back(pj);
unique_counts.push_back(1);
next_job:;
}
for (int i = 0; i < unique_jobs.size(); i++)
{
ProtectedJob *pj = unique_jobs[i];
df::job *job = pj->actual_job;
std::string start = prefix + " " + shortJobDescription(job);
if (!pj->isActuallyResumed())
{
if (pj->want_resumed)
{
c->con.color(Console::COLOR_YELLOW);
c->con << start << " (delayed)" << endl;
}
else
{
c->con.color(Console::COLOR_BLUE);
c->con << start << " (suspended)" << endl;
}
}
else
{
c->con.color(Console::COLOR_GREEN);
c->con << start << endl;
}
c->con.reset_color();
if (unique_counts[i] > 1)
c->con << prefix << " (" << unique_counts[i] << " copies)" << endl;
}
}
static void print_job(Core *c, ProtectedJob *pj)
{
if (!pj)
return;
df::job *job = pj->isLive() ? pj->actual_job : pj->job_copy;
printJobDetails(c, job);
if (job->job_type == job_type::MeltMetalObject &&
isOptionEnabled(CF_AUTOMELT))
{
if (meltable_count <= 0)
c->con.color(Console::COLOR_CYAN);
else if (pj->want_resumed && !pj->isActuallyResumed())
c->con.color(Console::COLOR_YELLOW);
else
c->con.color(Console::COLOR_GREEN);
c->con << " Meltable: " << meltable_count << " objects." << endl;
c->con.reset_color();
}
for (int i = 0; i < pj->constraints.size(); i++)
print_constraint(c, pj->constraints[i], true, " ");
}
static command_result workflow_cmd(Core *c, vector <string> & parameters)
{
CoreSuspender suspend(c);
if (enabled) {
check_lost_jobs(c, 0);
recover_jobs(c);
update_job_data(c);
map_job_constraints(c);
map_job_items(c);
}
df::building *workshop = NULL;
df::job *job = NULL;
if (dwarfmode_hotkey(c, c->getTopViewscreen()) &&
ui->main.mode == ui_sidebar_mode::QueryBuilding)
{
workshop = world->selected_building;
job = getSelectedWorkshopJob(c, true);
}
std::string cmd = parameters.empty() ? "list" : parameters[0];
if (cmd == "enable" || cmd == "disable")
{
bool enable = (cmd == "enable");
if (enable && !enabled)
{
enable_plugin(c);
}
else if (!enable && parameters.size() == 1)
{
if (enabled)
{
enabled = false;
setOptionEnabled(CF_ENABLED, false);
stop_protect(c);
}
c->con << "The plugin is disabled." << endl;
return CR_OK;
}
for (unsigned i = 1; i < parameters.size(); i++)
{
if (parameters[i] == "drybuckets")
setOptionEnabled(CF_DRYBUCKETS, enable);
else if (parameters[i] == "auto-melt")
setOptionEnabled(CF_AUTOMELT, enable);
else
return CR_WRONG_USAGE;
}
if (enabled)
c->con << "The plugin is enabled." << endl;
else
c->con << "The plugin is disabled." << endl;
if (isOptionEnabled(CF_DRYBUCKETS))
c->con << "Option drybuckets is enabled." << endl;
if (isOptionEnabled(CF_AUTOMELT))
c->con << "Option auto-melt is enabled." << endl;
return CR_OK;
}
else if (cmd == "count" || cmd == "amount")
{
if (!enabled)
enable_plugin(c);
}
if (!enabled)
c->con << "Note: the plugin is not enabled." << endl;
if (cmd == "jobs")
{
if (workshop)
{
for (unsigned i = 0; i < workshop->jobs.size(); i++)
print_job(c, get_known(workshop->jobs[i]->id));
}
else
{
for (TKnownJobs::iterator it = known_jobs.begin(); it != known_jobs.end(); ++it)
if (it->second->isLive())
print_job(c, it->second);
}
bool pending = false;
for (unsigned i = 0; i < pending_recover.size(); i++)
{
if (!workshop || pending_recover[i]->holder == workshop)
{
if (!pending)
{
c->con.print("\nPending recovery:\n");
pending = true;
}
printJobDetails(c, pending_recover[i]->job_copy);
}
}
return CR_OK;
}
else if (cmd == "list")
{
for (int i = 0; i < constraints.size(); i++)
print_constraint(c, constraints[i]);
return CR_OK;
}
else if (cmd == "count" || cmd == "amount")
{
if (parameters.size() < 3)
return CR_WRONG_USAGE;
int limit = atoi(parameters[2].c_str());
if (limit <= 0) {
c->con.printerr("Invalid limit value.\n");
return CR_FAILURE;
}
ItemConstraint *icv = get_constraint(c, parameters[1]);
if (!icv)
return CR_FAILURE;
icv->setGoalByCount(cmd == "count");
icv->setGoalCount(limit);
if (parameters.size() >= 4)
icv->setGoalGap(atoi(parameters[3].c_str()));
else
icv->setGoalGap(-1);
process_constraints(c);
print_constraint(c, icv);
return CR_OK;
}
else if (cmd == "unlimit")
{
if (parameters.size() != 2)
return CR_WRONG_USAGE;
for (int i = 0; i < constraints.size(); i++)
{
if (constraints[i]->config.val() != parameters[1])
continue;
delete_constraint(c, constraints[i]);
return CR_OK;
}
c->con.printerr("Constraint not found: %s\n", parameters[1].c_str());
return CR_FAILURE;
}
else
return CR_WRONG_USAGE;
}