scummvm/engines/saga/actor.cpp

3153 lines
85 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#include "saga/saga.h"
#include "saga/actor.h"
#include "saga/animation.h"
#include "saga/console.h"
#include "saga/events.h"
#include "saga/gfx.h"
#include "saga/interface.h"
#include "saga/isomap.h"
#include "saga/itedata.h"
#include "saga/objectmap.h"
#include "saga/sagaresnames.h"
#include "saga/rscfile.h"
#include "saga/script.h"
#include "saga/sndres.h"
#include "saga/sprite.h"
#include "saga/stream.h"
#include "saga/font.h"
#include "saga/sound.h"
#include "saga/scene.h"
#include "common/config-manager.h"
namespace Saga {
enum ActorFrameIds {
//ITE
kFrameITEStand = 0,
kFrameITEWalk = 1,
kFrameITESpeak = 2,
kFrameITEGive = 3,
kFrameITEGesture = 4,
kFrameITEWait = 5,
kFrameITEPickUp = 6,
kFrameITELook = 7,
//IHNM
kFrameIHNMStand = 0,
kFrameIHNMSpeak = 1,
kFrameIHNMWait = 2,
kFrameIHNMGesture = 3,
kFrameIHNMWalk = 4
};
static int commonObjectCompare(const CommonObjectDataPointer& obj1, const CommonObjectDataPointer& obj2) {
int p1 = obj1->_location.y - obj1->_location.z;
int p2 = obj2->_location.y - obj2->_location.z;
if (p1 == p2)
return 0;
if (p1 < p2)
return -1;
return 1;
}
static int tileCommonObjectCompare(const CommonObjectDataPointer& obj1, const CommonObjectDataPointer& obj2) {
int p1 = -obj1->_location.u() - obj1->_location.v() - obj1->_location.z;
int p2 = -obj2->_location.u() - obj2->_location.v() - obj2->_location.z;
//TODO: for kObjNotFlat obj Height*3 of sprite should be added to p1 and p2
//if (validObjId(obj1->id)) {
if (p1 == p2)
return 0;
if (p1 < p2)
return -1;
return 1;
}
inline int16 int16Compare(int16 i1, int16 i2) {
return ((i1) > (i2) ? 1 : ((i1) < (i2) ? -1 : 0));
}
inline int16 quickDistance(const Point &point1, const Point &point2) {
Point delta;
delta.x = ABS(point1.x - point2.x) / 2;
delta.y = ABS(point1.y - point2.y);
return ((delta.x < delta.y) ? (delta.y + delta.x / 2) : (delta.x + delta.y / 2));
}
inline void calcDeltaS(const Point &point1, const Point &point2, Point &delta, Point &s) {
delta.x = point2.x - point1.x;
if (delta.x == 0) {
s.x = 0;
} else {
if (delta.x > 0) {
s.x = 1;
} else {
s.x = -1;
delta.x = -delta.x;
}
}
delta.y = point2.y - point1.y;
if (delta.y == 0) {
s.y = 0;
} else {
if (delta.y > 0) {
s.y = 1;
} else {
s.y = -1;
delta.y = -delta.y;
}
}
}
// Lookup table to convert 8 cardinal directions to 4
static const int actorDirectectionsLUT[8] = {
ACTOR_DIRECTION_BACK, // kDirUp
ACTOR_DIRECTION_RIGHT, // kDirUpRight
ACTOR_DIRECTION_RIGHT, // kDirRight
ACTOR_DIRECTION_RIGHT, // kDirDownRight
ACTOR_DIRECTION_FORWARD,// kDirDown
ACTOR_DIRECTION_LEFT, // kDirDownLeft
ACTOR_DIRECTION_LEFT, // kDirLeft
ACTOR_DIRECTION_LEFT, // kDirUpLeft
};
static const PathDirectionData pathDirectionLUT[8][3] = {
{ { 0, Point( 0, -1) }, { 7, Point(-1, -1) }, { 4, Point( 1, -1) } },
{ { 1, Point( 1, 0) }, { 4, Point( 1, -1) }, { 5, Point( 1, 1) } },
{ { 2, Point( 0, 1) }, { 5, Point( 1, 1) }, { 6, Point(-1, 1) } },
{ { 3, Point(-1, 0) }, { 6, Point(-1, 1) }, { 7, Point(-1, -1) } },
{ { 0, Point( 0, -1) }, { 1, Point( 1, 0) }, { 4, Point( 1, -1) } },
{ { 1, Point( 1, 0) }, { 2, Point( 0, 1) }, { 5, Point( 1, 1) } },
{ { 2, Point( 0, 1) }, { 3, Point(-1, 0) }, { 6, Point(-1, 1) } },
{ { 3, Point(-1, 0) }, { 0, Point( 0, -1) }, { 7, Point(-1, -1) } }
};
static const int pathDirectionLUT2[8][2] = {
{ 0, -1 },
{ 1, 0 },
{ 0, 1 },
{ -1, 0 },
{ 1, -1 },
{ 1, 1 },
{ -1, 1 },
{ -1, -1 }
};
static const int angleLUT[16][2] = {
{ 0, -256 },
{ 98, -237 },
{ 181, -181 },
{ 237, -98 },
{ 256, 0 },
{ 237, 98 },
{ 181, 181 },
{ 98, 237 },
{ 0, 256 },
{ -98, 237 },
{ -181, 181 },
{ -237, 98 },
{ -256, 0 },
{ -237, -98 },
{ -181, -181 },
{ -98, -237 }
};
static const int directionLUT[8][2] = {
{ 0 * 2, -2 * 2 },
{ 2 * 2, -1 * 2 },
{ 3 * 2, 0 * 2 },
{ 2 * 2, 1 * 2 },
{ 0 * 2, 2 * 2 },
{ -2 * 2, 1 * 2 },
{ -4 * 2, 0 * 2 },
{ -2 * 2, -1 * 2 }
};
static const int tileDirectionLUT[8][2] = {
{ 1, 1 },
{ 2, 0 },
{ 1, -1 },
{ 0, -2 },
{ -1, -1 },
{ -2, 0 },
{ -1, 1 },
{ 0, 2 }
};
struct DragonMove {
uint16 baseFrame;
int16 offset[4][2];
};
static const DragonMove dragonMoveTable[12] = {
{ 0, { { 0, 0 }, { 0, 0 }, { 0, 0 }, { 0, 0 } } },
{ 0, { { 0, 0 }, { 0, 0 }, { 0, 0 }, { 0, 0 } } },
{ 0, { { 0, 0 }, { 0, 0 }, { 0, 0 }, { 0, 0 } } },
{ 0, { { 0, 0 }, { 0, 0 }, { 0, 0 }, { 0, 0 } } },
{ 28, { { -0, 0 }, { -1, 6 }, { -5, 11 }, { -10, 15 } } },
{ 56, { { 0, 0 }, { 1, 6 }, { 5, 11 }, { 10, 15 } } },
{ 40, { { 0, 0 }, { 6, 1 }, { 11, 5 }, { 15, 10 } } },
{ 44, { { 0, 0 }, { 6, -1 }, { 11, -5 }, { 15, -10 } } },
{ 32, { { -0, -0 }, { -6, -1 }, { -11, -5 }, { -15, -10 } } },
{ 52, { { -0, 0 }, { -6, 1 }, { -11, 5 }, { -15, 10 } } },
{ 36, { { 0, -0 }, { 1, -6 }, { 5, -11 }, { 10, -15 } } },
{ 48, { { -0, -0 }, { -1, -6 }, { -5, -11 }, { -10, -15 } } }
};
Actor::Actor(SagaEngine *vm) : _vm(vm) {
int i;
byte *stringsPointer;
size_t stringsLength;
ActorData *actor;
ObjectData *obj;
debug(9, "Actor::Actor()");
_handleActionDiv = 15;
_actors = NULL;
_actorsCount = 0;
_objs = NULL;
_objsCount = 0;
#ifdef ACTOR_DEBUG
_debugPoints = NULL;
_debugPointsAlloced = _debugPointsCount = 0;
#endif
_protagStates = 0;
_protagStatesCount = 0;
_pathNodeList = _newPathNodeList = NULL;
_pathList = NULL;
_pathDirectionList = NULL;
_pathListAlloced = _pathNodeListAlloced = _newPathNodeListAlloced = 0;
_pathListIndex = _pathNodeListIndex = _newPathNodeListIndex = -1;
_pathDirectionListCount = 0;
_pathDirectionListAlloced = 0;
_centerActor = _protagonist = NULL;
_protagState = 0;
_lastTickMsec = 0;
_yCellCount = _vm->_scene->getHeight();
_xCellCount = _vm->getDisplayWidth();
_pathCell = (int8 *)malloc(_yCellCount * _xCellCount * sizeof(*_pathCell));
_pathRect.left = 0;
_pathRect.right = _vm->getDisplayWidth();
_pathRect.top = _vm->getDisplayInfo().pathStartY;
_pathRect.bottom = _vm->_scene->getHeight();
// Get actor resource file context
_actorContext = _vm->_resource->getContext(GAME_RESOURCEFILE);
if (_actorContext == NULL) {
error("Actor::Actor() resource context not found");
}
// Load ITE actor strings. (IHNM actor strings are loaded by
// loadGlobalResources() instead.)
if (_vm->getGameType() == GType_ITE) {
_vm->_resource->loadResource(_actorContext, _vm->getResourceDescription()->actorsStringsResourceId, stringsPointer, stringsLength);
_vm->loadStrings(_actorsStrings, stringsPointer, stringsLength);
free(stringsPointer);
}
if (_vm->getGameType() == GType_ITE) {
_actorsCount = ITE_ACTORCOUNT;
_actors = (ActorData **)malloc(_actorsCount * sizeof(*_actors));
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i] = new ActorData();
actor->_id = actorIndexToId(i);
actor->_index = i;
debug(9, "init actor id=%d index=%d", actor->_id, actor->_index);
actor->_nameIndex = ITE_ActorTable[i].nameIndex;
actor->_scriptEntrypointNumber = ITE_ActorTable[i].scriptEntrypointNumber;
actor->_spriteListResourceId = ITE_ActorTable[i].spriteListResourceId;
actor->_frameListResourceId = ITE_ActorTable[i].frameListResourceId;
actor->_speechColor = ITE_ActorTable[i].speechColor;
actor->_sceneNumber = ITE_ActorTable[i].sceneIndex;
actor->_flags = ITE_ActorTable[i].flags;
actor->_currentAction = ITE_ActorTable[i].currentAction;
actor->_facingDirection = ITE_ActorTable[i].facingDirection;
actor->_actionDirection = ITE_ActorTable[i].actionDirection;
actor->_location.x = ITE_ActorTable[i].x;
actor->_location.y = ITE_ActorTable[i].y;
actor->_location.z = ITE_ActorTable[i].z;
actor->_disabled = !loadActorResources(actor);
if (actor->_disabled) {
warning("Disabling actor Id=%d index=%d", actor->_id, actor->_index);
}
}
_objsCount = ITE_OBJECTCOUNT;
_objs = (ObjectData **)malloc(_objsCount * sizeof(*_objs));
for (i = 0; i < _objsCount; i++) {
obj = _objs[i] = new ObjectData();
obj->_id = objIndexToId(i);
obj->_index = i;
debug(9, "init obj id=%d index=%d", obj->_id, obj->_index);
obj->_nameIndex = ITE_ObjectTable[i].nameIndex;
obj->_scriptEntrypointNumber = ITE_ObjectTable[i].scriptEntrypointNumber;
obj->_spriteListResourceId = ITE_ObjectTable[i].spriteListResourceId;
obj->_sceneNumber = ITE_ObjectTable[i].sceneIndex;
obj->_interactBits = ITE_ObjectTable[i].interactBits;
obj->_location.x = ITE_ObjectTable[i].x;
obj->_location.y = ITE_ObjectTable[i].y;
obj->_location.z = ITE_ObjectTable[i].z;
}
} else {
// TODO. This is causing problems for SYMBIAN os as it doesn't like a static class here
ActorData dummyActor;
dummyActor._frames = NULL;
dummyActor._walkStepsPoints = NULL;
_protagonist = &dummyActor;
}
_dragonHunt = true;
}
Actor::~Actor() {
debug(9, "Actor::~Actor()");
#ifdef ACTOR_DEBUG
free(_debugPoints);
#endif
free(_pathDirectionList);
free(_pathNodeList);
free(_newPathNodeList);
free(_pathList);
free(_pathCell);
_actorsStrings.freeMem();
//release resources
freeActorList();
freeObjList();
}
bool Actor::loadActorResources(ActorData *actor) {
byte *resourcePointer;
size_t resourceLength;
int framesCount;
ActorFrameSequence *framesPointer;
bool gotSomething = false;
if (actor->_frameListResourceId) {
debug(9, "Loading frame resource id %d", actor->_frameListResourceId);
_vm->_resource->loadResource(_actorContext, actor->_frameListResourceId, resourcePointer, resourceLength);
framesCount = resourceLength / 16;
debug(9, "Frame resource contains %d frames (res length is %d)", framesCount, (int)resourceLength);
framesPointer = (ActorFrameSequence *)malloc(sizeof(ActorFrameSequence) * framesCount);
if (framesPointer == NULL && framesCount != 0) {
memoryError("Actor::loadActorResources");
}
MemoryReadStreamEndian readS(resourcePointer, resourceLength, _actorContext->isBigEndian);
for (int i = 0; i < framesCount; i++) {
debug(9, "frameType %d", i);
for (int orient = 0; orient < ACTOR_DIRECTIONS_COUNT; orient++) {
// Load all four orientations
framesPointer[i].directions[orient].frameIndex = readS.readUint16();
if (_vm->getGameType() == GType_ITE) {
framesPointer[i].directions[orient].frameCount = readS.readSint16();
} else {
framesPointer[i].directions[orient].frameCount = readS.readByte();
readS.readByte();
}
if (framesPointer[i].directions[orient].frameCount < 0)
warning("frameCount < 0 (%d)", framesPointer[i].directions[orient].frameCount);
debug(9, "frameIndex %d frameCount %d", framesPointer[i].directions[orient].frameIndex, framesPointer[i].directions[orient].frameCount);
}
}
free(resourcePointer);
actor->_frames = framesPointer;
actor->_framesCount = framesCount;
gotSomething = true;
} else {
warning("Frame List ID = 0 for actor index %d", actor->_index);
//if (_vm->getGameType() == GType_ITE)
return true;
}
if (actor->_spriteListResourceId) {
gotSomething = true;
} else {
warning("Sprite List ID = 0 for actor index %d", actor->_index);
}
return gotSomething;
}
void Actor::freeActorList() {
int i;
ActorData *actor;
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
delete actor;
}
free(_actors);
_actors = NULL;
_actorsCount = 0;
}
void Actor::loadActorSpriteList(ActorData *actor) {
int lastFrame = 0;
int resourceId = actor->_spriteListResourceId;
for (int i = 0; i < actor->_framesCount; i++) {
for (int orient = 0; orient < ACTOR_DIRECTIONS_COUNT; orient++) {
if (actor->_frames[i].directions[orient].frameIndex > lastFrame) {
lastFrame = actor->_frames[i].directions[orient].frameIndex;
}
}
}
debug(9, "Loading actor sprite resource id %d", resourceId);
_vm->_sprite->loadList(resourceId, actor->_spriteList);
if (_vm->getGameType() == GType_ITE) {
if (actor->_flags & kExtended) {
while ((lastFrame >= actor->_spriteList.spriteCount)) {
resourceId++;
debug(9, "Appending to actor sprite list %d", resourceId);
_vm->_sprite->loadList(resourceId, actor->_spriteList);
}
}
}
}
void Actor::loadActorList(int protagonistIdx, int actorCount, int actorsResourceID, int protagStatesCount, int protagStatesResourceID) {
int i, j;
ActorData *actor;
byte* actorListData;
size_t actorListLength;
byte walk[128];
byte acv[6];
int movementSpeed;
int walkStepIndex;
int walkStepCount;
freeActorList();
_vm->_resource->loadResource(_actorContext, actorsResourceID, actorListData, actorListLength);
_actorsCount = actorCount;
if (actorListLength != (uint)_actorsCount * ACTOR_INHM_SIZE) {
error("Actor::loadActorList wrong actorlist length");
}
MemoryReadStream actorS(actorListData, actorListLength);
_actors = (ActorData **)malloc(_actorsCount * sizeof(*_actors));
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i] = new ActorData();
actor->_id = objectIndexToId(kGameObjectActor, i); //actorIndexToId(i);
actor->_index = i;
debug(4, "init actor id=0x%x index=%d", actor->_id, actor->_index);
actorS.readUint32LE(); //next displayed
actorS.readByte(); //type
actor->_flags = actorS.readByte();
actor->_nameIndex = actorS.readUint16LE();
actor->_sceneNumber = actorS.readUint32LE();
actor->_location.fromStream(actorS);
actor->_screenPosition.x = actorS.readUint16LE();
actor->_screenPosition.y = actorS.readUint16LE();
actor->_screenScale = actorS.readUint16LE();
actor->_screenDepth = actorS.readUint16LE();
actor->_spriteListResourceId = actorS.readUint32LE();
actor->_frameListResourceId = actorS.readUint32LE();
debug(4, "%d: %d, %d [%d]", i, actor->_spriteListResourceId, actor->_frameListResourceId, actor->_nameIndex);
actor->_scriptEntrypointNumber = actorS.readUint32LE();
actorS.readUint32LE(); // xSprite *dSpr;
actorS.readUint16LE(); //LEFT
actorS.readUint16LE(); //RIGHT
actorS.readUint16LE(); //TOP
actorS.readUint16LE(); //BOTTOM
actor->_speechColor = actorS.readByte();
actor->_currentAction = actorS.readByte();
actor->_facingDirection = actorS.readByte();
actor->_actionDirection = actorS.readByte();
actor->_actionCycle = actorS.readUint16LE();
actor->_frameNumber = actorS.readUint16LE();
actor->_finalTarget.fromStream(actorS);
actor->_partialTarget.fromStream(actorS);
movementSpeed = actorS.readUint16LE(); //movement speed
if (movementSpeed) {
error("Actor::loadActorList movementSpeed != 0");
}
actorS.read(walk, 128);
for (j = 0; j < 128; j++) {
if (walk[j]) {
error("Actor::loadActorList walk[128] != 0");
}
}
//actorS.seek(128, SEEK_CUR);
walkStepCount = actorS.readByte();//walkStepCount
if (walkStepCount) {
error("Actor::loadActorList walkStepCount != 0");
}
walkStepIndex = actorS.readByte();//walkStepIndex
if (walkStepIndex) {
error("Actor::loadActorList walkStepIndex != 0");
}
//no need to check pointers
actorS.readUint32LE(); //sprites
actorS.readUint32LE(); //frames
actorS.readUint32LE(); //last zone
actor->_targetObject = actorS.readUint16LE();
actor->_actorFlags = actorS.readUint16LE();
//no need to check pointers
actorS.readUint32LE(); //next in scene
actorS.read(acv, 6);
for (j = 0; j < 6; j++) {
if (acv[j]) {
error("Actor::loadActorList acv[%d] != 0", j);
}
}
// actorS.seek(6, SEEK_CUR); //action vars
}
free(actorListData);
_actors[protagonistIdx]->_flags |= kProtagonist | kExtended;
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
//if (actor->_flags & kProtagonist) {
loadActorResources(actor);
//break;
//}
}
_centerActor = _protagonist = _actors[protagonistIdx];
_protagState = 0;
if (protagStatesResourceID) {
free(_protagStates);
_protagStates = (ActorFrameSequence *)malloc(sizeof(ActorFrameSequence) * protagStatesCount);
byte *resourcePointer;
size_t resourceLength;
_vm->_resource->loadResource(_actorContext, protagStatesResourceID,
resourcePointer, resourceLength);
MemoryReadStream statesS(resourcePointer, resourceLength);
for (i = 0; i < protagStatesCount; i++) {
for (j = 0; j < ACTOR_DIRECTIONS_COUNT; j++) {
_protagStates[i].directions[j].frameIndex = statesS.readUint16LE();
_protagStates[i].directions[j].frameCount = statesS.readUint16LE();
}
}
free(resourcePointer);
_protagonist->_frames = &_protagStates[_protagState];
}
_protagStatesCount = protagStatesCount;
}
void Actor::freeObjList() {
int i;
ObjectData *object;
for (i = 0; i < _objsCount; i++) {
object = _objs[i];
delete object;
}
free(_objs);
_objs = NULL;
_objsCount = 0;
}
void Actor::loadObjList(int objectCount, int objectsResourceID) {
int i;
int frameListResourceId;
ObjectData *object;
byte* objectListData;
size_t objectListLength;
freeObjList();
_vm->_resource->loadResource(_actorContext, objectsResourceID, objectListData, objectListLength);
_objsCount = objectCount;
MemoryReadStream objectS(objectListData, objectListLength);
_objs = (ObjectData **)malloc(_objsCount * sizeof(*_objs));
for (i = 0; i < _objsCount; i++) {
object = _objs[i] = new ObjectData();
object->_id = objectIndexToId(kGameObjectObject, i);
object->_index = i;
debug(9, "init object id=%d index=%d", object->_id, object->_index);
objectS.readUint32LE(); //next displayed
objectS.readByte(); //type
object->_flags = objectS.readByte();
object->_nameIndex = objectS.readUint16LE();
object->_sceneNumber = objectS.readUint32LE();
object->_location.fromStream(objectS);
object->_screenPosition.x = objectS.readUint16LE();
object->_screenPosition.y = objectS.readUint16LE();
object->_screenScale = objectS.readUint16LE();
object->_screenDepth = objectS.readUint16LE();
object->_spriteListResourceId = objectS.readUint32LE();
frameListResourceId = objectS.readUint32LE(); // object->_frameListResourceId
if (frameListResourceId) {
error("Actor::loadObjList frameListResourceId != 0");
}
object->_scriptEntrypointNumber = objectS.readUint32LE();
objectS.readUint32LE(); // xSprite *dSpr;
objectS.readUint16LE(); //LEFT
objectS.readUint16LE(); //RIGHT
objectS.readUint16LE(); //TOP
objectS.readUint16LE(); //BOTTOM
object->_interactBits = objectS.readUint16LE();
}
free(objectListData);
}
void Actor::takeExit(uint16 actorId, const HitZone *hitZone) {
ActorData *actor;
actor = getActor(actorId);
actor->_lastZone = NULL;
_vm->_scene->changeScene(hitZone->getSceneNumber(), hitZone->getActorsEntrance(), kTransitionNoFade);
if (_vm->_interface->getMode() != kPanelSceneSubstitute) {
_vm->_script->setNoPendingVerb();
}
}
void Actor::stepZoneAction(ActorData *actor, const HitZone *hitZone, bool exit, bool stopped) {
Event event;
if (actor != _protagonist) {
return;
}
if (((hitZone->getFlags() & kHitZoneTerminus) && !stopped) || (!(hitZone->getFlags() & kHitZoneTerminus) && stopped)) {
return;
}
if (!exit) {
if (hitZone->getFlags() & kHitZoneAutoWalk) {
actor->_currentAction = kActionWalkDir;
actor->_actionDirection = actor->_facingDirection = hitZone->getDirection();
actor->_walkFrameSequence = getFrameType(kFrameWalk);
return;
}
} else if (!(hitZone->getFlags() & kHitZoneAutoWalk)) {
return;
}
if (hitZone->getFlags() & kHitZoneExit) {
takeExit(actor->_id, hitZone);
} else if (hitZone->getScriptNumber() > 0) {
event.type = kEvTOneshot;
event.code = kScriptEvent;
event.op = kEventExecNonBlocking;
event.time = 0;
event.param = _vm->_scene->getScriptModuleNumber(); // module number
event.param2 = hitZone->getScriptNumber(); // script entry point number
event.param3 = _vm->_script->getVerbType(kVerbEnter); // Action
event.param4 = ID_NOTHING; // Object
event.param5 = ID_NOTHING; // With Object
event.param6 = ID_PROTAG; // Actor
_vm->_events->queue(&event);
}
}
void Actor::realLocation(Location &location, uint16 objectId, uint16 walkFlags) {
int angle;
int distance;
ActorData *actor;
ObjectData *obj;
debug (8, "Actor::realLocation objectId=%i", objectId);
if (walkFlags & kWalkUseAngle) {
if (_vm->_scene->getFlags() & kSceneFlagISO) {
angle = (location.x + 2) & 15;
distance = location.y;
location.u() = (angleLUT[angle][0] * distance) >> 8;
location.v() = -(angleLUT[angle][1] * distance) >> 8;
} else {
angle = location.x & 15;
distance = location.y;
location.x = (angleLUT[angle][0] * distance) >> 6;
location.y = (angleLUT[angle][1] * distance) >> 6;
}
}
if (objectId != ID_NOTHING) {
if (validActorId(objectId)) {
actor = getActor(objectId);
location.addXY(actor->_location);
} else if (validObjId(objectId)) {
obj = getObj(objectId);
location.addXY(obj->_location);
}
}
}
void Actor::actorFaceTowardsPoint(uint16 actorId, const Location &toLocation) {
ActorData *actor;
Location delta;
//debug (8, "Actor::actorFaceTowardsPoint actorId=%i", actorId);
actor = getActor(actorId);
toLocation.delta(actor->_location, delta);
if (_vm->_scene->getFlags() & kSceneFlagISO) {
if (delta.u() > 0) {
actor->_facingDirection = (delta.v() > 0) ? kDirUp : kDirRight;
} else {
actor->_facingDirection = (delta.v() > 0) ? kDirLeft : kDirDown;
}
} else {
if (ABS(delta.y) > ABS(delta.x * 2)) {
actor->_facingDirection = (delta.y > 0) ? kDirDown : kDirUp;
} else {
actor->_facingDirection = (delta.x > 0) ? kDirRight : kDirLeft;
}
}
}
void Actor::actorFaceTowardsObject(uint16 actorId, uint16 objectId) {
ActorData *actor;
ObjectData *obj;
if (validActorId(objectId)) {
actor = getActor(objectId);
actorFaceTowardsPoint(actorId, actor->_location);
} else if (validObjId(objectId)) {
obj = getObj(objectId);
actorFaceTowardsPoint(actorId, obj->_location);
}
}
ObjectData *Actor::getObj(uint16 objId) {
ObjectData *obj;
if (!validObjId(objId))
error("Actor::getObj Wrong objId 0x%X", objId);
obj = _objs[objIdToIndex(objId)];
if (obj->_disabled)
error("Actor::getObj disabled objId 0x%X", objId);
return obj;
}
ActorData *Actor::getActor(uint16 actorId) {
ActorData *actor;
if (!validActorId(actorId)) {
warning("Actor::getActor Wrong actorId 0x%X", actorId);
assert(0);
}
if (actorId == ID_PROTAG) {
if (_protagonist == NULL) {
error("_protagonist == NULL");
}
return _protagonist;
}
actor = _actors[actorIdToIndex(actorId)];
if (actor->_disabled)
error("Actor::getActor disabled actorId 0x%X", actorId);
return actor;
}
bool Actor::validFollowerLocation(const Location &location) {
Point point;
location.toScreenPointXY(point);
if ((point.x < 5) || (point.x >= _vm->getDisplayWidth() - 5) ||
(point.y < 0) || (point.y > _vm->_scene->getHeight())) {
return false;
}
return (_vm->_scene->canWalk(point));
}
void Actor::setProtagState(int state) {
_protagState = state;
if (_vm->getGameType() == GType_IHNM)
_protagonist->_frames = &_protagStates[state];
}
void Actor::updateActorsScene(int actorsEntrance) {
int i, j;
int followerDirection;
ActorData *actor;
Location tempLocation;
Location possibleLocation;
Point delta;
const SceneEntry *sceneEntry;
if (_vm->_scene->currentSceneNumber() == 0) {
error("Actor::updateActorsScene _vm->_scene->currentSceneNumber() == 0");
}
_vm->_sound->stopVoice();
_activeSpeech.stringsCount = 0;
_activeSpeech.playing = false;
_protagonist = NULL;
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
actor->_inScene = false;
actor->_spriteList.freeMem();
if (actor->_disabled) {
continue;
}
if ((actor->_flags & (kProtagonist | kFollower)) || (i == 0)) {
if (actor->_flags & kProtagonist) {
actor->_finalTarget = actor->_location;
_centerActor = _protagonist = actor;
} else if (_vm->getGameType() == GType_ITE &&
_vm->_scene->currentSceneResourceId() == RID_ITE_OVERMAP_SCENE) {
continue;
}
actor->_sceneNumber = _vm->_scene->currentSceneNumber();
}
if (actor->_sceneNumber == _vm->_scene->currentSceneNumber()) {
actor->_inScene = true;
actor->_actionCycle = (_vm->_rnd.getRandomNumber(7) & 0x7) * 4; // 1/8th chance
}
}
assert(_protagonist);
if ((actorsEntrance >= 0) && (_vm->_scene->_entryList.entryListCount > 0)) {
if (_vm->_scene->_entryList.entryListCount <= actorsEntrance) {
actorsEntrance = 0; //OCEAN bug
}
sceneEntry = _vm->_scene->_entryList.getEntry(actorsEntrance);
if (_vm->_scene->getFlags() & kSceneFlagISO) {
_protagonist->_location = sceneEntry->location;
} else {
_protagonist->_location.x = sceneEntry->location.x * ACTOR_LMULT;
_protagonist->_location.y = sceneEntry->location.y * ACTOR_LMULT;
_protagonist->_location.z = sceneEntry->location.z * ACTOR_LMULT;
}
// Workaround for bug #1328045:
// "When entering any of the houses at the start of the
// game if you click on anything inside the building you
// start walking through the door, turn around and leave."
//
// After steping of action zone - Rif trying to exit.
// This piece of code shift Rif's entry position to non action zone area.
if (_vm->getGameType() == GType_ITE) {
if ((_vm->_scene->currentSceneNumber() >= 53) && (_vm->_scene->currentSceneNumber() <= 66))
_protagonist->_location.y += 10;
}
_protagonist->_facingDirection = _protagonist->_actionDirection = sceneEntry->facing;
}
_protagonist->_currentAction = kActionWait;
if (_vm->_scene->getFlags() & kSceneFlagISO) {
//nothing?
} else {
_vm->_scene->initDoorsState(); //TODO: move to _scene
}
followerDirection = _protagonist->_facingDirection + 3;
calcScreenPosition(_protagonist);
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
if (actor->_flags & (kFollower)) {
actor->_facingDirection = actor->_actionDirection = _protagonist->_facingDirection;
actor->_currentAction = kActionWait;
actor->_walkStepsCount = actor->_walkStepIndex = 0;
actor->_location.z = _protagonist->_location.z;
if (_vm->_scene->getFlags() & kSceneFlagISO) {
_vm->_isoMap->placeOnTileMap(_protagonist->_location, actor->_location, 3, followerDirection & 0x07);
} else {
followerDirection &= 0x07;
possibleLocation = _protagonist->_location;
delta.x = directionLUT[followerDirection][0];
delta.y = directionLUT[followerDirection][1];
for (j = 0; j < 30; j++) {
tempLocation = possibleLocation;
tempLocation.x += delta.x;
tempLocation.y += delta.y;
if (validFollowerLocation(tempLocation)) {
possibleLocation = tempLocation;
} else {
tempLocation = possibleLocation;
tempLocation.x += delta.x;
if (validFollowerLocation(tempLocation)) {
possibleLocation = tempLocation;
} else {
tempLocation = possibleLocation;
tempLocation.y += delta.y;
if (validFollowerLocation(tempLocation)) {
possibleLocation = tempLocation;
} else {
break;
}
}
}
}
actor->_location = possibleLocation;
}
followerDirection += 2;
}
}
handleActions(0, true);
if (_vm->_scene->getFlags() & kSceneFlagISO) {
_vm->_isoMap->adjustScroll(true);
}
}
int Actor::getFrameType(ActorFrameTypes frameType) {
if (_vm->getGameType() == GType_ITE) {
switch (frameType) {
case kFrameStand:
return kFrameITEStand;
case kFrameWalk:
return kFrameITEWalk;
case kFrameSpeak:
return kFrameITESpeak;
case kFrameGive:
return kFrameITEGive;
case kFrameGesture:
return kFrameITEGesture;
case kFrameWait:
return kFrameITEWait;
case kFramePickUp:
return kFrameITEPickUp;
case kFrameLook:
return kFrameITELook;
}
}
else {
switch (frameType) {
case kFrameStand:
return kFrameIHNMStand;
case kFrameWalk:
return kFrameIHNMWalk;
case kFrameSpeak:
return kFrameIHNMSpeak;
case kFrameGesture:
return kFrameIHNMGesture;
case kFrameWait:
return kFrameIHNMWait;
case kFrameGive:
case kFramePickUp:
case kFrameLook:
error("Actor::getFrameType() unknown frame type %d", frameType);
return kFrameIHNMStand;
}
}
error("Actor::getFrameType() unknown frame type %d", frameType);
}
ActorFrameRange *Actor::getActorFrameRange(uint16 actorId, int frameType) {
ActorData *actor;
int fourDirection;
static ActorFrameRange def = {0, 0};
actor = getActor(actorId);
if (actor->_disabled)
error("Actor::getActorFrameRange Wrong actorId 0x%X", actorId);
if ((actor->_facingDirection < kDirUp) || (actor->_facingDirection > kDirUpLeft))
error("Actor::getActorFrameRange Wrong direction 0x%X actorId 0x%X", actor->_facingDirection, actorId);
//if (_vm->getGameType() == GType_ITE) {
if (frameType >= actor->_framesCount) {
warning("Actor::getActorFrameRange Wrong frameType 0x%X (%d) actorId 0x%X", frameType, actor->_framesCount, actorId);
return &def;
}
fourDirection = actorDirectectionsLUT[actor->_facingDirection];
return &actor->_frames[frameType].directions[fourDirection];
/*
} else {
if (0 == actor->_framesCount) {
return &def;
}
//TEST
if (actor->_id == 0x2000) {
if (actor->_framesCount <= _currentFrameIndex) {
_currentFrameIndex = 0;
}
fr = actor->_frames[_currentFrameIndex].directions;
return fr;
}
//TEST
if (frameType >= actor->_framesCount) {
frameType = actor->_framesCount - 1;
}
if (frameType < 0) {
frameType = 0;
}
if (frameType == kFrameIHNMWalk ) {
switch (actor->_facingDirection) {
case kDirUpRight:
if (frameType > 0)
fr = &actor->_frames[frameType - 1].directions[ACTOR_DIRECTION_RIGHT];
else
fr = &def;
if (!fr->frameCount)
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_RIGHT];
break;
case kDirDownRight:
if (frameType > 0)
fr = &actor->_frames[frameType - 1].directions[ACTOR_DIRECTION_FORWARD];
else
fr = &def;
if (!fr->frameCount)
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_RIGHT];
break;
case kDirUpLeft:
if (frameType > 0)
fr = &actor->_frames[frameType - 1].directions[ACTOR_DIRECTION_LEFT];
else
fr = &def;
if (!fr->frameCount)
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_LEFT];
break;
case kDirDownLeft:
if (frameType > 0)
fr = &actor->_frames[frameType - 1].directions[ACTOR_DIRECTION_BACK];
else
fr = &def;
if (!fr->frameCount)
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_LEFT];
break;
case kDirRight:
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_RIGHT];
break;
case kDirLeft:
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_LEFT];
break;
case kDirUp:
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_BACK];
break;
case kDirDown:
fr = &actor->_frames[frameType].directions[ACTOR_DIRECTION_FORWARD];
break;
}
return fr;
}
else {
if (frameType >= actor->_framesCount) {
error("Actor::getActorFrameRange Wrong frameType 0x%X (%d) actorId 0x%X", frameType, actor->_framesCount, actorId);
}
fourDirection = actorDirectectionsLUT[actor->_facingDirection];
return &actor->_frames[frameType].directions[fourDirection];
}
}*/
}
void Actor::handleSpeech(int msec) {
int stringLength;
int sampleLength;
bool removeFirst;
int i;
ActorData *actor;
int width, height, height2;
if (_activeSpeech.playing) {
_activeSpeech.playingTime -= msec;
stringLength = strlen(_activeSpeech.strings[0]);
removeFirst = false;
if (_activeSpeech.playingTime <= 0) {
if (_activeSpeech.speechFlags & kSpeakSlow) {
_activeSpeech.slowModeCharIndex++;
if (_activeSpeech.slowModeCharIndex >= stringLength)
removeFirst = true;
} else {
removeFirst = true;
}
_activeSpeech.playing = false;
if (_activeSpeech.actorIds[0] != 0) {
actor = getActor(_activeSpeech.actorIds[0]);
if (!(_activeSpeech.speechFlags & kSpeakNoAnimate)) {
actor->_currentAction = kActionWait;
}
}
}
if (removeFirst) {
for (i = 1; i < _activeSpeech.stringsCount; i++) {
_activeSpeech.strings[i - 1] = _activeSpeech.strings[i];
}
_activeSpeech.stringsCount--;
}
if (_vm->_script->_skipSpeeches) {
_activeSpeech.stringsCount = 0;
_vm->_script->wakeUpThreads(kWaitTypeSpeech);
return;
}
if (_activeSpeech.stringsCount == 0) {
_vm->_script->wakeUpThreadsDelayed(kWaitTypeSpeech, ticksToMSec(kScriptTimeTicksPerSecond / 3));
}
return;
}
if (_vm->_script->_skipSpeeches) {
_activeSpeech.stringsCount = 0;
_vm->_script->wakeUpThreads(kWaitTypeSpeech);
}
if (_activeSpeech.stringsCount == 0) {
return;
}
stringLength = strlen(_activeSpeech.strings[0]);
if (_activeSpeech.speechFlags & kSpeakSlow) {
if (_activeSpeech.slowModeCharIndex >= stringLength)
error("Wrong string index");
_activeSpeech.playingTime = 1000 / 8;
} else {
sampleLength = _vm->_sndRes->getVoiceLength(_activeSpeech.sampleResourceId);
if (sampleLength < 0) {
_activeSpeech.playingTime = stringLength * 1000 / 22;
switch (_vm->_readingSpeed) {
case 2:
_activeSpeech.playingTime *= 2;
break;
case 1:
_activeSpeech.playingTime *= 4;
break;
case 0:
_activeSpeech.playingTime = 0x7fffff;
break;
}
} else {
_activeSpeech.playingTime = sampleLength;
}
}
if (_activeSpeech.sampleResourceId != -1) {
_vm->_sndRes->playVoice(_activeSpeech.sampleResourceId);
_activeSpeech.sampleResourceId++;
}
if (_activeSpeech.actorIds[0] != 0) {
actor = getActor(_activeSpeech.actorIds[0]);
if (!(_activeSpeech.speechFlags & kSpeakNoAnimate)) {
actor->_currentAction = kActionSpeak;
actor->_actionCycle = _vm->_rnd.getRandomNumber(63);
}
}
if (_activeSpeech.actorsCount == 1) {
if (_speechBoxScript.width() > 0) {
_activeSpeech.drawRect.left = _speechBoxScript.left;
_activeSpeech.drawRect.right = _speechBoxScript.right;
_activeSpeech.drawRect.top = _speechBoxScript.top;
_activeSpeech.drawRect.bottom = _speechBoxScript.bottom;
} else {
width = _activeSpeech.speechBox.width();
height = _vm->_font->getHeight(kKnownFontScript, _activeSpeech.strings[0], width - 2, _activeSpeech.getFontFlags(0)) + 1;
if (height > 40 && width < _vm->getDisplayWidth() - 100) {
width = _vm->getDisplayWidth() - 100;
height = _vm->_font->getHeight(kKnownFontScript, _activeSpeech.strings[0], width - 2, _activeSpeech.getFontFlags(0)) + 1;
}
_activeSpeech.speechBox.setWidth(width);
if (_activeSpeech.actorIds[0] != 0) {
actor = getActor(_activeSpeech.actorIds[0]);
_activeSpeech.speechBox.setHeight(height);
if (_activeSpeech.speechBox.right > _vm->getDisplayWidth() - 10) {
_activeSpeech.drawRect.left = _vm->getDisplayWidth() - 10 - width;
} else {
_activeSpeech.drawRect.left = _activeSpeech.speechBox.left;
}
height2 = actor->_screenPosition.y - 50;
_activeSpeech.speechBox.top = _activeSpeech.drawRect.top = MAX(10, (height2 - height) / 2);
} else {
_activeSpeech.drawRect.left = _activeSpeech.speechBox.left;
_activeSpeech.drawRect.top = _activeSpeech.speechBox.top + (_activeSpeech.speechBox.height() - height) / 2;
}
_activeSpeech.drawRect.setWidth(width);
_activeSpeech.drawRect.setHeight(height);
}
}
_activeSpeech.playing = true;
}
void Actor::handleActions(int msec, bool setup) {
int i;
ActorData *actor;
ActorFrameRange *frameRange;
int state;
int speed;
int32 framesLeft;
Location delta;
Location addDelta;
int hitZoneIndex;
const HitZone *hitZone;
Point hitPoint;
Location pickLocation;
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
if (!actor->_inScene)
continue;
if ((_vm->getGameType() == GType_ITE) && (i == ACTOR_DRAGON_INDEX)) {
moveDragon(actor);
continue;
}
switch (actor->_currentAction) {
case kActionWait:
if (!setup && (actor->_flags & kFollower)) {
followProtagonist(actor);
if (actor->_currentAction != kActionWait)
break;
}
if (actor->_targetObject != ID_NOTHING) {
actorFaceTowardsObject(actor->_id, actor->_targetObject);
}
if (actor->_flags & kCycle) {
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameStand));
if (frameRange->frameCount > 0) {
actor->_actionCycle++;
actor->_actionCycle = (actor->_actionCycle) % frameRange->frameCount;
} else {
actor->_actionCycle = 0;
}
actor->_frameNumber = frameRange->frameIndex + actor->_actionCycle;
break;
}
if ((actor->_actionCycle & 3) == 0) {
actor->cycleWrap(100);
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameWait));
if ((frameRange->frameCount < 1 || actor->_actionCycle > 33))
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameStand));
if (frameRange->frameCount) {
actor->_frameNumber = frameRange->frameIndex + (uint16)_vm->_rnd.getRandomNumber(frameRange->frameCount - 1);
} else {
actor->_frameNumber = frameRange->frameIndex;
}
}
actor->_actionCycle++;
break;
case kActionWalkToPoint:
case kActionWalkToLink:
if (_vm->_scene->getFlags() & kSceneFlagISO) {
actor->_partialTarget.delta(actor->_location, delta);
while ((delta.u() == 0) && (delta.v() == 0)) {
if ((actor == _protagonist) && (_vm->mouseButtonPressed())) {
_vm->_isoMap->screenPointToTileCoords(_vm->mousePos(), pickLocation);
if (!actorWalkTo(_protagonist->_id, pickLocation)) {
break;
}
} else if (!_vm->_isoMap->nextTileTarget(actor) && !actorEndWalk(actor->_id, true)) {
break;
}
actor->_partialTarget.delta(actor->_location, delta);
actor->_partialTarget.z = 0;
}
if (actor->_flags & kFastest) {
speed = 8;
} else if (actor->_flags & kFaster) {
speed = 6;
} else {
speed = 4;
}
if (_vm->_scene->currentSceneResourceId() == RID_ITE_OVERMAP_SCENE) {
speed = 2;
}
if ((actor->_actionDirection == 2) || (actor->_actionDirection == 6)) {
speed = speed / 2;
}
if (ABS(delta.v()) > ABS(delta.u())) {
addDelta.v() = clamp(-speed, delta.v(), speed);
if (addDelta.v() == delta.v()) {
addDelta.u() = delta.u();
} else {
addDelta.u() = delta.u() * addDelta.v();
addDelta.u() += (addDelta.u() > 0) ? (delta.v() / 2) : (-delta.v() / 2);
addDelta.u() /= delta.v();
}
} else {
addDelta.u() = clamp(-speed, delta.u(), speed);
if (addDelta.u() == delta.u()) {
addDelta.v() = delta.v();
} else {
addDelta.v() = delta.v() * addDelta.u();
addDelta.v() += (addDelta.v() > 0) ? (delta.u() / 2) : (-delta.u() / 2);
addDelta.v() /= delta.u();
}
}
actor->_location.add(addDelta);
} else {
actor->_partialTarget.delta(actor->_location, delta);
while ((delta.x == 0) && (delta.y == 0)) {
if (actor->_walkStepIndex >= actor->_walkStepsCount) {
actorEndWalk(actor->_id, true);
break;
}
actor->_partialTarget.fromScreenPoint(actor->_walkStepsPoints[actor->_walkStepIndex++]);
if (_vm->getGameType() == GType_ITE) {
if (actor->_partialTarget.x > 224 * 2 * ACTOR_LMULT) {
actor->_partialTarget.x -= 256 * 2 * ACTOR_LMULT;
}
} else {
if (actor->_partialTarget.x > 224 * 4 * ACTOR_LMULT) {
actor->_partialTarget.x -= 256 * 4 * ACTOR_LMULT;
}
}
actor->_partialTarget.delta(actor->_location, delta);
if (ABS(delta.y) > ABS(delta.x)) {
actor->_actionDirection = delta.y > 0 ? kDirDown : kDirUp;
} else {
actor->_actionDirection = delta.x > 0 ? kDirRight : kDirLeft;
}
}
if(_vm->getGameType() == GType_ITE)
speed = (ACTOR_LMULT * 2 * actor->_screenScale + 63) / 256;
else
speed = (ACTOR_SPEED * actor->_screenScale + 128) >> 8;
if (speed < 1)
speed = 1;
if(_vm->getGameType() == GType_IHNM)
speed = speed / 2;
if ((actor->_actionDirection == kDirUp) || (actor->_actionDirection == kDirDown)) {
addDelta.y = clamp(-speed, delta.y, speed);
if (addDelta.y == delta.y) {
addDelta.x = delta.x;
} else {
addDelta.x = delta.x * addDelta.y;
addDelta.x += (addDelta.x > 0) ? (delta.y / 2) : (-delta.y / 2);
addDelta.x /= delta.y;
actor->_facingDirection = actor->_actionDirection;
}
} else {
addDelta.x = clamp(-2 * speed, delta.x, 2 * speed);
if (addDelta.x == delta.x) {
addDelta.y = delta.y;
} else {
addDelta.y = delta.y * addDelta.x;
addDelta.y += (addDelta.y > 0) ? (delta.x / 2) : (-delta.x / 2);
addDelta.y /= delta.x;
actor->_facingDirection = actor->_actionDirection;
}
}
actor->_location.add(addDelta);
}
if (actor->_actorFlags & kActorBackwards) {
actor->_facingDirection = (actor->_actionDirection + 4) & 7;
actor->_actionCycle--;
} else {
actor->_actionCycle++;
}
frameRange = getActorFrameRange(actor->_id, actor->_walkFrameSequence);
if (actor->_actionCycle < 0) {
actor->_actionCycle = frameRange->frameCount - 1;
} else if (actor->_actionCycle >= frameRange->frameCount) {
actor->_actionCycle = 0;
}
actor->_frameNumber = frameRange->frameIndex + actor->_actionCycle;
break;
case kActionWalkDir:
if (_vm->_scene->getFlags() & kSceneFlagISO) {
actor->_location.u() += tileDirectionLUT[actor->_actionDirection][0];
actor->_location.v() += tileDirectionLUT[actor->_actionDirection][1];
frameRange = getActorFrameRange(actor->_id, actor->_walkFrameSequence);
actor->_actionCycle++;
actor->cycleWrap(frameRange->frameCount);
actor->_frameNumber = frameRange->frameIndex + actor->_actionCycle;
} else {
actor->_location.x += directionLUT[actor->_actionDirection][0] * 2;
actor->_location.y += directionLUT[actor->_actionDirection][1] * 2;
frameRange = getActorFrameRange(actor->_id, actor->_walkFrameSequence);
actor->_actionCycle++;
actor->cycleWrap(frameRange->frameCount);
actor->_frameNumber = frameRange->frameIndex + actor->_actionCycle;
}
break;
case kActionSpeak:
actor->_actionCycle++;
actor->cycleWrap(64);
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameGesture));
if (actor->_actionCycle >= frameRange->frameCount) {
if (actor->_actionCycle & 1)
break;
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameSpeak));
state = (uint16)_vm->_rnd.getRandomNumber(frameRange->frameCount);
if (state == 0) {
frameRange = getActorFrameRange(actor->_id, getFrameType(kFrameStand));
} else {
state--;
}
} else {
state = actor->_actionCycle;
}
actor->_frameNumber = frameRange->frameIndex + state;
break;
case kActionAccept:
case kActionStoop:
break;
case kActionCycleFrames:
case kActionPongFrames:
if (actor->_cycleTimeCount > 0) {
actor->_cycleTimeCount--;
break;
}
actor->_cycleTimeCount = actor->_cycleDelay;
actor->_actionCycle++;
frameRange = getActorFrameRange(actor->_id, actor->_cycleFrameSequence);
if (actor->_currentAction == kActionPongFrames) {
if (actor->_actionCycle >= frameRange->frameCount * 2 - 2) {
if (actor->_actorFlags & kActorContinuous) {
actor->_actionCycle = 0;
} else {
actor->_currentAction = kActionFreeze;
break;
}
}
state = actor->_actionCycle;
if (state >= frameRange->frameCount) {
state = frameRange->frameCount * 2 - 2 - state;
}
} else {
if (actor->_actionCycle >= frameRange->frameCount) {
if (actor->_actorFlags & kActorContinuous) {
actor->_actionCycle = 0;
} else {
actor->_currentAction = kActionFreeze;
break;
}
}
state = actor->_actionCycle;
}
if (frameRange->frameCount && (actor->_actorFlags & kActorRandom)) {
state = _vm->_rnd.getRandomNumber(frameRange->frameCount - 1);
}
if (actor->_actorFlags & kActorBackwards) {
actor->_frameNumber = frameRange->frameIndex + frameRange->frameCount - 1 - state;
} else {
actor->_frameNumber = frameRange->frameIndex + state;
}
break;
case kActionFall:
if (actor->_actionCycle > 0) {
framesLeft = actor->_actionCycle--;
actor->_finalTarget.delta(actor->_location, delta);
delta.x /= framesLeft;
delta.y /= framesLeft;
actor->_location.addXY(delta);
actor->_fallVelocity += actor->_fallAcceleration;
actor->_fallPosition += actor->_fallVelocity;
actor->_location.z = actor->_fallPosition >> 4;
} else {
actor->_location = actor->_finalTarget;
actor->_currentAction = kActionFreeze;
_vm->_script->wakeUpActorThread(kWaitTypeWalk, actor);
}
break;
case kActionClimb:
actor->_cycleDelay++;
if (actor->_cycleDelay & 3) {
break;
}
if (actor->_location.z >= actor->_finalTarget.z + ACTOR_CLIMB_SPEED) {
actor->_location.z -= ACTOR_CLIMB_SPEED;
actor->_actionCycle--;
} else if (actor->_location.z <= actor->_finalTarget.z - ACTOR_CLIMB_SPEED) {
actor->_location.z += ACTOR_CLIMB_SPEED;
actor->_actionCycle++;
} else {
actor->_location.z = actor->_finalTarget.z;
actor->_currentAction = kActionFreeze;
_vm->_script->wakeUpActorThread(kWaitTypeWalk, actor);
}
frameRange = getActorFrameRange(actor->_id, actor->_cycleFrameSequence);
if (actor->_actionCycle < 0) {
actor->_actionCycle = frameRange->frameCount - 1;
}
actor->cycleWrap(frameRange->frameCount);
actor->_frameNumber = frameRange->frameIndex + actor->_actionCycle;
break;
}
if ((actor->_currentAction >= kActionWalkToPoint) && (actor->_currentAction <= kActionWalkDir)) {
hitZone = NULL;
if (_vm->_scene->getFlags() & kSceneFlagISO) {
actor->_location.toScreenPointUV(hitPoint);
} else {
actor->_location.toScreenPointXY(hitPoint);
}
hitZoneIndex = _vm->_scene->_actionMap->hitTest(hitPoint);
if (hitZoneIndex != -1) {
hitZone = _vm->_scene->_actionMap->getHitZone(hitZoneIndex);
}
if (hitZone != actor->_lastZone) {
if (actor->_lastZone)
stepZoneAction(actor, actor->_lastZone, true, false);
actor->_lastZone = hitZone;
if (hitZone)
stepZoneAction(actor, hitZone, false, false);
}
}
}
// Update frameCount for sfWaitFrames in IHNM
_vm->_frameCount++;
}
void Actor::direct(int msec) {
if (_vm->_scene->_entryList.entryListCount == 0) {
return;
}
if (_vm->_interface->_statusTextInput) {
return;
}
// FIXME: HACK. This should be turned into cycle event.
_lastTickMsec += msec;
if (_lastTickMsec > 1000 / _handleActionDiv) {
_lastTickMsec = 0;
//process actions
handleActions(msec, false);
}
//process speech
handleSpeech(msec);
}
bool Actor::calcScreenPosition(CommonObjectData *commonObjectData) {
int beginSlope, endSlope, middle;
bool result;
if (_vm->_scene->getFlags() & kSceneFlagISO) {
_vm->_isoMap->tileCoordsToScreenPoint(commonObjectData->_location, commonObjectData->_screenPosition);
commonObjectData->_screenScale = 256;
} else {
middle = _vm->_scene->getHeight() - commonObjectData->_location.y / ACTOR_LMULT;
_vm->_scene->getSlopes(beginSlope, endSlope);
commonObjectData->_screenDepth = (14 * middle) / endSlope + 1;
if (middle <= beginSlope) {
commonObjectData->_screenScale = 256;
} else if (middle >= endSlope) {
commonObjectData->_screenScale = 1;
} else {
middle -= beginSlope;
endSlope -= beginSlope;
commonObjectData->_screenScale = 256 - (middle * 256) / endSlope;
}
commonObjectData->_location.toScreenPointXYZ(commonObjectData->_screenPosition);
}
result = commonObjectData->_screenPosition.x > -64 &&
commonObjectData->_screenPosition.x < _vm->getDisplayWidth() + 64 &&
commonObjectData->_screenPosition.y > -64 &&
commonObjectData->_screenPosition.y < _vm->_scene->getHeight() + 64;
return result;
}
uint16 Actor::hitTest(const Point &testPoint, bool skipProtagonist) {
// We can only interact with objects or actors that are inside the
// scene area. While this is usually the entire upper part of the
// screen, it could also be an inset. Note that other kinds of hit
// areas may be outside the inset, and that those are still perfectly
// fine to interact with. For example, the door entrance at the glass
// makers's house in ITE's ferret village.
if (!_vm->_scene->getSceneClip().contains(testPoint))
return ID_NOTHING;
CommonObjectOrderList::iterator drawOrderIterator;
CommonObjectDataPointer drawObject;
int frameNumber;
SpriteList *spriteList;
createDrawOrderList();
for (drawOrderIterator = _drawOrderList.begin(); drawOrderIterator != _drawOrderList.end(); ++drawOrderIterator) {
drawObject = drawOrderIterator.operator*();
if (skipProtagonist && (drawObject == _protagonist)) {
continue;
}
if (!getSpriteParams(drawObject, frameNumber, spriteList)) {
continue;
}
if (_vm->_sprite->hitTest(*spriteList, frameNumber, drawObject->_screenPosition, drawObject->_screenScale, testPoint)) {
return drawObject->_id;
}
}
return ID_NOTHING;
}
void Actor::createDrawOrderList() {
int i;
ActorData *actor;
ObjectData *obj;
CommonObjectOrderList::CompareFunction compareFunction;
if (_vm->_scene->getFlags() & kSceneFlagISO) {
compareFunction = &tileCommonObjectCompare;
} else {
compareFunction = &commonObjectCompare;
}
_drawOrderList.clear();
for (i = 0; i < _actorsCount; i++) {
actor = _actors[i];
if (!actor->_inScene)
continue;
if (calcScreenPosition(actor)) {
_drawOrderList.pushBack(actor, compareFunction);
}
}
for (i = 0; i < _objsCount; i++) {
obj = _objs[i];
if (obj->_disabled)
continue;
if (obj->_sceneNumber != _vm->_scene->currentSceneNumber())
continue;
if (calcScreenPosition(obj)) {
_drawOrderList.pushBack(obj, compareFunction);
}
}
}
bool Actor::getSpriteParams(CommonObjectData *commonObjectData, int &frameNumber, SpriteList *&spriteList) {
if (_vm->_scene->currentSceneResourceId() == RID_ITE_OVERMAP_SCENE) {
if (!(commonObjectData->_flags & kProtagonist)){
// warning("not protagonist");
return false;
}
frameNumber = 8;
spriteList = &_vm->_sprite->_mainSprites;
} else if (validActorId(commonObjectData->_id)) {
ActorData *actor = (ActorData *)commonObjectData;
spriteList = &(actor->_spriteList);
frameNumber = actor->_frameNumber;
if (spriteList->infoList == NULL)
loadActorSpriteList(actor);
} else if (validObjId(commonObjectData->_id)) {
spriteList = &_vm->_sprite->_mainSprites;
frameNumber = commonObjectData->_spriteListResourceId;
}
if ((frameNumber < 0) || (spriteList->spriteCount <= frameNumber)) {
debug(1, "Actor::getSpriteParams frameNumber invalid for %s id 0x%X (%d)",
validObjId(commonObjectData->_id) ? "object" : "actor",
commonObjectData->_id, frameNumber);
return false;
}
return true;
}
void Actor::drawActors() {
if (_vm->_anim->hasCutaway()) {
drawSpeech();
return;
}
if (_vm->_scene->currentSceneNumber() <= 0) {
return;
}
if (_vm->_scene->_entryList.entryListCount == 0) {
return;
}
CommonObjectOrderList::iterator drawOrderIterator;
CommonObjectDataPointer drawObject;
int frameNumber;
SpriteList *spriteList;
Surface *backBuffer;
backBuffer = _vm->_gfx->getBackBuffer();
createDrawOrderList();
for (drawOrderIterator = _drawOrderList.begin(); drawOrderIterator != _drawOrderList.end(); ++drawOrderIterator) {
drawObject = drawOrderIterator.operator*();
if (!getSpriteParams(drawObject, frameNumber, spriteList)) {
continue;
}
if (_vm->_scene->getFlags() & kSceneFlagISO) {
_vm->_isoMap->drawSprite(backBuffer, *spriteList, frameNumber, drawObject->_location, drawObject->_screenPosition, drawObject->_screenScale);
} else {
_vm->_sprite->drawOccluded(backBuffer, _vm->_scene->getSceneClip(),*spriteList, frameNumber, drawObject->_screenPosition, drawObject->_screenScale, drawObject->_screenDepth);
}
}
drawSpeech();
}
void Actor::drawSpeech(void) {
if (!isSpeaking() || !_activeSpeech.playing || _vm->_script->_skipSpeeches
|| (!_vm->_subtitlesEnabled && (_vm->getFeatures() & GF_CD_FX)))
return;
int i;
Point textPoint;
ActorData *actor;
int width, height;
int stringLength;
Surface *backBuffer;
char *outputString;
backBuffer = _vm->_gfx->getBackBuffer();
stringLength = strlen(_activeSpeech.strings[0]);
outputString = (char*)calloc(stringLength + 1, 1);
if (_activeSpeech.speechFlags & kSpeakSlow)
strncpy(outputString, _activeSpeech.strings[0], _activeSpeech.slowModeCharIndex + 1);
else
strncpy(outputString, _activeSpeech.strings[0], stringLength);
if (_activeSpeech.actorsCount > 1) {
height = _vm->_font->getHeight(kKnownFontScript);
width = _vm->_font->getStringWidth(kKnownFontScript, _activeSpeech.strings[0], 0, kFontNormal);
for (i = 0; i < _activeSpeech.actorsCount; i++) {
actor = getActor(_activeSpeech.actorIds[i]);
calcScreenPosition(actor);
textPoint.x = clamp(10, actor->_screenPosition.x - width / 2, _vm->getDisplayWidth() - 10 - width);
textPoint.y = clamp(10, actor->_screenPosition.y - 58, _vm->_scene->getHeight() - 10 - height);
_vm->_font->textDraw(kKnownFontScript, backBuffer, outputString, textPoint,
_activeSpeech.speechColor[i], _activeSpeech.outlineColor[i], _activeSpeech.getFontFlags(i));
}
} else {
_vm->_font->textDrawRect(kKnownFontScript, backBuffer, outputString, _activeSpeech.drawRect, _activeSpeech.speechColor[0],
_activeSpeech.outlineColor[0], _activeSpeech.getFontFlags(0));
}
free(outputString);
}
bool Actor::followProtagonist(ActorData *actor) {
Location protagonistLocation;
Location newLocation;
Location delta;
int protagonistBGMaskType;
Point prefer1;
Point prefer2;
Point prefer3;
int16 prefU;
int16 prefV;
int16 newU;
int16 newV;
assert(_protagonist);
actor->_flags &= ~(kFaster | kFastest);
protagonistLocation = _protagonist->_location;
calcScreenPosition(_protagonist);
if (_vm->_scene->getFlags() & kSceneFlagISO) {
prefU = 60;
prefV = 60;
actor->_location.delta(protagonistLocation, delta);
if (actor->_id == actorIndexToId(2)) {
prefU = prefV = 48;
}
if ((delta.u() > prefU) || (delta.u() < -prefU) || (delta.v() > prefV) || (delta.v() < -prefV)) {
if ((delta.u() > prefU * 2) || (delta.u() < -prefU * 2) || (delta.v() > prefV * 2) || (delta.v() < -prefV * 2)) {
actor->_flags |= kFaster;
if ((delta.u() > prefU * 3) || (delta.u() < -prefU*3) || (delta.v() > prefV * 3) || (delta.v() < -prefV * 3)) {
actor->_flags |= kFastest;
}
}
prefU /= 2;
prefV /= 2;
newU = clamp(-prefU, delta.u(), prefU) + protagonistLocation.u();
newV = clamp(-prefV, delta.v(), prefV) + protagonistLocation.v();
newLocation.u() = newU + _vm->_rnd.getRandomNumber(prefU - 1) - prefU / 2;
newLocation.v() = newV + _vm->_rnd.getRandomNumber(prefV - 1) - prefV / 2;
newLocation.z = 0;
return actorWalkTo(actor->_id, newLocation);
}
} else {
prefer1.x = (100 * _protagonist->_screenScale) >> 8;
prefer1.y = (50 * _protagonist->_screenScale) >> 8;
if (_protagonist->_currentAction == kActionWalkDir) {
prefer1.x /= 2;
}
if (prefer1.x < 8) {
prefer1.x = 8;
}
if (prefer1.y < 8) {
prefer1.y = 8;
}
prefer2.x = prefer1.x * 2;
prefer2.y = prefer1.y * 2;
prefer3.x = prefer1.x + prefer1.x / 2;
prefer3.y = prefer1.y + prefer1.y / 2;
actor->_location.delta(protagonistLocation, delta);
protagonistBGMaskType = 0;
if (_vm->_scene->isBGMaskPresent() && _vm->_scene->validBGMaskPoint(_protagonist->_screenPosition)) {
protagonistBGMaskType = _vm->_scene->getBGMaskType(_protagonist->_screenPosition);
}
if ((_vm->_rnd.getRandomNumber(7) & 0x7) == 0) // 1/8th chance
actor->_actorFlags &= ~kActorNoFollow;
if (actor->_actorFlags & kActorNoFollow) {
return false;
}
if ((delta.x > prefer2.x) || (delta.x < -prefer2.x) ||
(delta.y > prefer2.y) || (delta.y < -prefer2.y) ||
((_protagonist->_currentAction == kActionWait) &&
(delta.x * 2 < prefer1.x) && (delta.x * 2 > -prefer1.x) &&
(delta.y < prefer1.y) && (delta.y > -prefer1.y))) {
if (ABS(delta.x) > ABS(delta.y)) {
delta.x = (delta.x > 0) ? prefer3.x : -prefer3.x;
newLocation.x = delta.x + protagonistLocation.x;
newLocation.y = clamp(-prefer2.y, delta.y, prefer2.y) + protagonistLocation.y;
} else {
delta.y = (delta.y > 0) ? prefer3.y : -prefer3.y;
newLocation.x = clamp(-prefer2.x, delta.x, prefer2.x) + protagonistLocation.x;
newLocation.y = delta.y + protagonistLocation.y;
}
newLocation.z = 0;
if (protagonistBGMaskType != 3) {
newLocation.x += _vm->_rnd.getRandomNumber(prefer1.x - 1) - prefer1.x / 2;
newLocation.y += _vm->_rnd.getRandomNumber(prefer1.y - 1) - prefer1.y / 2;
}
newLocation.x = clamp(-31*4, newLocation.x, (_vm->getDisplayWidth() + 31) * 4); //fixme
return actorWalkTo(actor->_id, newLocation);
}
}
return false;
}
bool Actor::actorEndWalk(uint16 actorId, bool recurse) {
bool walkMore = false;
ActorData *actor;
const HitZone *hitZone;
int hitZoneIndex;
Point testPoint;
actor = getActor(actorId);
actor->_actorFlags &= ~kActorBackwards;
if (actor->_location.distance(actor->_finalTarget) > 8 && (actor->_flags & kProtagonist) && recurse && !(actor->_actorFlags & kActorNoCollide)) {
actor->_actorFlags |= kActorNoCollide;
return actorWalkTo(actorId, actor->_finalTarget);
}
actor->_currentAction = kActionWait;
if (actor->_actorFlags & kActorFinalFace) {
actor->_facingDirection = actor->_actionDirection = (actor->_actorFlags >> 6) & 0x07; //?
}
actor->_actorFlags &= ~(kActorNoCollide | kActorCollided | kActorFinalFace | kActorFacingMask);
actor->_flags &= ~(kFaster | kFastest);
if (actor == _protagonist) {
_vm->_script->wakeUpActorThread(kWaitTypeWalk, actor);
if (_vm->_script->_pendingVerb == _vm->_script->getVerbType(kVerbWalkTo)) {
if (_vm->getGameType() == GType_ITE)
actor->_location.toScreenPointUV(testPoint); // it's wrong calculation, but it is used in ITE
else
actor->_location.toScreenPointXY(testPoint);
hitZoneIndex = _vm->_scene->_actionMap->hitTest(testPoint);
if (hitZoneIndex != -1) {
hitZone = _vm->_scene->_actionMap->getHitZone(hitZoneIndex);
stepZoneAction(actor, hitZone, false, true);
} else {
_vm->_script->setNoPendingVerb();
}
} else if (_vm->_script->_pendingVerb != _vm->_script->getVerbType(kVerbNone)) {
_vm->_script->doVerb();
}
} else {
if (recurse && (actor->_flags & kFollower))
walkMore = followProtagonist(actor);
_vm->_script->wakeUpActorThread(kWaitTypeWalk, actor);
}
return walkMore;
}
bool Actor::actorWalkTo(uint16 actorId, const Location &toLocation) {
ActorData *actor;
ActorData *anotherActor;
int i;
Rect testBox;
Rect testBox2;
Point anotherActorScreenPosition;
Point collision;
Point pointFrom, pointTo, pointBest, pointAdd;
Point delta, bestDelta;
Point tempPoint;
bool extraStartNode;
bool extraEndNode;
actor = getActor(actorId);
if (actor == _protagonist) {
_vm->_scene->setDoorState(2, 0xff);
_vm->_scene->setDoorState(3, 0);
} else {
_vm->_scene->setDoorState(2, 0);
_vm->_scene->setDoorState(3, 0xff);
}
if (_vm->_scene->getFlags() & kSceneFlagISO) {
if ((_vm->getGameType() == GType_ITE) && (actor->_index == ACTOR_DRAGON_INDEX)) {
return false;
}
actor->_finalTarget = toLocation;
actor->_walkStepsCount = 0;
_vm->_isoMap->findTilePath(actor, actor->_location, toLocation);
if ((actor->_walkStepsCount == 0) && (actor->_flags & kProtagonist)) {
actor->_actorFlags |= kActorNoCollide;
_vm->_isoMap->findTilePath(actor, actor->_location, toLocation);
}
actor->_walkStepIndex = 0;
if (_vm->_isoMap->nextTileTarget(actor)) {
actor->_currentAction = kActionWalkToPoint;
actor->_walkFrameSequence = getFrameType(kFrameWalk);
} else {
actorEndWalk(actorId, false);
return false;
}
} else {
actor->_location.toScreenPointXY(pointFrom);
pointFrom.x &= ~1;
extraStartNode = _vm->_scene->offscreenPath(pointFrom);
toLocation.toScreenPointXY(pointTo);
pointTo.x &= ~1;
extraEndNode = _vm->_scene->offscreenPath(pointTo);
if (_vm->_scene->isBGMaskPresent()) {
if ((((actor->_currentAction >= kActionWalkToPoint) &&
(actor->_currentAction <= kActionWalkDir)) || (actor == _protagonist)) &&
!_vm->_scene->canWalk(pointFrom)) {
for (i = 1; i < 8; i++) {
pointAdd = pointFrom;
pointAdd.y += i;
if (_vm->_scene->canWalk(pointAdd)) {
pointFrom = pointAdd;
break;
}
pointAdd = pointFrom;
pointAdd.y -= i;
if (_vm->_scene->canWalk(pointAdd)) {
pointFrom = pointAdd;
break;
}
pointAdd = pointFrom;
pointAdd.x += i;
if (_vm->_scene->canWalk(pointAdd)) {
pointFrom = pointAdd;
break;
}
pointAdd = pointFrom;
pointAdd.x -= i;
if (_vm->_scene->canWalk(pointAdd)) {
pointFrom = pointAdd;
break;
}
}
}
_barrierCount = 0;
if (!(actor->_actorFlags & kActorNoCollide)) {
collision.x = ACTOR_COLLISION_WIDTH * actor->_screenScale / (256 * 2);
collision.y = ACTOR_COLLISION_HEIGHT * actor->_screenScale / (256 * 2);
for (i = 0; (i < _actorsCount) && (_barrierCount < ACTOR_BARRIERS_MAX); i++) {
anotherActor = _actors[i];
if (!anotherActor->_inScene)
continue;
if (anotherActor == actor)
continue;
anotherActorScreenPosition = anotherActor->_screenPosition;
testBox.left = (anotherActorScreenPosition.x - collision.x) & ~1;
testBox.right = (anotherActorScreenPosition.x + collision.x) & ~1 + 1;
testBox.top = anotherActorScreenPosition.y - collision.y;
testBox.bottom = anotherActorScreenPosition.y + collision.y + 1;
testBox2 = testBox;
testBox2.right += 2;
testBox2.left -= 2;
testBox2.top -= 1;
testBox2.bottom += 1;
if (testBox2.contains(pointFrom)) {
if (pointFrom.x > anotherActorScreenPosition.x + 4) {
testBox.right = pointFrom.x - 1;
} else if (pointFrom.x < anotherActorScreenPosition.x - 4) {
testBox.left = pointFrom.x + 2;
} else if (pointFrom.y > anotherActorScreenPosition.y) {
testBox.bottom = pointFrom.y;
} else {
testBox.top = pointFrom.y + 1 ;
}
}
if ((testBox.width() > 0) && (testBox.height() > 0)) {
_barrierList[_barrierCount++] = testBox;
}
}
}
pointBest = pointTo;
actor->_walkStepsCount = 0;
findActorPath(actor, pointFrom, pointTo);
if (actor->_walkStepsCount == 0) {
error("actor->_walkStepsCount == 0");
}
if (extraStartNode) {
actor->_walkStepIndex = 0;
} else {
actor->_walkStepIndex = 1;
}
if (extraEndNode) {
toLocation.toScreenPointXY(tempPoint);
actor->_walkStepsCount--;
actor->addWalkStepPoint(tempPoint);
}
pointBest = actor->_walkStepsPoints[actor->_walkStepsCount - 1];
pointBest.x &= ~1;
delta.x = ABS(pointFrom.x - pointTo.x);
delta.y = ABS(pointFrom.y - pointTo.y);
bestDelta.x = ABS(pointBest.x - pointTo.x);
bestDelta.y = ABS(pointBest.y - pointTo.y);
if ((delta.x + delta.y <= bestDelta.x + bestDelta.y) && (actor->_flags & kFollower)) {
actor->_actorFlags |= kActorNoFollow;
}
if (pointBest == pointFrom) {
actor->_walkStepsCount = 0;
}
} else {
actor->_walkStepsCount = 0;
actor->addWalkStepPoint(pointTo);
actor->_walkStepIndex = 0;
}
actor->_partialTarget = actor->_location;
actor->_finalTarget = toLocation;
if (actor->_walkStepsCount == 0) {
actorEndWalk(actorId, false);
return false;
} else {
if (actor->_flags & kProtagonist) {
_actors[1]->_actorFlags &= ~kActorNoFollow; // TODO: mark all actors with kFollower flag, not only 1 and 2
_actors[2]->_actorFlags &= ~kActorNoFollow;
}
actor->_currentAction = (actor->_walkStepsCount >= ACTOR_MAX_STEPS_COUNT) ? kActionWalkToLink : kActionWalkToPoint;
actor->_walkFrameSequence = getFrameType(kFrameWalk);
}
}
return true;
}
void Actor::actorSpeech(uint16 actorId, const char **strings, int stringsCount, int sampleResourceId, int speechFlags) {
ActorData *actor;
int i;
int16 dist;
actor = getActor(actorId);
calcScreenPosition(actor);
for (i = 0; i < stringsCount; i++) {
_activeSpeech.strings[i] = strings[i];
}
_activeSpeech.stringsCount = stringsCount;
_activeSpeech.speechFlags = speechFlags;
_activeSpeech.actorsCount = 1;
_activeSpeech.actorIds[0] = actorId;
_activeSpeech.speechColor[0] = actor->_speechColor;
_activeSpeech.outlineColor[0] = (_vm->getGameType() == GType_ITE ? kITEColorBlack : kIHNMColorBlack);
_activeSpeech.sampleResourceId = sampleResourceId;
_activeSpeech.playing = false;
_activeSpeech.slowModeCharIndex = 0;
dist = MIN(actor->_screenPosition.x - 10, _vm->getDisplayWidth() - 10 - actor->_screenPosition.x);
dist = clamp(60, dist, 150);
_activeSpeech.speechBox.left = actor->_screenPosition.x - dist;
_activeSpeech.speechBox.right = actor->_screenPosition.x + dist;
if (_activeSpeech.speechBox.left < 10) {
_activeSpeech.speechBox.right += 10 - _activeSpeech.speechBox.left;
_activeSpeech.speechBox.left = 10;
}
if (_activeSpeech.speechBox.right > _vm->getDisplayWidth() - 10) {
_activeSpeech.speechBox.left -= _activeSpeech.speechBox.right - _vm->getDisplayWidth() - 10;
_activeSpeech.speechBox.right = _vm->getDisplayWidth() - 10;
}
}
void Actor::nonActorSpeech(const Common::Rect &box, const char **strings, int stringsCount, int sampleResourceId, int speechFlags) {
int i;
_vm->_script->wakeUpThreads(kWaitTypeSpeech);
for (i = 0; i < stringsCount; i++) {
_activeSpeech.strings[i] = strings[i];
}
_activeSpeech.stringsCount = stringsCount;
_activeSpeech.speechFlags = speechFlags;
_activeSpeech.actorsCount = 1;
_activeSpeech.actorIds[0] = 0;
if (!(_vm->getFeatures() & GF_CD_FX))
_activeSpeech.sampleResourceId = -1;
else
_activeSpeech.sampleResourceId = sampleResourceId;
_activeSpeech.playing = false;
_activeSpeech.slowModeCharIndex = 0;
_activeSpeech.speechBox = box;
}
void Actor::simulSpeech(const char *string, uint16 *actorIds, int actorIdsCount, int speechFlags, int sampleResourceId) {
int i;
for (i = 0; i < actorIdsCount; i++) {
ActorData *actor;
actor = getActor(actorIds[i]);
_activeSpeech.actorIds[i] = actorIds[i];
_activeSpeech.speechColor[i] = actor->_speechColor;
_activeSpeech.outlineColor[i] = 0; // disable outline
}
_activeSpeech.actorsCount = actorIdsCount;
_activeSpeech.strings[0] = string;
_activeSpeech.stringsCount = 1;
_activeSpeech.speechFlags = speechFlags;
_activeSpeech.sampleResourceId = sampleResourceId;
_activeSpeech.playing = false;
_activeSpeech.slowModeCharIndex = 0;
// caller should call thread->wait(kWaitTypeSpeech) by itself
}
void Actor::abortAllSpeeches() {
abortSpeech();
if (_vm->_script->_abortEnabled)
_vm->_script->_skipSpeeches = true;
for (int i = 0; i < 10; i++)
_vm->_script->executeThreads(0);
}
void Actor::abortSpeech() {
_vm->_sound->stopVoice();
_activeSpeech.playingTime = 0;
}
void Actor::moveDragon(ActorData *actor) {
int16 dir0, dir1, dir2, dir3;
int16 moveType;
Event event;
const DragonMove *dragonMove;
if ((actor->_actionCycle < 0) ||
((actor->_actionCycle == 0) && (actor->_dragonMoveType >= ACTOR_DRAGON_TURN_MOVES))) {
moveType = kDragonMoveInvalid;
if (actor->_location.distance(_protagonist->_location) < 24) {
if (_dragonHunt && (_protagonist->_currentAction != kActionFall)) {
event.type = kEvTOneshot;
event.code = kScriptEvent;
event.op = kEventExecNonBlocking;
event.time = 0;
event.param = _vm->_scene->getScriptModuleNumber(); // module number
event.param2 = ACTOR_EXP_KNOCK_RIF; // script entry point number
event.param3 = -1; // Action
event.param4 = -1; // Object
event.param5 = -1; // With Object
event.param6 = -1; // Actor
_vm->_events->queue(&event);
_dragonHunt = false;
}
} else {
_dragonHunt = true;
}
if (actor->_walkStepIndex + 2 > actor->_walkStepsCount) {
_vm->_isoMap->findDragonTilePath(actor, actor->_location, _protagonist->_location, actor->_actionDirection);
if (actor->_walkStepsCount == 0) {
_vm->_isoMap->findDragonTilePath(actor, actor->_location, _protagonist->_location, 0);
}
if (actor->_walkStepsCount < 2) {
return;
}
actor->_partialTarget = actor->_location;
actor->_finalTarget = _protagonist->_location;
actor->_walkStepIndex = 0;
}
dir0 = actor->_actionDirection;
dir1 = actor->_tileDirections[actor->_walkStepIndex++];
dir2 = actor->_tileDirections[actor->_walkStepIndex];
dir3 = actor->_tileDirections[actor->_walkStepIndex + 1];
if (dir0 != dir1){
actor->_actionDirection = dir0 = dir1;
}
actor->_location = actor->_partialTarget;
if ((dir1 != dir2) && (dir1 == dir3)) {
switch (dir1) {
case kDirUpLeft:
actor->_partialTarget.v() += 16;
moveType = kDragonMoveUpLeft;
break;
case kDirDownLeft:
actor->_partialTarget.u() -= 16;
moveType = kDragonMoveDownLeft;
break;
case kDirDownRight:
actor->_partialTarget.v() -= 16;
moveType = kDragonMoveDownRight;
break;
case kDirUpRight:
actor->_partialTarget.u() += 16;
moveType = kDragonMoveUpRight;
break;
}
switch (dir2) {
case kDirUpLeft:
actor->_partialTarget.v() += 16;
break;
case kDirDownLeft:
actor->_partialTarget.u() -= 16;
break;
case kDirDownRight:
actor->_partialTarget.v() -= 16;
break;
case kDirUpRight:
actor->_partialTarget.u() += 16;
break;
}
actor->_walkStepIndex++;
} else {
switch (dir1) {
case kDirUpLeft:
actor->_partialTarget.v() += 16;
switch (dir2) {
case kDirDownLeft:
moveType = kDragonMoveUpLeft_Left;
actor->_partialTarget.u() -= 16;
break;
case kDirUpLeft:
moveType = kDragonMoveUpLeft;
break;
case kDirUpRight:
actor->_partialTarget.u() += 16;
moveType = kDragonMoveUpLeft_Right;
break;
default:
actor->_actionDirection = dir1;
actor->_walkStepsCount = 0;
break;
}
break;
case kDirDownLeft:
actor->_partialTarget.u() -= 16;
switch (dir2) {
case kDirDownRight:
moveType = kDragonMoveDownLeft_Left;
actor->_partialTarget.v() -= 16;
break;
case kDirDownLeft:
moveType = kDragonMoveDownLeft;
break;
case kDirUpLeft:
moveType = kDragonMoveDownLeft_Right;
actor->_partialTarget.v() += 16;
break;
default:
actor->_actionDirection = dir1;
actor->_walkStepsCount = 0;
break;
}
break;
case kDirDownRight:
actor->_partialTarget.v() -= 16;
switch (dir2) {
case kDirUpRight:
moveType = kDragonMoveDownRight_Left;
actor->_partialTarget.u() += 16;
break;
case kDirDownRight:
moveType = kDragonMoveDownRight;
break;
case kDirDownLeft:
moveType = kDragonMoveDownRight_Right;
actor->_partialTarget.u() -= 16;
break;
default:
actor->_actionDirection = dir1;
actor->_walkStepsCount = 0;
break;
}
break;
case kDirUpRight:
actor->_partialTarget.u() += 16;
switch (dir2) {
case kDirUpLeft:
moveType = kDragonMoveUpRight_Left;
actor->_partialTarget.v() += 16;
break;
case kDirUpRight:
moveType = kDragonMoveUpRight;
break;
case kDirDownRight:
moveType = kDragonMoveUpRight_Right;
actor->_partialTarget.v() -= 16;
break;
default:
actor->_actionDirection = dir1;
actor->_walkStepsCount = 0;
break;
}
break;
default:
actor->_actionDirection = dir1;
actor->_walkStepsCount = 0;
break;
}
}
actor->_dragonMoveType = moveType;
if (moveType >= ACTOR_DRAGON_TURN_MOVES) {
actor->_dragonStepCycle = 0;
actor->_actionCycle = 4;
actor->_walkStepIndex++;
} else {
actor->_actionCycle = 4;
}
}
actor->_actionCycle--;
if ((actor->_walkStepsCount < 1) || (actor->_actionCycle < 0)) {
return;
}
if (actor->_dragonMoveType < ACTOR_DRAGON_TURN_MOVES) {
actor->_dragonStepCycle++;
if (actor->_dragonStepCycle >= 7) {
actor->_dragonStepCycle = 0;
}
actor->_dragonBaseFrame = actor->_dragonMoveType * 7;
if (actor->_location.u() > actor->_partialTarget.u() + 3) {
actor->_location.u() -= 4;
} else if (actor->_location.u() < actor->_partialTarget.u() - 3) {
actor->_location.u() += 4;
} else {
actor->_location.u() = actor->_partialTarget.u();
}
if (actor->_location.v() > actor->_partialTarget.v() + 3) {
actor->_location.v() -= 4;
} else if (actor->_location.v() < actor->_partialTarget.v() - 3) {
actor->_location.v() += 4;
} else {
actor->_location.v() = actor->_partialTarget.v();
}
} else {
dragonMove = &dragonMoveTable[actor->_dragonMoveType];
actor->_dragonBaseFrame = dragonMove->baseFrame;
actor->_location.u() = actor->_partialTarget.u() - dragonMove->offset[actor->_actionCycle][0];
actor->_location.v() = actor->_partialTarget.v() - dragonMove->offset[actor->_actionCycle][1];
actor->_dragonStepCycle++;
if (actor->_dragonStepCycle >= 3) {
actor->_dragonStepCycle = 3;
}
}
actor->_frameNumber = actor->_dragonBaseFrame + actor->_dragonStepCycle;
}
void Actor::findActorPath(ActorData *actor, const Point &fromPoint, const Point &toPoint) {
Point iteratorPoint;
Point bestPoint;
int maskType;
int i;
Rect intersect;
#ifdef ACTOR_DEBUG
_debugPointsCount = 0;
#endif
actor->_walkStepsCount = 0;
if (fromPoint == toPoint) {
actor->addWalkStepPoint(toPoint);
return;
}
for (iteratorPoint.y = 0; iteratorPoint.y < _yCellCount; iteratorPoint.y++) {
for (iteratorPoint.x = 0; iteratorPoint.x < _xCellCount; iteratorPoint.x++) {
if (_vm->_scene->validBGMaskPoint(iteratorPoint)) {
maskType = _vm->_scene->getBGMaskType(iteratorPoint);
setPathCell(iteratorPoint, _vm->_scene->getDoorState(maskType) ? kPathCellBarrier : kPathCellEmpty);
} else {
setPathCell(iteratorPoint, kPathCellBarrier);
}
}
}
for (i = 0; i < _barrierCount; i++) {
intersect.left = MAX(_pathRect.left, _barrierList[i].left);
intersect.top = MAX(_pathRect.top, _barrierList[i].top);
intersect.right = MIN(_pathRect.right, _barrierList[i].right);
intersect.bottom = MIN(_pathRect.bottom, _barrierList[i].bottom);
for (iteratorPoint.y = intersect.top; iteratorPoint.y < intersect.bottom; iteratorPoint.y++) {
for (iteratorPoint.x = intersect.left; iteratorPoint.x < intersect.right; iteratorPoint.x++) {
setPathCell(iteratorPoint, kPathCellBarrier);
}
}
}
#ifdef ACTOR_DEBUG
for (iteratorPoint.y = 0; iteratorPoint.y < _yCellCount; iteratorPoint.y++) {
for (iteratorPoint.x = 0; iteratorPoint.x < _xCellCount; iteratorPoint.x++) {
if (getPathCell(iteratorPoint) == kPathCellBarrier) {
addDebugPoint(iteratorPoint, 24);
}
}
}
#endif
if (scanPathLine(fromPoint, toPoint)) {
actor->addWalkStepPoint(fromPoint);
actor->addWalkStepPoint(toPoint);
return;
}
i = fillPathArray(fromPoint, toPoint, bestPoint);
if (fromPoint == bestPoint) {
actor->addWalkStepPoint(bestPoint);
return;
}
if (i == 0) {
error("fillPathArray returns zero");
}
setActorPath(actor, fromPoint, bestPoint);
}
bool Actor::scanPathLine(const Point &point1, const Point &point2) {
Point point;
Point delta;
Point s;
Point fDelta;
int16 errterm;
calcDeltaS(point1, point2, delta, s);
point = point1;
fDelta.x = delta.x * 2;
fDelta.y = delta.y * 2;
if (delta.y > delta.x) {
errterm = fDelta.x - delta.y;
while (delta.y > 0) {
while (errterm >= 0) {
point.x += s.x;
errterm -= fDelta.y;
}
point.y += s.y;
errterm += fDelta.x;
if (!validPathCellPoint(point)) {
return false;
}
if (getPathCell(point) == kPathCellBarrier) {
return false;
}
delta.y--;
}
} else {
errterm = fDelta.y - delta.x;
while (delta.x > 0) {
while (errterm >= 0) {
point.y += s.y;
errterm -= fDelta.x;
}
point.x += s.x;
errterm += fDelta.y;
if (!validPathCellPoint(point)) {
return false;
}
if (getPathCell(point) == kPathCellBarrier) {
return false;
}
delta.x--;
}
}
return true;
}
int Actor::fillPathArray(const Point &fromPoint, const Point &toPoint, Point &bestPoint) {
int bestRating;
int currentRating;
int i;
Point bestPath;
int pointCounter;
int startDirection;
PathDirectionData *pathDirection;
PathDirectionData *newPathDirection;
const PathDirectionData *samplePathDirection;
Point nextPoint;
int directionCount;
_pathDirectionListCount = 0;
pointCounter = 0;
bestRating = quickDistance(fromPoint, toPoint);
bestPath = fromPoint;
for (startDirection = 0; startDirection < 4; startDirection++) {
newPathDirection = addPathDirectionListData();
newPathDirection->coord = fromPoint;
newPathDirection->direction = startDirection;
}
if (validPathCellPoint(fromPoint)) {
setPathCell(fromPoint, kDirUp);
#ifdef ACTOR_DEBUG
addDebugPoint(fromPoint, 24+36);
#endif
}
i = 0;
do {
pathDirection = &_pathDirectionList[i];
for (directionCount = 0; directionCount < 3; directionCount++) {
samplePathDirection = &pathDirectionLUT[pathDirection->direction][directionCount];
nextPoint = pathDirection->coord;
nextPoint.x += samplePathDirection->coord.x;
nextPoint.y += samplePathDirection->coord.y;
if (!validPathCellPoint(nextPoint)) {
continue;
}
if (getPathCell(nextPoint) != kPathCellEmpty) {
continue;
}
setPathCell(nextPoint, samplePathDirection->direction);
#ifdef ACTOR_DEBUG
addDebugPoint(nextPoint, samplePathDirection->direction + 96);
#endif
newPathDirection = addPathDirectionListData();
newPathDirection->coord = nextPoint;
newPathDirection->direction = samplePathDirection->direction;
++pointCounter;
if (nextPoint == toPoint) {
bestPoint = toPoint;
return pointCounter;
}
currentRating = quickDistance(nextPoint, toPoint);
if (currentRating < bestRating) {
bestRating = currentRating;
bestPath = nextPoint;
}
pathDirection = &_pathDirectionList[i];
}
++i;
} while (i < _pathDirectionListCount);
bestPoint = bestPath;
return pointCounter;
}
void Actor::setActorPath(ActorData *actor, const Point &fromPoint, const Point &toPoint) {
Point nextPoint;
int8 direction;
int i;
_pathListIndex = -1;
addPathListPoint(toPoint);
nextPoint = toPoint;
while (!(nextPoint == fromPoint)) {
direction = getPathCell(nextPoint);
if ((direction < 0) || (direction >= 8)) {
error("Actor::setActorPath error direction 0x%X", direction);
}
nextPoint.x -= pathDirectionLUT2[direction][0];
nextPoint.y -= pathDirectionLUT2[direction][1];
addPathListPoint(nextPoint);
#ifdef ACTOR_DEBUG
addDebugPoint(nextPoint, 0x8a);
#endif
}
pathToNode();
removeNodes();
nodeToPath();
removePathPoints();
for (i = 0; i <= _pathNodeListIndex; i++) {
actor->addWalkStepPoint(_pathNodeList[i].point);
}
}
void Actor::pathToNode() {
Point point1, point2, delta;
int direction;
int i;
Point *point;
point= &_pathList[_pathListIndex];
direction = 0;
_pathNodeListIndex = -1;
addPathNodeListPoint(*point);
for (i = _pathListIndex; i > 0; i--) {
point1 = *point;
--point;
point2 = *point;
if (direction == 0) {
delta.x = int16Compare(point2.x, point1.x);
delta.y = int16Compare(point2.y, point1.y);
direction++;
}
if ((point1.x + delta.x != point2.x) || (point1.y + delta.y != point2.y)) {
addPathNodeListPoint(point1);
direction--;
i++;
point++;
}
}
addPathNodeListPoint(*_pathList);
}
int pathLine(Point *pointList, const Point &point1, const Point &point2) {
Point point;
Point delta;
Point tempPoint;
Point s;
int16 errterm;
int16 res;
calcDeltaS(point1, point2, delta, s);
point = point1;
tempPoint.x = delta.x * 2;
tempPoint.y = delta.y * 2;
if (delta.y > delta.x) {
errterm = tempPoint.x - delta.y;
res = delta.y;
while (delta.y > 0) {
while (errterm >= 0) {
point.x += s.x;
errterm -= tempPoint.y;
}
point.y += s.y;
errterm += tempPoint.x;
*pointList = point;
pointList++;
delta.y--;
}
} else {
errterm = tempPoint.y - delta.x;
res = delta.x;
while (delta.x > 0) {
while (errterm >= 0) {
point.y += s.y;
errterm -= tempPoint.x;
}
point.x += s.x;
errterm += tempPoint.y;
*pointList = point;
pointList++;
delta.x--;
}
}
return res;
}
void Actor::nodeToPath() {
int i;
Point point1, point2;
PathNode *node;
Point *point;
for (i = 0, point = _pathList; i < _pathListAlloced; i++, point++) {
point->x = point->y = PATH_NODE_EMPTY;
}
_pathListIndex = 1;
_pathList[0] = _pathNodeList[0].point;
_pathNodeList[0].link = 0;
for (i = 0, node = _pathNodeList; i < _pathNodeListIndex; i++) {
point1 = node->point;
node++;
point2 = node->point;
_pathListIndex += pathLine(&_pathList[_pathListIndex], point1, point2);
node->link = _pathListIndex - 1;
}
_pathListIndex--;
_pathNodeList[_pathNodeListIndex].link = _pathListIndex;
}
void Actor::removeNodes() {
int i, j, k;
PathNode *iNode, *jNode, *kNode, *fNode;
fNode = &_pathNodeList[_pathNodeListIndex];
if (scanPathLine(_pathNodeList[0].point, fNode->point)) {
_pathNodeList[1] = *fNode;
_pathNodeListIndex = 1;
}
if (_pathNodeListIndex < 4) {
return;
}
for (i = _pathNodeListIndex - 1, iNode = fNode-1; i > 1 ; i--, iNode--) {
if (iNode->point.x == PATH_NODE_EMPTY) {
continue;
}
if (scanPathLine(_pathNodeList[0].point, iNode->point)) {
for (j = 1, jNode = _pathNodeList + 1; j < i; j++, jNode++) {
jNode->point.x = PATH_NODE_EMPTY;
}
}
}
for (i = 1, iNode = _pathNodeList + 1; i < _pathNodeListIndex - 1; i++, iNode++) {
if (iNode->point.x == PATH_NODE_EMPTY) {
continue;
}
if (scanPathLine(fNode->point, iNode->point)) {
for (j = i + 1, jNode = iNode + 1; j < _pathNodeListIndex; j++, jNode++) {
jNode->point.x = PATH_NODE_EMPTY;
}
}
}
condenseNodeList();
for (i = 1, iNode = _pathNodeList + 1; i < _pathNodeListIndex - 1; i++, iNode++) {
if (iNode->point.x == PATH_NODE_EMPTY) {
continue;
}
for (j = i + 2, jNode = iNode + 2; j < _pathNodeListIndex; j++, jNode++) {
if (jNode->point.x == PATH_NODE_EMPTY) {
continue;
}
if (scanPathLine(iNode->point, jNode->point)) {
for (k = i + 1,kNode = iNode + 1; k < j; k++, kNode++) {
kNode->point.x = PATH_NODE_EMPTY;
}
}
}
}
condenseNodeList();
}
void Actor::condenseNodeList() {
int i, j, count;
PathNode *iNode, *jNode;
count = _pathNodeListIndex;
for (i = 1, iNode = _pathNodeList + 1; i < _pathNodeListIndex; i++, iNode++) {
if (iNode->point.x == PATH_NODE_EMPTY) {
j = i + 1;
jNode = iNode + 1;
while (jNode->point.x == PATH_NODE_EMPTY) {
j++;
jNode++;
}
*iNode = *jNode;
count = i;
jNode->point.x = PATH_NODE_EMPTY;
if (j == _pathNodeListIndex) {
break;
}
}
}
_pathNodeListIndex = count;
}
void Actor::removePathPoints() {
int i, j, k, l;
PathNode *node;
int start;
int end;
Point point1, point2;
if (_pathNodeListIndex < 2)
return;
_newPathNodeListIndex = -1;
addNewPathNodeListPoint(_pathNodeList[0]);
for (i = 1, node = _pathNodeList + 1; i < _pathNodeListIndex; i++, node++) {
addNewPathNodeListPoint(*node);
for (j = 5; j > 0; j--) {
start = node->link - j;
end = node->link + j;
if (start < 0 || end > _pathListIndex) {
continue;
}
point1 = _pathList[start];
point2 = _pathList[end];
if ((point1.x == PATH_NODE_EMPTY) || (point2.x == PATH_NODE_EMPTY)) {
continue;
}
if (scanPathLine(point1, point2)) {
for (l = 1; l <= _newPathNodeListIndex; l++) {
if (start <= _newPathNodeList[l].link) {
_newPathNodeListIndex = l;
_newPathNodeList[_newPathNodeListIndex].point = point1;
_newPathNodeList[_newPathNodeListIndex].link = start;
incrementNewPathNodeListIndex();
break;
}
}
_newPathNodeList[_newPathNodeListIndex].point = point2;
_newPathNodeList[_newPathNodeListIndex].link = end;
for (k = start + 1; k < end; k++) {
_pathList[k].x = PATH_NODE_EMPTY;
}
break;
}
}
}
addNewPathNodeListPoint(_pathNodeList[_pathNodeListIndex]);
for (i = 0, j = 0; i <= _newPathNodeListIndex; i++) {
if (_newPathNodeListIndex == i || (_newPathNodeList[i].point != _newPathNodeList[i+1].point)) {
_pathNodeList[j++] = _newPathNodeList[i];
}
}
_pathNodeListIndex = j - 1;
}
void Actor::drawPathTest() {
#ifdef ACTOR_DEBUG
int i;
Surface *surface;
surface = _vm->_gfx->getBackBuffer();
if (_debugPoints == NULL) {
return;
}
for (i = 0; i < _debugPointsCount; i++) {
*((byte *)surface->pixels + (_debugPoints[i].point.y * surface->pitch) + _debugPoints[i].point.x) = _debugPoints[i].color;
}
#endif
}
void Actor::saveState(Common::OutSaveFile *out) {
uint16 i;
out->writeSint16LE(getProtagState());
for (i = 0; i < _actorsCount; i++) {
ActorData *a = _actors[i];
a->saveState(out);
}
for (i = 0; i < _objsCount; i++) {
ObjectData *o = _objs[i];
o->saveState(out);
}
}
void Actor::loadState(Common::InSaveFile *in) {
int32 i;
setProtagState(in->readSint16LE());
for (i = 0; i < _actorsCount; i++) {
ActorData *a = _actors[i];
a->loadState(_vm->getCurrentLoadVersion(), in);
// Fix bug #1258633 "ITE: Second Rif appears in wall of dog castle prison"
// For some reason in some cases actor position is all wrong, so Rif
// crawls to his original poition
if (i == 122 && _vm->getGameType() == GType_ITE) {
a->_location.x = 130;
a->_location.y = 55;
}
}
for (i = 0; i < _objsCount; i++) {
ObjectData *o = _objs[i];
o->loadState(in);
}
}
// Console wrappers - must be safe to run
void Actor::cmdActorWalkTo(int argc, const char **argv) {
uint16 actorId = (uint16) atoi(argv[1]);
Location location;
Point movePoint;
movePoint.x = atoi(argv[2]);
movePoint.y = atoi(argv[3]);
location.fromScreenPoint(movePoint);
if (!validActorId(actorId)) {
_vm->_console->DebugPrintf("Actor::cmActorWalkTo Invalid actorId 0x%X.\n", actorId);
return;
}
actorWalkTo(actorId, location);
}
} // End of namespace Saga