1
0
mirror of https://github.com/rwengine/openrw.git synced 2024-11-22 02:12:45 +01:00

Merge pull request #241 from danhedron/new-object-data

Correct object data storage
This commit is contained in:
Daniel Evans 2016-10-10 20:51:25 +01:00 committed by GitHub
commit 02efff6f8f
60 changed files with 1264 additions and 1213 deletions

View File

@ -36,8 +36,8 @@ set(RWENGINE_SOURCES
src/data/GameTexts.cpp
src/data/GameTexts.hpp
src/data/InstanceData.hpp
src/data/ObjectData.cpp
src/data/ObjectData.hpp
src/data/ModelData.cpp
src/data/ModelData.hpp
src/data/PathData.hpp
src/data/Skeleton.cpp
src/data/Skeleton.hpp
@ -61,7 +61,6 @@ set(RWENGINE_SOURCES
src/items/InventoryItem.hpp
src/items/WeaponItem.cpp
src/items/WeaponItem.hpp
src/loaders/BackgroundLoader.hpp
src/loaders/DataLoader.cpp
src/loaders/DataLoader.hpp
src/loaders/GenericDATLoader.cpp

View File

@ -179,7 +179,7 @@ bool Activities::EnterVehicle::update(CharacterObject *character,
RW_UNUSED(controller);
// Boats don't have any kind of entry animation unless you're onboard.
if (vehicle->vehicle->type == VehicleData::BOAT) {
if (vehicle->getVehicle()->vehicletype_ == VehicleModelInfo::BOAT) {
character->enterVehicle(vehicle, seat);
return true;
}
@ -344,7 +344,7 @@ bool Activities::ExitVehicle::update(CharacterObject *character,
anm_exit = character->animations.car_getout_rhs;
}
if (vehicle->vehicle->type == VehicleData::BOAT) {
if (vehicle->getVehicle()->vehicletype_ == VehicleModelInfo::BOAT) {
auto ppos = character->getPosition();
character->enterVehicle(nullptr, seat);
character->setPosition(ppos);

View File

@ -0,0 +1 @@
#include "data/ModelData.hpp"

View File

@ -0,0 +1,428 @@
#ifndef RWENGINE_MODELDATA_HPP
#define RWENGINE_MODELDATA_HPP
#include <stdint.h>
#include <glm/glm.hpp>
#include <memory>
#include <string>
#include <unordered_map>
#include <vector>
#include <data/Model.hpp>
#include <data/PathData.hpp>
#include <rw/defines.hpp>
#ifdef RW_WINDOWS
#include <rw_mingw.hpp>
#endif
/**
* 16-bit model ID identifier (from .ide)
*/
using ModelID = uint16_t;
enum class ModelDataType {
SimpleInfo = 1,
/** Unknown */
MLoModelInfo = 2,
/** Currently unused; data in SimpleInfo instead */
TimeModelInfo = 3,
ClumpInfo = 4,
VehicleInfo = 5,
PedInfo = 6
};
/**
* Base type for all model information
*
* @todo reference counting
* @todo store collision model
*/
class BaseModelInfo {
public:
std::string name;
std::string textureslot;
BaseModelInfo(ModelDataType type) : type_(type) {
}
virtual ~BaseModelInfo() {
}
ModelID id() const {
return modelid_;
}
void setModelID(ModelID id) {
modelid_ = id;
}
ModelDataType type() const {
return type_;
}
void addReference() {
refcount_++;
}
void removeReference() {
refcount_--;
}
int getReferenceCount() const {
return refcount_;
}
/// @todo replace with proper streaming implementation
virtual bool isLoaded() const = 0;
virtual void unload() = 0;
static std::string getTypeName(ModelDataType type) {
switch (type) {
case ModelDataType::SimpleInfo:
return "Simple";
case ModelDataType::VehicleInfo:
return "Vehicle";
case ModelDataType::PedInfo:
return "Pedestrian";
case ModelDataType::ClumpInfo:
return "Cutscene";
default:
break;
}
return "Unknown";
}
private:
ModelID modelid_ = 0;
ModelDataType type_;
int refcount_ = 0;
};
/**
* Model data for simple types
*
* @todo replace Model* with librw types
*/
class SimpleModelInfo : public BaseModelInfo {
public:
static constexpr ModelDataType kType = ModelDataType::SimpleInfo;
/// @todo Use TimeModelInfo instead of hacking this in here
int timeOn = 0;
int timeOff = 24;
int flags;
/// @todo Remove this?
bool LOD = false;
/// Information loaded from PATH sections
/// @todo remove this from here too :)
std::vector<PathData> paths;
SimpleModelInfo() : BaseModelInfo(kType) {
}
SimpleModelInfo(ModelDataType type) : BaseModelInfo(type) {
}
/// @todo change with librw
void setAtomic(Model* model, int n, ModelFrame* atomic) {
model_ = model;
atomics_[n] = atomic;
}
/// @todo remove this
Model* getModel() const {
return model_;
}
ModelFrame* getAtomic(int n) const {
return atomics_[n];
}
void setLodDistance(int n, float d) {
RW_CHECK(n < 3, "Lod Index out of range");
loddistances_[n] = d;
}
float getLodDistance(int n) {
RW_CHECK(n < 3, "Lod Index out of range");
return loddistances_[n];
}
void setNumAtomics(int num) {
numatomics_ = num;
}
int getNumAtomics() const {
return numatomics_;
}
bool isLoaded() const override {
return model_ != nullptr;
}
void unload() override {
delete model_;
model_ = nullptr;
}
enum {
/// Cull model if player doesn't look at it. Ignored in GTA 3.
NORMAL_CULL = 1,
/// Do not fade the object when it is being
/// loaded into or out of view.
DO_NOT_FADE = 1 << 1,
/// Model is transparent. Render this object after
/// all opaque objects, allowing transparencies of
/// other objects to be visible through this
/// object.
DRAW_LAST = 1 << 2,
/// Render with additive blending. Previous flag
/// must be enabled too.
ADDITIVE = 1 << 3,
/// Model is a tunnel, i.e. set the object as
/// invisible unless the player enters cull zone
/// flag 128. This flag works only with static
/// models.
IS_SUBWAY = 1 << 4,
/// Don't use static lighting, we want
/// dynamic if it's possible.
IGNORE_LIGHTING = 1 << 5,
/// Model is a shadow. Disable writing to z-buffer when
/// rendering it, allowing transparencies of other objects,
/// shadows, and lights to be visible through this object.
/// (Not implemented in the PS2 version)
NO_ZBUFFER_WRITE = 1 << 6,
};
private:
Model* model_ = nullptr;
ModelFrame* atomics_[3] = {};
float loddistances_[3] = {};
uint8_t numatomics_ = 0;
uint8_t alpha_ = 0; /// @todo ask aap why
};
/**
* @todo this
*/
class TimeModelInfo : public SimpleModelInfo {
TimeModelInfo() : SimpleModelInfo(ModelDataType::TimeModelInfo) {
}
};
/**
* @todo document me
*/
class ClumpModelInfo : public BaseModelInfo {
public:
static constexpr ModelDataType kType = ModelDataType::ClumpInfo;
ClumpModelInfo() : BaseModelInfo(kType) {
}
ClumpModelInfo(ModelDataType type) : BaseModelInfo(type) {
}
void setModel(Model* model) {
model_ = model;
}
Model* getModel() const {
return model_;
}
bool isLoaded() const override {
return model_ != nullptr;
}
void unload() override {
delete model_;
model_ = nullptr;
}
private:
Model* model_ = nullptr;
};
/**
* Data for a vehicle model type
*/
class VehicleModelInfo : public ClumpModelInfo {
public:
static constexpr ModelDataType kType = ModelDataType::VehicleInfo;
VehicleModelInfo() : ClumpModelInfo(kType) {
}
enum VehicleClass {
IGNORE = 0,
NORMAL = 1,
POORFAMILY = 1 << 1,
RICHFAMILY = 1 << 2,
EXECUTIVE = 1 << 3,
WORKER = 1 << 4,
BIG = 1 << 5,
TAXI = 1 << 6,
MOPED = 1 << 7,
MOTORBIKE = 1 << 8,
LEISUREBOAT = 1 << 9,
WORKERBOAT = 1 << 10,
BICYCLE = 1 << 11,
ONFOOT = 1 << 12,
/// @todo verify that this is the correct bit
SPECIAL = 1 << 13,
};
enum VehicleType {
CAR,
BOAT,
TRAIN,
PLANE,
HELI,
};
VehicleType vehicletype_;
ModelID wheelmodel_;
float wheelscale_;
int numdoors_;
std::string handling_;
VehicleClass vehicleclass_;
int frequency_;
int level_;
int componentrules_;
std::string vehiclename_;
static VehicleType findVehicleType(const std::string& name) {
static const std::unordered_map<std::string, VehicleType> vehicleTypes{
{"car", CAR},
{"boat", BOAT},
{"train", TRAIN},
{"plane", PLANE},
{"heli", HELI}};
return vehicleTypes.at(name);
}
static VehicleClass findVehicleClass(const std::string& name) {
static const std::unordered_map<std::string, VehicleClass> classTypes{
// III, VC, SA
{"ignore", IGNORE},
{"normal", NORMAL},
{"poorfamily", POORFAMILY},
{"richfamily", RICHFAMILY},
{"executive", EXECUTIVE},
{"worker", WORKER},
{"big", BIG},
{"taxi", TAXI},
{"special", SPECIAL},
// VC, SA
{"moped", MOPED},
{"motorbike", MOTORBIKE},
{"leisureboat", LEISUREBOAT},
{"workerboat", WORKERBOAT},
{"bicycle", BICYCLE},
{"onfoot", ONFOOT},
};
return classTypes.at(name);
}
};
class PedModelInfo : public ClumpModelInfo {
public:
static constexpr ModelDataType kType = ModelDataType::PedInfo;
PedModelInfo() : ClumpModelInfo(kType) {
}
enum PedType {
// III
PLAYER1 = 0,
PLAYER2,
PLAYER3,
PLAYER_4,
CIVMALE,
CIVFEMALE,
COP,
GANG1,
GANG2,
GANG3,
GANG4,
GANG5,
GANG6,
GANG7,
GANG8,
GANG9,
EMERGENCY,
FIREMAN,
CRIMINAL,
_UNNAMED,
PROSTITUTE,
SPECIAL,
};
PedType pedtype_ = PLAYER1;
/// @todo this should be an index
std::string behaviour_;
/// @todo this should be an index
std::string animgroup_;
/// The mask of vehicle classes this ped can drive
int carsmask_ = 0;
static PedType findPedType(const std::string& name) {
static const std::unordered_map<std::string, PedType> pedTypes{
// III
{"PLAYER1", PLAYER1},
{"PLAYER2", PLAYER2},
{"PLAYER3", PLAYER3},
{"PLAYER_4", PLAYER_4},
{"CIVMALE", CIVMALE},
{"CIVFEMALE", CIVFEMALE},
{"COP", COP},
{"GANG1", GANG1},
{"GANG2", GANG2},
{"GANG3", GANG3},
{"GANG4", GANG4},
{"GANG5", GANG5},
{"GANG6", GANG6},
{"GANG7", GANG7},
{"GANG8", GANG8},
{"GANG9", GANG9},
{"EMERGENCY", EMERGENCY},
{"FIREMAN", FIREMAN},
{"CRIMINAL", CRIMINAL},
{"_UNNAMED", _UNNAMED},
{"PROSTITUTE", PROSTITUTE},
{"SPECIAL", SPECIAL},
};
return pedTypes.at(name);
}
};
/**
* This is orthogonal to object class, it gives
* Instances different physical properties.
*/
struct DynamicObjectData {
std::string modelName;
float mass; // Kg
float turnMass; // Kg m^3
float airRes; // fraction
float elacticity; // "
float bouancy;
float uprootForce; // Force
float collDamageMulti;
/*
* 1: change model
* 2: split model
* 3: smash
* 4: change and smash
*/
uint8_t collDamageFlags;
/*
* 1: lampost
* 2: smallbox
* 3: bigbox
* 4: fencepart
*/
uint8_t collResponseFlags;
bool cameraAvoid;
};
#endif

View File

@ -1,10 +0,0 @@
#include "data/ObjectData.hpp"
const ObjectInformation::ObjectClass ObjectData::class_id =
ObjectInformation::_class("OBJS");
const ObjectInformation::ObjectClass VehicleData::class_id =
ObjectInformation::_class("CARS");
const ObjectInformation::ObjectClass CharacterData::class_id =
ObjectInformation::_class("PEDS");
const ObjectInformation::ObjectClass CutsceneObjectData::class_id =
ObjectInformation::_class("HIER");

View File

@ -1,196 +0,0 @@
#pragma once
#ifndef __GLT_OBJECTDATA_HPP__
#define __GLT_OBJECTDATA_HPP__
#include <stdint.h>
#include <glm/glm.hpp>
#include <memory>
#include <string>
#include <vector>
#include <data/PathData.hpp>
#ifdef RW_WINDOWS
#include <rw_mingw.hpp>
#endif
typedef uint16_t ObjectID;
/**
* Stores basic information about an Object and it's real type.
*/
struct ObjectInformation {
typedef size_t ObjectClass;
static ObjectClass _class(const std::string& name) {
return std::hash<std::string>()(name);
}
ObjectID ID;
const ObjectClass class_type;
ObjectInformation(const ObjectClass type) : class_type(type) {
}
virtual ~ObjectInformation() {
}
};
typedef std::shared_ptr<ObjectInformation> ObjectInformationPtr;
/**
* Data used by Normal Objects
*/
struct ObjectData : public ObjectInformation {
static const ObjectClass class_id;
ObjectData() : ObjectInformation(_class("OBJS")) {
}
std::string modelName;
std::string textureName;
uint8_t numClumps;
float drawDistance[3];
int32_t flags;
bool LOD;
short timeOn;
short timeOff;
enum {
NORMAL_CULL =
1, /// Cull model if player doesn't look at it. Ignored in GTA 3.
DO_NOT_FADE = 1 << 1, /// Do not fade the object when it is being
/// loaded into or out of view.
DRAW_LAST = 1 << 2, /// Model is transparent. Render this object after
/// all opaque objects, allowing transparencies of
/// other objects to be visible through this
/// object.
ADDITIVE = 1 << 3, /// Render with additive blending. Previous flag
/// must be enabled too.
IS_SUBWAY = 1 << 4, /// Model is a tunnel, i.e. set the object as
/// invisible unless the player enters cull zone
/// flag 128. This flag works only with static
/// models.
IGNORE_LIGHTING = 1 << 5, /// Don't use static lighting, we want
/// dynamic if it's possible.
NO_ZBUFFER_WRITE =
1 << 6, /// Model is a shadow. Disable writing to z-buffer when
/// rendering it, allowing transparencies of other objects,
/// shadows, and lights to be visible through this object.
/// (Not implemented in the PS2 version)
};
// Information loaded from PATH sections
std::vector<PathData> paths;
};
typedef std::shared_ptr<ObjectData> ObjectDataPtr;
/**
* Data used by peds
*/
struct CharacterData : public ObjectInformation {
static const ObjectClass class_id;
CharacterData() : ObjectInformation(_class("PEDS")) {
}
std::string modelName;
std::string textureName;
std::string type;
std::string behaviour;
std::string animGroup;
uint8_t driveMask;
};
/**
* @brief Stores vehicle data loaded from item definition files.
*/
struct VehicleData : public ObjectInformation {
static const ObjectClass class_id;
VehicleData() : ObjectInformation(_class("CARS")) {
}
enum VehicleClass {
IGNORE = 0,
NORMAL = 1,
POORFAMILY = 1 << 1,
RICHFAMILY = 1 << 2,
EXECUTIVE = 1 << 3,
WORKER = 1 << 4,
BIG = 1 << 5,
TAXI = 1 << 6,
MOPED = 1 << 7,
MOTORBIKE = 1 << 8,
LEISUREBOAT = 1 << 9,
WORKERBOAT = 1 << 10,
BICYCLE = 1 << 11,
ONFOOT = 1 << 12,
};
enum VehicleType {
CAR,
BOAT,
TRAIN,
PLANE,
HELI,
};
std::string modelName;
std::string textureName;
VehicleType type;
std::string handlingID;
std::string gameName;
VehicleClass classType;
uint8_t frequency; // big enough int type?
uint8_t lvl; // big enough int type?
uint16_t comprules;
union { // big enough int types?
uint16_t wheelModelID; // used only when type == CAR
int16_t modelLOD; // used only when type == PLANE
};
float wheelScale; // used only when type == CAR
};
typedef std::shared_ptr<VehicleData> VehicleDataHandle;
struct CutsceneObjectData : public ObjectInformation {
static const ObjectClass class_id;
CutsceneObjectData() : ObjectInformation(_class("HIER")) {
}
std::string modelName;
std::string textureName;
};
/**
* This is orthogonal to object class, it gives
* Instances different physical properties.
*/
struct DynamicObjectData {
std::string modelName;
float mass; // Kg
float turnMass; // Kg m^3
float airRes; // fraction
float elacticity; // "
float bouancy;
float uprootForce; // Force
float collDamageMulti;
/*
* 1: change model
* 2: split model
* 3: smash
* 4: change and smash
*/
uint8_t collDamageFlags;
/*
* 1: lampost
* 2: smallbox
* 3: bigbox
* 4: fencepart
*/
uint8_t collResponseFlags;
bool cameraAvoid;
};
#endif

View File

@ -1,5 +1,5 @@
#include <data/Model.hpp>
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include <data/WeaponData.hpp>
#include <engine/GameData.hpp>
#include <engine/GameState.hpp>
@ -11,7 +11,6 @@
#include <script/SCMFile.hpp>
#include <core/Logger.hpp>
#include <loaders/BackgroundLoader.hpp>
#include <loaders/GenericDATLoader.hpp>
#include <loaders/LoaderGXT.hpp>
#include <platform/FileIndex.hpp>
@ -27,11 +26,7 @@ GameData::GameData(Logger* log, WorkContext* work, const std::string& path)
}
GameData::~GameData() {
for (auto& m : models) {
if (m.second->resource) {
delete m.second->resource;
}
}
/// @todo don't leak models
}
void GameData::load() {
@ -45,9 +40,6 @@ void GameData::load() {
loadLevelFile("data/default.dat");
loadLevelFile("data/gta3.dat");
loadDFF("wheels.dff");
loadDFF("weapons.dff");
loadDFF("arrow.dff");
loadTXD("particle.txd");
loadTXD("icons.txd");
loadTXD("hud.txd");
@ -99,6 +91,9 @@ void GameData::loadLevelFile(const std::string& path) {
std::transform(name.begin(), name.end(), name.begin(),
::tolower);
loadTXD(name);
} else if (cmd == "MODELFILE") {
auto path = line.substr(space + 1);
loadModelFile(path);
}
}
}
@ -109,23 +104,19 @@ void GameData::loadIDE(const std::string& path) {
LoaderIDE idel;
if (idel.load(systempath)) {
objectTypes.insert(idel.objects.begin(), idel.objects.end());
std::move(idel.objects.begin(), idel.objects.end(),
std::inserter(modelinfo, modelinfo.end()));
} else {
logger->error("Data", "Failed to load IDE " + path);
}
}
uint16_t GameData::findModelObject(const std::string model) {
auto defit = std::find_if(
objectTypes.begin(), objectTypes.end(),
[&](const decltype(objectTypes)::value_type& d) {
if (d.second->class_type == ObjectInformation::_class("OBJS")) {
auto dat = static_cast<ObjectData*>(d.second.get());
return boost::iequals(dat->modelName, model);
}
return false;
});
if (defit != objectTypes.end()) return defit->first;
auto defit = std::find_if(modelinfo.begin(), modelinfo.end(),
[&](const decltype(modelinfo)::value_type& d) {
return boost::iequals(d.second->name, model);
});
if (defit != modelinfo.end()) return defit->first;
return -1;
}
@ -314,26 +305,118 @@ void GameData::loadTXD(const std::string& name, bool async) {
}
}
void GameData::loadDFF(const std::string& name, bool async) {
auto realname = name.substr(0, name.size() - 4);
if (models.find(realname) != models.end()) {
void GameData::getNameAndLod(std::string& name, int& lod) {
auto lodpos = name.rfind("_l");
if (lodpos != std::string::npos) {
lod = std::atoi(name.substr(lodpos + 1).c_str());
name = name.substr(0, lodpos);
}
}
Model* GameData::loadClump(const std::string& name) {
auto file = index.openFile(name);
if (!file) {
logger->error("Data", "Failed to load model " + name);
return nullptr;
}
LoaderDFF l;
auto m = l.loadFromMemory(file);
if (!m) {
logger->error("Data", "Error loading model file " + name);
return nullptr;
}
return m;
}
void GameData::loadModelFile(const std::string& name) {
auto file = index.openFilePath(name);
if (!file) {
logger->log("Data", Logger::Error, "Failed to load model file " + name);
return;
}
LoaderDFF l;
auto m = l.loadFromMemory(file);
if (!m) {
logger->log("Data", Logger::Error, "Error loading model file " + name);
return;
}
// Before starting the job make sure the file isn't loaded again.
loadedFiles.insert({name, true});
// Associate the frames with models.
for (auto& frame : m->frames) {
/// @todo this is useful elsewhere, please move elsewhere
std::string name = frame->getName();
int lod = 0;
getNameAndLod(name, lod);
for (auto& model : modelinfo) {
auto info = model.second.get();
if (info->type() != ModelDataType::SimpleInfo) {
continue;
}
if (boost::iequals(info->name, name)) {
auto simple = static_cast<SimpleModelInfo*>(info);
simple->setAtomic(m, lod, frame);
}
}
}
}
models[realname] = ModelRef(new ResourceHandle<Model>(realname));
void GameData::loadModel(ModelID model) {
auto info = modelinfo[model].get();
/// @todo replace openFile with API for loading from CDIMAGE archives
auto name = info->name;
auto job = new BackgroundLoaderJob<Model, LoaderDFF>{
workContext, &this->index, name, models[realname]};
// Re-direct special models
switch (info->type()) {
case ModelDataType::ClumpInfo:
// Re-direct the hier objects to the special object ids
name = engine->state->specialModels[info->id()];
/// @todo remove this from here
loadTXD(name + ".txd");
break;
case ModelDataType::PedInfo:
static const std::string specialPrefix("special");
if (!name.compare(0, specialPrefix.size(), specialPrefix)) {
auto sid = name.substr(specialPrefix.size());
unsigned short specialID = std::atoi(sid.c_str());
name = engine->state->specialCharacters[specialID];
/// @todo remove this from here
loadTXD(name + ".txd");
break;
}
default:
break;
}
if (async) {
workContext->queueJob(job);
std::transform(name.begin(), name.end(), name.begin(), ::tolower);
auto file = index.openFile(name + ".dff");
if (!file) {
logger->error("Data", "Failed to load model for " +
std::to_string(model) + " [" + name + "]");
return;
}
LoaderDFF l;
auto m = l.loadFromMemory(file);
if (!m) {
logger->error("Data",
"Error loading model file for " + std::to_string(model));
return;
}
/// @todo handle timeinfo models correctly.
auto isSimple = info->type() == ModelDataType::SimpleInfo;
if (isSimple) {
auto simple = static_cast<SimpleModelInfo*>(info);
// Associate atomics
for (auto& frame : m->frames) {
auto name = frame->getName();
int lod = 0;
getNameAndLod(name, lod);
simple->setAtomic(m, lod, frame);
}
} else {
job->work();
job->complete();
delete job;
// Associate clumps
auto clump = static_cast<ClumpModelInfo*>(info);
clump->setModel(m);
/// @todo how is LOD handled for clump objects?
}
}

View File

@ -119,9 +119,24 @@ public:
void loadTXD(const std::string& name, bool async = false);
/**
* Attempts to load a DFF or does nothing if is already loaded
* Converts combined {name}_l{LOD} into name and lod.
*/
void loadDFF(const std::string& name, bool async = false);
static void getNameAndLod(std::string& name, int& lod);
/**
* Loads an archived model and returns it directly
*/
Model* loadClump(const std::string& name);
/**
* Loads a DFF and associates its atomics with models.
*/
void loadModelFile(const std::string& name);
/**
* Loads and associates a model's data
*/
void loadModel(ModelID model);
/**
* Loads an IFP file containing animations
@ -170,20 +185,15 @@ public:
*/
std::map<std::string, ZoneData> zones;
/**
* Object Definitions
*/
std::map<ObjectID, ObjectInformationPtr> objectTypes;
std::unordered_map<ModelID, std::unique_ptr<BaseModelInfo>> modelinfo;
uint16_t findModelObject(const std::string model);
template <class T>
std::shared_ptr<T> findObjectType(ObjectID id) {
auto f = objectTypes.find(id);
/// @TODO don't instanciate an object here just to read .type
T tmp;
if (f != objectTypes.end() && f->second->class_type == tmp.class_type) {
return std::static_pointer_cast<T>(f->second);
T* findModelInfo(ModelID id) {
auto f = modelinfo.find(id);
if (f != modelinfo.end() && f->second->type() == T::kType) {
return static_cast<T*>(f->second.get());
}
return nullptr;
}
@ -214,11 +224,6 @@ public:
*/
WeatherLoader weatherLoader;
/**
* Loaded models
*/
std::map<std::string, ResourceHandle<Model>::Ref> models;
/**
* Loaded textures (Textures are ID by name and alpha pairs)
*/

View File

@ -140,10 +140,10 @@ bool GameWorld::placeItems(const std::string& name) {
for (auto& p : instancePool.objects) {
auto object = p.second;
InstanceObject* instance = static_cast<InstanceObject*>(object);
if (!instance->object->LOD &&
instance->object->modelName.length() > 3) {
auto lodInstit = modelInstances.find(
"LOD" + instance->object->modelName.substr(3));
auto modelinfo = instance->getModelInfo<SimpleModelInfo>();
if (!modelinfo->LOD && modelinfo->name.length() > 3) {
auto lodInstit =
modelInstances.find("LOD" + modelinfo->name.substr(3));
if (lodInstit != modelInstances.end()) {
instance->LODinstance = lodInstit->second;
}
@ -162,30 +162,28 @@ bool GameWorld::placeItems(const std::string& name) {
InstanceObject* GameWorld::createInstance(const uint16_t id,
const glm::vec3& pos,
const glm::quat& rot) {
auto oi = data->findObjectType<ObjectData>(id);
auto oi = data->findModelInfo<SimpleModelInfo>(id);
if (oi) {
std::string modelname = oi->modelName;
std::string texturename = oi->textureName;
// Request loading of the model if it isn't loaded already.
/// @todo implment streaming properly
if (!oi->isLoaded()) {
data->loadModel(oi->id());
}
std::string modelname = oi->name;
std::string texturename = oi->textureslot;
std::transform(std::begin(modelname), std::end(modelname),
std::begin(modelname), tolower);
std::transform(std::begin(texturename), std::end(texturename),
std::begin(texturename), tolower);
// Ensure the relevant data is loaded.
if (!oi->modelName.empty()) {
if (modelname != "null") {
data->loadDFF(modelname + ".dff", false);
}
}
if (!texturename.empty()) {
data->loadTXD(texturename + ".txd", true);
}
ModelRef m = data->models[modelname];
// Check for dynamic data.
auto dyit = data->dynamicObjectData.find(oi->modelName);
auto dyit = data->dynamicObjectData.find(oi->name);
std::shared_ptr<DynamicObjectData> dydata;
if (dyit != data->dynamicObjectData.end()) {
dydata = dyit->second;
@ -197,12 +195,12 @@ InstanceObject* GameWorld::createInstance(const uint16_t id,
}
auto instance = new InstanceObject(
this, pos, rot, m, glm::vec3(1.f, 1.f, 1.f), oi, nullptr, dydata);
this, pos, rot, glm::vec3(1.f, 1.f, 1.f), oi, nullptr, dydata);
instancePool.insert(instance);
allObjects.push_back(instance);
modelInstances.insert({oi->modelName, instance});
modelInstances.insert({oi->name, instance});
return instance;
}
@ -250,62 +248,34 @@ void GameWorld::cleanupTraffic(const ViewCamera& focus) {
CutsceneObject* GameWorld::createCutsceneObject(const uint16_t id,
const glm::vec3& pos,
const glm::quat& rot) {
std::string modelname;
auto modelinfo = data->modelinfo[id].get();
if (!modelinfo) {
return nullptr;
}
auto clumpmodel = static_cast<ClumpModelInfo*>(modelinfo);
std::string texturename;
auto type = data->objectTypes.find(id);
if (type != data->objectTypes.end()) {
if (type->second->class_type == ObjectInformation::_class("HIER")) {
modelname = state->specialModels[id];
texturename = state->specialModels[id];
} else {
if (type->second->class_type == ObjectInformation::_class("OBJS")) {
auto v = static_cast<ObjectData*>(type->second.get());
modelname = v->modelName;
texturename = v->textureName;
} else if (type->second->class_type ==
ObjectInformation::_class("PEDS")) {
auto v = static_cast<CharacterData*>(type->second.get());
modelname = v->modelName;
texturename = v->textureName;
static std::string specialPrefix("special");
if (!modelname.compare(0, specialPrefix.size(),
specialPrefix)) {
auto sid = modelname.substr(specialPrefix.size());
unsigned short specialID = std::atoi(sid.c_str());
modelname = state->specialCharacters[specialID];
texturename = state->specialCharacters[specialID];
}
}
}
if (!clumpmodel->isLoaded()) {
data->loadModel(id);
}
auto model = clumpmodel->getModel();
texturename = modelinfo->textureslot;
if (id == 0) {
auto playerobj = pedestrianPool.find(state->playerObject);
if (playerobj) {
modelname = playerobj->model->name;
model = playerobj->getModel();
}
}
// Ensure the relevant data is loaded.
if (modelname.empty()) {
logger->error(
"World", "Cutscene object " + std::to_string(id) + " has no model");
return nullptr;
}
if (modelname != "null") {
data->loadDFF(modelname + ".dff", false);
}
if (!texturename.empty()) {
data->loadTXD(texturename + ".txd", true);
}
ModelRef m = data->models[modelname];
auto instance = new CutsceneObject(this, pos, rot, m);
auto instance = new CutsceneObject(this, pos, rot, model, modelinfo);
cutscenePool.insert(instance);
allObjects.push_back(instance);
@ -316,171 +286,149 @@ CutsceneObject* GameWorld::createCutsceneObject(const uint16_t id,
VehicleObject* GameWorld::createVehicle(const uint16_t id, const glm::vec3& pos,
const glm::quat& rot,
GameObjectID gid) {
auto vti = data->findObjectType<VehicleData>(id);
if (vti) {
logger->info("World", "Creating Vehicle ID " + std::to_string(id) +
" (" + vti->gameName + ")");
auto vti = data->findModelInfo<VehicleModelInfo>(id);
if (!vti) {
return nullptr;
}
logger->info("World", "Creating Vehicle ID " + std::to_string(id) + " (" +
vti->vehiclename_ + ")");
if (!vti->modelName.empty()) {
data->loadDFF(vti->modelName + ".dff");
}
if (!vti->textureName.empty()) {
data->loadTXD(vti->textureName + ".txd");
}
if (!vti->isLoaded()) {
data->loadModel(id);
}
glm::u8vec3 prim(255), sec(128);
auto palit = data->vehiclePalettes.find(
vti->modelName); // modelname is conveniently lowercase (usually)
if (palit != data->vehiclePalettes.end() && palit->second.size() > 0) {
std::uniform_int_distribution<int> uniform(
0, palit->second.size() - 1);
int set = uniform(randomEngine);
prim = data->vehicleColours[palit->second[set].first];
sec = data->vehicleColours[palit->second[set].second];
} else {
logger->warning("World",
"No colour palette for vehicle " + vti->modelName);
}
if (!vti->textureslot.empty()) {
data->loadTXD(vti->textureslot + ".txd");
}
auto wi = data->findObjectType<ObjectData>(vti->wheelModelID);
if (wi) {
if (!wi->textureName.empty()) {
data->loadTXD(wi->textureName + ".txd");
}
}
glm::u8vec3 prim(255), sec(128);
auto palit = data->vehiclePalettes.find(
vti->name); // modelname is conveniently lowercase (usually)
if (palit != data->vehiclePalettes.end() && palit->second.size() > 0) {
std::uniform_int_distribution<int> uniform(0, palit->second.size() - 1);
int set = uniform(randomEngine);
prim = data->vehicleColours[palit->second[set].first];
sec = data->vehicleColours[palit->second[set].second];
} else {
logger->warning("World", "No colour palette for vehicle " + vti->name);
}
ModelRef& m = data->models[vti->modelName];
auto model = m->resource;
auto info = data->vehicleInfo.find(vti->handlingID);
if (model && info != data->vehicleInfo.end()) {
if (info->second->wheels.size() == 0 &&
info->second->seats.size() == 0) {
for (const ModelFrame* f : model->frames) {
const std::string& name = f->getName();
auto model = vti->getModel();
auto info = data->vehicleInfo.find(vti->handling_);
if (model && info != data->vehicleInfo.end()) {
if (info->second->wheels.size() == 0 &&
info->second->seats.size() == 0) {
for (const ModelFrame* f : model->frames) {
const std::string& name = f->getName();
if (name.size() > 5 && name.substr(0, 5) == "wheel") {
auto frameTrans = f->getMatrix();
info->second->wheels.push_back(
{glm::vec3(frameTrans[3])});
}
if (name == "ped_frontseat") {
auto p = f->getDefaultTranslation();
// Left seat
p.x = -p.x;
info->second->seats.front.push_back({p});
// Right seat
p.x = -p.x;
info->second->seats.front.push_back({p});
}
if (name == "ped_backseat") {
// @todo how does this work for the barracks, ambulance
// or coach?
auto p = f->getDefaultTranslation();
// Left seat
p.x = -p.x;
info->second->seats.back.push_back({p});
// Right seat
p.x = -p.x;
info->second->seats.back.push_back({p});
}
if (name.size() > 5 && name.substr(0, 5) == "wheel") {
auto frameTrans = f->getMatrix();
info->second->wheels.push_back({glm::vec3(frameTrans[3])});
}
if (name == "ped_frontseat") {
auto p = f->getDefaultTranslation();
// Left seat
p.x = -p.x;
info->second->seats.front.push_back({p});
// Right seat
p.x = -p.x;
info->second->seats.front.push_back({p});
}
if (name == "ped_backseat") {
// @todo how does this work for the barracks, ambulance
// or coach?
auto p = f->getDefaultTranslation();
// Left seat
p.x = -p.x;
info->second->seats.back.push_back({p});
// Right seat
p.x = -p.x;
info->second->seats.back.push_back({p});
}
}
}
auto vehicle =
new VehicleObject{this, pos, rot, m, vti, info->second, prim, sec};
vehicle->setGameObjectID(gid);
vehiclePool.insert(vehicle);
allObjects.push_back(vehicle);
return vehicle;
}
return nullptr;
auto vehicle =
new VehicleObject{this, pos, rot, vti, info->second, prim, sec};
vehicle->setGameObjectID(gid);
vehiclePool.insert(vehicle);
allObjects.push_back(vehicle);
return vehicle;
}
CharacterObject* GameWorld::createPedestrian(const uint16_t id,
const glm::vec3& pos,
const glm::quat& rot,
GameObjectID gid) {
auto pt = data->findObjectType<CharacterData>(id);
if (pt) {
std::string modelname = pt->modelName;
std::string texturename = pt->textureName;
// Ensure the relevant data is loaded.
if (!pt->modelName.empty()) {
// Some model names have special meanings.
/// @todo Should CharacterObjects handle this?
static std::string specialPrefix("special");
if (!modelname.compare(0, specialPrefix.size(), specialPrefix)) {
auto sid = modelname.substr(specialPrefix.size());
unsigned short specialID = std::atoi(sid.c_str());
modelname = state->specialCharacters[specialID];
texturename = state->specialCharacters[specialID];
}
if (modelname != "null") {
data->loadDFF(modelname + ".dff");
}
}
if (!texturename.empty()) {
data->loadTXD(texturename + ".txd");
}
ModelRef m = data->models[modelname];
if (m && m->resource) {
auto ped = new CharacterObject(this, pos, rot, m, pt);
ped->setGameObjectID(gid);
new DefaultAIController(ped);
pedestrianPool.insert(ped);
allObjects.push_back(ped);
return ped;
}
auto pt = data->findModelInfo<PedModelInfo>(id);
if (!pt) {
return nullptr;
}
return nullptr;
auto isSpecial = pt->name.compare(0, 7, "special") == 0;
if (!pt->isLoaded() || isSpecial) {
data->loadModel(id);
}
std::string texturename = pt->textureslot;
if (!texturename.empty()) {
data->loadTXD(texturename + ".txd");
}
auto ped = new CharacterObject(this, pos, rot, pt);
ped->setGameObjectID(gid);
new DefaultAIController(ped);
pedestrianPool.insert(ped);
allObjects.push_back(ped);
return ped;
}
CharacterObject* GameWorld::createPlayer(const glm::vec3& pos,
const glm::quat& rot,
GameObjectID gid) {
// Player object ID is hardcoded to 0.
auto pt = data->findObjectType<CharacterData>(0);
if (pt) {
// Model name is also hardcoded.
std::string modelname = "player";
std::string texturename = "player";
// Ensure the relevant data is loaded.
data->loadDFF(modelname + ".dff");
data->loadTXD(texturename + ".txd");
ModelRef m = data->models[modelname];
if (m && m->resource) {
auto ped = new CharacterObject(this, pos, rot, m, nullptr);
ped->setGameObjectID(gid);
ped->setLifetime(GameObject::PlayerLifetime);
players.push_back(new PlayerController(ped));
pedestrianPool.insert(ped);
allObjects.push_back(ped);
return ped;
}
auto pt = data->findModelInfo<PedModelInfo>(0);
if (!pt) {
return nullptr;
}
return nullptr;
// Model name is also hardcoded.
std::string modelname = "player";
std::string texturename = "player";
if (!pt->isLoaded()) {
auto model = data->loadClump(modelname + ".dff");
pt->setModel(model);
}
data->loadTXD(texturename + ".txd");
auto ped = new CharacterObject(this, pos, rot, pt);
ped->setGameObjectID(gid);
ped->setLifetime(GameObject::PlayerLifetime);
players.push_back(new PlayerController(ped));
pedestrianPool.insert(ped);
allObjects.push_back(ped);
return ped;
}
PickupObject* GameWorld::createPickup(const glm::vec3& pos, int id, int type) {
auto modelInfo = data->findObjectType<ObjectData>(id);
auto modelInfo = data->modelinfo[id].get();
RW_CHECK(modelInfo != nullptr, "Pickup Object Data is not found");
if (modelInfo == nullptr) {
return nullptr;
}
data->loadDFF(modelInfo->modelName + ".dff");
data->loadTXD(modelInfo->textureName + ".txd");
if (!modelInfo->isLoaded()) {
data->loadModel(id);
}
data->loadTXD(modelInfo->textureslot + ".txd");
PickupObject* pickup = nullptr;
auto pickuptype = (PickupObject::PickupType)type;
@ -492,10 +440,10 @@ PickupObject* GameWorld::createPickup(const glm::vec3& pos, int id, int type) {
// If nothing, create a generic pickup instead of an item pickup
if (it != inventoryItems.end()) {
pickup = new ItemPickup(this, pos, pickuptype, *it);
pickup = new ItemPickup(this, pos, modelInfo, pickuptype, *it);
} else {
RW_UNIMPLEMENTED("Non-weapon pickups");
pickup = new PickupObject(this, pos, id, pickuptype);
pickup = new PickupObject(this, pos, modelInfo, pickuptype);
}
pickupPool.insert(pickup);
@ -861,20 +809,32 @@ bool GameWorld::isCutsceneDone() {
void GameWorld::loadSpecialCharacter(const unsigned short index,
const std::string& name) {
constexpr uint16_t kFirstSpecialActor = 26;
logger->info("Data", "Loading special actor " + name + " to " +
std::to_string(index));
auto modelid = kFirstSpecialActor + index - 1;
auto model = data->findModelInfo<PedModelInfo>(modelid);
if (model && model->isLoaded()) {
model->unload();
}
std::string lowerName(name);
std::transform(lowerName.begin(), lowerName.end(), lowerName.begin(),
::tolower);
/// @todo a bit more smarter than this
state->specialCharacters[index] = lowerName;
data->loadDFF(lowerName + ".dff");
}
void GameWorld::loadSpecialModel(const unsigned short index,
const std::string& name) {
logger->info("Data", "Loading cutscene object " + name + " to " +
std::to_string(index));
// Tell the HIER model to discard the currently loaded model
auto model = data->findModelInfo<ClumpModelInfo>(index);
if (model && model->isLoaded()) {
model->unload();
}
std::string lowerName(name);
std::transform(lowerName.begin(), lowerName.end(), lowerName.begin(),
::tolower);
/// @todo a bit more smarter than this
state->specialModels[index] = lowerName;
}

View File

@ -23,7 +23,7 @@ class VehicleObject;
class PickupObject;
class ViewCamera;
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include <render/VisualFX.hpp>
struct BlipData;

View File

@ -9,7 +9,7 @@
#include <objects/ProjectileObject.hpp>
void WeaponItem::fireHitscan(CharacterObject* owner) {
auto handFrame = owner->model->resource->findFrame("srhand");
auto handFrame = owner->getModel()->findFrame("srhand");
glm::mat4 handMatrix;
if (handFrame) {
while (handFrame->getParent()) {

View File

@ -1,38 +0,0 @@
#pragma once
#include <data/ResourceHandle.hpp>
#include <job/WorkContext.hpp>
#include <platform/FileIndex.hpp>
/**
* Implementation of a worker that loads a resource in the background.
*/
template <class T, class L>
class BackgroundLoaderJob : public WorkJob {
public:
typedef typename ResourceHandle<T>::Ref TypeRef;
BackgroundLoaderJob(WorkContext* context, FileIndex* index,
const std::string& file, const TypeRef& ref)
: WorkJob(context), index(index), filename(file), resourceRef(ref) {
}
void work() {
data = index->openFile(filename);
}
void complete() {
if (data) {
L loader;
resourceRef->resource = loader.loadFromMemory(data);
resourceRef->state = RW::Loaded;
}
}
private:
FileIndex* index;
std::string filename;
FileHandle data;
TypeRef resourceRef;
};

View File

@ -4,7 +4,7 @@
#include <fstream>
#include <sstream>
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include <data/WeaponData.hpp>
#include <objects/VehicleInfo.hpp>

View File

@ -48,34 +48,35 @@ bool LoaderIDE::load(const std::string &filename) {
line.end());
std::stringstream strstream(line);
std::string buff;
switch (section) {
default:
break;
case OBJS:
case TOBJ: { // Supports Type 1, 2 and 3
std::shared_ptr<ObjectData> objs(new ObjectData);
auto objs =
std::unique_ptr<SimpleModelInfo>(new SimpleModelInfo);
std::string id, numClumps, flags, modelName, textureName;
getline(strstream, buff, ',');
objs->setModelID(atoi(buff.c_str()));
// Read the content of the line
getline(strstream, id, ',');
getline(strstream, modelName, ',');
getline(strstream, textureName, ',');
getline(strstream, numClumps, ',');
getline(strstream, objs->name, ',');
getline(strstream, objs->textureslot, ',');
objs->numClumps = atoi(numClumps.c_str());
for (size_t i = 0; i < objs->numClumps; i++) {
std::string drawDistance;
getline(strstream, drawDistance, ',');
objs->drawDistance[i] = atoi(drawDistance.c_str());
getline(strstream, buff, ',');
objs->setNumAtomics(atoi(buff.c_str()));
for (int i = 0; i < objs->getNumAtomics(); i++) {
getline(strstream, buff, ',');
objs->setLodDistance(i, atof(buff.c_str()));
}
getline(strstream, flags, ',');
getline(strstream, buff, ',');
objs->flags = atoi(buff.c_str());
// Keep reading TOBJ data
if (section == LoaderIDE::TOBJ) {
std::string buff;
getline(strstream, buff, ',');
objs->timeOn = atoi(buff.c_str());
getline(strstream, buff, ',');
@ -85,104 +86,82 @@ bool LoaderIDE::load(const std::string &filename) {
objs->timeOff = 24;
}
// Put stuff in our struct
objs->ID = atoi(id.c_str());
objs->flags = atoi(flags.c_str());
objs->modelName = modelName;
objs->textureName = textureName;
objs->LOD = false;
if (modelName.find("LOD", 0, 3) != modelName.npos &&
modelName != "LODistancoast01") {
/// @todo Figure out how LOD stuff is intended to work
if (objs->name.find("LOD", 0, 3) != std::string::npos &&
objs->name != "LODistancoast01") {
objs->LOD = true;
}
objects.insert({objs->ID, objs});
objects.emplace(objs->id(), std::move(objs));
break;
}
case CARS: {
std::shared_ptr<VehicleData> cars(new VehicleData);
auto cars =
std::unique_ptr<VehicleModelInfo>(new VehicleModelInfo);
std::string id, type, classType, frequency, lvl, comprules,
wheelModelID, wheelScale;
getline(strstream, buff, ',');
cars->setModelID(std::atoi(buff.c_str()));
getline(strstream, id, ',');
getline(strstream, cars->modelName, ',');
getline(strstream, cars->textureName, ',');
getline(strstream, type, ',');
getline(strstream, cars->handlingID, ',');
getline(strstream, cars->gameName, ',');
getline(strstream, classType, ',');
getline(strstream, frequency, ',');
getline(strstream, lvl, ',');
getline(strstream, comprules, ',');
getline(strstream, wheelModelID, ',');
getline(strstream, wheelScale, ',');
getline(strstream, cars->name, ',');
getline(strstream, cars->textureslot, ',');
cars->ID = atoi(id.c_str());
cars->frequency = atoi(frequency.c_str());
cars->lvl = atoi(lvl.c_str());
cars->comprules = atoi(comprules.c_str());
getline(strstream, buff, ',');
cars->vehicletype_ =
VehicleModelInfo::findVehicleType(buff);
if (type == "car") {
cars->type = VehicleData::CAR;
cars->wheelModelID = atoi(wheelModelID.c_str());
cars->wheelScale = atof(wheelScale.c_str());
} else if (type == "boat") {
cars->type = VehicleData::BOAT;
} else if (type == "train") {
cars->type = VehicleData::TRAIN;
cars->modelLOD = atoi(wheelModelID.c_str());
} else if (type == "plane") {
cars->type = VehicleData::PLANE;
} else if (type == "heli") {
cars->type = VehicleData::HELI;
}
getline(strstream, cars->handling_, ',');
getline(strstream, cars->vehiclename_, ',');
getline(strstream, buff, ',');
cars->vehicleclass_ =
VehicleModelInfo::findVehicleClass(buff);
const std::map<VehicleData::VehicleClass, std::string>
classTypes{
{VehicleData::IGNORE, "ignore"},
{VehicleData::NORMAL, "normal"},
{VehicleData::POORFAMILY, "poorfamily"},
{VehicleData::RICHFAMILY, "richfamily"},
{VehicleData::EXECUTIVE, "executive"},
{VehicleData::WORKER, "worker"},
{VehicleData::BIG, "big"},
{VehicleData::TAXI, "taxi"},
{VehicleData::MOPED, "moped"},
{VehicleData::MOTORBIKE, "motorbike"},
{VehicleData::LEISUREBOAT, "leisureboat"},
{VehicleData::WORKERBOAT, "workerboat"},
{VehicleData::BICYCLE, "bicycle"},
{VehicleData::ONFOOT, "onfoot"},
};
for (auto &a : classTypes) {
if (classType == a.second) {
cars->classType = a.first;
getline(strstream, buff, ',');
cars->frequency_ = std::atoi(buff.c_str());
getline(strstream, buff, ',');
cars->level_ = std::atoi(buff.c_str());
getline(strstream, buff, ',');
cars->componentrules_ = std::atoi(buff.c_str());
switch (cars->vehicletype_) {
case VehicleModelInfo::CAR:
getline(strstream, buff, ',');
cars->wheelmodel_ = std::atoi(buff.c_str());
getline(strstream, buff, ',');
cars->wheelscale_ = std::atof(buff.c_str());
break;
case VehicleModelInfo::PLANE:
/// @todo load LOD
getline(strstream, buff, ',');
// cars->planeLOD_ = std::atoi(buff.c_str());
break;
default:
break;
}
}
objects.insert({cars->ID, cars});
objects.emplace(cars->id(), std::move(cars));
break;
}
case PEDS: {
std::shared_ptr<CharacterData> peds(new CharacterData);
auto peds = std::unique_ptr<PedModelInfo>(new PedModelInfo);
std::string id, driveMask;
getline(strstream, buff, ',');
peds->setModelID(std::atoi(buff.c_str()));
getline(strstream, id, ',');
getline(strstream, peds->modelName, ',');
getline(strstream, peds->textureName, ',');
getline(strstream, peds->type, ',');
getline(strstream, peds->behaviour, ',');
getline(strstream, peds->animGroup, ',');
getline(strstream, driveMask, ',');
getline(strstream, peds->name, ',');
getline(strstream, peds->textureslot, ',');
peds->ID = atoi(id.c_str());
peds->driveMask = atoi(driveMask.c_str());
getline(strstream, buff, ',');
peds->pedtype_ = PedModelInfo::findPedType(buff);
objects.insert({peds->ID, peds});
getline(strstream, peds->behaviour_, ',');
getline(strstream, peds->animgroup_, ',');
getline(strstream, buff, ',');
peds->carsmask_ = std::atoi(buff.c_str());
objects.emplace(peds->id(), std::move(peds));
break;
}
case PATH: {
@ -253,25 +232,22 @@ bool LoaderIDE::load(const std::string &filename) {
}
auto &object = objects[path.ID];
auto instance =
std::dynamic_pointer_cast<ObjectData>(object);
instance->paths.push_back(path);
auto simple = dynamic_cast<SimpleModelInfo*>(object.get());
simple->paths.push_back(path);
break;
}
case HIER: {
std::shared_ptr<CutsceneObjectData> cut(
new CutsceneObjectData);
auto hier =
std::unique_ptr<ClumpModelInfo>(new ClumpModelInfo);
std::string id;
getline(strstream, buff, ',');
hier->setModelID(std::atoi(buff.c_str()));
getline(strstream, id, ',');
getline(strstream, cut->modelName, ',');
getline(strstream, cut->textureName, ',');
getline(strstream, hier->name, ',');
getline(strstream, hier->textureslot, ',');
cut->ID = atoi(id.c_str());
objects.insert({cut->ID, cut});
objects.emplace(hier->id(), std::move(hier));
break;
}
}

View File

@ -1,8 +1,7 @@
#pragma once
#ifndef _LOADERIDE_HPP_
#define _LOADERIDE_HPP_
#ifndef RWENGINE_LOADERIDE_HPP
#define RWENGINE_LOADERIDE_HPP
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include <data/PathData.hpp>
#include <glm/glm.hpp>
#include <iostream>
@ -28,13 +27,7 @@ public:
/**
* @brief objects loaded during the call to load()
*/
std::map<ObjectID, ObjectInformationPtr> objects;
/*std::vector<std::shared_ptr<ObjectData>> OBJSs;
std::vector<std::shared_ptr<VehicleData>> CARSs;
std::vector<std::shared_ptr<CharacterData>> PEDSs;
std::vector<std::shared_ptr<CutsceneObjectData>> HIERs;
std::vector<std::shared_ptr<PathData>> PATHs;*/
std::map<ModelID, std::unique_ptr<BaseModelInfo>> objects;
};
#endif

View File

@ -14,9 +14,9 @@ static glm::vec3 enter_offset(0.81756252f, 0.34800607f, -0.486281008f);
const float CharacterObject::DefaultJumpSpeed = 2.f;
CharacterObject::CharacterObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model,
std::shared_ptr<CharacterData> data)
: GameObject(engine, pos, rot, model)
const glm::quat& rot,
BaseModelInfo *modelinfo)
: GameObject(engine, pos, rot, modelinfo)
, currentState({})
, currentVehicle(nullptr)
, currentSeat(0)
@ -24,7 +24,6 @@ CharacterObject::CharacterObject(GameWorld* engine, const glm::vec3& pos,
, jumped(false)
, jumpSpeed(DefaultJumpSpeed)
, motionBlockedByActivity(false)
, ped(data)
, physCharacter(nullptr)
, physObject(nullptr)
, physShape(nullptr)
@ -66,9 +65,11 @@ CharacterObject::CharacterObject(GameWorld* engine, const glm::vec3& pos,
animations.kd_front = engine->data->animations["kd_front"];
animations.ko_shot_front = engine->data->animations["ko_shot_front"];
if (model) {
auto info = getModelInfo<PedModelInfo>();
if (info->getModel()) {
setModel(info->getModel());
skeleton = new Skeleton;
animator = new Animator(model->resource, skeleton);
animator = new Animator(getModel(), skeleton);
createActor();
}
@ -87,7 +88,7 @@ void CharacterObject::createActor(const glm::vec2& size) {
}
// Don't create anything without a valid model.
if (model) {
if (getModel()) {
btTransform tf;
tf.setIdentity();
tf.setOrigin(btVector3(position.x, position.y, position.z));
@ -205,8 +206,8 @@ glm::vec3 CharacterObject::updateMovementAnimation(float dt) {
// If we have to, interrogate the movement animation
if (movementAnimation != animations.idle) {
if (!model->resource->frames[0]->getChildren().empty()) {
ModelFrame* root = model->resource->frames[0]->getChildren()[0];
if (!getModel()->frames[0]->getChildren().empty()) {
ModelFrame* root = getModel()->frames[0]->getChildren()[0];
auto it = movementAnimation->bones.find(root->getName());
if (it != movementAnimation->bones.end()) {
AnimationBone* rootBone = it->second;
@ -266,22 +267,20 @@ void CharacterObject::changeCharacterModel(const std::string& name) {
std::transform(modelName.begin(), modelName.end(), modelName.begin(),
::tolower);
engine->data->loadDFF(modelName + ".dff");
engine->data->loadTXD(modelName + ".txd");
/// @todo don't model leak here
auto& models = engine->data->models;
auto mfind = models.find(modelName);
if (mfind != models.end()) {
model = mfind->second;
}
engine->data->loadTXD(modelName + ".txd");
auto newmodel = engine->data->loadClump(modelName + ".dff");
if (skeleton) {
delete animator;
delete skeleton;
}
setModel(newmodel);
skeleton = new Skeleton;
animator = new Animator(model->resource, skeleton);
animator = new Animator(getModel(), skeleton);
}
void CharacterObject::updateCharacter(float dt) {

View File

@ -125,8 +125,6 @@ private:
public:
static const float DefaultJumpSpeed;
std::shared_ptr<CharacterData> ped;
btKinematicCharacterController* physCharacter;
btPairCachingGhostObject* physObject;
btCapsuleShapeZ* physShape;
@ -142,8 +140,7 @@ public:
* @param ped PEDS_t struct to use.
*/
CharacterObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model,
std::shared_ptr<CharacterData> data);
const glm::quat& rot, BaseModelInfo* modelinfo);
~CharacterObject();

View File

@ -3,10 +3,19 @@
#include <objects/CutsceneObject.hpp>
CutsceneObject::CutsceneObject(GameWorld *engine, const glm::vec3 &pos,
const glm::quat &rot, const ModelRef &model)
: GameObject(engine, pos, rot, model), _parent(nullptr), _bone(nullptr) {
const glm::quat &rot, Model *model,
BaseModelInfo *modelinfo)
: GameObject(engine, pos, rot, modelinfo)
, _parent(nullptr)
, _bone(nullptr) {
if (model) {
setModel(model);
}
else {
setModel(getModelInfo<ClumpModelInfo>()->getModel());
}
skeleton = new Skeleton;
animator = new Animator(model->resource, skeleton);
animator = new Animator(getModel(), skeleton);
}
CutsceneObject::~CutsceneObject() {

View File

@ -12,7 +12,8 @@ class CutsceneObject : public GameObject {
public:
CutsceneObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model);
const glm::quat& rot, Model* model,
BaseModelInfo* modelinfo);
~CutsceneObject();
Type type() {

View File

@ -12,6 +12,10 @@ GameObject::~GameObject() {
if (skeleton) {
delete skeleton;
}
if (modelinfo_) {
modelinfo_->removeReference();
}
}
void GameObject::setPosition(const glm::vec3& pos) {

View File

@ -28,13 +28,22 @@ class GameObject {
glm::quat _lastRotation;
GameObjectID objectID;
BaseModelInfo* modelinfo_;
/**
* Model used for rendering
*/
Model* model_;
protected:
void changeModelInfo(BaseModelInfo* next) {
modelinfo_ = next;
}
public:
glm::vec3 position;
glm::quat rotation;
/// Reference to Model data
ModelRef model;
GameWorld* engine;
Animator* animator; /// Object's animator.
@ -53,13 +62,14 @@ public:
bool visible;
GameObject(GameWorld* engine, const glm::vec3& pos, const glm::quat& rot,
ModelRef model)
BaseModelInfo* modelinfo)
: _lastPosition(pos)
, _lastRotation(rot)
, objectID(0)
, modelinfo_(modelinfo)
, model_(nullptr)
, position(pos)
, rotation(rot)
, model(model)
, engine(engine)
, animator(nullptr)
, skeleton(nullptr)
@ -67,6 +77,9 @@ public:
, _lastHeight(std::numeric_limits<float>::max())
, visible(true)
, lifetime(GameObject::UnknownLifetime) {
if (modelinfo_) {
modelinfo_->addReference();
}
}
virtual ~GameObject();
@ -85,6 +98,25 @@ public:
return getGameObjectID();
}
template <class T>
T* getModelInfo() const {
return static_cast<T*>(modelinfo_);
}
/**
* @return The model used in rendering
*/
Model* getModel() const {
return model_;
}
/**
* Changes the current model, used for re-dressing chars
*/
void setModel(Model* model) {
model_ = model;
}
/**
* @brief Enumeration of possible object types.
*/

View File

@ -6,24 +6,25 @@
#include <objects/InstanceObject.hpp>
InstanceObject::InstanceObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model,
const glm::vec3& scale,
std::shared_ptr<ObjectData> obj,
InstanceObject* lod,
const glm::quat& rot, const glm::vec3& scale,
BaseModelInfo* modelinfo, InstanceObject* lod,
std::shared_ptr<DynamicObjectData> dyn)
: GameObject(engine, pos, rot, model)
: GameObject(engine, pos, rot, modelinfo)
, health(100.f)
, scale(scale)
, body(nullptr)
, object(obj)
, LODinstance(lod)
, dynamics(dyn)
, _enablePhysics(false) {
if (obj) {
changeModel(obj);
if (modelinfo) {
changeModel(modelinfo);
for (auto& path : obj->paths) {
engine->aigraph.createPathNodes(position, rot, path);
/// @todo store path information properly
if (modelinfo->type() == ModelDataType::SimpleInfo) {
auto simpledata = static_cast<SimpleModelInfo*>(modelinfo);
for (auto& path : simpledata->paths) {
engine->aigraph.createPathNodes(position, rot, path);
}
}
}
}
@ -120,18 +121,24 @@ void InstanceObject::tick(float dt) {
if (animator) animator->tick(dt);
}
void InstanceObject::changeModel(std::shared_ptr<ObjectData> incoming) {
void InstanceObject::changeModel(BaseModelInfo* incoming) {
if (body) {
delete body;
body = nullptr;
}
object = incoming;
if (incoming) {
if (!incoming->isLoaded()) {
engine->data->loadModel(incoming->id());
}
changeModelInfo(incoming);
/// @todo this should only be temporary
setModel(getModelInfo<SimpleModelInfo>()->getModel());
auto bod = new CollisionInstance;
if (bod->createPhysicsBody(this, object->modelName, dynamics.get())) {
if (bod->createPhysicsBody(this, incoming->name, dynamics.get())) {
bod->getBulletBody()->setActivationState(ISLAND_SLEEPING);
body = bod;
}

View File

@ -17,15 +17,14 @@ class InstanceObject : public GameObject {
public:
glm::vec3 scale;
CollisionInstance* body;
std::shared_ptr<ObjectData> object;
InstanceObject* LODinstance;
std::shared_ptr<DynamicObjectData> dynamics;
bool _enablePhysics;
InstanceObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model,
const glm::vec3& scale, std::shared_ptr<ObjectData> obj,
InstanceObject* lod, std::shared_ptr<DynamicObjectData> dyn);
const glm::quat& rot, const glm::vec3& scale,
BaseModelInfo* modelinfo, InstanceObject* lod,
std::shared_ptr<DynamicObjectData> dyn);
~InstanceObject();
Type type() {
@ -34,7 +33,7 @@ public:
void tick(float dt);
void changeModel(std::shared_ptr<ObjectData> incoming);
void changeModel(BaseModelInfo* incoming);
virtual void setRotation(const glm::quat& r);

View File

@ -5,8 +5,9 @@
#include <rw/defines.hpp>
ItemPickup::ItemPickup(GameWorld *world, const glm::vec3 &position,
PickupType type, InventoryItem *item)
: PickupObject(world, position, item->getModelID(), type), item(item) {
BaseModelInfo *modelinfo, PickupType type,
InventoryItem *item)
: PickupObject(world, position, modelinfo, type), item(item) {
RW_CHECK(item != nullptr, "Pickup created with null item");
}

View File

@ -14,7 +14,7 @@ class ItemPickup : public PickupObject {
InventoryItem* item;
public:
ItemPickup(GameWorld* world, const glm::vec3& position, PickupType type,
ItemPickup(GameWorld* world, const glm::vec3& position, BaseModelInfo *modelinfo, PickupType type,
InventoryItem* item);
bool onCharacterTouch(CharacterObject* character);

View File

@ -59,13 +59,12 @@ uint32_t PickupObject::behaviourFlags(PickupType type) {
}
PickupObject::PickupObject(GameWorld* world, const glm::vec3& position,
int modelID, PickupType type)
: GameObject(world, position, glm::quat(), nullptr)
BaseModelInfo* modelinfo, PickupType type)
: GameObject(world, position, glm::quat(), modelinfo)
, m_ghost(nullptr)
, m_shape(nullptr)
, m_enabled(false)
, m_collected(false)
, m_model(modelID)
, m_type(type) {
btTransform tf;
tf.setIdentity();

View File

@ -37,15 +37,11 @@ public:
static float respawnTime(PickupType type);
static uint32_t behaviourFlags(PickupType type);
PickupObject(GameWorld* world, const glm::vec3& position, int modelID,
PickupObject(GameWorld* world, const glm::vec3& position, BaseModelInfo *modelinfo,
PickupType type);
~PickupObject();
int getModelID() const {
return m_model;
}
Type type() {
return Pickup;
}
@ -76,7 +72,6 @@ private:
bool m_enabled;
float m_enableTimer;
bool m_collected;
int m_model;
VisualFX* m_corona;
PickupType m_type;

View File

@ -6,8 +6,6 @@
#include <string>
#include <vector>
struct VehicleData;
/**
* @brief Stores data loaded from handling.cfg
*/

View File

@ -83,15 +83,14 @@ private:
};
VehicleObject::VehicleObject(GameWorld* engine, const glm::vec3& pos,
const glm::quat& rot, const ModelRef& model,
VehicleDataHandle data, VehicleInfoHandle info,
const glm::u8vec3& prim, const glm::u8vec3& sec)
: GameObject(engine, pos, rot, model)
const glm::quat& rot, BaseModelInfo* modelinfo,
VehicleInfoHandle info, const glm::u8vec3& prim,
const glm::u8vec3& sec)
: GameObject(engine, pos, rot, modelinfo)
, steerAngle(0.f)
, throttle(0.f)
, brake(0.f)
, handbrake(true)
, vehicle(data)
, info(info)
, colourPrimary(prim)
, colourSecondary(sec)
@ -99,7 +98,7 @@ VehicleObject::VehicleObject(GameWorld* engine, const glm::vec3& pos,
, physRaycaster(nullptr)
, physVehicle(nullptr) {
collision = new CollisionInstance;
if (collision->createPhysicsBody(this, data->modelName, nullptr,
if (collision->createPhysicsBody(this, modelinfo->name, nullptr,
&info->handling)) {
physRaycaster = new VehicleRaycaster(this, engine->dynamicsWorld);
btRaycastVehicle::btVehicleTuning tuning;
@ -127,7 +126,7 @@ VehicleObject::VehicleObject(GameWorld* engine, const glm::vec3& pos,
bool front = connection.y() > 0;
btWheelInfo& wi = physVehicle->addWheel(
connection, btVector3(0.f, 0.f, -1.f), btVector3(1.f, 0.f, 0.f),
restLength, data->wheelScale / 2.f, tuning, front);
restLength, getVehicle()->wheelscale_ / 2.f, tuning, front);
wi.m_suspensionRestLength1 = restLength;
wi.m_raycastInfo.m_suspensionLength = 0.f;
@ -153,7 +152,9 @@ VehicleObject::VehicleObject(GameWorld* engine, const glm::vec3& pos,
// Hide all LOD and damage frames.
skeleton = new Skeleton;
for (ModelFrame* frame : model->resource->frames) {
setModel(getVehicle()->getModel());
for (ModelFrame* frame : getModel()->frames) {
auto& name = frame->getName();
bool isDam = name.find("_dam") != name.npos;
bool isLod = name.find("lo") != name.npos;
@ -282,7 +283,7 @@ void VehicleObject::tickPhysics(float dt) {
seat.second->updateTransform(passPosition, getRotation());
}
if (vehicle->type == VehicleData::BOAT) {
if (getVehicle()->vehicletype_ == VehicleModelInfo::BOAT) {
if (isInWater()) {
float sign = std::signbit(steerAngle) ? -1.f : 1.f;
float steer =
@ -356,6 +357,7 @@ void VehicleObject::tickPhysics(float dt) {
}
}
auto isBoat = getVehicle()->vehicletype_ == VehicleModelInfo::BOAT;
if (inWater) {
// Ensure that vehicles don't fall asleep at the top of a wave.
if (!collision->getBulletBody()->isActive()) {
@ -367,15 +369,13 @@ void VehicleObject::tickPhysics(float dt) {
float oZ = 0.f;
oZ = -bbZ / 2.f + (bbZ * (info->handling.percentSubmerged / 120.f));
if (vehicle->type != VehicleData::BOAT) {
if (isBoat) {
oZ = 0.f;
} else {
// Damper motion
collision->getBulletBody()->setDamping(0.95f, 0.9f);
}
if (vehicle->type == VehicleData::BOAT) {
oZ = 0.f;
}
// Boats, Buoyancy offset is affected by the orientation of the
// chassis.
// Vehicles, it isn't.
@ -399,7 +399,7 @@ void VehicleObject::tickPhysics(float dt) {
applyWaterFloat(vRt);
applyWaterFloat(vLeft);
} else {
if (vehicle->type == VehicleData::BOAT) {
if (isBoat) {
collision->getBulletBody()->setDamping(0.1f, 0.8f);
} else {
collision->getBulletBody()->setDamping(0.05f, 0.0f);
@ -556,7 +556,7 @@ bool VehicleObject::takeDamage(const GameObject::DamageInfo& dmg) {
if (skeleton->getData(p->normal->getIndex()).enabled) {
auto& geom =
model->resource->geometries[p->normal->getGeometries()[0]];
getModel()->geometries[p->normal->getGeometries()[0]];
auto pp =
p->normal->getMatrix() * glm::vec4(0.f, 0.f, 0.f, 1.f);
float td = glm::distance(
@ -680,7 +680,7 @@ void VehicleObject::createObjectHinge(Part* part) {
if (okframe->getGeometries().size() == 0) return;
auto& geom = model->resource->geometries[okframe->getGeometries()[0]];
auto& geom = getModel()->geometries[okframe->getGeometries()[0]];
auto gbounds = geom->geometryBounds;
if (fn.find("door") != fn.npos) {

View File

@ -24,7 +24,6 @@ private:
bool handbrake;
public:
VehicleDataHandle vehicle;
VehicleInfoHandle info;
glm::u8vec3 colourPrimary;
glm::u8vec3 colourSecondary;
@ -50,9 +49,8 @@ public:
std::map<std::string, Part> dynamicParts;
VehicleObject(GameWorld* engine, const glm::vec3& pos, const glm::quat& rot,
const ModelRef& model, VehicleDataHandle data,
VehicleInfoHandle info, const glm::u8vec3& prim,
const glm::u8vec3& sec);
BaseModelInfo* modelinfo, VehicleInfoHandle info,
const glm::u8vec3& prim, const glm::u8vec3& sec);
virtual ~VehicleObject();
@ -60,6 +58,10 @@ public:
void setRotation(const glm::quat& orientation);
VehicleModelInfo* getVehicle() const {
return getModelInfo<VehicleModelInfo>();
}
Type type() {
return Vehicle;
}

View File

@ -11,7 +11,7 @@
#include <objects/VehicleObject.hpp>
#include <ai/CharacterController.hpp>
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include <items/InventoryItem.hpp>
#include <data/CutsceneData.hpp>
@ -210,40 +210,6 @@ GameRenderer::GameRenderer(Logger* log, GameData* _data)
ssRectSize = glGetUniformLocation(ssRectProgram, "size");
ssRectOffset = glGetUniformLocation(ssRectProgram, "offset");
const static int cylsegments = 16;
std::vector<Model::GeometryVertex> cylverts;
for (int s = 0; s < cylsegments; ++s) {
float theta = (2.f * glm::pi<float>() / cylsegments) * (s + 0);
float gamma = (2.f * glm::pi<float>() / cylsegments) * (s + 1);
glm::vec2 p0(glm::sin(theta), glm::cos(theta));
glm::vec2 p1(glm::sin(gamma), glm::cos(gamma));
p0 *= 0.5f;
p1 *= 0.5f;
cylverts.push_back({glm::vec3(p0, 2.f), glm::vec3(),
glm::vec2(0.45f, 0.6f),
glm::u8vec4(255, 255, 255, 50)});
cylverts.push_back({glm::vec3(p0, -1.f), glm::vec3(),
glm::vec2(0.45f, 0.4f),
glm::u8vec4(255, 255, 255, 150)});
cylverts.push_back({glm::vec3(p1, 2.f), glm::vec3(),
glm::vec2(0.55f, 0.6f),
glm::u8vec4(255, 255, 255, 50)});
cylverts.push_back({glm::vec3(p0, -1.f), glm::vec3(),
glm::vec2(0.45f, 0.4f),
glm::u8vec4(255, 255, 255, 150)});
cylverts.push_back({glm::vec3(p1, -1.f), glm::vec3(),
glm::vec2(0.55f, 0.4f),
glm::u8vec4(255, 255, 255, 150)});
cylverts.push_back({glm::vec3(p1, 2.f), glm::vec3(),
glm::vec2(0.55f, 0.6f),
glm::u8vec4(255, 255, 255, 50)});
}
cylinderGeometry.uploadVertices<Model::GeometryVertex>(cylverts);
cylinderBuffer.addGeometry(&cylinderGeometry);
cylinderBuffer.setFaceType(GL_TRIANGLES);
}
GameRenderer::~GameRenderer() {
@ -330,7 +296,7 @@ void GameRenderer::renderWorld(GameWorld* world, const ViewCamera& camera,
// This is sequential at the moment, it should be easy to make it
// run in parallel with a good threading system.
RenderList renderList;
// Naive optimisation, assume 10% hitrate
// Naive optimisation, assume 50% hitrate
renderList.reserve(world->allObjects.size() * 0.5f);
RW_PROFILE_BEGIN("Build");
@ -343,6 +309,48 @@ void GameRenderer::renderWorld(GameWorld* world, const ViewCamera& camera,
for (auto object : world->allObjects) {
objectRenderer.buildRenderList(object, renderList);
}
// Area indicators
auto sphereModel = getSpecialModel(ZoneCylinderA);
for (auto& i : world->getAreaIndicators()) {
glm::mat4 m(1.f);
m = glm::translate(m, i.position);
m = glm::scale(
m, glm::vec3(i.radius +
0.15f * glm::sin(_renderWorld->getGameTime() * 5.f)));
objectRenderer.renderFrame(sphereModel, sphereModel->frames[0], m,
nullptr, 1.f, renderList);
}
// Render arrows above anything that isn't radar only (or hidden)
auto arrowModel = getSpecialModel(Arrow);
for (auto& blip : world->state->radarBlips) {
auto dm = blip.second.display;
if (dm == BlipData::Hide || dm == BlipData::RadarOnly) {
continue;
}
glm::mat4 model;
if (blip.second.target > 0) {
auto object = world->getBlipTarget(blip.second);
if (object) {
model = object->getTimeAdjustedTransform(_renderAlpha);
}
} else {
model = glm::translate(model, blip.second.coord);
}
float a = world->getGameTime() * glm::pi<float>();
model = glm::translate(model,
glm::vec3(0.f, 0.f, 2.5f + glm::sin(a) * 0.5f));
model = glm::rotate(model, a, glm::vec3(0.f, 0.f, 1.f));
model = glm::scale(model, glm::vec3(1.5f, 1.5f, 1.5f));
objectRenderer.renderFrame(arrowModel, arrowModel->frames[0], model,
nullptr, 1.f, renderList);
}
RW_PROFILE_END();
renderer->pushDebugGroup("Objects");
@ -366,59 +374,6 @@ void GameRenderer::renderWorld(GameWorld* world, const ViewCamera& camera,
RW_PROFILE_END();
// Render arrows above anything that isn't radar only (or hidden)
ModelRef& arrowModel = world->data->models["arrow"];
if (arrowModel && arrowModel->resource) {
auto arrowTex = world->data->textures[{"copblue", ""}];
auto arrowFrame = arrowModel->resource->findFrame("arrow");
for (auto& blip : world->state->radarBlips) {
auto dm = blip.second.display;
if (dm == BlipData::Hide || dm == BlipData::RadarOnly) {
continue;
}
glm::mat4 model;
if (blip.second.target > 0) {
auto object = world->getBlipTarget(blip.second);
if (object) {
model = object->getTimeAdjustedTransform(_renderAlpha);
}
} else {
model = glm::translate(model, blip.second.coord);
}
float a = world->getGameTime() * glm::pi<float>();
model = glm::translate(
model, glm::vec3(0.f, 0.f, 2.5f + glm::sin(a) * 0.5f));
model = glm::rotate(model, a, glm::vec3(0.f, 0.f, 1.f));
model = glm::scale(model, glm::vec3(1.5f, 1.5f, 1.5f));
Renderer::DrawParameters dp;
dp.textures = {arrowTex->getName()};
dp.ambient = 1.f;
dp.colour = glm::u8vec4(255, 255, 255, 255);
auto geom = arrowModel->resource
->geometries[arrowFrame->getGeometries()[0]];
Model::SubGeometry& sg = geom->subgeom[0];
dp.start = sg.start;
dp.count = sg.numIndices;
dp.diffuse = 1.f;
renderer->draw(model, &geom->dbuff, dp);
}
}
// Draw goal indicators
glDepthMask(GL_FALSE);
renderer->useProgram(particleProg);
for (auto& i : world->getAreaIndicators()) {
renderAreaIndicator(&i);
}
glDepthMask(GL_TRUE);
renderer->pushDebugGroup("Water");
water.render(this, world);
@ -582,33 +537,6 @@ void GameRenderer::renderGeometry(Model* model, size_t g,
}
}
#define GOAL_RINGS 3
void GameRenderer::renderAreaIndicator(const AreaIndicatorInfo* info) {
glm::mat4 m(1.f);
m = glm::translate(m, info->position);
glm::vec3 scale =
info->radius + 0.15f * glm::sin(_renderWorld->getGameTime() * 5.f);
Renderer::DrawParameters dp;
dp.textures = {data->findTexture("cloud1")->getName()};
dp.ambient = 1.f;
dp.colour = glm::u8vec4(50, 100, 255, 128);
dp.start = 0;
dp.count = cylinderGeometry.getCount();
dp.diffuse = 1.f;
for (int i = 0; i < GOAL_RINGS; i++) {
glm::mat4 mt = m;
glm::vec3 final = scale * glm::pow(0.9f, i + 1.0f);
mt = glm::scale(mt, glm::vec3(final.x, final.y, 1.0f + i * 0.1f));
int reverse = (i % 2 ? 1 : -1);
mt = glm::rotate(mt, reverse * _renderWorld->getGameTime() * 0.5f,
glm::vec3(0.f, 0.f, 1.f));
renderer->drawArrays(mt, &cylinderBuffer, dp);
}
}
void GameRenderer::renderEffects(GameWorld* world) {
renderer->useProgram(particleProg);

View File

@ -117,9 +117,6 @@ public:
DrawBuffer skyDbuff;
GeometryBuffer skyGbuff;
DrawBuffer cylinderBuffer;
GeometryBuffer cylinderGeometry;
GameData* getData() const {
return data;
}
@ -164,9 +161,6 @@ public:
void renderGeometry(Model*, size_t geom, const glm::mat4& modelMatrix,
float opacity, GameObject* = nullptr);
/** Renders the area indicator */
void renderAreaIndicator(const AreaIndicatorInfo* info);
/** method for rendering AI debug information */
void renderPaths();
@ -196,6 +190,31 @@ public:
Renderer::ProfileInfo profSky;
Renderer::ProfileInfo profWater;
Renderer::ProfileInfo profEffects;
enum SpecialModel {
/// @todo what is the difference between A and B
ZoneCylinderA,
ZoneCylinderB,
Arrow,
SpecialModelCount
};
/**
* @brief setSpecialModel Set model to use for each SpecialModel
*
* GameRenderer will take ownership of the Model* pointer
*/
void setSpecialModel(SpecialModel usage, Model* model) {
specialmodels_[usage].reset(model);
}
private:
/// Hard-coded models to use for each of the special models
std::unique_ptr<Model>
specialmodels_[SpecialModel::SpecialModelCount];
Model* getSpecialModel(SpecialModel usage) const {
return specialmodels_[usage].get();
}
};
#endif

View File

@ -51,9 +51,9 @@ void ObjectRenderer::renderGeometry(Model* model, size_t g,
dp.visibility = 1.f;
if (object && object->type() == GameObject::Instance) {
auto instance = static_cast<InstanceObject*>(object);
auto modelinfo = object->getModelInfo<SimpleModelInfo>();
dp.depthWrite =
!(instance->object->flags & ObjectData::NO_ZBUFFER_WRITE);
!(modelinfo->flags & SimpleModelInfo::NO_ZBUFFER_WRITE);
}
if (model->geometries[g]->materials.size() > subgeom.material) {
@ -155,30 +155,9 @@ bool ObjectRenderer::renderFrame(Model* m, ModelFrame* f,
return true;
}
void ObjectRenderer::renderItem(InventoryItem* item,
const glm::mat4& modelMatrix,
RenderList& outList) {
// srhand
if (item->getModelID() == -1) {
return; // No model for this item
}
std::shared_ptr<ObjectData> odata =
m_world->data->findObjectType<ObjectData>(item->getModelID());
auto weapons = m_world->data->models["weapons"];
if (weapons && weapons->resource) {
auto itemModel = weapons->resource->findFrame(odata->modelName + "_l0");
auto matrix = glm::inverse(itemModel->getTransform());
if (itemModel) {
renderFrame(weapons->resource, itemModel, modelMatrix * matrix,
nullptr, 1.f, outList);
}
}
}
void ObjectRenderer::renderInstance(InstanceObject* instance,
RenderList& outList) {
if (!instance->model->resource) {
if (!instance->getModel()) {
return;
}
@ -187,22 +166,24 @@ void ObjectRenderer::renderInstance(InstanceObject* instance,
return;
}
auto modelinfo = instance->getModelInfo<SimpleModelInfo>();
// Handles times provided by TOBJ data
const auto currentHour = m_world->getHour();
if (instance->object->timeOff < instance->object->timeOn) {
if (currentHour >= instance->object->timeOff &&
currentHour < instance->object->timeOn)
if (modelinfo->timeOff < modelinfo->timeOn) {
if (currentHour >= modelinfo->timeOff &&
currentHour < modelinfo->timeOn)
return;
} else {
if (currentHour >= instance->object->timeOff ||
currentHour < instance->object->timeOn)
if (currentHour >= modelinfo->timeOff ||
currentHour < modelinfo->timeOn)
return;
}
auto matrixModel = instance->getTimeAdjustedTransform(m_renderAlpha);
float mindist = glm::length(instance->getPosition() - m_camera.position) -
instance->model->resource->getBoundingRadius();
instance->getModel()->getBoundingRadius();
mindist *= 1.f / kDrawDistanceFactor;
Model* model = nullptr;
@ -216,17 +197,19 @@ void ObjectRenderer::renderInstance(InstanceObject* instance,
float opacity = 0.f;
constexpr float fadeRange = 50.f;
if (instance->object->numClumps == 1) {
/// @todo replace this block with the correct logic
if (modelinfo->getNumAtomics() == 1) {
// Is closest point greater than the *object* draw distance
float objectRange = instance->object->drawDistance[0];
float objectRange = modelinfo->getLodDistance(0);
float overlap = (mindist - objectRange);
if (mindist > objectRange) {
// Check for LOD instances
if (instance->LODinstance) {
// Is the closest point greater than the *LOD* draw distance
float LODrange = instance->LODinstance->object->drawDistance[0];
if (mindist > LODrange) {
} else if (instance->LODinstance->model->resource) {
auto lodmodelinfo =
instance->LODinstance->getModelInfo<SimpleModelInfo>();
float LODrange = lodmodelinfo->getLodDistance(0);
if (mindist <= LODrange && instance->LODinstance->getModel()) {
// The model matrix needs to be for the LOD instead
matrixModel =
instance->LODinstance->getTimeAdjustedTransform(
@ -234,35 +217,35 @@ void ObjectRenderer::renderInstance(InstanceObject* instance,
// If the object is only just out of range, keep
// rendering it and screen-door the LOD.
if (overlap < fadeRange) {
model = instance->LODinstance->model->resource;
fadingModel = instance->model->resource;
model = instance->LODinstance->getModel();
fadingModel = instance->getModel();
opacity = 1.f - (overlap / fadeRange);
} else {
model = instance->LODinstance->model->resource;
model = instance->LODinstance->getModel();
}
}
}
// We don't have a LOD object, so fade out gracefully.
else if (overlap < fadeRange) {
fadingModel = instance->model->resource;
fadingModel = instance->getModel();
opacity = 1.f - (overlap / fadeRange);
}
}
// Otherwise, if we aren't marked as a LOD model, we can render
else if (!instance->object->LOD) {
model = instance->model->resource;
else if (!modelinfo->LOD) {
model = instance->getModel();
}
} else {
auto root = instance->model->resource->frames[0];
auto objectModel = instance->model->resource;
auto root = instance->getModel()->frames[0];
auto objectModel = instance->getModel();
fadingFrame = nullptr;
fadingModel = nullptr;
matrixModel *= root->getTransform();
for (int i = 0; i < instance->object->numClumps - 1; ++i) {
auto ind = (instance->object->numClumps - 1) - i;
float lodDistance = instance->object->drawDistance[i];
for (int i = 0; i < modelinfo->getNumAtomics() - 1; ++i) {
auto ind = (modelinfo->getNumAtomics() - 1) - i;
float lodDistance = modelinfo->getLodDistance(i);
if (mindist > lodDistance) {
fadingFrame = root->getChildren()[ind];
fadingModel = objectModel;
@ -312,15 +295,21 @@ void ObjectRenderer::renderCharacter(CharacterObject* pedestrian,
matrixModel = pedestrian->getTimeAdjustedTransform(m_renderAlpha);
}
if (!pedestrian->model->resource) return;
if (!pedestrian->getModel()) return;
auto root = pedestrian->model->resource->frames[0];
auto root = pedestrian->getModel()->frames[0];
renderFrame(pedestrian->model->resource, root->getChildren()[0],
matrixModel, pedestrian, 1.f, outList);
renderFrame(pedestrian->getModel(), root->getChildren()[0], matrixModel,
pedestrian, 1.f, outList);
if (pedestrian->getActiveItem()) {
auto handFrame = pedestrian->model->resource->findFrame("srhand");
auto item = pedestrian->getActiveItem();
if (item->getModelID() == -1) {
return; // No model for this item
}
auto handFrame = pedestrian->getModel()->findFrame("srhand");
glm::mat4 localMatrix;
if (handFrame) {
while (handFrame->getParent()) {
@ -330,91 +319,72 @@ void ObjectRenderer::renderCharacter(CharacterObject* pedestrian,
handFrame = handFrame->getParent();
}
}
renderItem(pedestrian->getActiveItem(), matrixModel * localMatrix,
outList);
}
}
void ObjectRenderer::renderWheel(VehicleObject* vehicle, Model* model,
const glm::mat4& matrix,
const std::string& name, RenderList& outList) {
for (const ModelFrame* f : model->frames) {
const std::string& fname = f->getName();
if (fname != name) {
continue;
}
auto firstLod = f->getChildren()[0];
for (auto& g : firstLod->getGeometries()) {
RW::BSGeometryBounds& bounds = model->geometries[g]->geometryBounds;
if (!m_camera.frustum.intersects(
bounds.center + glm::vec3(matrix[3]), bounds.radius)) {
continue;
}
renderGeometry(model, g, matrix, 1.f, vehicle, outList);
}
break;
// Assume items are all simple
auto simple =
m_world->data->findModelInfo<SimpleModelInfo>(item->getModelID());
auto geometry = simple->getAtomic(0)->getGeometries().at(0);
renderGeometry(simple->getModel(), geometry, matrixModel * localMatrix,
1.f, nullptr, outList);
}
}
void ObjectRenderer::renderVehicle(VehicleObject* vehicle,
RenderList& outList) {
RW_CHECK(vehicle->model, "Vehicle model is null");
RW_CHECK(vehicle->getModel(), "Vehicle model is null");
if (!vehicle->model) {
if (!vehicle->getModel()) {
return;
}
glm::mat4 matrixModel = vehicle->getTimeAdjustedTransform(m_renderAlpha);
renderFrame(vehicle->model->resource, vehicle->model->resource->frames[0],
renderFrame(vehicle->getModel(), vehicle->getModel()->frames[0],
matrixModel, vehicle, 1.f, outList);
auto modelinfo = vehicle->getVehicle();
// Draw wheels n' stuff
auto woi =
m_world->data->findModelInfo<SimpleModelInfo>(modelinfo->wheelmodel_);
if (!woi || !woi->isLoaded()) {
return;
}
auto wheelgeom = woi->getAtomic(0)->getGeometries().at(0);
for (size_t w = 0; w < vehicle->info->wheels.size(); ++w) {
auto woi = m_world->data->findObjectType<ObjectData>(
vehicle->vehicle->wheelModelID);
if (woi) {
Model* wheelModel = m_world->data->models["wheels"]->resource;
auto& wi = vehicle->physVehicle->getWheelInfo(w);
if (wheelModel) {
// Construct our own matrix so we can use the local transform
vehicle->physVehicle->updateWheelTransform(w, false);
/// @todo migrate this into Vehicle physics tick so we can
/// interpolate old -> new
auto& wi = vehicle->physVehicle->getWheelInfo(w);
// Construct our own matrix so we can use the local transform
vehicle->physVehicle->updateWheelTransform(w, false);
/// @todo migrate this into Vehicle physics tick so we can
/// interpolate old -> new
glm::mat4 wheelM(matrixModel);
glm::mat4 wheelM(matrixModel);
auto up = -wi.m_wheelDirectionCS;
auto right = wi.m_wheelAxleCS;
auto fwd = up.cross(right);
btQuaternion steerQ(up, wi.m_steering);
btQuaternion rollQ(right, -wi.m_rotation);
auto up = -wi.m_wheelDirectionCS;
auto right = wi.m_wheelAxleCS;
auto fwd = up.cross(right);
btQuaternion steerQ(up, wi.m_steering);
btQuaternion rollQ(right, -wi.m_rotation);
btMatrix3x3 basis(right[0], fwd[0], up[0], right[1], fwd[1],
up[1], right[2], fwd[2], up[2]);
btMatrix3x3 basis(right[0], fwd[0], up[0], right[1], fwd[1], up[1],
right[2], fwd[2], up[2]);
btTransform t;
t.setBasis(btMatrix3x3(steerQ) * btMatrix3x3(rollQ) * basis);
t.setOrigin(wi.m_chassisConnectionPointCS +
wi.m_wheelDirectionCS *
wi.m_raycastInfo.m_suspensionLength);
btTransform t;
t.setBasis(btMatrix3x3(steerQ) * btMatrix3x3(rollQ) * basis);
t.setOrigin(wi.m_chassisConnectionPointCS +
wi.m_wheelDirectionCS *
wi.m_raycastInfo.m_suspensionLength);
t.getOpenGLMatrix(glm::value_ptr(wheelM));
wheelM = matrixModel * wheelM;
t.getOpenGLMatrix(glm::value_ptr(wheelM));
wheelM = matrixModel * wheelM;
wheelM =
glm::scale(wheelM, glm::vec3(vehicle->vehicle->wheelScale));
if (wi.m_chassisConnectionPointCS.x() < 0.f) {
wheelM = glm::scale(wheelM, glm::vec3(-1.f, 1.f, 1.f));
}
renderWheel(vehicle, wheelModel, wheelM, woi->modelName,
outList);
}
wheelM = glm::scale(wheelM, glm::vec3(modelinfo->wheelscale_));
if (wi.m_chassisConnectionPointCS.x() < 0.f) {
wheelM = glm::scale(wheelM, glm::vec3(-1.f, 1.f, 1.f));
}
renderGeometry(woi->getModel(), wheelgeom, wheelM, 1.f, nullptr,
outList);
}
}
@ -425,44 +395,25 @@ void ObjectRenderer::renderPickup(PickupObject* pickup, RenderList& outList) {
modelMatrix = glm::rotate(modelMatrix, m_world->getGameTime(),
glm::vec3(0.f, 0.f, 1.f));
auto odata =
m_world->data->findObjectType<ObjectData>(pickup->getModelID());
auto odata = pickup->getModelInfo<SimpleModelInfo>();
Model* model = nullptr;
ModelFrame* itemModel = nullptr;
/// @todo Better determination of is this object a weapon.
if (odata->ID >= 170 && odata->ID <= 184) {
auto weapons = m_world->data->models["weapons"];
if (weapons && weapons->resource && odata) {
model = weapons->resource;
itemModel = weapons->resource->findFrame(odata->modelName + "_l0");
RW_CHECK(itemModel, "Weapon Frame not present int weapon model");
if (!itemModel) {
return;
}
}
} else {
auto handle = m_world->data->models[odata->modelName];
RW_CHECK(handle && handle->resource, "Pickup has no model");
if (handle && handle->resource) {
model = handle->resource;
itemModel = model->frames[model->rootFrameIdx];
}
auto model = odata->getModel();
auto itemModel = odata->getAtomic(0);
auto geom = 0;
if (!itemModel->getGeometries().empty()) {
geom = itemModel->getGeometries()[0];
} else if (!itemModel->getChildren().empty()) {
geom = itemModel->getChildren()[0]->getGeometries()[0];
}
if (itemModel) {
auto matrix = glm::inverse(itemModel->getTransform());
renderFrame(model, itemModel, modelMatrix * matrix, pickup, 1.f,
outList);
}
renderGeometry(model, geom, modelMatrix, 1.f, pickup, outList);
}
void ObjectRenderer::renderCutsceneObject(CutsceneObject* cutscene,
RenderList& outList) {
if (!m_world->state->currentCutscene) return;
if (!cutscene->model->resource) {
if (!cutscene->getModel()) {
return;
}
@ -488,7 +439,7 @@ void ObjectRenderer::renderCutsceneObject(CutsceneObject* cutscene,
matrixModel = glm::translate(matrixModel, cutsceneOffset);
}
auto model = cutscene->model->resource;
auto model = cutscene->getModel();
if (cutscene->getParentActor()) {
glm::mat4 align;
/// @todo figure out where this 90 degree offset is coming from.
@ -505,21 +456,14 @@ void ObjectRenderer::renderProjectile(ProjectileObject* projectile,
RenderList& outList) {
glm::mat4 modelMatrix = projectile->getTimeAdjustedTransform(m_renderAlpha);
auto odata = m_world->data->findObjectType<ObjectData>(
auto odata = m_world->data->findModelInfo<SimpleModelInfo>(
projectile->getProjectileInfo().weapon->modelID);
auto weapons = m_world->data->models["weapons"];
RW_CHECK(weapons, "Weapons model not loaded");
auto model = odata->getModel();
auto modelframe = odata->getAtomic(0);
auto geom = modelframe->getGeometries().at(0);
if (weapons && weapons->resource) {
auto itemModel = weapons->resource->findFrame(odata->modelName + "_l0");
auto matrix = glm::inverse(itemModel->getTransform());
RW_CHECK(itemModel, "Weapon frame not in model");
if (itemModel) {
renderFrame(weapons->resource, itemModel, modelMatrix * matrix,
projectile, 1.f, outList);
}
}
renderGeometry(model, geom, modelMatrix, 1.f, projectile, outList);
}
void ObjectRenderer::buildRenderList(GameObject* object, RenderList& outList) {

View File

@ -35,6 +35,12 @@ public:
*/
void buildRenderList(GameObject* object, RenderList& outList);
bool renderFrame(Model* m, ModelFrame* f, const glm::mat4& matrix,
GameObject* object, float opacity, RenderList& outList);
void renderGeometry(Model* model, size_t g, const glm::mat4& modelMatrix,
float opacity, GameObject* object, RenderList& outList);
private:
GameWorld* m_world;
const ViewCamera& m_camera;
@ -47,18 +53,6 @@ private:
void renderPickup(PickupObject* pickup, RenderList& outList);
void renderCutsceneObject(CutsceneObject* cutscene, RenderList& outList);
void renderProjectile(ProjectileObject* projectile, RenderList& outList);
void renderItem(InventoryItem* item, const glm::mat4& modelMatrix,
RenderList& outList);
void renderWheel(VehicleObject* vehicle, Model* model,
const glm::mat4& matrix, const std::string& name,
RenderList& outList);
bool renderFrame(Model* m, ModelFrame* f, const glm::mat4& matrix,
GameObject* object, float opacity, RenderList& outList);
void renderGeometry(Model* model, size_t g, const glm::mat4& modelMatrix,
float opacity, GameObject* object, RenderList& outList);
};
#endif

View File

@ -31,12 +31,11 @@ inline VehicleObject* getCharacterVehicle(CharacterObject* character) {
}
inline bool isInModel(const ScriptArguments& args, CharacterObject* character,
int model) {
auto data = args.getWorld()->data->findObjectType<VehicleData>(model);
auto data = args.getWorld()->data->findModelInfo<VehicleModelInfo>(model);
if (data) {
auto vehicle = getCharacterVehicle(character);
if (vehicle) {
return vehicle->model ? vehicle->model->name == data->modelName
: false;
return vehicle->getVehicle()->id() == model;
}
}
return false;

View File

@ -3546,12 +3546,8 @@ void opcode_0136(const ScriptArguments& args, const ScriptInt arg1, const Script
@arg model Model ID
*/
bool opcode_0137(const ScriptArguments& args, const ScriptVehicle vehicle, const ScriptModelID model) {
auto data = args.getWorld()->data->findObjectType<VehicleData>(model);
RW_CHECK(data, "non-vehicle model ID");
if (data) {
return vehicle->model->name == data->modelName;
}
return false;
RW_UNUSED(args);
return vehicle->getVehicle()->id() == model;
}
/**
@ -6840,12 +6836,18 @@ void opcode_023c(const ScriptArguments& args, const ScriptInt arg1, const Script
@arg arg1
*/
bool opcode_023d(const ScriptArguments& args, const ScriptInt arg1) {
/// @todo re-implement this when streaming is added
return true;
RW_UNUSED(args);
RW_UNUSED(arg1);
#if 0
auto model = args.getState()->specialCharacters[arg1];
auto modelfind = args.getWorld()->data->models.find(model);
if( modelfind != args.getWorld()->data->models.end() && modelfind->second->resource != nullptr ) {
return true;
}
return false;
#endif
}
/**
@ -8156,7 +8158,11 @@ void opcode_02dd(const ScriptArguments& args, const ScriptString areaName, Scrip
bool opcode_02de(const ScriptArguments& args, const ScriptPlayer player) {
RW_UNUSED(args);
auto vehicle = player->getCharacter()->getCurrentVehicle();
return (vehicle && (vehicle->vehicle->classType & VehicleData::TAXI) == VehicleData::TAXI);
if (!vehicle) {
return false;
}
auto type = vehicle->getVehicle()->vehicleclass_;
return (type & VehicleModelInfo::TAXI) == VehicleModelInfo::TAXI;
}
/**
@ -8455,7 +8461,7 @@ void opcode_02f4(const ScriptArguments& args, const ScriptObject object0, const
auto actor = args.getObject<CutsceneObject>(0);
CutsceneObject* object = args.getWorld()->createCutsceneObject(id, args.getWorld()->state->currentCutscene->meta.sceneOffset );
auto headframe = actor->model->resource->findFrame("shead");
auto headframe = actor->getModel()->findFrame("shead");
actor->skeleton->setEnabled(headframe, false);
object->setParentActor(actor, headframe);
@ -10063,7 +10069,8 @@ void opcode_0363(const ScriptArguments& args, ScriptVec3 coord, const ScriptFloa
InstanceObject* object = static_cast<InstanceObject*>(i.second);
// Check if this instance has the correct model id, early out if it isn't
if (!boost::iequals(object->object->modelName, modelName)) {
auto modelinfo = object->getModelInfo<BaseModelInfo>();
if (!boost::iequals(modelinfo->name, modelName)) {
continue;
}
@ -11343,19 +11350,16 @@ void opcode_03b6(const ScriptArguments& args, ScriptVec3 coord, const ScriptFloa
std::transform(oldmodel.begin(), oldmodel.end(), oldmodel.begin(), ::tolower);
auto newobjectid = args.getWorld()->data->findModelObject(newmodel);
auto nobj = args.getWorld()->data->findObjectType<ObjectData>(newobjectid);
auto nobj = args.getWorld()->data->findModelInfo<SimpleModelInfo>(newobjectid);
/// @todo Objects need to adopt the new object ID, not just the model.
for(auto p : args.getWorld()->instancePool.objects) {
auto o = p.second;
if( !o->model ) continue;
if( o->model->name != oldmodel ) continue;
if( !o->getModel() ) continue;
if( o->getModelInfo<BaseModelInfo>()->name != oldmodel ) continue;
float d = glm::distance(coord, o->getPosition());
if( d < radius ) {
args.getWorld()->data->loadDFF(newmodel + ".dff", false);
InstanceObject* inst = static_cast<InstanceObject*>(o);
inst->changeModel(nobj);
inst->model = args.getWorld()->data->models[newmodel];
}
}
}

View File

@ -157,10 +157,10 @@ void drawPlayerInfo(PlayerController* player, GameWorld* world,
if (current) {
uint16_t model = current->getModelID();
if (model > 0) {
ObjectDataPtr weaponData =
world->data->findObjectType<ObjectData>(model);
auto weaponData =
world->data->findModelInfo<SimpleModelInfo>(model);
if (weaponData != nullptr) {
itemTextureName = weaponData->modelName;
itemTextureName = weaponData->name;
}
}
}

View File

@ -33,6 +33,11 @@
const std::string kBuildStr(kGitSHA1Hash, 8);
const std::string kWindowTitle = "RWGame";
std::map<GameRenderer::SpecialModel, std::string> kSpecialModels = {
{GameRenderer::ZoneCylinderA, "zonecyla.dff"},
{GameRenderer::ZoneCylinderB, "zonecylb.dff"},
{GameRenderer::Arrow, "arrow.dff"}};
#define MOUSE_SENSITIVITY_SCALE 2.5f
DebugDraw* debug = nullptr;
@ -124,6 +129,11 @@ RWGame::RWGame(int argc, char* argv[]) {
// Initialize renderer
renderer = new GameRenderer(&log, data);
for (const auto& p : kSpecialModels) {
auto model = data->loadClump(p.second);
renderer->setSpecialModel(p.first, model);
}
// Set up text renderer
renderer->text.setFontTexture(0, "pager");
renderer->text.setFontTexture(1, "font1");

View File

@ -201,7 +201,8 @@ Menu* DebugState::createMapMenu() {
for (auto& i : gw->instancePool.objects) {
auto obj = static_cast<InstanceObject*>(i.second);
if (std::find(garageDoorModels.begin(), garageDoorModels.end(),
obj->model->name) != garageDoorModels.end()) {
obj->getModelInfo<BaseModelInfo>()->name) !=
garageDoorModels.end()) {
obj->setSolid(false);
}
}

View File

@ -114,26 +114,11 @@ void IngameState::startTest() {
auto carPos = glm::vec3(286.f, -591.f, 37.f);
auto carRot = glm::angleAxis(glm::radians(90.f), glm::vec3(0.f, 0.f, 1.f));
// auto boatPos = glm::vec3( -1000.f, -1040.f, 5.f );
int i = 0;
for (auto& vi : getWorld()->data->objectTypes) {
switch (vi.first) {
case 140:
continue;
case 141:
continue;
}
if (vi.second->class_type == ObjectInformation::_class("CARS")) {
if (i++ > 20) break;
auto vehicle = std::static_pointer_cast<VehicleData>(vi.second);
auto& sp = carPos;
auto& sr = carRot;
auto v = getWorld()->createVehicle(vi.first, sp, sr);
sp +=
sr * glm::vec3(2.f + v->info->handling.dimensions.x, 0.f, 0.f);
}
// Landstalker, Stinger, Linerunner, Trash, Bobcat
const std::vector<int> kTestVehicles = {90, 92, 93, 98, 111};
for (auto id : kTestVehicles) {
getWorld()->createVehicle(id, carPos, carRot);
carPos += carRot * glm::vec3(5.f, 0.f, 0.f);
}
}
@ -239,9 +224,9 @@ void IngameState::tick(float dt) {
? static_cast<CharacterObject*>(target)->getCurrentVehicle()
: nullptr;
if (vehicle) {
auto model = vehicle->model;
auto model = vehicle->getModel();
float maxDist = 0.f;
for (auto& g : model->resource->geometries) {
for (auto& g : model->geometries) {
float partSize = glm::length(g->geometryBounds.center) +
g->geometryBounds.radius;
maxDist = std::max(partSize, maxDist);

View File

@ -23,7 +23,6 @@ SET(RWLIB_SOURCES
"source/platform/FileIndex.hpp"
"source/platform/FileIndex.cpp"
"source/data/ResourceHandle.hpp"
"source/data/Model.hpp"
"source/data/Model.cpp"

View File

@ -7,7 +7,6 @@
#include <string>
#include <vector>
#include <data/ResourceHandle.hpp>
#include <gl/DrawBuffer.hpp>
#include <gl/GeometryBuffer.hpp>
#include <gl/TextureData.hpp>
@ -180,6 +179,4 @@ private:
float boundingRadius;
};
typedef ResourceHandle<Model>::Ref ModelRef;
#endif

View File

@ -1,32 +0,0 @@
#pragma once
#include <memory>
#include <string>
namespace RW {
/**
* Possible states for ResourceHandle
*/
enum ResourceState {
/// Resource has been declared but not loaded
Loading = 0,
/// Resource has been loaded and is available
Loaded = 1,
/// Loading the resource failed
Failed = 2
};
}
template <class T>
class ResourceHandle {
public:
T* resource;
RW::ResourceState state;
std::string name;
typedef std::shared_ptr<ResourceHandle<T>> Ref;
ResourceHandle(const std::string& name)
: resource(nullptr), state(RW::Loading), name(name) {
}
};

View File

@ -4,7 +4,6 @@
#include <loaders/RWBinaryStream.hpp>
#include <data/ResourceHandle.hpp>
#include <platform/FileHandle.hpp>
#include <string>
#include <vector>

View File

@ -2,7 +2,7 @@
#include <engine/GameData.hpp>
qint16 ItemListModel::getIDOf(unsigned int row) const {
if (row < world()->data->objectTypes.size()) {
if (row < world()->data->modelinfo.size()) {
return row;
}
@ -14,7 +14,7 @@ ItemListModel::ItemListModel(GameWorld *world, QObject *parent)
}
int ItemListModel::rowCount(const QModelIndex &parent) const {
return _world->data->objectTypes.size();
return _world->data->modelinfo.size();
}
int ItemListModel::columnCount(const QModelIndex &parent) const {

View File

@ -177,19 +177,24 @@ void ViewerWidget::showObject(qint16 item) {
if (dummyObject) gworld->destroyObject(dummyObject);
auto def = world()->data->objectTypes[item];
auto def = world()->data->modelinfo[item].get();
if (def) {
if (def->class_type == ObjectData::class_id) {
dummyObject = gworld->createInstance(item, {});
} else if (def->class_type == CharacterData::class_id) {
dummyObject = gworld->createPedestrian(item, {});
} else if (def->class_type == VehicleData::class_id) {
dummyObject = gworld->createVehicle(item, {});
switch (def->type()) {
default:
dummyObject = gworld->createInstance(item, {});
break;
case ModelDataType::PedInfo:
dummyObject = gworld->createPedestrian(item, {});
break;
case ModelDataType::VehicleInfo:
dummyObject = gworld->createVehicle(item, {});
break;
}
RW_CHECK(dummyObject != nullptr, "Dummy Object is null");
if (dummyObject != nullptr) {
activeModel = dummyObject->model->resource;
activeModel = dummyObject->getModel();
}
}
}

View File

@ -5,19 +5,13 @@ ObjectListModel::ObjectListModel(GameData *dat, QObject *parent)
}
int ObjectListModel::rowCount(const QModelIndex &parent) const {
return _gameData->objectTypes.size();
return _gameData->modelinfo.size();
}
int ObjectListModel::columnCount(const QModelIndex &parent) const {
return 3;
}
static std::map<ObjectInformation::ObjectClass, QString> gDataType = {
{ObjectInformation::_class("OBJS"), "Object"},
{ObjectInformation::_class("CARS"), "Vehicle"},
{ObjectInformation::_class("PEDS"), "Pedestrian"},
{ObjectInformation::_class("HIER"), "Cutscene"}};
QVariant ObjectListModel::data(const QModelIndex &index, int role) const {
if (role == Qt::DisplayRole) {
auto id = index.internalId();
@ -25,23 +19,12 @@ QVariant ObjectListModel::data(const QModelIndex &index, int role) const {
if (index.column() == 0) {
return id;
} else if (index.column() == 1) {
auto object = _gameData->objectTypes[id];
if (gDataType[object->class_type].isEmpty()) {
return QString("Unknown");
}
return gDataType[object->class_type];
auto object = _gameData->modelinfo[id].get();
return QString::fromStdString(
BaseModelInfo::getTypeName(object->type()));
} else if (index.column() == 2) {
auto object = _gameData->objectTypes[id];
if (object->class_type == ObjectData::class_id) {
auto v = std::static_pointer_cast<ObjectData>(object);
return QString::fromStdString(v->modelName);
} else if (object->class_type == VehicleData::class_id) {
auto v = std::static_pointer_cast<VehicleData>(object);
return QString::fromStdString(v->modelName);
} else if (object->class_type == CharacterData::class_id) {
auto v = std::static_pointer_cast<CharacterData>(object);
return QString::fromStdString(v->modelName);
}
auto object = _gameData->modelinfo[id].get();
return QString::fromStdString(object->name);
}
}
return QVariant::Invalid;
@ -64,9 +47,9 @@ QVariant ObjectListModel::headerData(int section, Qt::Orientation orientation,
QModelIndex ObjectListModel::index(int row, int column,
const QModelIndex &parent) const {
auto it = _gameData->objectTypes.begin();
auto it = _gameData->modelinfo.begin();
for (int i = 0; i < row; i++) it++;
auto id = it->second->ID;
auto id = it->second->id();
return hasIndex(row, column, parent) ? createIndex(row, column, id)
: QModelIndex();

View File

@ -60,30 +60,14 @@ void ObjectViewer::worldChanged() {
SLOT(showItem(QModelIndex)));
}
static std::map<ObjectInformation::ObjectClass, QString> gDataType = {
{ObjectInformation::_class("OBJS"), "Object"},
{ObjectInformation::_class("CARS"), "Vehicle"},
{ObjectInformation::_class("PEDS"), "Pedestrian"},
{ObjectInformation::_class("HIER"), "Cutscene"}};
void ObjectViewer::showItem(qint16 item) {
auto def = world()->data->objectTypes[item];
auto def = world()->data->modelinfo[item].get();
if (def) {
previewID->setText(QString::number(def->ID));
previewClass->setText(gDataType[def->class_type]);
if (def->class_type == ObjectData::class_id) {
auto v = std::static_pointer_cast<ObjectData>(def);
previewModel->setText(QString::fromStdString(v->modelName));
} else if (def->class_type == VehicleData::class_id) {
auto v = std::static_pointer_cast<VehicleData>(def);
previewModel->setText(QString::fromStdString(v->modelName));
} else if (def->class_type == CharacterData::class_id) {
auto v = std::static_pointer_cast<CharacterData>(def);
previewModel->setText(QString::fromStdString(v->modelName));
}
previewID->setText(QString::number(def->id()));
previewClass->setText(
QString::fromStdString(BaseModelInfo::getTypeName(def->type())));
previewModel->setText(QString::fromStdString(def->name));
previewWidget->showObject(item);
}
}

View File

@ -33,7 +33,6 @@ set(TEST_SOURCES
"test_object_data.cpp"
"test_pickup.cpp"
"test_renderer.cpp"
"test_Resource.cpp"
"test_rwbstream.cpp"
"test_SaveGame.cpp"
"test_scriptmachine.cpp"

View File

@ -12,16 +12,16 @@ BOOST_AUTO_TEST_CASE(test_object_data) {
gd.load();
{
auto def = gd.findObjectType<ObjectData>(1100);
auto def = gd.findModelInfo<SimpleModelInfo>(1100);
BOOST_REQUIRE(def);
BOOST_ASSERT(def->class_type == ObjectInformation::_class("OBJS"));
BOOST_ASSERT(def->type() == ModelDataType::SimpleInfo);
BOOST_CHECK_EQUAL(def->modelName, "rd_Corner1");
BOOST_CHECK_EQUAL(def->textureName, "generic");
BOOST_CHECK_EQUAL(def->numClumps, 1);
BOOST_CHECK_EQUAL(def->drawDistance[0], 220);
BOOST_CHECK_EQUAL(def->name, "rd_Corner1");
BOOST_CHECK_EQUAL(def->textureslot, "generic");
BOOST_CHECK_EQUAL(def->getNumAtomics(), 1);
BOOST_CHECK_EQUAL(def->getLodDistance(0), 220);
BOOST_CHECK_EQUAL(def->flags, 0);
}
}

View File

@ -1,23 +0,0 @@
#include <boost/test/unit_test.hpp>
#include <data/ResourceHandle.hpp>
#include <test_globals.hpp>
typedef ResourceHandle<int>::Ref IntRef;
BOOST_AUTO_TEST_SUITE(ResourceTests)
BOOST_AUTO_TEST_CASE(test_ResourceHandle) {
int resource = 42;
IntRef ref{new ResourceHandle<int>("")};
BOOST_CHECK_EQUAL(ref->resource, nullptr);
BOOST_CHECK_EQUAL(ref->state, RW::Loading);
ref->state = RW::Loaded;
ref->resource = &resource;
BOOST_CHECK_EQUAL(ref->resource, &resource);
BOOST_CHECK_EQUAL(ref->state, RW::Loaded);
}
BOOST_AUTO_TEST_SUITE_END()

View File

@ -15,10 +15,9 @@ BOOST_AUTO_TEST_CASE(test_matrix) {
/** Models are currently needed to relate animation bones <=> model
* frame #s. */
Global::get().e->data->loadDFF("player.dff");
ModelRef& test_model = Global::get().e->data->models["player"];
auto test_model = Global::get().d->loadClump("player.dff");
Animator animator(test_model->resource, &skeleton);
Animator animator(test_model, &skeleton);
animation.duration = 1.f;
animation.bones["player"] = new AnimationBone{

View File

@ -14,7 +14,7 @@ BOOST_AUTO_TEST_CASE(test_vehicle_buoyancy) {
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->info != nullptr);
BOOST_REQUIRE(vehicle->vehicle != nullptr);
BOOST_REQUIRE(vehicle->getVehicle() != nullptr);
// Relies on tile 0,0 being watered...

View File

@ -62,7 +62,7 @@ BOOST_AUTO_TEST_CASE(test_activities) {
VehicleObject* vehicle = Global::get().e->createVehicle(
90u, glm::vec3(10.f, 0.f, 0.f), glm::quat());
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->model != nullptr);
BOOST_REQUIRE(vehicle->getModel() != nullptr);
auto character = Global::get().e->createPedestrian(1, {0.f, 0.f, 0.f});

View File

@ -1,6 +1,8 @@
#include <boost/test/unit_test.hpp>
#include <data/WeaponData.hpp>
#include <loaders/GenericDATLoader.hpp>
#include <objects/PickupObject.hpp>
#include <objects/InstanceObject.hpp>
#include "test_globals.hpp"
// Tests against loading various data files
@ -83,6 +85,42 @@ BOOST_AUTO_TEST_CASE(test_handling_data_loader) {
BOOST_CHECK_EQUAL(handling.driveType, VehicleHandlingInfo::All);
BOOST_CHECK_EQUAL(handling.engineType, VehicleHandlingInfo::Petrol);
}
BOOST_AUTO_TEST_CASE(test_model_files_loaded) {
auto& d = Global::get().d;
// The weapon models should be associated by the MODELFILE entries
auto ak47 = d->findModelInfo<SimpleModelInfo>(171);
BOOST_CHECK_EQUAL(ak47->name, "ak47");
BOOST_CHECK_NE(ak47->getAtomic(0), nullptr);
}
BOOST_AUTO_TEST_CASE(test_model_archive_loaded) {
auto& d = Global::get().d;
auto& e = Global::get().e;
/// @todo Implement streaming
// Currently, instanciating an entity will load the model
{
auto crim = d->findModelInfo<PedModelInfo>(24);
auto pickup = e->createPickup({}, 24, PickupObject::InShop);
BOOST_REQUIRE(crim->type() == ModelDataType::PedInfo);
BOOST_CHECK_NE(crim->getModel(), nullptr);
e->destroyObject(pickup);
}
{
auto info = d->findModelInfo<SimpleModelInfo>(2202);
auto inst = e->createInstance(2202, {});
BOOST_REQUIRE(info->type() == ModelDataType::SimpleInfo);
BOOST_CHECK_NE(info->getAtomic(0), nullptr);
e->destroyObject(inst);
}
}
#endif
BOOST_AUTO_TEST_SUITE_END()

View File

@ -1,7 +1,6 @@
#include <boost/test/unit_test.hpp>
#include <data/Model.hpp>
#include <job/WorkContext.hpp>
#include <loaders/BackgroundLoader.hpp>
#include "test_globals.hpp"
BOOST_AUTO_TEST_SUITE(LoaderDFFTests)
@ -38,31 +37,6 @@ BOOST_AUTO_TEST_CASE(test_load_dff) {
}
}
BOOST_AUTO_TEST_CASE(test_loader_job) {
{
WorkContext ctx;
ResourceHandle<Model>::Ref modelRef{
new ResourceHandle<Model>("landstal.dff")};
auto index = &Global::get().e->data->index;
auto job = new BackgroundLoaderJob<Model, LoaderDFF>{
&ctx, index, "landstal.dff", modelRef};
ctx.queueJob(job);
while (modelRef->state == RW::Loading) {
ctx.update();
std::this_thread::yield();
}
BOOST_REQUIRE(modelRef->resource != nullptr);
BOOST_CHECK(modelRef->resource->frames.size() > 0);
delete modelRef->resource;
}
}
#endif
BOOST_AUTO_TEST_SUITE_END()

View File

@ -1,5 +1,5 @@
#include <boost/test/unit_test.hpp>
#include <data/ObjectData.hpp>
#include <data/ModelData.hpp>
#include "test_globals.hpp"
BOOST_AUTO_TEST_SUITE(ObjectDataTests)
@ -13,16 +13,16 @@ BOOST_AUTO_TEST_CASE(test_object_data) {
BOOST_ASSERT(l.objects.find(1100) != l.objects.end());
auto obj = l.objects[1100];
auto obj = l.objects[1100].get();
auto def = std::dynamic_pointer_cast<ObjectData>(obj);
auto def = dynamic_cast<SimpleModelInfo*>(obj);
BOOST_ASSERT(def->class_type == ObjectInformation::_class("OBJS"));
BOOST_ASSERT(def->type() == ModelDataType::SimpleInfo);
BOOST_CHECK_EQUAL(def->modelName, "rd_Corner1");
BOOST_CHECK_EQUAL(def->textureName, "generic");
BOOST_CHECK_EQUAL(def->numClumps, 1);
BOOST_CHECK_EQUAL(def->drawDistance[0], 220);
BOOST_CHECK_EQUAL(def->name, "rd_Corner1");
BOOST_CHECK_EQUAL(def->textureslot, "generic");
BOOST_CHECK_EQUAL(def->getNumAtomics(), 1);
BOOST_CHECK_EQUAL(def->getLodDistance(0), 220);
BOOST_CHECK_EQUAL(def->flags, 0);
}
{
@ -32,21 +32,21 @@ BOOST_AUTO_TEST_CASE(test_object_data) {
BOOST_ASSERT(l.objects.find(90) != l.objects.end());
auto obj = l.objects[90];
auto obj = l.objects[90].get();
auto def = std::dynamic_pointer_cast<VehicleData>(obj);
auto def = dynamic_cast<VehicleModelInfo*>(obj);
BOOST_ASSERT(def->class_type == ObjectInformation::_class("CARS"));
BOOST_ASSERT(def->type() == ModelDataType::VehicleInfo);
BOOST_CHECK_EQUAL(def->modelName, "landstal");
BOOST_CHECK_EQUAL(def->textureName, "landstal");
BOOST_CHECK_EQUAL(def->type, VehicleData::CAR);
BOOST_CHECK_EQUAL(def->handlingID, "LANDSTAL");
BOOST_CHECK_EQUAL(def->gameName, "LANDSTK");
BOOST_CHECK_EQUAL(def->classType, VehicleData::RICHFAMILY);
BOOST_CHECK_EQUAL(def->frequency, 10);
BOOST_CHECK_EQUAL(def->wheelModelID, 164);
BOOST_CHECK_CLOSE(def->wheelScale, 0.8f, 0.01f);
BOOST_CHECK_EQUAL(def->name, "landstal");
BOOST_CHECK_EQUAL(def->textureslot, "landstal");
BOOST_CHECK_EQUAL(def->vehicletype_, VehicleModelInfo::CAR);
BOOST_CHECK_EQUAL(def->handling_, "LANDSTAL");
BOOST_CHECK_EQUAL(def->vehiclename_, "LANDSTK");
BOOST_CHECK_EQUAL(def->vehicleclass_, VehicleModelInfo::RICHFAMILY);
BOOST_CHECK_EQUAL(def->frequency_, 10);
BOOST_CHECK_EQUAL(def->wheelmodel_, 164);
BOOST_CHECK_CLOSE(def->wheelscale_, 0.8f, 0.01f);
}
}

View File

@ -69,7 +69,7 @@ BOOST_AUTO_TEST_CASE(test_item_pickup) {
BOOST_REQUIRE(item != nullptr);
ItemPickup* p = new ItemPickup(Global::get().e, {30.f, 0.f, 0.f},
PickupObject::OnStreet, item);
nullptr, PickupObject::OnStreet, item);
Global::get().e->allObjects.push_back(p);

View File

@ -14,10 +14,11 @@ BOOST_AUTO_TEST_CASE(test_create_vehicle) {
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->info != nullptr);
BOOST_REQUIRE(vehicle->vehicle != nullptr);
BOOST_REQUIRE(vehicle->getVehicle() != nullptr);
// Hardcoded values for the moment
BOOST_CHECK_EQUAL(vehicle->vehicle->type, VehicleData::CAR);
BOOST_CHECK_EQUAL(vehicle->getVehicle()->vehicletype_,
VehicleModelInfo::CAR);
BOOST_CHECK_EQUAL(vehicle->info->wheels.size(), 4);
@ -31,7 +32,7 @@ BOOST_AUTO_TEST_CASE(vehicle_parts) {
Global::get().e->createVehicle(90u, glm::vec3(), glm::quat());
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->model != nullptr);
BOOST_REQUIRE(vehicle->getModel() != nullptr);
VehicleObject::Part* part = vehicle->getPart("bonnet_dummy");
@ -51,7 +52,7 @@ BOOST_AUTO_TEST_CASE(vehicle_part_vis) {
Global::get().e->createVehicle(90u, glm::vec3(), glm::quat());
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->model != nullptr);
BOOST_REQUIRE(vehicle->getModel() != nullptr);
VehicleObject::Part* bonnetpart = vehicle->getPart("bonnet_dummy");
auto skel = vehicle->skeleton;
@ -76,7 +77,7 @@ BOOST_AUTO_TEST_CASE(test_door_position) {
BOOST_REQUIRE(vehicle != nullptr);
BOOST_REQUIRE(vehicle->info != nullptr);
BOOST_REQUIRE(vehicle->vehicle != nullptr);
BOOST_REQUIRE(vehicle->getVehicle() != nullptr);
BOOST_CHECK(vehicle->getSeatEntryPositionWorld(0).x > 5.f);

View File

@ -12,7 +12,7 @@ BOOST_AUTO_TEST_CASE(TestWeaponScan) {
// Test RADIUS scan
auto character = Global::get().e->createPedestrian(1, {0.f, 0.f, 0.f});
BOOST_REQUIRE(character != nullptr);
BOOST_REQUIRE(character->model != nullptr);
BOOST_REQUIRE(character->getModel() != nullptr);
BOOST_REQUIRE(character->physObject != nullptr);
WeaponScan scan(10.f, {0.f, 0.f, 10.f}, {0.f, 0.f, -10.f});