#include "queue.h" #include "actions.h" #include "critter.h" #include "display_monitor.h" #include "game.h" #include "game_sound.h" #include "item.h" #include "map.h" #include "memory.h" #include "message.h" #include "object.h" #include "perk.h" #include "proto.h" #include "proto_instance.h" #include "scripts.h" typedef struct QueueListNode { // TODO: Make unsigned. int time; int type; Object* owner; void* data; struct QueueListNode* next; } QueueListNode; typedef struct EventTypeDescription { QueueEventHandler* handlerProc; QueueEventDataFreeProc* freeProc; QueueEventDataReadProc* readProc; QueueEventDataWriteProc* writeProc; bool field_10; QueueEventHandler* field_14; } EventTypeDescription; static int flareEventProcess(Object* obj, void* data); static int explosionEventProcess(Object* obj, void* data); static int _queue_explode_exit(Object* obj, void* data); static int _queue_do_explosion_(Object* obj, bool a2); static int explosionFailureEventProcess(Object* obj, void* data); // Last queue list node found during [queueFindFirstEvent] and // [queueFindNextEvent] calls. // // 0x51C690 static QueueListNode* gLastFoundQueueListNode = NULL; // 0x6648C0 static QueueListNode* gQueueListHead; // 0x51C540 static EventTypeDescription gEventTypeDescriptions[EVENT_TYPE_COUNT] = { { drugEffectEventProcess, internal_free, drugEffectEventRead, drugEffectEventWrite, true, _item_d_clear }, { knockoutEventProcess, NULL, NULL, NULL, true, _critter_wake_clear }, { withdrawalEventProcess, internal_free, withdrawalEventRead, withdrawalEventWrite, true, _item_wd_clear }, { scriptEventProcess, internal_free, scriptEventRead, scriptEventWrite, true, NULL }, { gameTimeEventProcess, NULL, NULL, NULL, true, NULL }, { poisonEventProcess, NULL, NULL, NULL, false, NULL }, { radiationEventProcess, internal_free, radiationEventRead, radiationEventWrite, false, NULL }, { flareEventProcess, NULL, NULL, NULL, true, flareEventProcess }, { explosionEventProcess, NULL, NULL, NULL, true, _queue_explode_exit }, { miscItemTrickleEventProcess, NULL, NULL, NULL, true, _item_m_turn_off_from_queue }, { sneakEventProcess, NULL, NULL, NULL, true, _critter_sneak_clear }, { explosionFailureEventProcess, NULL, NULL, NULL, true, _queue_explode_exit }, { mapUpdateEventProcess, NULL, NULL, NULL, true, NULL }, { ambientSoundEffectEventProcess, internal_free, NULL, NULL, true, NULL }, }; // 0x4A2320 void queueInit() { gQueueListHead = NULL; } // 0x4A2330 int queueExit() { queueClear(); return 0; } // 0x4A2338 int queueLoad(File* stream) { int count; if (fileReadInt32(stream, &count) == -1) { return -1; } QueueListNode* oldListHead = gQueueListHead; gQueueListHead = NULL; QueueListNode** nextPtr = &gQueueListHead; int rc = 0; for (int index = 0; index < count; index += 1) { QueueListNode* queueListNode = (QueueListNode*)internal_malloc(sizeof(*queueListNode)); if (queueListNode == NULL) { rc = -1; break; } if (fileReadInt32(stream, &(queueListNode->time)) == -1) { internal_free(queueListNode); rc = -1; break; } if (fileReadInt32(stream, &(queueListNode->type)) == -1) { internal_free(queueListNode); rc = -1; break; } int objectId; if (fileReadInt32(stream, &objectId) == -1) { internal_free(queueListNode); rc = -1; break; } Object* obj; if (objectId == -2) { obj = NULL; } else { obj = objectFindFirst(); while (obj != NULL) { obj = _inven_find_id(obj, objectId); if (obj != NULL) { break; } obj = objectFindNext(); } } queueListNode->owner = obj; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[queueListNode->type]); if (eventTypeDescription->readProc != NULL) { if (eventTypeDescription->readProc(stream, &(queueListNode->data)) == -1) { internal_free(queueListNode); rc = -1; break; } } else { queueListNode->data = NULL; } queueListNode->next = NULL; *nextPtr = queueListNode; nextPtr = &(queueListNode->next); } if (rc == -1) { while (gQueueListHead != NULL) { QueueListNode* next = gQueueListHead->next; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[gQueueListHead->type]); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(gQueueListHead->data); } internal_free(gQueueListHead); gQueueListHead = next; } } if (oldListHead != NULL) { QueueListNode** v13 = &gQueueListHead; QueueListNode* v15; do { while (true) { QueueListNode* v14 = *v13; if (v14 == NULL) { break; } if (v14->time > oldListHead->time) { break; } v13 = &(v14->next); } v15 = oldListHead->next; oldListHead->next = *v13; *v13 = oldListHead; oldListHead = v15; } while (v15 != NULL); } return rc; } // 0x4A24E0 int queueSave(File* stream) { QueueListNode* queueListNode; int count = 0; queueListNode = gQueueListHead; while (queueListNode != NULL) { count += 1; queueListNode = queueListNode->next; } if (fileWriteInt32(stream, count) == -1) { return -1; } queueListNode = gQueueListHead; while (queueListNode != NULL) { Object* object = queueListNode->owner; int objectId = object != NULL ? object->id : -2; if (fileWriteInt32(stream, queueListNode->time) == -1) { return -1; } if (fileWriteInt32(stream, queueListNode->type) == -1) { return -1; } if (fileWriteInt32(stream, objectId) == -1) { return -1; } EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[queueListNode->type]); if (eventTypeDescription->writeProc != NULL) { if (eventTypeDescription->writeProc(stream, queueListNode->data) == -1) { return -1; } } queueListNode = queueListNode->next; } return 0; } // 0x4A258C int queueAddEvent(int delay, Object* obj, void* data, int eventType) { QueueListNode* newQueueListNode = (QueueListNode*)internal_malloc(sizeof(QueueListNode)); if (newQueueListNode == NULL) { return -1; } int v1 = gameTimeGetTime(); int v2 = v1 + delay; newQueueListNode->time = v2; newQueueListNode->type = eventType; newQueueListNode->owner = obj; newQueueListNode->data = data; if (obj != NULL) { obj->flags |= OBJECT_USED; } QueueListNode** v3 = &gQueueListHead; if (gQueueListHead != NULL) { QueueListNode* v4; do { v4 = *v3; if (v2 < v4->time) { break; } v3 = &(v4->next); } while (v4->next != NULL); } newQueueListNode->next = *v3; *v3 = newQueueListNode; return 0; } // 0x4A25F4 int queueRemoveEvents(Object* owner) { QueueListNode* queueListNode = gQueueListHead; QueueListNode** queueListNodePtr = &gQueueListHead; while (queueListNode) { if (queueListNode->owner == owner) { QueueListNode* temp = queueListNode; queueListNode = queueListNode->next; *queueListNodePtr = queueListNode; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[temp->type]); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(temp->data); } internal_free(temp); } else { queueListNodePtr = &(queueListNode->next); queueListNode = queueListNode->next; } } return 0; } // 0x4A264C int queueRemoveEventsByType(Object* owner, int eventType) { QueueListNode* queueListNode = gQueueListHead; QueueListNode** queueListNodePtr = &gQueueListHead; while (queueListNode) { if (queueListNode->owner == owner && queueListNode->type == eventType) { QueueListNode* temp = queueListNode; queueListNode = queueListNode->next; *queueListNodePtr = queueListNode; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[temp->type]); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(temp->data); } internal_free(temp); } else { queueListNodePtr = &(queueListNode->next); queueListNode = queueListNode->next; } } return 0; } // Returns true if there is at least one event of given type scheduled. // // 0x4A26A8 bool queueHasEvent(Object* owner, int eventType) { QueueListNode* queueListEvent = gQueueListHead; while (queueListEvent != NULL) { if (owner == queueListEvent->owner && eventType == queueListEvent->type) { return true; } queueListEvent = queueListEvent->next; } return false; } // 0x4A26D0 int queueProcessEvents() { int time = gameTimeGetTime(); int v1 = 0; while (gQueueListHead != NULL) { QueueListNode* queueListNode = gQueueListHead; if (time < queueListNode->time || v1 != 0) { break; } gQueueListHead = queueListNode->next; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[queueListNode->type]); v1 = eventTypeDescription->handlerProc(queueListNode->owner, queueListNode->data); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(queueListNode->data); } internal_free(queueListNode); } return v1; } // 0x4A2748 void queueClear() { QueueListNode* queueListNode = gQueueListHead; while (queueListNode != NULL) { QueueListNode* next = queueListNode->next; EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[queueListNode->type]); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(queueListNode->data); } internal_free(queueListNode); queueListNode = next; } gQueueListHead = NULL; } // 0x4A2790 void _queue_clear_type(int eventType, QueueEventHandler* fn) { QueueListNode** ptr = &gQueueListHead; QueueListNode* curr = *ptr; while (curr != NULL) { if (eventType == curr->type) { QueueListNode* tmp = curr; *ptr = curr->next; curr = *ptr; if (fn != NULL && fn(tmp->owner, tmp->data) != 1) { *ptr = tmp; ptr = &(tmp->next); } else { EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[tmp->type]); if (eventTypeDescription->freeProc != NULL) { eventTypeDescription->freeProc(tmp->data); } internal_free(tmp); } } else { ptr = &(curr->next); curr = *ptr; } } } // TODO: Make unsigned. // // 0x4A2808 int queueGetNextEventTime() { if (gQueueListHead == NULL) { return 0; } return gQueueListHead->time; } // 0x4A281C static int flareEventProcess(Object* obj, void* data) { _obj_destroy(obj); return 1; } // 0x4A2828 static int explosionEventProcess(Object* obj, void* data) { return _queue_do_explosion_(obj, true); } // 0x4A2830 static int _queue_explode_exit(Object* obj, void* data) { return _queue_do_explosion_(obj, false); } // 0x4A2834 static int _queue_do_explosion_(Object* explosive, bool a2) { int tile; int elevation; Object* owner = objectGetOwner(explosive); if (owner) { tile = owner->tile; elevation = owner->elevation; } else { tile = explosive->tile; elevation = explosive->elevation; } int maxDamage; int minDamage; // SFALL explosiveGetDamage(explosive->pid, &minDamage, &maxDamage); // FIXME: I guess this is a little bit wrong, dude can never be null, I // guess it needs to check if owner is dude. if (gDude != NULL) { if (perkHasRank(gDude, PERK_DEMOLITION_EXPERT)) { maxDamage += 10; minDamage += 10; } } if (actionExplode(tile, elevation, minDamage, maxDamage, gDude, a2) == -2) { queueAddEvent(50, explosive, NULL, EVENT_TYPE_EXPLOSION); } else { _obj_destroy(explosive); } return 1; } // 0x4A28E4 static int explosionFailureEventProcess(Object* obj, void* data) { MessageListItem msg; // Due to your inept handling, the explosive detonates prematurely. msg.num = 4000; if (messageListGetItem(&gMiscMessageList, &msg)) { displayMonitorAddMessage(msg.text); } return _queue_do_explosion_(obj, true); } // 0x4A2920 void _queue_leaving_map() { for (int eventType = 0; eventType < EVENT_TYPE_COUNT; eventType++) { EventTypeDescription* eventTypeDescription = &(gEventTypeDescriptions[eventType]); if (eventTypeDescription->field_10) { _queue_clear_type(eventType, eventTypeDescription->field_14); } } } // 0x4A294C bool queueIsEmpty() { return gQueueListHead == NULL; } // 0x4A295C void* queueFindFirstEvent(Object* owner, int eventType) { QueueListNode* queueListNode = gQueueListHead; while (queueListNode != NULL) { if (owner == queueListNode->owner && eventType == queueListNode->type) { gLastFoundQueueListNode = queueListNode; return queueListNode->data; } queueListNode = queueListNode->next; } gLastFoundQueueListNode = NULL; return NULL; } // 0x4A2994 void* queueFindNextEvent(Object* owner, int eventType) { if (gLastFoundQueueListNode != NULL) { QueueListNode* queueListNode = gLastFoundQueueListNode->next; while (queueListNode != NULL) { if (owner == queueListNode->owner && eventType == queueListNode->type) { gLastFoundQueueListNode = queueListNode; return queueListNode->data; } queueListNode = queueListNode->next; } } gLastFoundQueueListNode = NULL; return NULL; }