184 lines
5.1 KiB
C++
184 lines
5.1 KiB
C++
#include "itemfilter.h"
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#include "Debug.h"
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#include "df/item.h"
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namespace DFHack {
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DBG_EXTERN(buildingplan, status);
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}
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using std::set;
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using std::string;
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using std::vector;
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using namespace DFHack;
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ItemFilter::ItemFilter() {
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clear();
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}
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void ItemFilter::clear() {
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min_quality = df::item_quality::Ordinary;
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max_quality = df::item_quality::Masterful;
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decorated_only = false;
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mat_mask.whole = 0;
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materials.clear();
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}
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bool ItemFilter::isEmpty() const {
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return min_quality == df::item_quality::Ordinary
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&& max_quality == df::item_quality::Masterful
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&& !decorated_only
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&& !mat_mask.whole
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&& materials.empty();
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}
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static bool deserializeMaterialMask(string ser, df::dfhack_material_category mat_mask) {
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if (ser.empty())
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return true;
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if (!parseJobMaterialCategory(&mat_mask, ser)) {
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DEBUG(status).print("invalid job material category serialization: '%s'", ser.c_str());
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return false;
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}
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return true;
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}
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static bool deserializeMaterials(string ser, set<DFHack::MaterialInfo> &materials) {
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if (ser.empty())
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return true;
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vector<string> mat_names;
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split_string(&mat_names, ser, ",");
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for (auto m = mat_names.begin(); m != mat_names.end(); m++) {
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DFHack::MaterialInfo material;
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if (!material.find(*m) || !material.isValid()) {
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DEBUG(status).print("invalid material name serialization: '%s'", ser.c_str());
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return false;
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}
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materials.emplace(material);
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}
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return true;
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}
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ItemFilter::ItemFilter(color_ostream &out, string serialized) {
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clear();
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vector<string> tokens;
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split_string(&tokens, serialized, "/");
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if (tokens.size() != 5) {
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DEBUG(status,out).print("invalid ItemFilter serialization: '%s'", serialized.c_str());
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return;
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}
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if (!deserializeMaterialMask(tokens[0], mat_mask) || !deserializeMaterials(tokens[1], materials))
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return;
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setMinQuality(atoi(tokens[2].c_str()));
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setMaxQuality(atoi(tokens[3].c_str()));
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decorated_only = static_cast<bool>(atoi(tokens[4].c_str()));
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}
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// format: mat,mask,elements/materials,list/minq/maxq/decorated
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string ItemFilter::serialize() const {
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std::ostringstream ser;
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ser << bitfield_to_string(mat_mask, ",") << "/";
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vector<string> matstrs;
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if (!materials.empty()) {
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for (auto &mat : materials)
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matstrs.emplace_back(mat.getToken());
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ser << join_strings(",", matstrs);
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}
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ser << "/" << static_cast<int>(min_quality);
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ser << "/" << static_cast<int>(max_quality);
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ser << "/" << static_cast<int>(decorated_only);
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return ser.str();
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}
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static void clampItemQuality(df::item_quality *quality) {
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if (*quality > df::item_quality::Artifact) {
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DEBUG(status).print("clamping quality to Artifact");
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*quality = df::item_quality::Artifact;
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}
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if (*quality < df::item_quality::Ordinary) {
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DEBUG(status).print("clamping quality to Ordinary");
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*quality = df::item_quality::Ordinary;
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}
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}
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void ItemFilter::setMinQuality(int quality) {
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min_quality = static_cast<df::item_quality>(quality);
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clampItemQuality(&min_quality);
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if (max_quality < min_quality)
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max_quality = min_quality;
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}
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void ItemFilter::setMaxQuality(int quality) {
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max_quality = static_cast<df::item_quality>(quality);
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clampItemQuality(&max_quality);
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if (max_quality < min_quality)
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min_quality = max_quality;
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}
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void ItemFilter::setDecoratedOnly(bool decorated) {
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decorated_only = decorated;
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}
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void ItemFilter::setMaterialMask(uint32_t mask) {
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mat_mask.whole = mask;
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}
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void ItemFilter::setMaterials(const set<DFHack::MaterialInfo> &materials) {
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this->materials = materials;
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}
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static bool matchesMask(DFHack::MaterialInfo &mat, df::dfhack_material_category mat_mask) {
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return mat_mask.whole ? mat.matches(mat_mask) : true;
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}
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bool ItemFilter::matches(df::dfhack_material_category mask) const {
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return mask.whole & mat_mask.whole;
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}
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bool ItemFilter::matches(DFHack::MaterialInfo &material) const {
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for (auto &mat : materials)
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if (material.matches(mat))
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return true;
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return false;
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}
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bool ItemFilter::matches(df::item *item) const {
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if (item->getQuality() < min_quality || item->getQuality() > max_quality)
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return false;
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if (decorated_only && !item->hasImprovements())
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return false;
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auto imattype = item->getActualMaterial();
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auto imatindex = item->getActualMaterialIndex();
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auto item_mat = DFHack::MaterialInfo(imattype, imatindex);
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return (materials.size() == 0) ? matchesMask(item_mat, mat_mask) : matches(item_mat);
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}
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vector<ItemFilter> deserialize_item_filters(color_ostream &out, const string &serialized) {
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vector<ItemFilter> filters;
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vector<string> filter_strs;
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split_string(&filter_strs, serialized, ";");
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for (auto &str : filter_strs) {
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filters.emplace_back(out, str);
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}
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return filters;
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}
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string serialize_item_filters(const vector<ItemFilter> &filters) {
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vector<string> strs;
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for (auto &filter : filters) {
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strs.emplace_back(filter.serialize());
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}
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return join_strings(";", strs);
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}
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