#include "critter.h" #include "animation.h" #include "character_editor.h" #include "combat.h" #include "debug.h" #include "display_monitor.h" #include "endgame.h" #include "game.h" #include "geometry.h" #include "interface.h" #include "item.h" #include "map.h" #include "memory.h" #include "object.h" #include "party_member.h" #include "proto.h" #include "queue.h" #include "random.h" #include "reaction.h" #include "scripts.h" #include "skill.h" #include "stat.h" #include "tile.h" #include "trait.h" #include "world_map.h" #include #include // 0x50141C char _aCorpse[] = "corpse"; // 0x501494 char byte_501494[] = ""; // 0x51833C char* _name_critter = _aCorpse; // Modifiers to endurance for performing radiation damage check. // // 0x518340 const int gRadiationEnduranceModifiers[RADIATION_LEVEL_COUNT] = { 2, 0, -2, -4, -6, -8, }; // List of stats affected by radiation. // // The values of this list specify stats that can be affected by radiation. // The amount of penalty to every stat (identified by index) is stored // separately in [gRadiationEffectPenalties] per radiation level. // // The order of stats is important - primary stats must be at the top. See // [RADIATION_EFFECT_PRIMARY_STAT_COUNT] for more info. // // 0x518358 const int gRadiationEffectStats[RADIATION_EFFECT_COUNT] = { STAT_STRENGTH, STAT_PERCEPTION, STAT_ENDURANCE, STAT_CHARISMA, STAT_INTELLIGENCE, STAT_AGILITY, STAT_CURRENT_HIT_POINTS, STAT_HEALING_RATE, }; // Denotes how many primary stats at the top of [gRadiationEffectStats] array. // These stats are used to determine if critter is alive after applying // radiation effects. #define RADIATION_EFFECT_PRIMARY_STAT_COUNT 6 // List of stat modifiers caused by radiation at different radiation levels. // // 0x518378 const int gRadiationEffectPenalties[RADIATION_LEVEL_COUNT][RADIATION_EFFECT_COUNT] = { // clang-format off { 0, 0, 0, 0, 0, 0, 0, 0 }, { -1, 0, 0, 0, 0, 0, 0, 0 }, { -1, 0, 0, 0, 0, -1, 0, -3 }, { -2, 0, -1, 0, 0, -2, -5, -5 }, { -4, -3, -3, -3, -1, -5, -15, -10 }, { -6, -5, -5, -5, -3, -6, -20, -10 }, // clang-format on }; // 0x518438 Object* _critterClearObj = NULL; // scrname.msg // // 0x56D754 MessageList gCritterMessageList; // 0x56D75C char gDudeName[DUDE_NAME_MAX_LENGTH]; // 0x56D77C int _sneak_working; // 0x56D780 int gKillsByType[KILL_TYPE_COUNT]; // Something with radiation. // // 0x56D7CC int _old_rad_level; // scrname_init // 0x42CF50 int critterInit() { dudeResetName(); memset(gKillsByType, 0, sizeof(gKillsByType)); if (!messageListInit(&gCritterMessageList)) { debugPrint("\nError: Initing critter name message file!"); return -1; } char path[MAX_PATH]; sprintf(path, "%sscrname.msg", asc_5186C8); if (!messageListLoad(&gCritterMessageList, path)) { debugPrint("\nError: Loading critter name message file!"); return -1; } return 0; } // 0x42CFE4 void critterReset() { dudeResetName(); memset(gKillsByType, 0, sizeof(gKillsByType)); } // 0x42D004 void critterExit() { messageListFree(&gCritterMessageList); } // 0x42D01C int critterLoad(File* stream) { if (fileReadInt32(stream, &_sneak_working) == -1) { return -1; } Proto* proto; protoGetProto(gDude->pid, &proto); return protoCritterDataRead(stream, &(proto->critter.data)); } // 0x42D058 int critterSave(File* stream) { if (fileWriteInt32(stream, _sneak_working) == -1) { return -1; } Proto* proto; protoGetProto(gDude->pid, &proto); return protoCritterDataWrite(stream, &(proto->critter.data)); } // 0x42D094 void critterProtoDataCopy(CritterProtoData* dest, CritterProtoData* src) { memcpy(dest, src, sizeof(CritterProtoData)); } // 0x42D0A8 char* critterGetName(Object* obj) { if (obj == gDude) { return gDudeName; } if (obj->field_80 == -1) { if (obj->sid != -1) { Script* script; if (scriptGetScript(obj->sid, &script) != -1) { obj->field_80 = script->field_14; } } } char* name = NULL; if (obj->field_80 != -1) { MessageListItem messageListItem; messageListItem.num = 101 + obj->field_80; if (messageListGetItem(&gCritterMessageList, &messageListItem)) { name = messageListItem.text; } } if (name == NULL || *name == '\0') { name = protoGetName(obj->pid); } _name_critter = name; return name; } // 0x42D138 int dudeSetName(const char* name) { if (strlen(name) <= DUDE_NAME_MAX_LENGTH) { strncpy(gDudeName, name, DUDE_NAME_MAX_LENGTH); return 0; } return -1; } // 0x42D170 void dudeResetName() { strncpy(gDudeName, "None", DUDE_NAME_MAX_LENGTH); } // 0x42D18C int critterGetHitPoints(Object* critter) { return (critter->pid >> 24) == OBJ_TYPE_CRITTER ? critter->data.critter.hp : 0; } // 0x42D1A4 int critterAdjustHitPoints(Object* critter, int a2) { if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return 0; } int maximumHp = critterGetStat(critter, STAT_MAXIMUM_HIT_POINTS); int newHp = critter->data.critter.hp + a2; critter->data.critter.hp = newHp; if (maximumHp >= newHp) { if (newHp <= 0 && (critter->data.critter.combat.results & DAM_DEAD) == 0) { critterKill(critter, -1, true); } } else { critter->data.critter.hp = maximumHp; } return 0; } // 0x42D1F8 int critterGetPoison(Object* critter) { return (critter->pid >> 24) == OBJ_TYPE_CRITTER ? critter->data.critter.poison : 0; } // Adjust critter's current poison by specified amount. // // For unknown reason this function only works on dude. // // The [amount] can either be positive (adds poison) or negative (removes // poison). // // 0x42D210 int critterAdjustPoison(Object* critter, int amount) { MessageListItem messageListItem; if (critter != gDude) { return -1; } if (amount > 0) { // Take poison resistance into account. amount -= amount * critterGetStat(critter, STAT_POISON_RESISTANCE) / 100; } else { if (gDude->data.critter.poison <= 0) { // Critter is not poisoned and we're want to decrease it even // further, which makes no sense. return 0; } } int newPoison = critter->data.critter.poison + amount; if (newPoison > 0) { critter->data.critter.poison = newPoison; _queue_clear_type(EVENT_TYPE_POISON, NULL); queueAddEvent(10 * (505 - 5 * newPoison), gDude, NULL, EVENT_TYPE_POISON); // You have been poisoned! messageListItem.num = 3000; if (amount < 0) { // You feel a little better. messageListItem.num = 3002; } } else { critter->data.critter.poison = 0; // You feel better. messageListItem.num = 3003; } if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } if (critter == gDude) { indicatorBarRefresh(); } return 0; } // 0x42D318 int poisonEventProcess(Object* obj, void* data) { if (obj != gDude) { return 0; } critterAdjustPoison(obj, -2); critterAdjustHitPoints(obj, -1); interfaceRenderHitPoints(false); MessageListItem messageListItem; // You take damage from poison. messageListItem.num = 3001; if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } // NOTE: Uninline. int hitPoints = critterGetHitPoints(obj); if (hitPoints > 5) { return 0; } return 1; } // 0x42D38C int critterGetRadiation(Object* obj) { return (obj->pid >> 24) == OBJ_TYPE_CRITTER ? obj->data.critter.radiation : 0; } // 0x42D3A4 int critterAdjustRadiation(Object* obj, int amount) { MessageListItem messageListItem; if (obj != gDude) { return -1; } Proto* proto; protoGetProto(gDude->pid, &proto); if (amount > 0) { amount -= critterGetStat(obj, STAT_RADIATION_RESISTANCE) * amount / 100; } if (amount > 0) { proto->critter.data.flags |= 0x02; } if (amount > 0) { Object* geigerCounter = NULL; Object* item1 = critterGetItem1(gDude); if (item1 != NULL) { if (item1->pid == PROTO_ID_GEIGER_COUNTER_I || item1->pid == PROTO_ID_GEIGER_COUNTER_II) { geigerCounter = item1; } } Object* item2 = critterGetItem2(gDude); if (item2 != NULL) { if (item2->pid == PROTO_ID_GEIGER_COUNTER_I || item2->pid == PROTO_ID_GEIGER_COUNTER_II) { geigerCounter = item2; } } if (geigerCounter != NULL) { if (miscItemIsOn(geigerCounter)) { if (amount > 5) { // The geiger counter is clicking wildly. messageListItem.num = 1009; } else { // The geiger counter is clicking. messageListItem.num = 1008; } if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } } } } if (amount >= 10) { // You have received a large dose of radiation. messageListItem.num = 1007; if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } } obj->data.critter.radiation += amount; if (obj->data.critter.radiation < 0) { obj->data.critter.radiation = 0; } if (obj == gDude) { indicatorBarRefresh(); } return 0; } // 0x42D4F4 int _critter_check_rads(Object* obj) { if (obj != gDude) { return 0; } Proto* proto; protoGetProto(obj->pid, &proto); if ((proto->critter.data.flags & 0x02) == 0) { return 0; } _old_rad_level = 0; _queue_clear_type(EVENT_TYPE_RADIATION, _get_rad_damage_level); // NOTE: Uninline int radiation = critterGetRadiation(obj); int radiationLevel; if (radiation > 999) radiationLevel = RADIATION_LEVEL_FATAL; else if (radiation > 599) radiationLevel = RADIATION_LEVEL_DEADLY; else if (radiation > 399) radiationLevel = RADIATION_LEVEL_CRITICAL; else if (radiation > 199) radiationLevel = RADIATION_LEVEL_ADVANCED; else if (radiation > 99) radiationLevel = RADIATION_LEVEL_MINOR; else radiationLevel = RADIATION_LEVEL_NONE; if (statRoll(obj, STAT_ENDURANCE, gRadiationEnduranceModifiers[radiationLevel], NULL) <= ROLL_FAILURE) { radiationLevel++; } if (radiationLevel > _old_rad_level) { // Create timer event for applying radiation damage. RadiationEvent* radiationEvent = internal_malloc(sizeof(*radiationEvent)); if (radiationEvent == NULL) { return 0; } radiationEvent->radiationLevel = radiationLevel; radiationEvent->isHealing = 0; queueAddEvent(36000 * randomBetween(4, 18), obj, radiationEvent, EVENT_TYPE_RADIATION); } proto->critter.data.flags &= ~(0x02); return 0; } // 0x42D618 int _get_rad_damage_level(Object* obj, void* data) { RadiationEvent* radiationEvent = data; _old_rad_level = radiationEvent->radiationLevel; return 0; } // 0x42D624 int _clear_rad_damage(Object* obj, void* data) { RadiationEvent* radiationEvent = data; if (radiationEvent->isHealing) { _process_rads(obj, radiationEvent->radiationLevel, true); } return 1; } // Applies radiation. // // 0x42D63C void _process_rads(Object* obj, int radiationLevel, bool isHealing) { MessageListItem messageListItem; if (radiationLevel == RADIATION_LEVEL_NONE) { return; } int radiationLevelIndex = radiationLevel - 1; int modifier = isHealing ? -1 : 1; if (obj == gDude) { // Radiation level message, higher is worse. messageListItem.num = 1000 + radiationLevelIndex; if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } } for (int effect = 0; effect < RADIATION_EFFECT_COUNT; effect++) { int value = critterGetBonusStat(obj, gRadiationEffectStats[effect]); value += modifier * gRadiationEffectPenalties[radiationLevelIndex][effect]; critterSetBonusStat(obj, gRadiationEffectStats[effect], value); } if ((obj->data.critter.combat.results & DAM_DEAD) == 0) { // Loop thru effects affecting primary stats. If any of the primary stat // dropped below minimal value, kill it. for (int effect = 0; effect < RADIATION_EFFECT_PRIMARY_STAT_COUNT; effect++) { int base = critterGetBaseStatWithTraitModifier(obj, gRadiationEffectStats[effect]); int bonus = critterGetBonusStat(obj, gRadiationEffectStats[effect]); if (base + bonus < PRIMARY_STAT_MIN) { critterKill(obj, -1, 1); break; } } } if ((obj->data.critter.combat.results & DAM_DEAD) != 0) { if (obj == gDude) { // You have died from radiation sickness. messageListItem.num = 1006; if (messageListGetItem(&gMiscMessageList, &messageListItem)) { displayMonitorAddMessage(messageListItem.text); } } } } // 0x42D740 int radiationEventProcess(Object* obj, void* data) { RadiationEvent* radiationEvent = data; if (!radiationEvent->isHealing) { // Schedule healing stats event in 7 days. RadiationEvent* newRadiationEvent = internal_malloc(sizeof(*newRadiationEvent)); if (newRadiationEvent != NULL) { _queue_clear_type(EVENT_TYPE_RADIATION, _clear_rad_damage); newRadiationEvent->radiationLevel = radiationEvent->radiationLevel; newRadiationEvent->isHealing = 1; queueAddEvent(GAME_TIME_TICKS_PER_DAY * 7, obj, newRadiationEvent, EVENT_TYPE_RADIATION); } } _process_rads(obj, radiationEvent->radiationLevel, radiationEvent->isHealing); return 1; } // 0x42D7A0 int radiationEventRead(File* stream, void** dataPtr) { RadiationEvent* radiationEvent = internal_malloc(sizeof(*radiationEvent)); if (radiationEvent == NULL) { return -1; } if (fileReadInt32(stream, &(radiationEvent->radiationLevel)) == -1) goto err; if (fileReadInt32(stream, &(radiationEvent->isHealing)) == -1) goto err; *dataPtr = radiationEvent; return 0; err: internal_free(radiationEvent); return -1; } // 0x42D7FC int radiationEventWrite(File* stream, void* data) { RadiationEvent* radiationEvent = data; if (fileWriteInt32(stream, radiationEvent->radiationLevel) == -1) return -1; if (fileWriteInt32(stream, radiationEvent->isHealing) == -1) return -1; return 0; } // 0x42D82C int critterGetDamageType(Object* obj) { if ((obj->pid >> 24) != OBJ_TYPE_CRITTER) { return 0; } Proto* proto; if (protoGetProto(obj->pid, &proto) == -1) { return 0; } return proto->critter.data.damageType; } // 0x42D878 int killsIncByType(int killType) { if (killType != -1 && killType < KILL_TYPE_COUNT) { gKillsByType[killType]++; return 0; } return -1; } // 0x42D8A8 int killsGetByType(int killType) { if (killType != -1 && killType < KILL_TYPE_COUNT) { return gKillsByType[killType]; } return 0; } // 0x42D8C0 int killsLoad(File* stream) { if (fileReadInt32List(stream, gKillsByType, KILL_TYPE_COUNT) == -1) { fileClose(stream); return -1; } return 0; } // 0x42D8F0 int killsSave(File* stream) { if (fileWriteInt32List(stream, gKillsByType, KILL_TYPE_COUNT) == -1) { fileClose(stream); return -1; } return 0; } // 0x42D920 int critterGetKillType(Object* obj) { if (obj == gDude) { int gender = critterGetStat(obj, STAT_GENDER); if (gender == GENDER_FEMALE) { return KILL_TYPE_WOMAN; } return KILL_TYPE_MAN; } if ((obj->pid >> 24) != OBJ_TYPE_CRITTER) { return -1; } Proto* proto; protoGetProto(obj->pid, &proto); return proto->critter.data.killType; } // 0x42D974 char* killTypeGetName(int killType) { if (killType != -1 && killType < KILL_TYPE_COUNT) { if (killType >= 0 && killType < KILL_TYPE_COUNT) { MessageListItem messageListItem; return getmsg(&gProtoMessageList, &messageListItem, 1450 + killType); } else { return NULL; } } else { return byte_501494; } } // 0x42D9B4 char* killTypeGetDescription(int killType) { if (killType != -1 && killType < KILL_TYPE_COUNT) { if (killType >= 0 && killType < KILL_TYPE_COUNT) { MessageListItem messageListItem; return getmsg(&gProtoMessageList, &messageListItem, 1469 + killType); } else { return NULL; } } else { return byte_501494; } } // 0x42D9F4 int _critter_heal_hours(Object* critter, int a2) { if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return -1; } if (critter->data.critter.hp < critterGetStat(critter, STAT_MAXIMUM_HIT_POINTS)) { critterAdjustHitPoints(critter, 14 * (a2 / 3)); } critter->data.critter.combat.maneuver &= ~CRITTER_MANUEVER_FLEEING; return 0; } // 0x42DA54 int _critterClearObjDrugs(Object* obj, void* data) { return obj == _critterClearObj; } // 0x42DA64 void critterKill(Object* critter, int anim, bool a3) { if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return; } int elevation = critter->elevation; partyMemberRemove(critter); // NOTE: Original code uses goto to jump out from nested conditions below. bool shouldChangeFid = false; int fid; if (_critter_is_prone(critter)) { int current = (critter->fid & 0xFF0000) >> 16; if (current == ANIM_FALL_BACK || current == ANIM_FALL_FRONT) { bool back = false; if (current == ANIM_FALL_BACK) { back = true; } else { fid = buildFid(1, critter->fid & 0xFFF, ANIM_FALL_FRONT_SF, (critter->fid & 0xF000) >> 12, critter->rotation + 1); if (!artExists(fid)) { back = true; } } if (back) { fid = buildFid(1, critter->fid & 0xFFF, ANIM_FALL_BACK_SF, (critter->fid & 0xF000) >> 12, critter->rotation + 1); } shouldChangeFid = true; } } else { if (anim < 0) { anim = LAST_SF_DEATH_ANIM; } if (anim > LAST_SF_DEATH_ANIM) { debugPrint("\nError: Critter Kill: death_frame out of range!"); anim = LAST_SF_DEATH_ANIM; } fid = buildFid(1, critter->fid & 0xFFF, anim, (critter->fid & 0xF000) >> 12, critter->rotation + 1); _obj_fix_violence_settings(&fid); if (!artExists(fid)) { debugPrint("\nError: Critter Kill: Can't match fid!"); fid = buildFid(1, critter->fid & 0xFFF, ANIM_FALL_BACK_BLOOD_SF, (critter->fid & 0xF000) >> 12, critter->rotation + 1); _obj_fix_violence_settings(&fid); } shouldChangeFid = true; } Rect updatedRect; Rect tempRect; if (shouldChangeFid) { objectSetFrame(critter, 0, &updatedRect); objectSetFid(critter, fid, &tempRect); rectUnion(&updatedRect, &tempRect, &updatedRect); } if (!_critter_flag_check(critter->pid, 2048)) { critter->flags |= OBJECT_NO_BLOCK; _obj_toggle_flat(critter, &tempRect); } // NOTE: using uninitialized updatedRect/tempRect if fid was not set. rectUnion(&updatedRect, &tempRect, &updatedRect); _obj_turn_off_light(critter, &tempRect); rectUnion(&updatedRect, &tempRect, &updatedRect); critter->data.critter.hp = 0; critter->data.critter.combat.results |= DAM_DEAD; if (critter->sid != -1) { scriptRemove(critter->sid); critter->sid = -1; } _critterClearObj = critter; _queue_clear_type(EVENT_TYPE_DRUG, _critterClearObjDrugs); _item_destroy_all_hidden(critter); if (a3) { tileWindowRefreshRect(&updatedRect, elevation); } if (critter == gDude) { endgameSetupDeathEnding(ENDGAME_DEATH_ENDING_REASON_DEATH); _game_user_wants_to_quit = 2; } } // Returns experience for killing [critter]. // // 0x42DCB8 int critterGetExp(Object* critter) { Proto* proto; protoGetProto(critter->pid, &proto); return proto->critter.data.experience; } // 0x42DCDC bool critterIsActive(Object* critter) { if (critter == NULL) { return false; } if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return false; } if ((critter->data.critter.combat.results & (DAM_KNOCKED_OUT | DAM_DEAD)) != 0) { return false; } if ((critter->data.critter.combat.results & (DAM_KNOCKED_OUT | DAM_DEAD | DAM_LOSE_TURN)) != 0) { return false; } return (critter->data.critter.combat.results & DAM_DEAD) == 0; } // 0x42DD18 bool critterIsDead(Object* critter) { if (critter == NULL) { return false; } if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return false; } if (critterGetStat(critter, STAT_CURRENT_HIT_POINTS) <= 0) { return true; } if ((critter->data.critter.combat.results & DAM_DEAD) != 0) { return true; } return false; } // 0x42DD58 bool critterIsCrippled(Object* critter) { if (critter == NULL) { return false; } if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return false; } return (critter->data.critter.combat.results & DAM_CRIP) != 0; } // 0x42DD80 bool _critter_is_prone(Object* critter) { if (critter == NULL) { return false; } if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return false; } int anim = (critter->fid & 0xFF0000) >> 16; return (critter->data.critter.combat.results & (DAM_KNOCKED_OUT | DAM_KNOCKED_DOWN)) != 0 || anim >= FIRST_KNOCKDOWN_AND_DEATH_ANIM && anim <= LAST_KNOCKDOWN_AND_DEATH_ANIM || anim >= FIRST_SF_DEATH_ANIM && anim <= LAST_SF_DEATH_ANIM; } // critter_body_type // 0x42DDC4 int critterGetBodyType(Object* critter) { if (critter == NULL) { debugPrint("\nError: critter_body_type: pobj was NULL!"); return 0; } if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return 0; } Proto* proto; protoGetProto(critter->pid, &proto); return proto->critter.data.bodyType; } // 0x42DE58 int gcdLoad(const char* path) { File* stream = fileOpen(path, "rb"); if (stream == NULL) { return -1; } Proto* proto; protoGetProto(gDude->pid, &proto); if (protoCritterDataRead(stream, &(proto->critter.data)) == -1) { fileClose(stream); return -1; } fileRead(gDudeName, DUDE_NAME_MAX_LENGTH, 1, stream); if (skillsLoad(stream) == -1) { fileClose(stream); return -1; } if (traitsLoad(stream) == -1) { fileClose(stream); return -1; } if (fileReadInt32(stream, &characterEditorRemainingCharacterPoints) == -1) { fileClose(stream); return -1; } proto->critter.data.baseStats[STAT_DAMAGE_RESISTANCE_EMP] = 100; proto->critter.data.bodyType = 0; proto->critter.data.experience = 0; proto->critter.data.killType = 0; fileClose(stream); return 0; } // 0x42DF70 int protoCritterDataRead(File* stream, CritterProtoData* critterData) { if (fileReadInt32(stream, &(critterData->flags)) == -1) return -1; if (fileReadInt32List(stream, critterData->baseStats, SAVEABLE_STAT_COUNT) == -1) return -1; if (fileReadInt32List(stream, critterData->bonusStats, SAVEABLE_STAT_COUNT) == -1) return -1; if (fileReadInt32List(stream, critterData->skills, SKILL_COUNT) == -1) return -1; if (fileReadInt32(stream, &(critterData->bodyType)) == -1) return -1; if (fileReadInt32(stream, &(critterData->experience)) == -1) return -1; if (fileReadInt32(stream, &(critterData->killType)) == -1) return -1; // NOTE: For unknown reason damage type is not present in two protos: Sentry // Bot and Weak Brahmin. These two protos are 412 bytes, not 416. // // Given that only Floating Eye Bot, Floater, and Nasty Floater have // natural damage type other than normal, I think addition of natural // damage type as a feature was a last minute design decision. Most protos // were updated, but not all. Another suggestion is that some team member // used outdated toolset to build those two protos (mapper or whatever // they used to create protos in the first place). // // Regardless of the reason, damage type is considered optional by original // code as seen at 0x42E01B. if (fileReadInt32(stream, &(critterData->damageType)) == -1) { critterData->damageType = DAMAGE_TYPE_NORMAL; } return 0; } // 0x42E08C int gcdSave(const char* path) { File* stream = fileOpen(path, "wb"); if (stream == NULL) { return -1; } Proto* proto; protoGetProto(gDude->pid, &proto); if (protoCritterDataWrite(stream, &(proto->critter.data)) == -1) { fileClose(stream); return -1; } fileWrite(gDudeName, DUDE_NAME_MAX_LENGTH, 1, stream); if (skillsSave(stream) == -1) { fileClose(stream); return -1; } if (traitsSave(stream) == -1) { fileClose(stream); return -1; } if (fileWriteInt32(stream, characterEditorRemainingCharacterPoints) == -1) { fileClose(stream); return -1; } fileClose(stream); return 0; } // 0x42E174 int protoCritterDataWrite(File* stream, CritterProtoData* critterData) { if (fileWriteInt32(stream, critterData->flags) == -1) return -1; if (fileWriteInt32List(stream, critterData->baseStats, SAVEABLE_STAT_COUNT) == -1) return -1; if (fileWriteInt32List(stream, critterData->bonusStats, SAVEABLE_STAT_COUNT) == -1) return -1; if (fileWriteInt32List(stream, critterData->skills, SKILL_COUNT) == -1) return -1; if (fileWriteInt32(stream, critterData->bodyType) == -1) return -1; if (fileWriteInt32(stream, critterData->experience) == -1) return -1; if (fileWriteInt32(stream, critterData->killType) == -1) return -1; if (fileWriteInt32(stream, critterData->damageType) == -1) return -1; return 0; } // 0x42E220 void dudeDisableState(int state) { Proto* proto; protoGetProto(gDude->pid, &proto); proto->critter.data.flags &= ~(1 << state); if (state == DUDE_STATE_SNEAKING) { queueRemoveEventsByType(gDude, EVENT_TYPE_SNEAK); } indicatorBarRefresh(); } // 0x42E26C void dudeEnableState(int state) { Proto* proto; protoGetProto(gDude->pid, &proto); proto->critter.data.flags |= (1 << state); if (state == DUDE_STATE_SNEAKING) { sneakEventProcess(NULL, NULL); } indicatorBarRefresh(); } // 0x42E2B0 void dudeToggleState(int state) { // NOTE: Uninline. if (dudeHasState(state)) { dudeDisableState(state); } else { dudeEnableState(state); } } // 0x42E2F8 bool dudeHasState(int state) { Proto* proto; protoGetProto(gDude->pid, &proto); return (proto->critter.data.flags & (1 << state)) != 0; } // 0x42E32C int sneakEventProcess(Object* obj, void* data) { int time; int sneak = skillGetValue(gDude, SKILL_SNEAK); if (skillRoll(gDude, SKILL_SNEAK, 0, NULL) < ROLL_SUCCESS) { time = 600; _sneak_working = false; if (sneak > 250) time = 100; else if (sneak > 200) time = 120; else if (sneak > 170) time = 150; else if (sneak > 135) time = 200; else if (sneak > 100) time = 300; else if (sneak > 80) time = 400; } else { time = 600; _sneak_working = true; } queueAddEvent(time, gDude, NULL, EVENT_TYPE_SNEAK); return 0; } // 0x42E3E4 int _critter_sneak_clear(Object* obj, void* data) { dudeDisableState(DUDE_STATE_SNEAKING); return 1; } // Returns true if dude is really sneaking. // // 0x42E3F4 bool dudeIsSneaking() { // NOTE: Uninline. if (dudeHasState(DUDE_STATE_SNEAKING)) { return _sneak_working; } return false; } // 0x42E424 int knockoutEventProcess(Object* obj, void* data) { if ((obj->data.critter.combat.results & DAM_DEAD) != 0) { return 0; } obj->data.critter.combat.results &= ~(DAM_KNOCKED_OUT | DAM_KNOCKED_DOWN); obj->data.critter.combat.results |= DAM_KNOCKED_DOWN; if (isInCombat()) { obj->data.critter.combat.maneuver |= CRITTER_MANEUVER_0x01; } else { _dude_standup(obj); } return 0; } // 0x42E460 int _critter_wake_clear(Object* obj, void* data) { if ((obj->pid >> 24) != OBJ_TYPE_CRITTER) { return 0; } if ((obj->data.critter.combat.results & DAM_DEAD) != 0) { return 0; } obj->data.critter.combat.results &= ~(DAM_KNOCKED_OUT | DAM_KNOCKED_DOWN); int fid = buildFid((obj->fid & 0xF000000) >> 24, obj->fid & 0xFFF, ANIM_STAND, (obj->fid & 0xF000) >> 12, obj->rotation + 1); objectSetFid(obj, fid, 0); return 0; } // 0x42E4C0 int _critter_set_who_hit_me(Object* a1, Object* a2) { if (a1 == NULL) { return -1; } if (a2 != NULL && ((a2->fid & 0xF000000) >> 24) != OBJ_TYPE_CRITTER) { return -1; } if ((a1->pid >> 24) == OBJ_TYPE_CRITTER) { if (a2 == NULL || a1->data.critter.combat.team != a2->data.critter.combat.team || statRoll(a1, STAT_INTELLIGENCE, -1, NULL) < 2 && (!objectIsPartyMember(a1) || !objectIsPartyMember(a2))) { a1->data.critter.combat.whoHitMe = a2; if (a2 == gDude) { reactionSetValue(a1, -3); } } } return 0; } // 0x42E564 bool _critter_can_obj_dude_rest() { bool v1 = false; if (!_wmMapCanRestHere(gElevation)) { v1 = true; } bool result = true; Object** critterList; int critterListLength = objectListCreate(-1, gElevation, OBJ_TYPE_CRITTER, &critterList); // TODO: Check conditions in this loop. for (int index = 0; index < critterListLength; index++) { Object* critter = critterList[index]; if ((critter->data.critter.combat.results & DAM_DEAD) != 0) { continue; } if (critter == gDude) { continue; } if (critter->data.critter.combat.whoHitMe != gDude) { if (!v1 || critter->data.critter.combat.team == gDude->data.critter.combat.team) { continue; } } result = false; break; } if (critterListLength != 0) { objectListFree(critterList); } return result; } // 0x42E62C int critterGetMovementPointCostAdjustedForCrippledLegs(Object* critter, int actionPoints) { if ((critter->pid >> 24) != OBJ_TYPE_CRITTER) { return 0; } int flags = critter->data.critter.combat.results; if ((flags & DAM_CRIP_LEG_LEFT) != 0 && (flags & DAM_CRIP_LEG_RIGHT) != 0) { return 8 * actionPoints; } else if ((flags & (DAM_CRIP_LEG_LEFT | DAM_CRIP_LEG_RIGHT)) != 0) { return 4 * actionPoints; } else { return actionPoints; } } // 0x42E66C bool critterIsEncumbered(Object* critter) { int maxWeight = critterGetStat(critter, STAT_CARRY_WEIGHT); int currentWeight = objectGetInventoryWeight(critter); return maxWeight < currentWeight; } // 0x42E690 bool critterIsFleeing(Object* critter) { return critter != NULL ? (critter->data.critter.combat.maneuver & CRITTER_MANUEVER_FLEEING) != 0 : false; } // Checks proto critter flag. // // 0x42E6AC bool _critter_flag_check(int pid, int flag) { if (pid == -1) { return false; } if ((pid >> 24) != OBJ_TYPE_CRITTER) { return false; } Proto* proto; protoGetProto(pid, &proto); return (proto->critter.data.flags & flag) != 0; }