void ObjectScript::set_float(lua_State *state) {
EG::Game::Object *o = static_cast<EG::Game::Object *>(object);
int n = lua_gettop(state);
std::string key(lua_tolstring(state, 1, NULL));
lua_Number value = lua_tonumber(state, 2);
bool found_attribute = false;
EG::Game::ObjectAttributeBasicFloat *desired = NULL;
if (o->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_FLOAT)) {
std::vector<EG::Game::ObjectAttribute *> *attributes = o->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_FLOAT);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attributes->begin();
while (attr_iter != attributes->end()) {
EG::Game::ObjectAttributeBasicFloat *attr = static_cast<EG::Game::ObjectAttributeBasicFloat *>(*attr_iter);
if (attr->GetKey() == key) {
desired = attr;
found_attribute = true;
break;
}
++attr_iter;
}
}
if (found_attribute) {
desired->SetValue(value);
} else {
o->AddAttribute(new EG::Game::ObjectAttributeBasicFloat(key, value));
}
}
void Game::PostUpdates(void){
console->Update(time->GetFrameTime());
physics->Update(time->GetFrameTime());
network->Update(time->GetFrameTime());
if (gui->GetInitialized()){
if (input->IsMousePressed(EG::Input::mouse_left)) {
gui->InjectMouseDown(AWE_MB_LEFT);
}
if (input->IsMouseReleased(EG::Input::mouse_left)) {
gui->InjectMouseUp(AWE_MB_LEFT);
}
glm::vec2 mp = input->GetMousePosition();
gui->InjectMouseMove((unsigned int)(mp.x), (unsigned int)(mp.y));
std::vector<char> text = input->GetTextEntered();
std::vector<char>::iterator text_iter = text.begin();
if (input->IsKeyPressed(EG::Input::back_space)) {
gui->InjectKeyPress('\b');
std::cout << "Backspace" << std::endl;
}
if (input->IsKeyPressed(EG::Input::del)){
gui->InjectKeyPress(char(127));
}
if (input->IsKeyPressed(EG::Input::tab)){
gui->InjectKeyPress('\t');
}
if (input->IsKeyPressed(EG::Input::left)){
//gui->InjectKeyPress(Awesomium::KeyCodes::AK_LEFT);
}
if (input->IsKeyPressed(EG::Input::right)){
//gui->InjectKeyPress(Awesomium::KeyCodes::AK_RIGHT);
}
if (input->IsKeyPressed(EG::Input::up)){
//gui->InjectKeyPress(Awesomium::KeyCodes::AK_UP);
}
if (input->IsKeyPressed(EG::Input::down)){
//gui->InjectKeyPress(Awesomium::KeyCodes::AK_DOWN);
}
while (text_iter != text.end()){
char c = (*text_iter);
int cint = int(c);
gui->InjectKeyPress(cint);
++text_iter;
}
gui->Update();
}
input->Update();
EG::Utility::UnsignedIntDictionaryKeysIterator object_iter = scene->GetObjectManager()->GetObjects()->GetKeysBegin();
while (object_iter != scene->GetObjectManager()->GetObjects()->GetKeysEnd()){
unsigned int object_id = (*object_iter);
EG::Game::Object *object = scene->GetObjectManager()->GetObjectById(object_id);
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_EMISSION_PARTICLE_SYSTEM)){
std::vector<EG::Game::ObjectAttribute *> *attrs = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_EMISSION_PARTICLE_SYSTEM);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
while (attr_iter != attrs->end()){
EG::Game::ObjectAttributeEmissionParticleSystem *pattr = static_cast<EG::Game::ObjectAttributeEmissionParticleSystem *>(*attr_iter);
EG::Graphics::ParticleSystem *psys = pattr->GetParticleSystem();
std::list<EG::Graphics::Particle *> *particles = psys->GetParticles();
std::list<EG::Graphics::Particle *>::iterator piter = particles->begin();
while (piter != particles->end()){
EG::Graphics::Particle *p = (*piter);
bool has_physics = false;
glm::mat4 motion_state;
if (p->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_RIGID_BODY)){
std::vector<EG::Game::ObjectAttribute *> *attrs = p->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_RIGID_BODY);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
while (attr_iter != attrs->end()){
EG::Game::ObjectAttributeControlRigidBody *rigid_body_attr = static_cast<EG::Game::ObjectAttributeControlRigidBody *>(*attr_iter);
if (!(rigid_body_attr->GetConnected())){
physics->AddRigidBody(rigid_body_attr->GetBody());
rigid_body_attr->SetConnected(true);
}
if (!(p->Alive())){
physics->RemoveRigidBody(rigid_body_attr->GetBody());
}
// TODO: Get Motion State From Physics
EG::Dynamics::RigidBody *body = rigid_body_attr->GetBody();
motion_state = body->GetMotionState();
has_physics = true;
++attr_iter;
}
}
if (has_physics && p->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION)){
std::vector<EG::Game::ObjectAttribute *> *attrs = p->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
while (attr_iter != attrs->end()){
EG::Game::ObjectAttributeBasicTransformation *trans_attr = static_cast<EG::Game::ObjectAttributeBasicTransformation *>(*attr_iter);
glm::mat4 t = trans_attr->GetTransformation();
glm::vec3 p(t[3][0], t[3][1], t[3][2]);
glm::vec3 c = scene->GetCurrentCamera()->GetPosition();
float distance = glm::distance(p, c);
trans_attr->SetTransformation(motion_state);
++attr_iter;
}
}
++piter;
}
pattr->GetParticleSystem()->Update(time->GetFrameTime());
++attr_iter;
}
}
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_ANIMATION)) {
EG::Dynamics::AnimationState *animations = (static_cast<EG::Game::ObjectAttributeControlAnimationState *>(object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_ANIMATION)->at(0)))->GetAnimationState();
animations->Update(time->GetFrameTime());
}
bool has_physics = false;
glm::mat4 motion_state;
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_RIGID_BODY)){
std::vector<EG::Game::ObjectAttribute *> *attrs = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_CONTROL_RIGID_BODY);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
while (attr_iter != attrs->end()){
EG::Game::ObjectAttributeControlRigidBody *rigid_body_attr = static_cast<EG::Game::ObjectAttributeControlRigidBody *>(*attr_iter);
if (!(rigid_body_attr->GetConnected())){
physics->AddRigidBody(rigid_body_attr->GetBody());
rigid_body_attr->SetConnected(true);
}
// TODO: Get Motion State From Physics
EG::Dynamics::RigidBody *body = rigid_body_attr->GetBody();
motion_state = body->GetMotionState();
has_physics = true;
++attr_iter;
}
}
if (has_physics && object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION)){
std::vector<EG::Game::ObjectAttribute *> *attrs = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
while (attr_iter != attrs->end()){
EG::Game::ObjectAttributeBasicTransformation *trans_attr = static_cast<EG::Game::ObjectAttributeBasicTransformation *>(*attr_iter);
trans_attr->SetTransformation(motion_state);
++attr_iter;
}
}
std::vector<EG::Game::ObjectScript *> *scripts = object->GetScripts();
std::vector<EG::Game::ObjectScript *>::iterator script_iter = scripts->begin();
while (script_iter != scripts->end()) {
EG::Game::ObjectScript *script = (*script_iter);
EG::Game::ObjectScript::object = object;
script->Run();
++script_iter;
}
++object_iter;
}
}
std::string SaveMaterialListener::Call(std::map<std::string, std::string> args) {
std::string object_id = EG::Utility::StringMethods::ConvertURI(args["object_id"]);
std::string mesh_id = EG::Utility::StringMethods::ConvertURI(args["id"]);
EG::Game::Object *object = scene->GetObjectManager()->GetObjectByName(object_id);
if (object && object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH)) {
std::vector<EG::Game::ObjectAttribute *> *attrs = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attrs->begin();
EG::Graphics::RenderingMaterial *material;
bool found = false;
while (attr_iter != attrs->end()) {
EG::Game::ObjectAttributeRenderingMesh *attr = static_cast<EG::Game::ObjectAttributeRenderingMesh *>((*attr_iter));
if (attr->GetMeshId() == mesh_id) {
found = true;
material = attr->GetMaterial();
break;
}
++attr_iter;
}
if (found) {
// Color
std::string color_string = EG::Utility::StringMethods::SearchAndReplace(args["color"], "%2C", " ");
float *color_floats = EG::Utility::StringMethods::ConvertStringToFloatArray(color_string);
glm::vec4 color = glm::vec4(color_floats[0], color_floats[1], color_floats[2], color_floats[3]);
material->SetColor(color);
// Is Lit
if (args["lit"] == "true") {
material->SetLit(true);
} else {
material->SetLit(false);
}
// Is Translucent
if (args["translucent"] == "true") {
material->SetTranslucent(true);
} else {
material->SetTranslucent(false);
}
// Casts Shadows
if (args["casts_shadows"] == "true") {
material->SetCastsShadows(true);
} else {
material->SetCastsShadows(false);
}
// Specular Scalar
float specular_scalar = EG::Utility::StringMethods::ConvertStringToFloatArray(args["specular_scalar"])[0];
material->SetSpecular(specular_scalar);
// Decal
std::string decal = EG::Utility::StringMethods::ConvertURI(args["decal"]);
if (decal == "") {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_DECAL, "default_decal");
} else {
if (!(scene->GetTextureManager()->HasTexture(decal))) {
scene->GetTextureManager()->AddTexture(decal, new EG::Graphics::Texture(decal));
}
if (material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_DECAL) != decal) {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_DECAL, decal);
}
}
// Normal
std::string normal = EG::Utility::StringMethods::ConvertURI(args["normal"]);
if (normal == "") {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_NORMAL, "default_normal");
} else {
if (!(scene->GetTextureManager()->HasTexture(normal))) {
scene->GetTextureManager()->AddTexture(normal, new EG::Graphics::Texture(normal));
}
if (material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_NORMAL) != normal) {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_NORMAL, normal);
}
}
// Height
std::string height = EG::Utility::StringMethods::ConvertURI(args["height"]);
if (height == "") {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_HEIGHT, "default_height");
} else {
if (!(scene->GetTextureManager()->HasTexture(height))) {
scene->GetTextureManager()->AddTexture(height, new EG::Graphics::Texture(height));
}
if (material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_HEIGHT) != height) {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_HEIGHT, height);
}
}
// Specular
std::string specular = EG::Utility::StringMethods::ConvertURI(args["specular"]);
if (specular == "") {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_SPECULAR, "default_specular");
} else {
if (!(scene->GetTextureManager()->HasTexture(specular))) {
scene->GetTextureManager()->AddTexture(specular, new EG::Graphics::Texture(specular));
}
if (material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_SPECULAR) != specular) {
material->SetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_SPECULAR, specular);
}
}
}
}
return "{\"status\": true}";
}
void Editor::PickObject(glm::vec2 mouse_position) {
EG::Graphics::Camera *c = scene->GetCurrentCamera();
glm::vec3 begin = c->GetPosition();
glm::vec3 dir = EG::Math::Utility::ProjectClick(glm::vec2(graphics->GetViewportWidth(), graphics->GetViewportHeight()),
mouse_position, scene->GetCurrentCamera()->GetNearFar().y,
c->GetPosition(), c->GetViewMatrix(), c->GetProjectionMatrix());
EG::Graphics::MeshManager *meshes = scene->GetMeshManager();
bool object_picked = false;
glm::mat4 multiplied_trans;
glm::vec3 *box;
EG::Game::Object *object;
for (std::pair<unsigned int, EG::Game::Object *> object_pair : *(scene->GetObjectManager()->GetObjects())) {
unsigned int object_id = object_pair.first;
object = object_pair.second;
if (object->GetObjectId() == selection_box->GetObjectId()) {
continue;
}
glm::mat4 trans = glm::mat4(1.0f);
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION)) {
std::vector<EG::Game::ObjectAttribute *> *tattrs = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION);
EG::Game::ObjectAttribute *tattr = (*tattrs)[0];
trans = (static_cast<EG::Game::ObjectAttributeBasicTransformation *>(&(tattr[0])))->GetTransformation();
}
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH)) {
std::vector<EG::Game::ObjectAttribute *> *attributes = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH);
std::vector<EG::Game::ObjectAttribute *>::iterator attr_iter = attributes->begin();
while (attr_iter != attributes->end()) {
EG::Game::ObjectAttributeRenderingMesh *mattr = (static_cast<EG::Game::ObjectAttributeRenderingMesh *>(*attr_iter));
EG::Graphics::Mesh *mesh = meshes->Get(mattr->GetMeshId());
box = mesh->GetBoundingBox();
multiplied_trans = trans * mattr->GetOffset();
object_picked = EG::Math::Utility::RayAABBTest(begin, dir, box[0], box[1], multiplied_trans);
if (object_picked) {
break;
}
++attr_iter;
}
}
if (object_picked) {
break;
}
}
if (object_picked) {
std::stringstream out;
out << "Object Picked: " << object->GetObjectName();
console->Print(out.str());
std::stringstream script;
script << "main_view.tools.select_object(\"" << object->GetObjectName() << "\");";
gui->ExecuteScript(script.str().c_str());
object_selected = true;
selected_object_id = object->GetObjectId();
glm::vec4 box_min = glm::vec4(box[0].x, box[0].y, box[0].z, 1.0f);
glm::vec4 box_max = glm::vec4(box[1].x, box[1].y, box[1].z, 1.0f);
box_min = multiplied_trans * box_min;
box_max = multiplied_trans * box_max;
glm::vec4 box_diff = box_max - box_min;
glm::vec4 position = ((box_max + box_min) / 2.0f) - (box_diff / 2.0f);
glm::vec3 scaling = glm::vec3(box_diff.x, box_diff.y, box_diff.z) + glm::vec3(0.1f, 0.1f, 0.1f);
glm::mat4 new_trans = EG::Math::Utility::GenerateTransform(glm::vec3(position.x, position.y, position.z), scaling);
std::vector<EG::Game::ObjectAttribute *> *tattrs = selection_box->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_BASIC_TRANSFORMATION);
EG::Game::ObjectAttribute *tattr = (*tattrs)[0];
(static_cast<EG::Game::ObjectAttributeBasicTransformation *>(&(tattr[0])))->SetTransformation(new_trans);
}
}
std::string ReadObjectsListener::Call(std::map<std::string, std::string> args) {
std::stringstream out;
out << "[";
bool first = true;
for (std::pair<unsigned int, EG::Game::Object *> object_pair : *(scene->GetObjectManager()->GetObjects())) {
EG::Game::Object *object = object_pair.second;
if (first) {
first = false;
} else {
out << ",";
}
out << "{\"id\": \"" << object->GetObjectName() << "\", ";
out << "\"record_id\": " << object->GetObjectId();
if (object->HasAttributesOfType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH)) {
out << ", \"materials\": [";
std::vector<EG::Game::ObjectAttribute *> *material_attributes = object->GetAttributesByType(EG::Game::ObjectAttribute::OBJECT_ATTRIBUTE_RENDERING_MESH);
std::vector<EG::Game::ObjectAttribute *>::iterator material_iter = material_attributes->begin();
while (material_iter != material_attributes->end()) {
EG::Game::ObjectAttributeRenderingMesh *material_attribute = static_cast<EG::Game::ObjectAttributeRenderingMesh *>(*material_iter);
EG::Graphics::RenderingMaterial *material = material_attribute->GetMaterial();
// Mesh Id
out << "{\"id\": \"" << material_attribute->GetMeshId() << "\"";
// Color
glm::vec4 c = material->GetColor();
out << ",\"color\": [" << c.x << ", " << c.y << ", " << c.z << ", " << c.w << "]";
// Specular
out << ",\"specular\": " << material->GetSpecular();
// Decal
out << ",\"decal\": \"";
if (material->HasTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_DECAL)){
out << scene->GetTextureManager()->GetTexture(material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_DECAL))->GetFilePath();
}
out << "\"";
// Normal
out << ",\"normal\": \"";
if (material->HasTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_NORMAL)){
out << scene->GetTextureManager()->GetTexture(material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_NORMAL))->GetFilePath();
}
out << "\"";
// Height
out << ",\"height\": \"";
if (material->HasTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_HEIGHT)){
out << scene->GetTextureManager()->GetTexture(material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_HEIGHT))->GetFilePath();
}
out << "\"";
// Specular
out << ",\"specular\": \"";
if (material->HasTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_SPECULAR)){
out << scene->GetTextureManager()->GetTexture(material->GetTexture(EG::Graphics::RenderingMaterial::RENDERING_MATERIAL_TEXTURE_SPECULAR))->GetFilePath();
}
out << "\"";
// Material Specularity
out << ",\"specular_scalar\": " << material->GetSpecular();
// Casts Shadows
out << ",\"casts_shadows\": " << (material->GetCastsShadows() ? "true" : "false");
// Lit
out << ",\"lit\": " << (material->GetLit() ? "true" : "false");
// Translucent
out << ",\"translucent\": " << (material->GetTranslucent() ? "true" : "false");
// Fin
out << "}";
++material_iter;
}
out << "]";
}
out << "}";
}
out << "]";
//std::cout << out.str() << std::endl;
return out.str().c_str();
}
