dwarfvet: minor logic cleanup

- Use at() to crash immediately on out-of-range errors instead of introducing
  memory corruption (see #1824)
- Replace custom implementation of df::unit::find()
- Use range-based for with get_vector() where appropriate
develop
lethosor 2021-04-05 00:38:23 -04:00
parent 792bf14921
commit a5128fd7e6
No known key found for this signature in database
GPG Key ID: 76A269552F4F58C1
1 changed files with 6 additions and 21 deletions

@ -159,7 +159,7 @@ bool AnimalHospital::acceptPatient(int32_t id, color_ostream &out) {
// Yup, let's find the next open spot,
// and give it to our patient
int spot_cur = 0; // fuck the STL for requiring a second counter to make this usable
int spot_cur = 0;
for (vector<bool>::iterator spot = this->spots_in_use.begin(); spot != this->spots_in_use.end(); spot++) {
if (*spot == false) {
*spot = true;
@ -324,7 +324,7 @@ void AnimalHospital::calculateHospital(bool force, color_ostream &out) {
/* Start marking! */
for (int i = 0; i < building_height; i++) {
for (int j = 0; j < building_length; j++) {
spots_in_use[spot_cur+j] = true;
spots_in_use.at(spot_cur+j) = true;
}
// Wind the cursor to the start of the next row
@ -348,7 +348,7 @@ void AnimalHospital::dischargePatient(Patient * patient, color_ostream &out) {
if ( (*accepted_patient)->getID() == id) {
out.print("Discharging unit %d from hospital %d\n", id, this->id);
// Reclaim their spot
spots_in_use[(*accepted_patient)->getSpotIndex()] = false;
spots_in_use.at((*accepted_patient)->getSpotIndex()) = false;
this->spots_open++;
delete (*accepted_patient);
this->accepted_patients.erase(accepted_patient);
@ -371,17 +371,7 @@ void AnimalHospital::processPatients(color_ostream &out) {
// Where the magic happens
for (vector<Patient*>::iterator patient = this->accepted_patients.begin(); patient != this->accepted_patients.end(); patient++) {
int id = (*patient)->getID();
df::unit * real_unit = nullptr;
// Appears the health bits can get freed/realloced too -_-;, Find the unit from the main
// index and check it there.
auto units = world->units.all;
for ( size_t a = 0; a < units.size(); a++ ) {
real_unit = units[a];
if (real_unit->id == id) {
break;
}
}
df::unit *real_unit = df::unit::find(id);
// Check to make sure the unit hasn't expired before assigning a job, or if they've been healed
if (!real_unit || !Units::isActive(real_unit) || !real_unit->health->flags.bits.needs_healthcare) {
@ -474,8 +464,6 @@ void tickHandler(color_ostream& out, void* data) {
return;
CoreSuspender suspend;
int32_t own_race_id = df::global::ui->race_id;
int32_t own_civ_id = df::global::ui->civ_id;
auto units = world->units.all;
/**
* Generate a list of animal hospitals on the map
@ -496,8 +484,7 @@ void tickHandler(color_ostream& out, void* data) {
// Walk the building tree, and generate a list of animal hospitals on the map
for (size_t b =0 ; b < world->buildings.all.size(); b++) {
df::building* building = world->buildings.all[b];
for (df::building* building : df::building::get_vector()) {
if (isActiveAnimalHospital(building)) {
hospitals_on_map.push_back(building);
}
@ -621,9 +608,7 @@ void tickHandler(color_ostream& out, void* data) {
*/
processUnits:
/* Code borrowed from petcapRemover.cpp */
for ( size_t a = 0; a < units.size(); a++ ) {
df::unit* unit = units[a];
for (df::unit *unit : df::unit::get_vector()) {
/* As hilarious as it would be, lets not treat FB :) */
if ( !Units::isActive(unit) || unit->flags1.bits.active_invader || unit->flags2.bits.underworld || unit->flags2.bits.visitor_uninvited || unit->flags2.bits.visitor ) {
continue;