#include #include #include #include #include #include "df/viewscreen_announcelistst.h" #include "df/viewscreen_petst.h" #include "df/viewscreen_storesst.h" #include "df/viewscreen_layer_stockpilest.h" #include "df/viewscreen_layer_militaryst.h" #include "df/viewscreen_layer_noblelistst.h" #include "df/viewscreen_tradegoodsst.h" #include "df/viewscreen_unitlistst.h" #include "df/viewscreen_buildinglistst.h" #include "df/viewscreen_joblistst.h" #include "df/interface_key.h" #include "df/interfacest.h" #include "df/layer_object_listst.h" #include "df/job.h" #include "df/report.h" #include "modules/Job.h" #include "df/global_objects.h" #include "df/viewscreen_dwarfmodest.h" #include "modules/Gui.h" #include "df/unit.h" #include "df/misc_trait_type.h" #include "df/unit_misc_trait.h" using std::set; using std::vector; using std::string; using namespace DFHack; using namespace df::enums; using df::global::gps; using df::global::gview; /* Search Plugin A plugin that adds a "Search" hotkey to some screens (Units, Trade and Stocks) that allows filtering of the list items by a typed query. Works by manipulating the vector(s) that the list based viewscreens use to store their items. When a search is started the plugin saves the original vectors and with each keystroke creates a new filtered vector off the saves for the screen to use. */ void OutputString(int8_t color, int &x, int y, const std::string &text) { Screen::paintString(Screen::Pen(' ', color, 0), x, y, text); x += text.length(); } static bool is_live_screen(const df::viewscreen *screen) { for (df::viewscreen *cur = &gview->view; cur; cur = cur->child) if (cur == screen) return true; return false; } static string get_unit_description(df::unit *unit) { string desc; auto name = Units::getVisibleName(unit); if (name->has_name) desc = Translation::TranslateName(name, false); desc += ", " + Units::getProfessionName(unit); // Check animal type too return desc; } // // START: Generic Search functionality // template class search_generic { public: bool init(S *screen) { if (screen != viewscreen && !reset_on_change()) return false; if (!can_init(screen)) return false; if (!is_valid()) { this->viewscreen = screen; this->cursor_pos = get_viewscreen_cursor(); this->primary_list = get_primary_list(); this->select_key = get_search_select_key(); select_token = (df::interface_key) (ascii_to_enum_offset + select_key); valid = true; do_post_init(); } return true; } // Called each time you enter or leave a searchable screen. Resets everything. virtual void reset_all() { reset_search(); valid = false; primary_list = NULL; viewscreen = NULL; select_key = 's'; } bool reset_on_change() { if (valid && is_live_screen(viewscreen)) return false; reset_all(); return true; } bool is_valid() { return valid; } // A new keystroke is received in a searchable screen virtual bool process_input(set *input) { // If the page has two search options (Trade screen), only allow one to operate // at a time if (lock != NULL && lock != this) return false; // Allows custom preprocessing for each screen if (!should_check_input(input)) return false; bool key_processed = true; if (entry_mode) { // Query typing mode df::interface_key last_token = *input->rbegin(); if (last_token >= interface_key::STRING_A032 && last_token <= interface_key::STRING_A126) { // Standard character search_string += last_token - ascii_to_enum_offset; do_search(); } else if (last_token == interface_key::STRING_A000) { // Backspace if (search_string.length() > 0) { search_string.erase(search_string.length()-1); do_search(); } } else if (input->count(interface_key::SELECT) || input->count(interface_key::LEAVESCREEN)) { // ENTER or ESC: leave typing mode end_entry_mode(); } else if (input->count(interface_key::CURSOR_UP) || input->count(interface_key::CURSOR_DOWN) || input->count(interface_key::CURSOR_LEFT) || input->count(interface_key::CURSOR_RIGHT)) { // Arrow key pressed. Leave entry mode and allow screen to process key end_entry_mode(); key_processed = false; } } // Not in query typing mode else if (input->count(select_token)) { // Hotkey pressed, enter typing mode start_entry_mode(); } else if (input->count((df::interface_key) (select_token + shift_offset))) { // Shift + Hotkey pressed, clear query clear_search(); } else { // Not a key for us, pass it on to the screen key_processed = false; } return key_processed || entry_mode; // Only pass unrecognized keys down if not in typing mode } // Called after a keystroke has been processed virtual void do_post_input_feed() { } static search_generic *lock; protected: virtual string get_element_description(T element) const = 0; virtual void render() const = 0; virtual int32_t *get_viewscreen_cursor() = 0; virtual vector *get_primary_list() = 0; search_generic() : ascii_to_enum_offset(interface_key::STRING_A048 - '0'), shift_offset('A' - 'a') { reset_all(); } virtual bool can_init(S *screen) { return true; } virtual void do_post_init() { } bool in_entry_mode() { return entry_mode; } void start_entry_mode() { entry_mode = true; lock = this; } void end_entry_mode() { entry_mode = false; lock = NULL; } virtual char get_search_select_key() { return 's'; } virtual void reset_search() { end_entry_mode(); search_string = ""; saved_list1.clear(); } // Shortcut to clear the search immediately virtual void clear_search() { if (saved_list1.size() > 0) { *primary_list = saved_list1; saved_list1.clear(); } search_string = ""; } virtual void save_original_values() { saved_list1 = *primary_list; } virtual void do_pre_incremental_search() { } virtual void clear_viewscreen_vectors() { primary_list->clear(); } virtual void add_to_filtered_list(size_t i) { primary_list->push_back(saved_list1[i]); } virtual void do_post_search() { } virtual bool is_valid_for_search(size_t index) { return true; } // The actual sort virtual void do_search() { if (search_string.length() == 0) { clear_search(); return; } if (saved_list1.size() == 0) // On first run, save the original list save_original_values(); else do_pre_incremental_search(); clear_viewscreen_vectors(); string search_string_l = toLower(search_string); for (size_t i = 0; i < saved_list1.size(); i++ ) { if (!is_valid_for_search(i)) continue; T element = saved_list1[i]; string desc = toLower(get_element_description(element)); if (desc.find(search_string_l) != string::npos) { add_to_filtered_list(i); } } do_post_search(); if (cursor_pos) *cursor_pos = 0; } virtual bool should_check_input(set *input) { return true; } // Display hotkey message void print_search_option(int x, int y = -1) const { auto dim = Screen::getWindowSize(); if (y == -1) y = dim.y - 2; OutputString((entry_mode) ? 4 : 12, x, y, string(1, select_key)); OutputString((entry_mode) ? 10 : 15, x, y, ": Search"); if (search_string.length() > 0 || entry_mode) OutputString(15, x, y, ": " + search_string); if (entry_mode) OutputString(10, x, y, "_"); } S *viewscreen; vector saved_list1, reference_list, *primary_list; //bool redo_search; string search_string; private: int *cursor_pos; char select_key; bool valid; bool entry_mode; df::interface_key select_token; const int ascii_to_enum_offset; const int shift_offset; }; template search_generic *search_generic ::lock = NULL; // Search class helper for layered screens template class layered_search : public search_generic { protected: virtual bool can_init(S *screen) { auto list = getLayerList(screen); if (!list->active) { if (this->is_valid()) { this->clear_search(); this->reset_all(); } return false; } return true; } virtual void do_search() { search_generic::do_search(); auto list = getLayerList(this->viewscreen); list->num_entries = this->get_primary_list()->size(); } int32_t *get_viewscreen_cursor() { auto list = getLayerList(this->viewscreen); return &list->cursor; } virtual void clear_search() { search_generic::clear_search(); auto list = getLayerList(this->viewscreen); list->num_entries = this->get_primary_list()->size(); } private: static df::layer_object_listst *getLayerList(const df::viewscreen_layer *layer) { return virtual_cast(vector_get(layer->layer_objects, LIST_ID)); } }; // Parent class for screens that have more than one primary list to synchronise template < class S, class T, class PARENT = search_generic > class search_multicolumn_modifiable_generic : public PARENT { protected: vector reference_list; vector saved_indexes; bool read_only; virtual void update_saved_secondary_list_item(size_t i, size_t j) = 0; virtual void save_secondary_values() = 0; virtual void clear_secondary_viewscreen_vectors() = 0; virtual void add_to_filtered_secondary_lists(size_t i) = 0; virtual void clear_secondary_saved_lists() = 0; virtual void reset_secondary_viewscreen_vectors() = 0; virtual void restore_secondary_values() = 0; virtual void do_post_init() { // If true, secondary list isn't modifiable so don't bother synchronising values read_only = false; } void reset_all() { PARENT::reset_all(); reference_list.clear(); saved_indexes.clear(); reset_secondary_viewscreen_vectors(); } void reset_search() { PARENT::reset_search(); reference_list.clear(); saved_indexes.clear(); clear_secondary_saved_lists(); } virtual void clear_search() { if (this->saved_list1.size() > 0) { do_pre_incremental_search(); restore_secondary_values(); } clear_secondary_saved_lists(); PARENT::clear_search(); do_post_search(); } virtual bool is_match(T &a, T &b) = 0; virtual bool is_match(vector &a, vector &b) = 0; void do_pre_incremental_search() { PARENT::do_pre_incremental_search(); if (read_only) return; bool list_has_been_sorted = (this->primary_list->size() == reference_list.size() && !is_match(*this->primary_list, reference_list)); for (size_t i = 0; i < saved_indexes.size(); i++) { int adjusted_item_index = i; if (list_has_been_sorted) { for (size_t j = 0; j < this->primary_list->size(); j++) { if (is_match((*this->primary_list)[j], reference_list[i])) { adjusted_item_index = j; break; } } } update_saved_secondary_list_item(saved_indexes[i], adjusted_item_index); } saved_indexes.clear(); } void clear_viewscreen_vectors() { search_generic::clear_viewscreen_vectors(); saved_indexes.clear(); clear_secondary_viewscreen_vectors(); } void add_to_filtered_list(size_t i) { search_generic::add_to_filtered_list(i); add_to_filtered_secondary_lists(i); if (!read_only) saved_indexes.push_back(i); // Used to map filtered indexes back to original, if needed } virtual void do_post_search() { if (!read_only) reference_list = *this->primary_list; } void save_original_values() { search_generic::save_original_values(); save_secondary_values(); } }; // This basic match function is separated out from the generic multi column class, because the // pets screen, which uses a union in its primary list, will cause a compile failure is this // match function exists in the generic class template < class S, class T, class PARENT = search_generic > class search_multicolumn_modifiable : public search_multicolumn_modifiable_generic { bool is_match(T &a, T &b) { return a == b; } bool is_match(vector &a, vector &b) { return a == b; } }; // General class for screens that have only one secondary list to keep in sync template < class S, class T, class V, class PARENT = search_generic > class search_twocolumn_modifiable : public search_multicolumn_modifiable { public: protected: virtual vector * get_secondary_list() = 0; virtual void do_post_init() { search_multicolumn_modifiable::do_post_init(); secondary_list = get_secondary_list(); } void save_secondary_values() { saved_secondary_list = *secondary_list; } void reset_secondary_viewscreen_vectors() { secondary_list = NULL; } virtual void update_saved_secondary_list_item(size_t i, size_t j) { saved_secondary_list[i] = (*secondary_list)[j]; } void clear_secondary_viewscreen_vectors() { secondary_list->clear(); } void add_to_filtered_secondary_lists(size_t i) { secondary_list->push_back(saved_secondary_list[i]); } void clear_secondary_saved_lists() { saved_secondary_list.clear(); } void restore_secondary_values() { *secondary_list = saved_secondary_list; } vector *secondary_list, saved_secondary_list; }; // Parent struct for the hooks, use optional param D to generate multiple search classes in the same // viewscreen but different static modules template struct generic_search_hook : T { typedef T interpose_base; static V module; DEFINE_VMETHOD_INTERPOSE(void, feed, (set *input)) { if (!module.init(this)) { INTERPOSE_NEXT(feed)(input); return; } if (!module.process_input(input)) { INTERPOSE_NEXT(feed)(input); module.do_post_input_feed(); } } DEFINE_VMETHOD_INTERPOSE(void, render, ()) { bool ok = module.init(this); INTERPOSE_NEXT(render)(); if (ok) module.render(); } }; template V generic_search_hook ::module; // Hook definition helpers #define IMPLEMENT_HOOKS_WITH_ID(screen, module, id) \ typedef generic_search_hook module##_hook; \ template<> IMPLEMENT_VMETHOD_INTERPOSE(module##_hook, feed); \ template<> IMPLEMENT_VMETHOD_INTERPOSE(module##_hook, render) #define IMPLEMENT_HOOKS(screen, module) \ typedef generic_search_hook module##_hook; \ template<> IMPLEMENT_VMETHOD_INTERPOSE(module##_hook, feed); \ template<> IMPLEMENT_VMETHOD_INTERPOSE(module##_hook, render) // // END: Generic Search functionality // // // START: Animal screen search // typedef df::viewscreen_petst::T_animal T_animal; typedef df::viewscreen_petst::T_mode T_mode; class pets_search : public search_multicolumn_modifiable_generic { public: void render() const { if (viewscreen->mode == T_mode::List) print_search_option(25, 4); } private: int32_t *get_viewscreen_cursor() { return &viewscreen->cursor; } vector *get_primary_list() { return &viewscreen->animal; } virtual void do_post_init() { is_vermin = &viewscreen->is_vermin; pet_info = &viewscreen->pet_info; is_tame = &viewscreen->is_tame; is_adopting = &viewscreen->is_adopting; } string get_element_description(df::viewscreen_petst::T_animal element) const { return get_unit_description(element.unit); } bool should_check_input() { return viewscreen->mode == T_mode::List; } bool is_valid_for_search(size_t i) { return is_vermin_s[i] == 0; } void save_secondary_values() { is_vermin_s = *is_vermin; pet_info_s = *pet_info; is_tame_s = *is_tame; is_adopting_s = *is_adopting; } void reset_secondary_viewscreen_vectors() { is_vermin = NULL; pet_info = NULL; is_tame = NULL; is_adopting = NULL; } void update_saved_secondary_list_item(size_t i, size_t j) { is_vermin_s[i] = (*is_vermin)[j]; pet_info_s[i] = (*pet_info)[j]; is_tame_s[i] = (*is_tame)[j]; is_adopting_s[i] = (*is_adopting)[j]; } void clear_secondary_viewscreen_vectors() { is_vermin->clear(); pet_info->clear(); is_tame->clear(); is_adopting->clear(); } void add_to_filtered_secondary_lists(size_t i) { is_vermin->push_back(is_vermin_s[i]); pet_info->push_back(pet_info_s[i]); is_tame->push_back(is_tame_s[i]); is_adopting->push_back(is_adopting_s[i]); } void clear_secondary_saved_lists() { is_vermin_s.clear(); pet_info_s.clear(); is_tame_s.clear(); is_adopting_s.clear(); } void restore_secondary_values() { *is_vermin = is_vermin_s; *pet_info = pet_info_s; *is_tame = is_tame_s; *is_adopting = is_adopting_s; } bool is_match(T_animal &a, T_animal &b) { return a.unit == b.unit; } bool is_match(vector &a, vector &b) { for (size_t i = 0; i < a.size(); i++) { if (!is_match(a[i], b[i])) return false; } return true; } std::vector *is_vermin, is_vermin_s; std::vector *pet_info, pet_info_s; std::vector *is_tame, is_tame_s; std::vector *is_adopting, is_adopting_s; }; IMPLEMENT_HOOKS(df::viewscreen_petst, pets_search); // // END: Animal screen search // // // START: Stocks screen search // class stocks_search : public search_generic { public: void render() const { if (!viewscreen->in_group_mode) print_search_option(2); else { auto dim = Screen::getWindowSize(); int x = 2, y = dim.y - 2; OutputString(15, x, y, "Tab to enable Search"); } } bool process_input(set *input) { if (viewscreen->in_group_mode) return false; redo_search = false; if ((input->count(interface_key::CURSOR_UP) || input->count(interface_key::CURSOR_DOWN)) && !viewscreen->in_right_list) { // Redo search if category changes saved_list1.clear(); end_entry_mode(); if (search_string.length() > 0) redo_search = true; return false; } return search_generic::process_input(input); } virtual void do_post_input_feed() { if (viewscreen->in_group_mode) { // Disable search if item lists are grouped clear_search(); reset_search(); } else if (redo_search) { do_search(); redo_search = false; } } private: int32_t *get_viewscreen_cursor() { return &viewscreen->item_cursor; } virtual vector *get_primary_list() { return &viewscreen->items; } private: string get_element_description(df::item *element) const { return Items::getDescription(element, 0, true); } bool redo_search; }; IMPLEMENT_HOOKS(df::viewscreen_storesst, stocks_search); // // END: Stocks screen search // // // START: Unit screen search // class unitlist_search : public search_twocolumn_modifiable { public: void render() const { print_search_option(28); } private: void do_post_init() { search_twocolumn_modifiable::do_post_init(); read_only = true; } static string get_non_work_description(df::unit *unit) { for (auto p = unit->status.misc_traits.begin(); p < unit->status.misc_traits.end(); p++) { if ((*p)->id == misc_trait_type::Migrant || (*p)->id == misc_trait_type::OnBreak) { int i = (*p)->value; return ".on break"; } } if (unit->profession == profession::BABY || unit->profession == profession::CHILD || unit->profession == profession::DRUNK) { return ""; } if (ENUM_ATTR(profession, military, unit->profession)) return ".military"; return ".idle.no job"; } string get_element_description(df::unit *unit) const { string desc = get_unit_description(unit); if (!unit->job.current_job) { desc += get_non_work_description(unit); } return desc; } bool should_check_input(set *input) { if (input->count(interface_key::CURSOR_LEFT) || input->count(interface_key::CURSOR_RIGHT) || (!in_entry_mode() && input->count(interface_key::UNITVIEW_PRF_PROF))) { if (!in_entry_mode()) { // Changing screens, reset search clear_search(); reset_all(); } else input->clear(); // Ignore cursor keys when typing return false; } return true; } vector *get_secondary_list() { return &viewscreen->jobs[viewscreen->page]; } int32_t *get_viewscreen_cursor() { return &viewscreen->cursor_pos[viewscreen->page]; } vector *get_primary_list() { return &viewscreen->units[viewscreen->page]; } }; IMPLEMENT_HOOKS(df::viewscreen_unitlistst, unitlist_search); // // END: Unit screen search // // // START: Trade screen search // class trade_search_base : public search_twocolumn_modifiable { private: string get_element_description(df::item *element) const { return Items::getDescription(element, 0, true); } bool should_check_input(set *input) { if (in_entry_mode()) return true; if (input->count(interface_key::TRADE_TRADE) || input->count(interface_key::TRADE_OFFER) || input->count(interface_key::TRADE_SEIZE)) { // Block the keys if were searching if (!search_string.empty()) { input->clear(); // Send a force clear to other search class too input->insert(interface_key::CUSTOM_ALT_C); } clear_search_for_trade(); return false; } else if (input->count(interface_key::CUSTOM_ALT_C)) { clear_search_for_trade(); return true; } return true; } void clear_search_for_trade() { // Trying to trade, reset search clear_search(); reset_all(); } }; class trade_search_merc : public trade_search_base { public: virtual void render() const { print_search_option(2, 26); } private: vector *get_secondary_list() { return &viewscreen->trader_selected; } int32_t *get_viewscreen_cursor() { return &viewscreen->trader_cursor; } vector *get_primary_list() { return &viewscreen->trader_items; } char get_search_select_key() { return 'q'; } }; IMPLEMENT_HOOKS_WITH_ID(df::viewscreen_tradegoodsst, trade_search_merc, 1); class trade_search_fort : public trade_search_base { public: virtual void render() const { print_search_option(42, 26); } private: vector *get_secondary_list() { return &viewscreen->broker_selected; } int32_t *get_viewscreen_cursor() { return &viewscreen->broker_cursor; } vector *get_primary_list() { return &viewscreen->broker_items; } char get_search_select_key() { return 'w'; } }; IMPLEMENT_HOOKS_WITH_ID(df::viewscreen_tradegoodsst, trade_search_fort, 2); // // END: Trade screen search // // // START: Stockpile screen search // typedef layered_search stocks_layer; class stockpile_search : public search_twocolumn_modifiable { public: void update_saved_secondary_list_item(size_t i, size_t j) { *saved_secondary_list[i] = *(*secondary_list)[j]; } string get_element_description(string *element) const { return *element; } void render() const { print_search_option(51, 23); } vector *get_primary_list() { return &viewscreen->item_names; } vector *get_secondary_list() { return &viewscreen->item_status; } }; IMPLEMENT_HOOKS(df::viewscreen_layer_stockpilest, stockpile_search); // // END: Stockpile screen search // // // START: Military screen search // class military_search : public layered_search { public: string get_element_description(df::unit *element) const { return get_unit_description(element); } void render() const { print_search_option(52, 22); } char get_search_select_key() { return 'q'; } bool can_init(df::viewscreen_layer_militaryst *screen) { if (screen->page != df::viewscreen_layer_militaryst::Positions) return false; return layered_search::can_init(screen); } vector *get_primary_list() { return &viewscreen->positions.candidates; } bool should_check_input(set *input) { if (input->count(interface_key::SELECT) && !in_entry_mode() && !search_string.empty()) { // About to make an assignment, so restore original list (it will be changed by the game) int32_t *cursor = get_viewscreen_cursor(); df::unit *selected_unit = get_primary_list()->at(*cursor); clear_search(); for (*cursor = 0; *cursor < get_primary_list()->size(); (*cursor)++) { if (get_primary_list()->at(*cursor) == selected_unit) break; } reset_all(); } return true; } }; IMPLEMENT_HOOKS(df::viewscreen_layer_militaryst, military_search); // // END: Military screen search // // // START: Room list search // static map< df::building_type, vector > room_quality_names; static int32_t room_value_bounds[] = {1, 100, 250, 500, 1000, 1500, 2500, 10000}; class roomlist_search : public search_twocolumn_modifiable { public: void render() const { print_search_option(2, 23); } private: void do_post_init() { search_twocolumn_modifiable::do_post_init(); read_only = true; } string get_element_description(df::building *bld) const { bool is_ownable_room = (bld->is_room && room_quality_names.find(bld->getType()) != room_quality_names.end()); string desc; desc.reserve(100); if (bld->owner) desc += get_unit_description(bld->owner); else if (is_ownable_room) desc += "no owner"; desc += "."; if (is_ownable_room) { int32_t value = bld->getRoomValue(NULL); vector *names = &room_quality_names[bld->getType()]; string *room_name = &names->at(0); for (int i = 1; i < 8; i++) { if (room_value_bounds[i] > value) break; room_name = &names->at(i); } desc += *room_name; } else { string name; bld->getName(&name); if (!name.empty()) { desc += name; } } return desc; } vector *get_secondary_list() { return &viewscreen->room_value; } int32_t *get_viewscreen_cursor() { return &viewscreen->cursor; } vector *get_primary_list() { return &viewscreen->buildings; } }; IMPLEMENT_HOOKS(df::viewscreen_buildinglistst, roomlist_search); // // END: Room list search // // // START: Announcement list search // class annoucnement_search : public search_generic { public: void render() const { print_search_option(2, gps->dimy - 3); } private: int32_t *get_viewscreen_cursor() { return &viewscreen->anon_3; } virtual vector *get_primary_list() { return &viewscreen->anon_4; } private: string get_element_description(void *element) const { return ((df::report *) element)->text; } }; IMPLEMENT_HOOKS(df::viewscreen_announcelistst, annoucnement_search); // // END: Announcement list search // // // START: Nobles search list // typedef df::viewscreen_layer_noblelistst::T_candidates T_candidates; class nobles_search : public layered_search { public: string get_element_description(T_candidates *element) const { if (!element->unit) return ""; return get_unit_description(element->unit); } void render() const { print_search_option(2, 23); } bool can_init(df::viewscreen_layer_noblelistst *screen) { if (screen->mode != df::viewscreen_layer_noblelistst::Appoint) return false; return layered_search::can_init(screen); } vector *get_primary_list() { return &viewscreen->candidates; } }; IMPLEMENT_HOOKS(df::viewscreen_layer_noblelistst, nobles_search); // // END: Nobles search list // // // START: Job list search // void get_job_details(string &desc, df::job *job) { string job_name = ENUM_KEY_STR(job_type,job->job_type); for (size_t i = 0; i < job_name.length(); i++) { char c = job_name[i]; if (c >= 'A' && c <= 'Z') desc += " "; desc += c; } desc += "."; df::item_type itype = ENUM_ATTR(job_type, item, job->job_type); MaterialInfo mat(job); if (itype == item_type::FOOD) mat.decode(-1); if (mat.isValid() || job->material_category.whole) { desc += mat.toString(); desc += "."; if (job->material_category.whole) { desc += bitfield_to_string(job->material_category); desc += "."; } } if (!job->reaction_name.empty()) { for (size_t i = 0; i < job->reaction_name.length(); i++) { if (job->reaction_name[i] == '_') desc += " "; else desc += job->reaction_name[i]; } desc += "."; } if (job->flags.bits.suspend) desc += "suspended."; } class joblist_search : public search_twocolumn_modifiable { public: void render() const { print_search_option(2); } private: void do_post_init() { search_twocolumn_modifiable::do_post_init(); read_only = true; } string get_element_description(df::job *element) const { if (!element) return "no job.idle"; string desc; desc.reserve(100); get_job_details(desc, element); df::unit *worker = DFHack::Job::getWorker(element); if (worker) desc += get_unit_description(worker); else desc += "Inactive"; return desc; } vector *get_secondary_list() { return &viewscreen->units; } int32_t *get_viewscreen_cursor() { return &viewscreen->cursor_pos; } vector *get_primary_list() { return &viewscreen->jobs; } }; IMPLEMENT_HOOKS(df::viewscreen_joblistst, joblist_search); // // END: Job list search // // // START: Burrow assignment search // using df::global::ui; class burrow_search : public search_twocolumn_modifiable { public: bool can_init(df::viewscreen_dwarfmodest *screen) { if (ui->main.mode == df::ui_sidebar_mode::Burrows && ui->burrows.in_add_units_mode) { return search_twocolumn_modifiable::can_init(screen); } else if (is_valid()) { clear_search(); reset_all(); } return false; } string get_element_description(df::unit *element) const { return get_unit_description(element); } void render() const { auto dims = Gui::getDwarfmodeViewDims(); int left_margin = dims.menu_x1 + 1; int x = left_margin; int y = 23; print_search_option(x, y); } vector *get_primary_list() { return &ui->burrows.list_units; } vector *get_secondary_list() { return &ui->burrows.sel_units; } virtual int32_t * get_viewscreen_cursor() { return &ui->burrows.unit_cursor_pos; } bool should_check_input(set *input) { if (input->count(interface_key::SECONDSCROLL_UP) || input->count(interface_key::SECONDSCROLL_DOWN) || input->count(interface_key::SECONDSCROLL_PAGEUP) || input->count(interface_key::SECONDSCROLL_PAGEDOWN)) { end_entry_mode(); return false; } return true; } }; IMPLEMENT_HOOKS(df::viewscreen_dwarfmodest, burrow_search); // // END: Burrow assignment search // DFHACK_PLUGIN("search"); #define SEARCH_HOOKS \ HOOK_ACTION(unitlist_search_hook) \ HOOK_ACTION(roomlist_search_hook) \ HOOK_ACTION(trade_search_merc_hook) \ HOOK_ACTION(trade_search_fort_hook) \ HOOK_ACTION(stocks_search_hook) \ HOOK_ACTION(pets_search_hook) \ HOOK_ACTION(military_search_hook) \ HOOK_ACTION(nobles_search_hook) \ HOOK_ACTION(annoucnement_search_hook) \ HOOK_ACTION(joblist_search_hook) \ HOOK_ACTION(burrow_search_hook) \ HOOK_ACTION(stockpile_search_hook) DFhackCExport command_result plugin_init ( color_ostream &out, vector &commands) { #define HOOK_ACTION(hook) \ !INTERPOSE_HOOK(hook, feed).apply() || \ !INTERPOSE_HOOK(hook, render).apply() || if (!gps || !gview || SEARCH_HOOKS 0) out.printerr("Could not insert Search hooks!\n"); #undef HOOK_ACTION const string a[] = {"Meager Quarters", "Modest Quarters", "Quarters", "Decent Quarters", "Fine Quarters", "Great Bedroom", "Grand Bedroom", "Royal Bedroom"}; room_quality_names[df::building_type::Bed] = vector(a, a + 8); const string b[] = {"Meager Dining Room", "Modest Dining Room", "Dining Room", "Decent Dining Room", "Fine Dining Room", "Great Dining Room", "Grand Dining Room", "Royal Dining Room"}; room_quality_names[df::building_type::Table] = vector(b, b + 8); const string c[] = {"Meager Office", "Modest Office", "Office", "Decent Office", "Splendid Office", "Throne Room", "Opulent Throne Room", "Royal Throne Room"}; room_quality_names[df::building_type::Chair] = vector(c, c + 8); const string d[] = {"Grave", "Servants Burial Chamber", "Burial Chamber", "Tomb", "Fine Tomb", "Mausoleum", "Grand Mausoleum", "Royal Mausoleum"}; room_quality_names[df::building_type::Coffin] = vector(d, d + 8); return CR_OK; } DFhackCExport command_result plugin_shutdown ( color_ostream &out ) { #define HOOK_ACTION(hook) \ INTERPOSE_HOOK(hook, feed).remove(); \ INTERPOSE_HOOK(hook, render).remove(); SEARCH_HOOKS #undef HOOK_ACTION return CR_OK; } DFhackCExport command_result plugin_onstatechange ( color_ostream &out, state_change_event event ) { #define HOOK_ACTION(hook) hook::module.reset_on_change(); switch (event) { case SC_VIEWSCREEN_CHANGED: SEARCH_HOOKS break; default: break; } return CR_OK; #undef HOOK_ACTION } #undef IMPLEMENT_HOOKS #undef SEARCH_HOOKS