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dfhack/plugins/embark-assistant/finder_ui.cpp

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#include <stdio.h>
#include "Core.h"
#include <Console.h>
#include <modules/Gui.h>
#include "Types.h"
#include "MemAccess.h"
#include "df/biome_type.h"
#include "df/entity_raw.h"
#include "df/entity_raw_flags.h"
#include "df/inorganic_raw.h"
#include "df/material_flags.h"
#include "df/viewscreen_choose_start_sitest.h"
#include "df/world.h"
#include "df/world_data.h"
#include "df/world_raws.h"
#include "df/world_region_type.h"
#include "df/world_raws.h"
#include "embark-assistant.h"
#include "finder_ui.h"
#include "screen.h"
using df::global::world;
#define profile_file_name "./data/init/embark_assistant_profile.txt"
namespace embark_assist {
namespace finder_ui {
enum class fields : int8_t {
x_dim,
y_dim,
savagery_calm,
savagery_medium,
savagery_savage,
good,
neutral,
evil,
aquifer,
min_river,
max_river,
min_waterfall,
flat,
clay,
sand,
flux,
coal,
soil_min,
soil_min_everywhere,
soil_max,
freezing,
blood_rain,
syndrome_rain,
reanimation,
spire_count_min,
spire_count_max,
magma_min,
magma_max,
biome_count_min,
biome_count_max,
region_type_1,
region_type_2,
region_type_3,
biome_1,
biome_2,
biome_3,
min_trees,
max_trees,
metal_1,
metal_2,
metal_3,
economic_1,
economic_2,
economic_3,
mineral_1,
mineral_2,
mineral_3,
min_necro_neighbors,
max_necro_neighbors,
min_civ_neighbors,
max_civ_neighbors,
neighbors
};
fields first_fields = fields::x_dim;
fields last_fields = fields::neighbors;
struct display_map_elements {
std::string text;
int16_t key;
};
typedef std::vector <display_map_elements> display_maps;
typedef std::vector <display_map_elements> name_lists;
typedef std::list< display_map_elements> sort_lists;
struct ui_lists {
uint16_t current_display_value; // Not the value itself, but a reference to its index.
int16_t current_value; // The integer representation of the value (if an enum).
uint16_t current_index; // What's selected
uint16_t focus; // The value under the (possibly inactive) cursor
display_maps list; // The strings to be displayed together with keys
// to allow location of the actual elements (e.g. a raws.inorganics mat_index
// or underlying enum value).
};
typedef std::vector <ui_lists*> uis;
const DFHack::Screen::Pen active_pen(' ', COLOR_YELLOW);
const DFHack::Screen::Pen passive_pen(' ', COLOR_DARKGREY);
const DFHack::Screen::Pen normal_pen(' ', COLOR_GREY);
const DFHack::Screen::Pen white_pen(' ', COLOR_WHITE);
const DFHack::Screen::Pen lr_pen(' ', COLOR_LIGHTRED);
struct civ_entities {
int16_t id;
std::string description;
};
//==========================================================================================================
struct states {
embark_assist::defs::find_callbacks find_callback;
uis plotinfo;
display_maps finder_list; // Don't need the element key, but it's easier to use the same type.
uint16_t finder_list_focus;
bool finder_list_active;
uint16_t max_inorganic;
std::vector<civ_entities> civs;
};
static states *state = 0;
//==========================================================================================================
bool compare(const display_map_elements& first, const display_map_elements& second) {
uint16_t i = 0;
while (i < first.text.length() && i < second.text.length()) {
if (first.text[i] < second.text[i]) {
return true;
}
else if (first.text[i] > second.text[i]) {
return false;
}
++i;
}
return first.text.length() < second.text.length();
}
//==========================================================================================================
void append(sort_lists *sort_list, display_map_elements element) {
sort_lists::iterator iterator;
for (iterator = sort_list->begin(); iterator != sort_list->end(); ++iterator) {
if (iterator->key == element.key) {
return;
}
}
sort_list->push_back(element);
}
//==========================================================================================================
void save_profile() {
color_ostream_proxy out(Core::getInstance().getConsole());
FILE* outfile = fopen(profile_file_name, "w");
fields i = first_fields;
size_t civ = 0;
while (true) {
for (size_t k = 0; k < state->plotinfo[static_cast<int8_t>(i)]->list.size(); k++) {
if (state->plotinfo[static_cast<int8_t>(i) + civ]->current_value == state->plotinfo[static_cast<int8_t>(i) + civ]->list[k].key) {
fprintf(outfile, "[%s:%s]\n", state->finder_list[static_cast<int8_t>(i) + civ].text.c_str(), state->plotinfo[static_cast<int8_t>(i) + civ]->list[k].text.c_str());
break;
}
}
// fprintf(outfile, "[%s:%i]\n", state->finder_list[static_cast<int8_t>(i)].text.c_str(), state->plotinfo[static_cast<int8_t>(i)]->current_value);
if (i == last_fields) {
civ++;
if (civ == state->civs.size()) {
break; // done
}
}
else {
i = static_cast <fields>(static_cast<int8_t>(i) + 1);
}
}
fclose(outfile);
}
//==========================================================================================================
void load_profile() {
color_ostream_proxy out(Core::getInstance().getConsole());
FILE* infile = fopen(profile_file_name, "r");
size_t civ = 0;
if (!infile) {
out.printerr("No profile file found at %s\n", profile_file_name);
return;
}
fields i = first_fields;
char line[80];
int count = 80;
bool found;
while (true) {
if (!fgets(line, count, infile) || line[0] != '[') {
out.printerr("Failed to find token start '[' at line %i\n", static_cast<int8_t>(i));
fclose(infile);
return;
}
for (int k = 1; k < count; k++) {
if (line[k] == ':') {
for (int l = 1; l < k; l++) {
if (state->finder_list[static_cast<int8_t>(i) + civ].text.c_str()[l - 1] != line[l]) {
out.printerr("Token mismatch of %s vs %s\n", line, state->finder_list[static_cast<int8_t>(i) + civ].text.c_str());
fclose(infile);
return;
}
}
found = false;
for (size_t l = 0; l < state->plotinfo[static_cast<int8_t>(i) + civ]->list.size(); l++) {
for (int m = k + 1; m < count; m++) {
if (state->plotinfo[static_cast<int8_t>(i) + civ]->list[l].text.c_str()[m - (k + 1)] != line[m]) {
if (state->plotinfo[static_cast<int8_t>(i) + civ]->list[l].text.c_str()[m - (k + 1)] == '\0' &&
line[m] == ']') {
found = true;
}
break;
}
}
if (found) {
break;
}
}
if (!found) {
out.printerr("Value extraction failure from %s\n", line);
fclose(infile);
return;
}
break;
}
}
if (!found) {
out.printerr("Value delimiter not found in %s\n", line);
fclose(infile);
return;
}
if (i == last_fields) {
civ++;
if (civ == state->civs.size()) {
break; // done
}
}
else {
i = static_cast <fields>(static_cast<int8_t>(i) + 1);
}
}
fclose(infile);
// Checking done. Now do the work.
infile = fopen(profile_file_name, "r");
i = first_fields;
civ = 0;
while (true) {
if (!fgets(line, count, infile))
{
break;
}
for (int k = 1; k < count; k++) {
if (line[k] == ':') {
found = false;
for (size_t l = 0; l < state->plotinfo[static_cast<int8_t>(i) + civ]->list.size(); l++) {
for (int m = k + 1; m < count; m++) {
if (state->plotinfo[static_cast<int8_t>(i) + civ]->list[l].text.c_str()[m - (k + 1)] != line[m]) {
if (state->plotinfo[static_cast<int8_t>(i) + civ]->list[l].text.c_str()[m - (k + 1)] == '\0' &&
line[m] == ']') {
state->plotinfo[static_cast<int8_t>(i) + civ]->current_value = state->plotinfo[static_cast<int8_t>(i) + civ]->list[l].key;
state->plotinfo[static_cast<int8_t>(i) + civ]->current_display_value = l;
found = true;
}
break;
}
}
if (found) {
break;
}
}
break;
}
}
if (i == last_fields) {
civ++;
if (civ == state->civs.size()) {
break; // done
}
}
else {
i = static_cast <fields>(static_cast<int8_t>(i) + 1);
}
}
fclose(infile);
}
//==========================================================================================================
void ui_setup(embark_assist::defs::find_callbacks find_callback, uint16_t max_inorganic) {
// color_ostream_proxy out(Core::getInstance().getConsole());
if (!embark_assist::finder_ui::state) {
state = new(states);
state->finder_list_focus = 0;
state->finder_list_active = true;
state->find_callback = find_callback;
state->max_inorganic = max_inorganic;
}
fields i = first_fields;
ui_lists *element;
int16_t controllable_civs = 0;
int16_t max_civs;
for (int16_t i = 0; i < (int16_t)world->raws.entities.size(); i++) {
if (world->raws.entities[i]->flags.is_set(df::entity_raw_flags::CIV_CONTROLLABLE)) controllable_civs++;
}
for (int16_t i = 0; i < (int16_t)world->raws.entities.size(); i++) {
if (!world->raws.entities[i]->flags.is_set(df::entity_raw_flags::LAYER_LINKED) && // Animal people
!world->raws.entities[i]->flags.is_set(df::entity_raw_flags::GENERATED) && // Vault guardians
(controllable_civs > 1 || // Suppress the playable civ when only 1
!world->raws.entities[i]->flags.is_set(df::entity_raw_flags::CIV_CONTROLLABLE))) { // Too much work to change dynamically for modded worlds.
if (world->raws.entities[i]->translation == "") {
state->civs.push_back({ i, world->raws.entities[i]->code }); // Kobolds don't have a translation...
}
else {
state->civs.push_back({ i, world->raws.entities[i]->translation });
}
}
}
max_civs = state->civs.size();
if (controllable_civs > 1) max_civs = max_civs - 1;
while (true) {
element = new ui_lists;
element->current_display_value = 0;
element->current_index = 0;
element->focus = 0;
switch (i) {
case fields::x_dim:
for (int16_t k = 1; k <= 16; k++) {
element->list.push_back({ std::to_string(k), k });
}
break;
case fields::y_dim:
for (int16_t k = 1; k <= 16; k++) {
element->list.push_back({ std::to_string(k), k });
}
break;
case fields::savagery_calm:
case fields::savagery_medium:
case fields::savagery_savage:
case fields::good:
case fields::neutral:
case fields::evil:
{
embark_assist::defs::evil_savagery_values k = embark_assist::defs::evil_savagery_values::NA;
while (true) {
switch (k) {
case embark_assist::defs::evil_savagery_values::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::evil_savagery_values::All:
element->list.push_back({ "All", static_cast<int8_t>(k) });
break;
case embark_assist::defs::evil_savagery_values::Present:
element->list.push_back({ "Present", static_cast<int8_t>(k) });
break;
case embark_assist::defs::evil_savagery_values::Absent:
element->list.push_back({ "Absent", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::evil_savagery_values::Absent) {
break;
}
k = static_cast <embark_assist::defs::evil_savagery_values>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::aquifer:
{
embark_assist::defs::aquifer_ranges k = embark_assist::defs::aquifer_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::aquifer_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::None:
element->list.push_back({ "None", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::At_Most_Light:
element->list.push_back({ "<= Light", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::None_Plus_Light:
element->list.push_back({ "None + Light", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::None_Plus_At_Least_Light:
element->list.push_back({ "None + >= Light", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::Light:
element->list.push_back({ "Light", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::At_Least_Light:
element->list.push_back({ ">= Light", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::None_Plus_Heavy:
element->list.push_back({ "None + Heavy", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::At_Most_Light_Plus_Heavy:
element->list.push_back({ "<= Light + Heavy", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::Light_Plus_Heavy:
element->list.push_back({ "Light + Heavy", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::None_Light_Heavy:
element->list.push_back({ "None + Light + Heavy", static_cast<int8_t>(k) });
break;
case embark_assist::defs::aquifer_ranges::Heavy:
element->list.push_back({ "Heavy", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::aquifer_ranges::Heavy) {
break;
}
k = static_cast <embark_assist::defs::aquifer_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::min_river:
case fields::max_river:
{
embark_assist::defs::river_ranges k = embark_assist::defs::river_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::river_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::None:
element->list.push_back({ "None", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::Brook:
element->list.push_back({ "Brook", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::Stream:
element->list.push_back({ "Stream", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::Minor:
element->list.push_back({ "Minor", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::Medium:
element->list.push_back({ "Medium", static_cast<int8_t>(k) });
break;
case embark_assist::defs::river_ranges::Major:
element->list.push_back({ "Major", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::river_ranges::Major) {
break;
}
k = static_cast <embark_assist::defs::river_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::min_waterfall:
element->list.push_back({ "N/A", -1 });
element->list.push_back({ "Absent", 0 });
for (int16_t k = 1; k <= 9; k++) {
element->list.push_back({ std::to_string(k), k });
}
for (int16_t k = 10; k <= 50; k+=5) {
element->list.push_back({ std::to_string(k), k });
}
break;
case fields::blood_rain:
case fields::flat:
{
embark_assist::defs::yes_no_ranges k = embark_assist::defs::yes_no_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::yes_no_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::yes_no_ranges::Yes:
element->list.push_back({ "Yes", static_cast<int8_t>(k) });
break;
case embark_assist::defs::yes_no_ranges::No:
element->list.push_back({ "No", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::yes_no_ranges::No) {
break;
}
k = static_cast <embark_assist::defs::yes_no_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::soil_min_everywhere:
{
embark_assist::defs::all_present_ranges k = embark_assist::defs::all_present_ranges::All;
while (true) {
switch (k) {
case embark_assist::defs::all_present_ranges::All:
element->list.push_back({ "All", static_cast<int8_t>(k) });
break;
case embark_assist::defs::all_present_ranges::Present:
element->list.push_back({ "Present", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::all_present_ranges::Present) {
break;
}
k = static_cast <embark_assist::defs::all_present_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::clay:
case fields::sand:
case fields::flux:
case fields::coal:
{
embark_assist::defs::present_absent_ranges k = embark_assist::defs::present_absent_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::present_absent_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::present_absent_ranges::Present:
element->list.push_back({ "Present", static_cast<int8_t>(k) });
break;
case embark_assist::defs::present_absent_ranges::Absent:
element->list.push_back({ "Absent", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::present_absent_ranges::Absent) {
break;
}
k = static_cast <embark_assist::defs::present_absent_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::soil_min:
case fields::soil_max:
{
embark_assist::defs::soil_ranges k = embark_assist::defs::soil_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::soil_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::soil_ranges::None:
element->list.push_back({ "None", static_cast<int8_t>(k) });
break;
case embark_assist::defs::soil_ranges::Very_Shallow:
element->list.push_back({ "Very Shallow", static_cast<int8_t>(k) });
break;
case embark_assist::defs::soil_ranges::Shallow:
element->list.push_back({ "Shallow", static_cast<int8_t>(k) });
break;
case embark_assist::defs::soil_ranges::Deep:
element->list.push_back({ "Deep", static_cast<int8_t>(k) });
break;
case embark_assist::defs::soil_ranges::Very_Deep:
element->list.push_back({ "Very Deep", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::soil_ranges::Very_Deep) {
break;
}
k = static_cast <embark_assist::defs::soil_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::freezing:
{
embark_assist::defs::freezing_ranges k = embark_assist::defs::freezing_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::freezing_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::freezing_ranges::Permanent:
element->list.push_back({ "Permanent", static_cast<int8_t>(k) });
break;
case embark_assist::defs::freezing_ranges::At_Least_Partial:
element->list.push_back({ "At Least Partially Frozen", static_cast<int8_t>(k) });
break;
case embark_assist::defs::freezing_ranges::Partial:
element->list.push_back({ "Partially Frozen", static_cast<int8_t>(k) });
break;
case embark_assist::defs::freezing_ranges::At_Most_Partial:
element->list.push_back({ "At Most Partially Frozen", static_cast<int8_t>(k) });
break;
case embark_assist::defs::freezing_ranges::Never:
element->list.push_back({ "Never Frozen", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::freezing_ranges::Never ||
(world->world_data->world_height != 17 && // Can't handle temperature in non standard height worlds.
world->world_data->world_height != 33 &&
world->world_data->world_height != 65 &&
world->world_data->world_height != 129 &&
world->world_data->world_height != 257)) {
break;
}
k = static_cast <embark_assist::defs::freezing_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::syndrome_rain:
{
embark_assist::defs::syndrome_rain_ranges k = embark_assist::defs::syndrome_rain_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::syndrome_rain_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::syndrome_rain_ranges::Any:
element->list.push_back({ "Any Syndrome", static_cast<int8_t>(k) });
break;
case embark_assist::defs::syndrome_rain_ranges::Permanent:
element->list.push_back({ "Permanent Syndrome", static_cast<int8_t>(k) });
break;
case embark_assist::defs::syndrome_rain_ranges::Temporary:
element->list.push_back({ "Temporary Syndrome", static_cast<int8_t>(k) });
break;
case embark_assist::defs::syndrome_rain_ranges::Not_Permanent:
element->list.push_back({ "Not Permanent Syndrome", static_cast<int8_t>(k) });
break;
case embark_assist::defs::syndrome_rain_ranges::None:
element->list.push_back({ "No Syndrome", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::syndrome_rain_ranges::None) {
break;
}
k = static_cast <embark_assist::defs::syndrome_rain_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::reanimation:
{
embark_assist::defs::reanimation_ranges k = embark_assist::defs::reanimation_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::reanimation_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::Both:
element->list.push_back({ "Reanimation & Thralling", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::Any:
element->list.push_back({ "Reanimation or Thralling", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::Thralling:
element->list.push_back({ "Thralling", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::Reanimation:
element->list.push_back({ "Reanimation", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::Not_Thralling:
element->list.push_back({ "Not Thralling", static_cast<int8_t>(k) });
break;
case embark_assist::defs::reanimation_ranges::None:
element->list.push_back({ "None", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::reanimation_ranges::None) {
break;
}
k = static_cast <embark_assist::defs::reanimation_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::spire_count_min:
case fields::spire_count_max:
for (int16_t k = -1; k <= 9; k++) {
if (k == -1) {
element->list.push_back({ "N/A", k });
}
else {
element->list.push_back({ std::to_string(k), k });
}
}
break;
case fields::magma_min:
case fields::magma_max:
{
embark_assist::defs::magma_ranges k = embark_assist::defs::magma_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::magma_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::magma_ranges::Cavern_3:
element->list.push_back({ "Third Cavern", static_cast<int8_t>(k) });
break;
case embark_assist::defs::magma_ranges::Cavern_2:
element->list.push_back({ "Second Cavern", static_cast<int8_t>(k) });
break;
case embark_assist::defs::magma_ranges::Cavern_1:
element->list.push_back({ "First Cavern", static_cast<int8_t>(k) });
break;
case embark_assist::defs::magma_ranges::Volcano:
element->list.push_back({ "Volcano", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::magma_ranges::Volcano) {
break;
}
k = static_cast <embark_assist::defs::magma_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::biome_count_min:
case fields::biome_count_max:
for (int16_t k = 0; k < 10; k++) {
if (k == 0) {
element->list.push_back({ "N/A", -1 });
}
else {
element->list.push_back({ std::to_string(k), k });
}
}
break;
case fields::region_type_1:
case fields::region_type_2:
case fields::region_type_3:
{
std::list<display_map_elements> name;
std::list<display_map_elements>::iterator iterator;
FOR_ENUM_ITEMS(world_region_type, iter) {
name.push_back({ ENUM_KEY_STR(world_region_type, iter), static_cast<int16_t>(iter) });
}
name.sort(compare);
element->list.push_back({ "N/A", -1 });
for (iterator = name.begin(); iterator != name.end(); ++iterator) {
element->list.push_back({ iterator->text, iterator->key });
}
name.clear();
}
break;
case fields::biome_1:
case fields::biome_2:
case fields::biome_3:
{
sort_lists name;
sort_lists::iterator iterator;
FOR_ENUM_ITEMS(biome_type, iter) {
std::string s = ENUM_KEY_STR(biome_type, iter);
if (s.substr(0, 4) != "POOL" &&
s.substr(0, 5) != "RIVER" &&
s.substr(0, 3) != "SUB") {
name.push_back({ s, static_cast<int16_t>(iter) });
}
}
name.sort(compare);
element->list.push_back({ "N/A", -1 });
for (iterator = name.begin(); iterator != name.end(); ++iterator) {
element->list.push_back({ iterator->text, iterator->key });
}
name.clear();
}
break;
case fields::min_trees:
case fields::max_trees:
{
embark_assist::defs::tree_ranges k = embark_assist::defs::tree_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::tree_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::tree_ranges::None:
element->list.push_back({ "None", static_cast<int8_t>(k) });
break;
case embark_assist::defs::tree_ranges::Very_Scarce:
element->list.push_back({ "Very Scarce", static_cast<int8_t>(k) });
break;
case embark_assist::defs::tree_ranges::Scarce:
element->list.push_back({ "Scarce", static_cast<int8_t>(k) });
break;
case embark_assist::defs::tree_ranges::Woodland:
element->list.push_back({ "Woodland", static_cast<int8_t>(k) });
break;
case embark_assist::defs::tree_ranges::Heavily_Forested:
element->list.push_back({ "Heavily Forested", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::tree_ranges::Heavily_Forested) {
break;
}
k = static_cast <embark_assist::defs::tree_ranges>(static_cast<int8_t>(k) + 1);
}
}
break;
case fields::metal_1:
case fields::metal_2:
case fields::metal_3:
{
sort_lists name;
sort_lists::iterator iterator;
for (uint16_t k = 0; k < embark_assist::finder_ui::state->max_inorganic; k++) {
for (uint16_t l = 0; l < world->raws.inorganics[k]->metal_ore.mat_index.size(); l++) {
append(&name, { world->raws.inorganics[world->raws.inorganics[k]->metal_ore.mat_index[l]]->id,
world->raws.inorganics[k]->metal_ore.mat_index[l] });
}
}
name.sort(compare);
element->list.push_back({ "N/A", -1 });
for (iterator = name.begin(); iterator != name.end(); ++iterator) {
element->list.push_back({ iterator->text, iterator->key });
}
name.clear();
}
break;
case fields::economic_1:
case fields::economic_2:
case fields::economic_3:
{
sort_lists name;
sort_lists::iterator iterator;
for (int16_t k = 0; k < embark_assist::finder_ui::state->max_inorganic; k++) {
if (world->raws.inorganics[k]->economic_uses.size() != 0 &&
!world->raws.inorganics[k]->material.flags.is_set(df::material_flags::IS_METAL)) {
append(&name, { world->raws.inorganics[k]->id, k });
}
}
name.sort(compare);
element->list.push_back({ "N/A", -1 });
for (iterator = name.begin(); iterator != name.end(); ++iterator) {
element->list.push_back({ iterator->text, iterator->key });
}
name.clear();
}
break;
case fields::mineral_1:
case fields::mineral_2:
case fields::mineral_3:
{
sort_lists name;
sort_lists::iterator iterator;
for (int16_t k = 0; k < embark_assist::finder_ui::state->max_inorganic; k++) {
if (world->raws.inorganics[k]->environment.location.size() != 0 ||
world->raws.inorganics[k]->environment_spec.mat_index.size() != 0 ||
world->raws.inorganics[k]->flags.is_set(df::inorganic_flags::SEDIMENTARY) ||
world->raws.inorganics[k]->flags.is_set(df::inorganic_flags::IGNEOUS_EXTRUSIVE) ||
world->raws.inorganics[k]->flags.is_set(df::inorganic_flags::IGNEOUS_INTRUSIVE) ||
world->raws.inorganics[k]->flags.is_set(df::inorganic_flags::METAMORPHIC) ||
world->raws.inorganics[k]->flags.is_set(df::inorganic_flags::SOIL)) {
append(&name, { world->raws.inorganics[k]->id, k });
}
}
name.sort(compare);
element->list.push_back({ "N/A", -1 });
for (iterator = name.begin(); iterator != name.end(); ++iterator) {
element->list.push_back({ iterator->text, iterator->key });
}
name.clear();
}
break;
case fields::min_necro_neighbors:
case fields::max_necro_neighbors:
for (int16_t k = -1; k <= 16; k++) {
if (k == -1) {
element->list.push_back({ "N/A", k });
}
else {
element->list.push_back({ std::to_string(k), k });
}
}
break;
case fields::min_civ_neighbors:
case fields::max_civ_neighbors:
for (int16_t k = -1; k <= max_civs; k++) {
if (k == -1) {
element->list.push_back({ "N/A", k });
}
else {
element->list.push_back({ std::to_string(k), k });
}
}
break;
case fields::neighbors:
for (size_t l = 0; l < state->civs.size(); l++) {
embark_assist::defs::present_absent_ranges k = embark_assist::defs::present_absent_ranges::NA;
while (true) {
switch (k) {
case embark_assist::defs::present_absent_ranges::NA:
element->list.push_back({ "N/A", static_cast<int8_t>(k) });
break;
case embark_assist::defs::present_absent_ranges::Present:
element->list.push_back({ "Present", static_cast<int8_t>(k) });
break;
case embark_assist::defs::present_absent_ranges::Absent:
element->list.push_back({ "Absent", static_cast<int8_t>(k) });
break;
}
if (k == embark_assist::defs::present_absent_ranges::Absent) {
break;
}
k = static_cast <embark_assist::defs::present_absent_ranges>(static_cast<int8_t>(k) + 1);
}
if (l < state->civs.size() - 1) {
element->current_value = element->list[0].key;
state->plotinfo.push_back(element);
element = new ui_lists;
element->current_display_value = 0;
element->current_index = 0;
element->focus = 0;
}
}
break;
}
element->current_value = element->list[0].key;
state->plotinfo.push_back(element);
switch (i) {
case fields::x_dim:
state->finder_list.push_back({ "X Dimension", static_cast<int8_t>(i) });
break;
case fields::y_dim:
state->finder_list.push_back({ "Y Dimension", static_cast<int8_t>(i) });
break;
case fields::savagery_calm:
state->finder_list.push_back({ "Low Savagery", static_cast<int8_t>(i) });
break;
case fields::savagery_medium:
state->finder_list.push_back({ "Medium Savagery", static_cast<int8_t>(i) });
break;
case fields::savagery_savage:
state->finder_list.push_back({ "High Savagery", static_cast<int8_t>(i) });
break;
case fields::good:
state->finder_list.push_back({ "Good", static_cast<int8_t>(i) });
break;
case fields::neutral:
state->finder_list.push_back({ "Neutral", static_cast<int8_t>(i) });
break;
case fields::evil:
state->finder_list.push_back({ "Evil", static_cast<int8_t>(i) });
break;
case fields::aquifer:
state->finder_list.push_back({ "Aquifer", static_cast<int8_t>(i) });
break;
case fields::min_river:
state->finder_list.push_back({ "Min River", static_cast<int8_t>(i) });
break;
case fields::max_river:
state->finder_list.push_back({ "Max River", static_cast<int8_t>(i) });
break;
case fields::min_waterfall:
state->finder_list.push_back({ "Min Waterfall Drop", static_cast<int8_t>(i) });
break;
case fields::flat:
state->finder_list.push_back({ "Flat", static_cast<int8_t>(i) });
break;
case fields::soil_min_everywhere:
state->finder_list.push_back({ "Min Soil Everywhere", static_cast<int8_t>(i) });
break;
case fields::freezing:
state->finder_list.push_back({ "Freezing", static_cast<int8_t>(i) });
break;
case fields::blood_rain:
state->finder_list.push_back({ "Blood Rain", static_cast<int8_t>(i) });
break;
case fields::syndrome_rain:
state->finder_list.push_back({ "Syndrome Rain", static_cast<int8_t>(i) });
break;
case fields::reanimation:
state->finder_list.push_back({ "Reanimation", static_cast<int8_t>(i) });
break;
case fields::clay:
state->finder_list.push_back({ "Clay", static_cast<int8_t>(i) });
break;
case fields::sand:
state->finder_list.push_back({ "Sand", static_cast<int8_t>(i) });
break;
case fields::flux:
state->finder_list.push_back({ "Flux", static_cast<int8_t>(i) });
break;
case fields::coal:
state->finder_list.push_back({ "Coal", static_cast<int8_t>(i) });
break;
case fields::soil_min:
state->finder_list.push_back({ "Min Soil", static_cast<int8_t>(i) });
break;
case fields::soil_max:
state->finder_list.push_back({ "Max Soil", static_cast<int8_t>(i) });
break;
case fields::spire_count_min:
state->finder_list.push_back({ "Min Adamantine", static_cast<int8_t>(i) });
break;
case fields::spire_count_max:
state->finder_list.push_back({ "Max Adamantine", static_cast<int8_t>(i) });
break;
case fields::magma_min:
state->finder_list.push_back({ "Min Magma", static_cast<int8_t>(i) });
break;
case fields::magma_max:
state->finder_list.push_back({ "Max Magma", static_cast<int8_t>(i) });
break;
case fields::biome_count_min:
state->finder_list.push_back({ "Min Biome Count", static_cast<int8_t>(i) });
break;
case fields::biome_count_max:
state->finder_list.push_back({ "Max Biome Count", static_cast<int8_t>(i) });
break;
case fields::region_type_1:
state->finder_list.push_back({ "Region Type 1", static_cast<int8_t>(i) });
break;
case fields::region_type_2:
state->finder_list.push_back({ "Region Type 2", static_cast<int8_t>(i) });
break;
case fields::region_type_3:
state->finder_list.push_back({ "Region Type 3", static_cast<int8_t>(i) });
break;
case fields::biome_1:
state->finder_list.push_back({ "Biome 1", static_cast<int8_t>(i) });
break;
case fields::biome_2:
state->finder_list.push_back({ "Biome 2", static_cast<int8_t>(i) });
break;
case fields::biome_3:
state->finder_list.push_back({ "Biome 3", static_cast<int8_t>(i) });
break;
case fields::min_trees:
state->finder_list.push_back({ "Min Trees", static_cast<int8_t>(i) });
break;
case fields::max_trees:
state->finder_list.push_back({ "Max Trees", static_cast<int8_t>(i) });
break;
case fields::metal_1:
state->finder_list.push_back({ "Metal 1", static_cast<int8_t>(i) });
break;
case fields::metal_2:
state->finder_list.push_back({ "Metal 2", static_cast<int8_t>(i) });
break;
case fields::metal_3:
state->finder_list.push_back({ "Metal 3", static_cast<int8_t>(i) });
break;
case fields::economic_1:
state->finder_list.push_back({ "Economic 1", static_cast<int8_t>(i) });
break;
case fields::economic_2:
state->finder_list.push_back({ "Economic 2", static_cast<int8_t>(i) });
break;
case fields::economic_3:
state->finder_list.push_back({ "Economic 3", static_cast<int8_t>(i) });
break;
case fields::mineral_1:
state->finder_list.push_back({ "Mineral 1", static_cast<int8_t>(i) });
break;
case fields::mineral_2:
state->finder_list.push_back({ "Mineral 2", static_cast<int8_t>(i) });
break;
case fields::mineral_3:
state->finder_list.push_back({ "Mineral 3", static_cast<int8_t>(i) });
break;
case fields::min_necro_neighbors:
state->finder_list.push_back({ "Min Necro Tower", static_cast<int8_t>(i) });
break;
case fields::max_necro_neighbors:
state->finder_list.push_back({ "Max Necro Tower", static_cast<int8_t>(i) });
break;
case fields::min_civ_neighbors:
state->finder_list.push_back({ "Min Near Civs", static_cast<int8_t>(i) });
break;
case fields::max_civ_neighbors:
state->finder_list.push_back({ "Max Near Civs", static_cast<int8_t>(i) });
break;
case fields::neighbors:
for (uint8_t k = 0; k < state->civs.size(); k++) {
state->finder_list.push_back({ state->civs[k].description, (int16_t)(static_cast<int8_t>(i) + k) });
}
break;
}
if (i == last_fields) {
break; // done
}
i = static_cast <fields>(static_cast<int8_t>(i) + 1);
}
// Default embark area size to that of the current selection. The "size" calculation is actually one
// off to compensate for the list starting with 1 at index 0.
//
auto screen = Gui::getViewscreenByType<df::viewscreen_choose_start_sitest>(0);
state->plotinfo[static_cast<int8_t>(fields::x_dim)]->current_display_value =
screen->location.embark_pos_max.x -
screen->location.embark_pos_min.x;
state->plotinfo[static_cast<int8_t>(fields::x_dim)]->current_index =
state->plotinfo[static_cast<int8_t>(fields::x_dim)]->current_display_value;
state->plotinfo[static_cast<int8_t>(fields::x_dim)]->current_value =
state->plotinfo[static_cast<int8_t>(fields::x_dim)]->current_display_value + 1;
state->plotinfo[static_cast<int8_t>(fields::y_dim)]->current_display_value =
screen->location.embark_pos_max.y -
screen->location.embark_pos_min.y;
state->plotinfo[static_cast<int8_t>(fields::y_dim)]->current_index =
state->plotinfo[static_cast<int8_t>(fields::y_dim)]->current_display_value;
state->plotinfo[static_cast<int8_t>(fields::y_dim)]->current_value =
state->plotinfo[static_cast<int8_t>(fields::y_dim)]->current_display_value + 1;
}
//==========================================================================================================
void find() {
// color_ostream_proxy out(Core::getInstance().getConsole());
embark_assist::defs::finders finder = {};
fields i = first_fields;
while (true) {
switch (i) {
case fields::x_dim:
finder.x_dim = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::y_dim:
finder.y_dim = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::savagery_calm:
finder.savagery[0] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::savagery_medium:
finder.savagery[1] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::savagery_savage:
finder.savagery[2] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::good:
finder.evilness[0] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::neutral:
finder.evilness[1] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::evil:
finder.evilness[2] =
static_cast<embark_assist::defs::evil_savagery_values>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::aquifer:
finder.aquifer =
static_cast<embark_assist::defs::aquifer_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::min_river:
finder.min_river =
static_cast<embark_assist::defs::river_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::max_river:
finder.max_river =
static_cast<embark_assist::defs::river_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::min_waterfall:
finder.min_waterfall = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::flat:
finder.flat =
static_cast<embark_assist::defs::yes_no_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::soil_min_everywhere:
finder.soil_min_everywhere =
static_cast<embark_assist::defs::all_present_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::freezing:
finder.freezing =
static_cast<embark_assist::defs::freezing_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::blood_rain:
finder.blood_rain =
static_cast<embark_assist::defs::yes_no_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::syndrome_rain:
finder.syndrome_rain =
static_cast<embark_assist::defs::syndrome_rain_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::reanimation:
finder.reanimation =
static_cast<embark_assist::defs::reanimation_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::clay:
finder.clay =
static_cast<embark_assist::defs::present_absent_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::sand:
finder.sand =
static_cast<embark_assist::defs::present_absent_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::flux:
finder.flux =
static_cast<embark_assist::defs::present_absent_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::coal:
finder.coal =
static_cast<embark_assist::defs::present_absent_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::soil_min:
finder.soil_min =
static_cast<embark_assist::defs::soil_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::soil_max:
finder.soil_max =
static_cast<embark_assist::defs::soil_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::spire_count_min:
finder.spire_count_min = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::spire_count_max:
finder.spire_count_max = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::magma_min:
finder.magma_min =
static_cast<embark_assist::defs::magma_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::magma_max:
finder.magma_max =
static_cast<embark_assist::defs::magma_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::biome_count_min:
finder.biome_count_min = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::biome_count_max:
finder.biome_count_max = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::region_type_1:
finder.region_type_1 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::region_type_2:
finder.region_type_2 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::region_type_3:
finder.region_type_3 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::biome_1:
finder.biome_1 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::biome_2:
finder.biome_2 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::biome_3:
finder.biome_3 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::min_trees:
finder.min_trees = static_cast<embark_assist::defs::tree_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::max_trees:
finder.max_trees = static_cast<embark_assist::defs::tree_ranges>(state->plotinfo[static_cast<uint8_t>(i)]->current_value);
break;
case fields::metal_1:
finder.metal_1 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::metal_2:
finder.metal_2 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::metal_3:
finder.metal_3 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::economic_1:
finder.economic_1 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::economic_2:
finder.economic_2 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::economic_3:
finder.economic_3 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::mineral_1:
finder.mineral_1 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::mineral_2:
finder.mineral_2 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::mineral_3:
finder.mineral_3 = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::min_necro_neighbors:
finder.min_necro_neighbors = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::max_necro_neighbors:
finder.max_necro_neighbors = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::min_civ_neighbors:
finder.min_civ_neighbors = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::max_civ_neighbors:
finder.max_civ_neighbors = state->plotinfo[static_cast<uint8_t>(i)]->current_value;
break;
case fields::neighbors:
for (size_t k = 0; k < state->civs.size(); k++) {
finder.neighbors.push_back({ state->civs[k].id, static_cast<embark_assist::defs::present_absent_ranges>(state->plotinfo[static_cast<uint8_t>(i) + k]->current_value) });
}
break;
}
if (i == last_fields) {
break; // done
}
i = static_cast <fields>(static_cast<int8_t>(i) + 1);
}
state->find_callback(finder);
}
//==========================================================================================================
class ViewscreenFindUi : public dfhack_viewscreen
{
public:
ViewscreenFindUi();
void feed(std::set<df::interface_key> *input);
void render();
std::string getFocusString() { return "Finder UI"; }
private:
};
//===============================================================================
void ViewscreenFindUi::feed(std::set<df::interface_key> *input) {
if (input->count(df::interface_key::LEAVESCREEN))
{
input->clear();
Screen::dismiss(this);
return;
} else if (input->count(df::interface_key::STANDARDSCROLL_LEFT) ||
input->count(df::interface_key::STANDARDSCROLL_RIGHT)) {
state->finder_list_active = !state->finder_list_active;
} else if (input->count(df::interface_key::STANDARDSCROLL_UP)) {
if (state->finder_list_active) {
if (state->finder_list_focus > 0) {
state->finder_list_focus--;
}
else {
state->finder_list_focus = static_cast<uint16_t>(last_fields) + state->civs.size() - 1;
}
}
else {
if (state->plotinfo[state->finder_list_focus]->current_index > 0) {
state->plotinfo[state->finder_list_focus]->current_index--;
} else {
state->plotinfo[state->finder_list_focus]->current_index = static_cast<uint16_t>(state->plotinfo[state->finder_list_focus]->list.size()) - 1;
}
}
} else if (input->count(df::interface_key::STANDARDSCROLL_DOWN)) {
if (state->finder_list_active) {
if (state->finder_list_focus < static_cast<uint16_t>(last_fields) + state->civs.size() - 1) {
state->finder_list_focus++;
} else {
state->finder_list_focus = 0;
}
}
else {
if (state->plotinfo[state->finder_list_focus]->current_index < state->plotinfo[state->finder_list_focus]->list.size() - 1) {
state->plotinfo[state->finder_list_focus]->current_index++;
} else {
state->plotinfo[state->finder_list_focus]->current_index = 0;
}
}
} else if (input->count(df::interface_key::SELECT)) {
if (!state->finder_list_active) {
state->plotinfo[state->finder_list_focus]->current_display_value = state->plotinfo[state->finder_list_focus]->current_index;
state->plotinfo[state->finder_list_focus]->current_value = state->plotinfo[state->finder_list_focus]->list[state->plotinfo[state->finder_list_focus]->current_index].key;
state->finder_list_active = true;
}
} else if (input->count(df::interface_key::CUSTOM_F)) {
input->clear();
Screen::dismiss(this);
find();
return;
} else if (input->count(df::interface_key::CUSTOM_S)) { // Save
save_profile();
} else if (input->count(df::interface_key::CUSTOM_L)) { // Load
load_profile();
}
}
//===============================================================================
void ViewscreenFindUi::render() {
// color_ostream_proxy out(Core::getInstance().getConsole());
auto screen_size = DFHack::Screen::getWindowSize();
uint16_t top_row = 2;
uint16_t list_column = 53;
uint16_t offset = 0;
Screen::clear();
Screen::drawBorder(" Embark Assistant Site Finder ");
embark_assist::screen::paintString(lr_pen, 1, 1, DFHack::Screen::getKeyDisplay(df::interface_key::STANDARDSCROLL_LEFT).c_str());
embark_assist::screen::paintString(white_pen, 2, 1, "/");
embark_assist::screen::paintString(lr_pen, 3, 1, DFHack::Screen::getKeyDisplay(df::interface_key::STANDARDSCROLL_RIGHT).c_str());
embark_assist::screen::paintString(white_pen, 4, 1, ": \x1b/\x1a");
embark_assist::screen::paintString(lr_pen, 10, 1, DFHack::Screen::getKeyDisplay(df::interface_key::STANDARDSCROLL_UP).c_str());
embark_assist::screen::paintString(white_pen, 11, 1, "/");
embark_assist::screen::paintString(lr_pen, 12, 1, DFHack::Screen::getKeyDisplay(df::interface_key::STANDARDSCROLL_DOWN).c_str());
embark_assist::screen::paintString(white_pen, 13, 1, ": \x18/\x19");
embark_assist::screen::paintString(lr_pen, 19, 1, DFHack::Screen::getKeyDisplay(df::interface_key::SELECT).c_str());
embark_assist::screen::paintString(white_pen, 24, 1, ": Select");
embark_assist::screen::paintString(lr_pen, 33, 1, DFHack::Screen::getKeyDisplay(df::interface_key::CUSTOM_F).c_str());
embark_assist::screen::paintString(white_pen, 34, 1, ": Find");
embark_assist::screen::paintString(lr_pen, 41, 1, DFHack::Screen::getKeyDisplay(df::interface_key::LEAVESCREEN).c_str());
embark_assist::screen::paintString(white_pen, 44, 1, ": Abort");
embark_assist::screen::paintString(lr_pen, 52, 1, DFHack::Screen::getKeyDisplay(df::interface_key::CUSTOM_S).c_str());
embark_assist::screen::paintString(white_pen, 53, 1, ": Save");
embark_assist::screen::paintString(lr_pen, 60, 1, DFHack::Screen::getKeyDisplay(df::interface_key::CUSTOM_L).c_str());
embark_assist::screen::paintString(white_pen, 61, 1, ": Load");
// Implement scrolling lists if they don't fit on the screen.
if (int32_t(state->finder_list.size()) > screen_size.y - top_row - 1) {
offset = (screen_size.y - top_row - 1) / 2;
if (state->finder_list_focus < offset) {
offset = 0;
}
else {
offset = state->finder_list_focus - offset;
}
if (int32_t(state->finder_list.size() - offset) < screen_size.y - top_row - 1) {
offset = static_cast<uint16_t>(state->finder_list.size()) - (screen_size.y - top_row - 1);
}
}
for (uint16_t i = offset; i < state->finder_list.size(); i++) {
if (i == state->finder_list_focus) {
if (state->finder_list_active) {
embark_assist::screen::paintString(active_pen, 1, top_row + i - offset, state->finder_list[i].text);
}
else {
embark_assist::screen::paintString(passive_pen, 1, top_row + i - offset, state->finder_list[i].text);
}
embark_assist::screen::paintString(active_pen,
21,
top_row + i - offset,
state->plotinfo[i]->list[state->plotinfo[i]->current_display_value].text);
}
else {
embark_assist::screen::paintString(normal_pen, 1, top_row + i - offset, state->finder_list[i].text);
embark_assist::screen::paintString(white_pen,
21,
top_row + i - offset,
state->plotinfo[i]->list[state->plotinfo[i]->current_display_value].text);
}
}
// Implement scrolling lists if they don't fit on the screen.
offset = 0;
if (int32_t(state->plotinfo[state->finder_list_focus]->list.size()) > screen_size.y - top_row - 1) {
offset = (screen_size.y - top_row - 1) / 2;
if (state->plotinfo[state->finder_list_focus]->current_index < offset) {
offset = 0;
}
else {
offset = state->plotinfo[state->finder_list_focus]->current_index - offset;
}
if (int32_t(state->plotinfo[state->finder_list_focus]->list.size() - offset) < screen_size.y - top_row - 1) {
offset = static_cast<uint16_t>(state->plotinfo[state->finder_list_focus]->list.size()) - (screen_size.y - top_row - 1);
}
}
for (uint16_t i = offset; i < state->plotinfo[state->finder_list_focus]->list.size(); i++) {
if (i == state->plotinfo[state->finder_list_focus]->current_index) {
if (!state->finder_list_active) { // Negated expression to get the display lines in the same order as above.
embark_assist::screen::paintString(active_pen, list_column, top_row + i - offset, state->plotinfo[state->finder_list_focus]->list[i].text);
}
else {
embark_assist::screen::paintString(passive_pen, list_column, top_row + i - offset, state->plotinfo[state->finder_list_focus]->list[i].text);
}
}
else {
embark_assist::screen::paintString(normal_pen, list_column, top_row + i - offset, state->plotinfo[state->finder_list_focus]->list[i].text);
}
}
dfhack_viewscreen::render();
}
//===============================================================================
ViewscreenFindUi::ViewscreenFindUi() {
}
}
}
//===============================================================================
// Exported operations
//===============================================================================
void embark_assist::finder_ui::init(DFHack::Plugin *plugin_self, embark_assist::defs::find_callbacks find_callback, uint16_t max_inorganic, bool fileresult) {
if (!embark_assist::finder_ui::state) { // First call. Have to do the setup
embark_assist::finder_ui::ui_setup(find_callback, max_inorganic);
}
if (!fileresult) {
Screen::show(std::make_unique<ViewscreenFindUi>(), plugin_self);
}
else
{
load_profile();
find();
}
}
//===============================================================================
void embark_assist::finder_ui::activate() {
}
//===============================================================================
void embark_assist::finder_ui::shutdown() {
if (embark_assist::finder_ui::state) {
for (uint16_t i = 0; i < embark_assist::finder_ui::state->plotinfo.size(); i++) {
delete embark_assist::finder_ui::state->plotinfo[i];
}
delete embark_assist::finder_ui::state;
embark_assist::finder_ui::state = nullptr;
}
}
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