Esempi in C++ (Cpp) per Anglef

Esempio n. 1

File: Spells05.cpp Progetto: carriercomm/ArxLibertatis

void CLevitate::AddStone(const Vec3f & pos) {
	
	if(arxtime.is_paused() || nbstone > 255) {
		return;
	}
	
	int nb = 256;
	while(nb--) {
		if(!tstone[nb].actif) {
			nbstone++;
			
			T_STONE stone;
			stone.actif = 1;
			stone.numstone = rand() & 1;
			stone.pos = pos;
			stone.yvel = rnd() * -5.f;
			stone.ang = Anglef(rnd(), rnd(), rnd()) * Anglef(360.f, 360.f, 360.f);
			stone.angvel = Anglef(rnd(), rnd(), rnd()) * Anglef(5.f, 6.f, 3.f);
			stone.scale = Vec3f(0.2f + rnd() * 0.3f);
			stone.time = Random::get(2000, 2500);
			stone.currtime = 0;
			
			tstone[nb] = stone;
			break;
		}
	}
}

Esempio n. 2

File: Cinematic.cpp Progetto: zhaozw/ArxLibertatis

/* Reinit */
void Cinematic::OneTimeSceneReInit() {
	
	m_camera.size = Anglef(160.f, 60.f, 60.f);
	m_camera.orgTrans.pos = Vec3f(900.f, -160.f, 4340.f);
	m_camera.angle = Anglef(3.f, 268.f, 0.f);
	m_camera.clip = Rect(LargeurRender, HauteurRender);
	m_camera.center = m_camera.clip.center();
	m_camera.focal = 350.f;
	m_camera.bkgcolor = Color::none;
	m_camera.cdepth = 2500.f;
	
	numbitmap = -1;
	numbitmapsuiv = -1;
	fx = -1;
	changekey = true;
	idsound = -1;
	key = NULL;
	
	projectload = false;
	
	DeleteAllBitmap();
	DeleteAllSound();
	
	DeleteTrack();
	
	FlashBlancEnCours = false;
	
	m_flIntensityRND = 0.f;
	
}

Esempio n. 3

File: Spells04.cpp Progetto: HerculesCE/ArxLibertatis

void CCurse::Render() {
	
	RenderMaterial mat;
	mat.setCulling(Renderer::CullCW);
	mat.setDepthTest(true);
	mat.setBlendType(RenderMaterial::Opaque);
	
		Anglef stiteangle = Anglef(0, fRot, 0);
		Vec3f stitepos = eTarget;
		Vec3f stitescale = Vec3f_ONE;
		Color3f stitecolor = Color3f::white;
		Draw3DObject(svoodoo, stiteangle, stitepos, stitescale, stitecolor, mat);
	
	for(int i = 0; i < 4; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		pd->ov = eTarget;
		pd->move = Vec3f(2.f * frand2(), rnd() * -10.f - 10.f, 2.f * frand2());
		pd->siz = 0.015f;
		pd->tolive = Random::get(1000, 1600);
		pd->tc = tex_p1;
		pd->special = ROTATING | MODULATE_ROTATION | DISSIPATING | SUBSTRACT | GRAVITY;
		pd->fparam = 0.0000001f;
	}
}

Esempio n. 4

File: Spells04.cpp Progetto: Eli2/ArxLibertatis

float CCurse::Render() {
	
	GRenderer->SetCulling(Renderer::CullCW);
	GRenderer->SetRenderState(Renderer::DepthWrite, true);
	GRenderer->SetRenderState(Renderer::AlphaBlending, false);
	
	if(svoodoo) {
		Anglef stiteangle = Anglef(fRot, 0, 0);
		Vec3f stitepos = eTarget;
		Vec3f stitescale = Vec3f::ONE;
		Color3f stitecolor = Color3f::white;
		DrawEERIEObjEx(svoodoo , &stiteangle, &stitepos, &stitescale, &stitecolor);
	}
	
	for(int i = 0; i < 4; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		pd->ov = eTarget;
		pd->move = Vec3f(2.f * frand2(), rnd() * -10.f - 10.f, 2.f * frand2());
		pd->siz = 0.015f;
		pd->tolive = Random::get(1000, 1600);
		pd->tc = tex_p1;
		pd->special = ROTATING | MODULATE_ROTATION | DISSIPATING | SUBSTRACT | GRAVITY;
		pd->fparam = 0.0000001f;
	}
	
	return 1;
}

Esempio n. 5

File: GraphicsUtilityTest.cpp Progetto: AlexMarlo/ArxLibertatis

void GraphicsUtilityTest::front() {
	transform.pos = Vec3f(0.f, 0.f, 0.f);
	transform.updateFromAngle(Anglef(0.f, 0.f, 0.f));
	Util_SetViewMatrix(matrix, transform);
	expected.setToIdentity();
	CPPUNIT_ASSERT_EQUAL(expected, matrix);
}

Esempio n. 6

File: GraphicsUtilityTest.cpp Progetto: AlexMarlo/ArxLibertatis

void GraphicsUtilityTest::back() {
	transform.updateFromAngle(Anglef(180.f, 180.f, 0.f));
	Util_SetViewMatrix(matrix, transform);
	expected.setToIdentity();
	expected._12 = 7.64274186e-15f;
	expected._13 = -8.74227766e-08f;
	expected._23 = 8.74227766e-08f;
	expected._31 = 8.74227766e-08f;
	expected._32 = -8.74227766e-08f;
	CPPUNIT_ASSERT_EQUAL(expected, matrix);
}

Esempio n. 7

File: GraphicsUtilityTest.cpp Progetto: AlexMarlo/ArxLibertatis

void GraphicsUtilityTest::translation()
{
	transform.pos = Vec3f(10.f, 200.f, 3000.f);
	transform.updateFromAngle(Anglef(0.f, 0.f, 0.f));
	Util_SetViewMatrix(matrix, transform);
	expected.setToIdentity();
	expected._41 = -10;
	expected._42 = 200;
	expected._43 = -3000;
	CPPUNIT_ASSERT_EQUAL(expected, matrix);
}

Esempio n. 8

File: Math.cpp Progetto: Gladius1/ArxLibertatis

std::pair<Vec3f, Vec3f> angleToFrontUpVec(const Anglef & angle) {
	
	Vec3f front = angleToVector(angle);
	Vec3f up = angleToVector(angle + Anglef(90.f, 0, 0));
	
	arx_assert(glm::abs(glm::dot(front, up)) < 5.f * std::numeric_limits<float>::epsilon(),
	           "front=(%f,%f,%f) and up=(%f,%f,%f) should be orthogonal; dot=%1f*epsilon",
	           double(front.x), double(front.y), double(front.z),
	           double(up.x), double(up.y), double(up.z),
	           double(glm::dot(front, up) / std::numeric_limits<float>::epsilon()));
	
	return std::make_pair(front, up);
}

Esempio n. 9

File: Spells05.cpp Progetto: Eli2/ArxLibertatis

void CLevitate::AddStone(Vec3f * pos) {
	
	if(arxtime.is_paused() || nbstone > 255) {
		return;
	}
	
	int nb = 256;
	while(nb--) {
		if(!tstone[nb].actif) {
			nbstone++;
			tstone[nb].actif = 1;
			tstone[nb].numstone = rand() & 1;
			tstone[nb].pos = *pos;
			tstone[nb].yvel = rnd() * -5.f;
			tstone[nb].ang = Anglef(rnd() * 360.f, rnd() * 360.f, rnd() * 360.f);
			tstone[nb].angvel = Anglef(5.f * rnd(), 6.f * rnd(), 3.f * rnd());
			tstone[nb].scale = Vec3f::repeat(0.2f + rnd() * 0.3f);
			tstone[nb].time = Random::get(2000, 2500);
			tstone[nb].currtime = 0;
			break;
		}
	}
}

Esempio n. 10

File: GraphicsUtilityTest.cpp Progetto: AlexMarlo/ArxLibertatis

void GraphicsUtilityTest::edgeCase2()
{
	transform.updateFromAngle(Anglef(-90.f, -90.f, 0.f));
	Util_SetViewMatrix(matrix, transform);
	expected.setToIdentity();
	expected._11 = -1.f;
	expected._12 = 8.35187172e-23f;
	expected._13 = -4.37113883e-08f;
	expected._21 = -4.37113883e-08f;
	expected._22 = -1.91068547e-15f;
	expected._23 = 1.f;
	expected._32 = 1.f;
	expected._33 = 1.91068547e-15f;
	CPPUNIT_ASSERT_EQUAL(expected, matrix);
}

Esempio n. 11

File: Cinematic.cpp Progetto: temojin/ArxLibertatis

/* Reinit */
void Cinematic::OneTimeSceneReInit() {
	
	Camera.size = Anglef(160.f, 60.f, 60.f);
	Camera.pos.x = 900.f;
	Camera.pos.y = -160.f;
	Camera.pos.z = 4340.f;
	Camera.angle.a = 3.f;
	Camera.angle.b = 268.f;
	Camera.angle.g = 0.f;
	Camera.clip.left = 0;
	Camera.clip.top = 0;
	Camera.clip.right = LargeurRender;
	Camera.clip.bottom = HauteurRender;
	Camera.clipz0 = 0.f;
	Camera.clipz1 = 2.999f;
	Camera.centerx = LargeurRender / 2;
	Camera.centery = HauteurRender / 2;
	Camera.AddX = 320.f;
	Camera.AddY = 240.f;
	Camera.focal = 350.f;
	Camera.Zdiv = 3000.f;
	Camera.Zmul = 1.f / Camera.Zdiv;
	Camera.clip3D = 60;
	Camera.type = CAM_SUBJVIEW;
	Camera.bkgcolor = Color::none;
	
	numbitmap = -1;
	numbitmapsuiv = -1;
	fx = -1;
	changekey = true;
	idsound = -1;
	key = NULL;
	
	projectload = false;
	
	DeleteAllBitmap();
	DeleteAllSound();
	
	DeleteTrack();
	
	FlashBlancEnCours = false;
	
	m_flIntensityRND = 0.f;
	
}

Esempio n. 12

File: SpellsLvl04.cpp Progetto: BSzili/ArxLibertatis

void CurseSpell::Update() {
	
	fRot += g_gameTime.lastFrameDuration() / GameDurationMs(4);
	
	Vec3f target = Vec3f_ZERO;
	
	Entity * targetIo = entities.get(m_target);
	if(targetIo) {
		target = targetIo->pos;

		if(m_target == EntityHandle_Player)
			target.y -= 200.f;
		else
			target.y += targetIo->physics.cyl.height - 30.f;
	}
	m_pos = target;
	
	RenderMaterial mat;
	mat.setCulling(CullCW);
	mat.setDepthTest(true);
	mat.setBlendType(RenderMaterial::Opaque);
	
	Draw3DObject(svoodoo, Anglef(0, fRot, 0), m_pos, Vec3f_ONE, Color3f::white, mat);
	
	for(int i = 0; i < 4; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		pd->ov = m_pos;
		pd->move = arx::linearRand(Vec3f(-2.f, -20.f, -2.f), Vec3f(2.f, -10.f, 2.f));
		pd->siz = 0.015f;
		pd->tolive = Random::getu(1000, 1600);
		pd->tc = tex_p1;
		pd->m_flags = ROTATING | DISSIPATING | SUBSTRACT | GRAVITY;
		pd->m_rotation = 0.0000001f;
	}
}

Esempio n. 13

File: DrawDebug.cpp Progetto: grimtraveller/ArxLibertatis

static void drawDebugFogs() {
	
	RenderMaterial mat;
	mat.setBlendType(RenderMaterial::Opaque);
	mat.setDepthTest(true);
	
	for(size_t i = 0; i < MAX_FOG; i++) {
		const FOG_DEF & fog = fogs[i];
		
		if(!fog.exist) {
			continue;
		}
		
		Draw3DObject(g_fogObject, Anglef(0.f, 0.f, 0.f), fog.pos, Vec3f(1.f), Color3f::white, mat);
		
		if(fog.special & FOG_DIRECTIONAL) {
			drawLine(fog.pos, fog.pos + fog.move * 50.f, Color::white);
		}
		
		drawLineSphere(Sphere(fog.pos, fog.size), Color(Color3<u8>::blue, 200));
	}
}

Esempio n. 14

File: SpellsLvl04.cpp Progetto: Batora07/ArxLibertatis

void CurseSpell::Update(float timeDelta) {
	
	fRot += timeDelta * 0.25f;
	
	Vec3f target = Vec3f_ZERO;
	if(ValidIONum(m_target)) {
		target = entities[m_target]->pos;

		if(m_target == PlayerEntityHandle)
			target.y -= 200.f;
		else
			target.y += entities[m_target]->physics.cyl.height - 30.f;
	}
	m_pos = target;
	
	RenderMaterial mat;
	mat.setCulling(Renderer::CullCW);
	mat.setDepthTest(true);
	mat.setBlendType(RenderMaterial::Opaque);
	
	Draw3DObject(svoodoo, Anglef(0, fRot, 0), m_pos, Vec3f_ONE, Color3f::white, mat);
	
	for(int i = 0; i < 4; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		pd->ov = m_pos;
		pd->move = Vec3f(2.f * frand2(), rnd() * -10.f - 10.f, 2.f * frand2());
		pd->siz = 0.015f;
		pd->tolive = Random::get(1000, 1600);
		pd->tc = tex_p1;
		pd->special = ROTATING | MODULATE_ROTATION | DISSIPATING | SUBSTRACT | GRAVITY;
		pd->fparam = 0.0000001f;
	}
}

Esempio n. 15

File: GraphicsUtilityTest.cpp Progetto: AlexMarlo/ArxLibertatis

void GraphicsUtilityTest::combined()
{
	transform.pos = Vec3f(10.f, 200.f, 3000.f);
	transform.updateFromAngle(Anglef(45.f, -45.f, 0.f));
	Util_SetViewMatrix(matrix, transform);
	expected._11 = 0.707106709f;
	expected._12 = 0.5f;
	expected._13 = 0.5f;
	expected._14 = 0.f;
	expected._21 = 1.49011612e-08f;
	expected._22 = 0.707106769f;
	expected._23 = -0.707106769f;
	expected._24 = 0.f;
	expected._31 = -0.707106769f;
	expected._32 = 0.5f;
	expected._33 = 0.5f;
	expected._34 = 0.f;
	expected._41 = 2114.24927f;
	expected._42 = -1363.57849f;
	expected._43 = -1646.42126f;
	expected._44 = 1.f;
	CPPUNIT_ASSERT_EQUAL(expected, matrix);
}

Esempio n. 16

File: Necklace.cpp Progetto: bsxf-47/ArxLibertatis

void ARX_INTERFACE_ManageOpenedBook_Finish(const Vec2f & mousePos, Rectf rect, float scale)
{
	
	RenderState baseState = render3D().depthTest(false).fog(false);
	
	Vec3f pos = Vec3f(0.f, 0.f, 2100.f);
	
	EERIE_LIGHT * light = lightHandleGet(torchLightHandle);
	
	EERIE_LIGHT tl = *light;
	
	light->pos = Vec3f(500.f, -1960.f, 1590.f);
	light->m_exists = true;
	light->rgb = Color3f(0.6f, 0.7f, 0.9f);
	light->intensity = 1.8f;
	light->fallstart = 4520.f;
	light->fallend = light->fallstart + 600.f;
	RecalcLight(light);
	
	Camera * oldcam = g_camera;
	
	g_culledDynamicLights[0] = light;
	g_culledDynamicLightsCount = 1;
	
	Vec2i tmpPos(0);
	
	GRenderer->SetAntialiasing(true);
	
	float wave = timeWaveSin(g_platformTime.frameStart(), PlatformDurationMsf(1256.6370614f));
	float ptDelta = toMs(g_platformTime.lastFrameDuration());
	
	Camera bookcam;
	bookcam.angle = Anglef();
	bookcam.m_pos = Vec3f(0.f);
	bookcam.focal = 500.f;
	bookcam.cdepth = 2200.f;
	
	for(size_t i = 0; i < RUNE_COUNT; i++) {
		if(!gui::necklace.runes[i])
			continue;
		
		EERIE_3DOBJ * rune = gui::necklace.runes[i];
		
		Vec2i projectionCenter = Vec2i(rect.topLeft() + (Vec2f(285, 36) + Vec2f(tmpPos) * Vec2f(45, 64)) * scale);
		
		PrepareCamera(&bookcam, Rect(rect), projectionCenter);
		
		if(player.hasRune((Rune)i)) {
			
			Anglef angle;
			if(rune->angle.getYaw() != 0.f) {
				if(rune->angle.getYaw() > 300.f) {
					rune->angle.setYaw(300.f);
				}
				angle.setYaw(wave * rune->angle.getYaw() * (1.0f / 40));
			}
			
			rune->angle.setYaw(rune->angle.getYaw() - ptDelta * 0.2f);
			
			if(rune->angle.getYaw() < 0.f)
				rune->angle.setYaw(0.f);
			
			// Now draw the rune
			TransformInfo t2(pos, glm::quat_cast(toRotationMatrix(angle)));
			DrawEERIEInter(rune, t2, NULL, false, 0.f);
			
			Rectf runeBox = UpdateBbox2d(*rune).toRect();
			
			PopAllTriangleListOpaque(baseState);
			
			tmpPos.x++;
			
			if(tmpPos.x > 4) {
				tmpPos.x = 0;
				tmpPos.y++;
			}
			
			// TODO this is a workaround for vertexClipPositions being relative to viewport
			Vec2f mousePosInViewport = mousePos - rect.topLeft();
			
			// Checks for Mouse floating over a rune...
			if(runeBox.contains(mousePosInViewport)) {
				bool r = false;
				
				for(size_t j = 0; j < rune->facelist.size(); j++) {
					float n = PtIn2DPolyProj(rune->vertexClipPositions, &rune->facelist[j], mousePosInViewport.x, mousePosInViewport.y);
					if(n != 0.f) {
						r = true;
						break;
					}
				}
				
				if(r) {
					
					TransformInfo t(pos, glm::quat_cast(toRotationMatrix(angle)));
					DrawEERIEInter(rune, t, NULL, false, 0.f);
					
					rune->angle.setYaw(rune->angle.getYaw() + ptDelta * 2.f);
					
					PopAllTriangleListOpaque(baseState.blendAdditive());
					
					cursorSetInteraction();
					
					if(eeMouseDown1()) {
						PlayerBookDrawRune((Rune)i);
					}
				}
			}
			
			TransformInfo t1(pos, quat_identity());
			DrawEERIEInter(gui::necklace.lacet, t1, NULL, false, 0.f);
			
			PopAllTriangleListOpaque(baseState);
		}
	}
	
	*light = tl;
	
	PrepareCamera(oldcam, g_size);
	
	GRenderer->SetAntialiasing(false);
	
}

Esempio n. 17

File: SpellsLvl07.cpp Progetto: Dimoks/ArxLibertatis_fork

void ConfuseSpell::Update() {
	
	Vec3f pos = entities[m_target]->pos;
	if(m_target != EntityHandle_Player) {
		pos.y += entities[m_target]->physics.cyl.height - 30.f;
	}
	
	ObjVertHandle idx = entities[m_target]->obj->fastaccess.head_group_origin;
	if(idx != ObjVertHandle()) {
		pos = entities[m_target]->obj->vertexlist3[idx.handleData()].v;
		pos.y -= 50.f;
	}
	
	eCurPos = pos;
	
	RenderMaterial mat;
	mat.setDepthTest(false);
	mat.setBlendType(RenderMaterial::Additive);
	mat.setTexture(tex_trail);
	
	Anglef stiteangle = Anglef(0.f, -glm::degrees(arxtime.now_f() * ( 1.0f / 500 )), 0.f);
	
	{
		AnimationDuration delta = AnimationDurationUs(s64(g_framedelay * 1000.f));
		EERIEDrawAnimQuatUpdate(spapi, animlayer, stiteangle, eCurPos, delta, NULL, false);
		EERIEDrawAnimQuatRender(spapi, eCurPos, NULL, 0.f);
	}
	
	for(int i = 0; i < 6; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		Vec2f p = glm::diskRand(15.f);
		pd->ov = eCurPos + Vec3f(p.x, 0.f, p.y);
		
		pd->move = Vec3f(0.f, Random::getf(1.f, 4.f), 0.f);
		pd->siz = 0.25f;
		pd->tolive = Random::getu(2300, 3300);
		pd->tc = tex_p1;
		pd->m_flags = PARTICLE_GOLDRAIN | FADE_IN_AND_OUT | ROTATING | DISSIPATING;
		pd->m_rotation = 0.0000001f;
		
		Color3f baseColor = Color3f(0.4f, 0.2f, 0.4f);
		Color3f randomFactor = Color3f(0.4f, 0.6f, 0.4f);
		Color3f c = baseColor + randomColor3f() * randomFactor;
		while(glm::abs(c.r - c.g) > 0.3f && glm::abs(c.g - c.b) > 0.3f) {
			c = baseColor + randomColor3f() * randomFactor;
		}
		pd->rgb = c * Color3f(0.8f, 0.8f, 0.8f);
	}
	
	EERIE_LIGHT * light = dynLightCreate(m_light);
	if(light) {
		light->intensity = 1.3f;
		light->fallstart = 180.f;
		light->fallend   = 420.f;
		light->rgb = Color3f(0.3f, 0.3f, 0.5f) + Color3f(0.2f, 0.f, 0.2f) * randomColor3f();
		light->pos = eCurPos;
		light->duration = ArxDurationMs(200);
		light->extras = 0;
	}
}

Esempio n. 18

void AddFlare(const Vec2f & pos, float sm, short typ, Entity * io, bool bookDraw) {
	
	size_t oldest = 0;
	size_t i;
	for(i = 0; i < g_magicFlaresMax; i++) {
		if(!g_magicFlares[i].exist) {
			break;
		}
		if(g_magicFlares[i].tolive < g_magicFlares[oldest].tolive) {
			oldest = i;
		}
	}
	if(i >= g_magicFlaresMax) {
		removeFlare(g_magicFlares[oldest]);
		i = oldest;
	}

	MagicFlare & flare = g_magicFlares[i];
	flare.exist = 1;
	g_magicFlaresCount++;

	if(!bookDraw)
		flare.bDrawBitmap = 0;
	else
		flare.bDrawBitmap = 1;

	flare.io = io;
	if(io) {
		flare.flags = 1;
		io->flarecount++;
	} else {
		flare.flags = 0;
	}

	flare.pos.x = pos.x - Random::getf(0.f, 4.f);
	flare.pos.y = pos.y - Random::getf(0.f, 4.f) - 50.f;
	flare.tv.rhw = flare.v.rhw = 1.f;

	if(!bookDraw) {
		EERIE_CAMERA ka = *g_magicFlareCamera;
		ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
		EERIE_CAMERA * oldcam = ACTIVECAM;
		SetActiveCamera(&ka);
		PrepareCamera(&ka, g_size);
		flare.v.p += ka.orgTrans.pos;
		EE_RTP(flare.tv.p, flare.v);
		flare.v.p += ka.orgTrans.pos;

		float vx = -(flare.pos.x - subj.center.x) * 0.2173913f;
		float vy = (flare.pos.y - subj.center.y) * 0.1515151515151515f;
		if(io) {
			flare.v.p = io->pos;
			flare.v.p += angleToVectorXZ(io->angle.getYaw() + vx) * 100.f;
			flare.v.p.y += std::sin(glm::radians(MAKEANGLE(io->angle.getPitch() + vy))) * 100.f - 150.f;
		} else {
			flare.v.p.x = 1.0f  * float(pos.x - (g_size.width()  / 2)) * 156.f / (640.f * g_sizeRatio.y);
			flare.v.p.y = 0.75f * float(pos.y - (g_size.height() / 2)) * 156.f / (480.f * g_sizeRatio.y);
			flare.v.p.z = 75.f;
			ka = *oldcam;
			SetActiveCamera(&ka);
			PrepareCamera(&ka, g_size);
			float temp = (flare.v.p.y * -ka.orgTrans.xsin) + (flare.v.p.z * ka.orgTrans.xcos);
			flare.v.p.y = (flare.v.p.y * ka.orgTrans.xcos) - (-flare.v.p.z * ka.orgTrans.xsin);
			flare.v.p.z = (temp * ka.orgTrans.ycos) - (-flare.v.p.x * ka.orgTrans.ysin);
			flare.v.p.x = (temp * -ka.orgTrans.ysin) + (flare.v.p.x * ka.orgTrans.ycos);
			flare.v.p += oldcam->orgTrans.pos;
		}
		flare.tv.p = flare.v.p;
		SetActiveCamera(oldcam);
		PrepareCamera(oldcam, g_size);
	} else {
		flare.tv.p = Vec3f(flare.pos.x, flare.pos.y, 0.001f);
	}

	switch(g_magicFlareCurrentColor) {
		case 0: {
			flare.rgb = Color3f(.4f, 0.f, .4f) + Color3f(2.f/3, 2.f/3, 2.f/3) * randomColor3f();
			break;
		}
		case 1: {
			flare.rgb = Color3f(.5f, .5f, 0.f) + Color3f(.625f, .625f, .55f) * randomColor3f();
			break;
		}
		case 2: {
			flare.rgb = Color3f(.4f, 0.f, 0.f) + Color3f(2.f/3, .55f, .55f) * randomColor3f();
			break;
		}
	}
	
	static const float FLARE_MUL = 2.f;
	
	if(typ == -1) {
		float zz = eeMousePressed1() ? 0.29f : ((sm > 0.5f) ? Random::getf() : 1.f);
		if(zz < 0.2f) {
			flare.type = 2;
			flare.size = Random::getf(42.f, 84.f);
			flare.tolive = Random::getf(800.f, 1600.f) * FLARE_MUL;
		} else if(zz < 0.5f) {
			flare.type = 3;
			flare.size = Random::getf(16.f, 68.f);
			flare.tolive = Random::getf(800.f, 1600.f) * FLARE_MUL;
		} else {
			flare.type = 1;
			flare.size = Random::getf(32.f, 56.f) * sm;
			flare.tolive = Random::getf(1700.f, 2200.f) * FLARE_MUL;
		}
	} else {
		flare.type = (Random::getf() > 0.8f) ? 1 : 4;
		flare.size = Random::getf(64.f, 102.f) * sm;
		flare.tolive = Random::getf(1700.f, 2200.f) * FLARE_MUL;
	}

	flare.dynlight = LightHandle();

	for(unsigned int kk = 0; kk < 3; kk++) {

		if(Random::getf() < 0.5f) {
			continue;
		}

		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}

		if(!bookDraw) {
			pd->m_flags = FADE_IN_AND_OUT | ROTATING | DISSIPATING;
			if(!io) {
				pd->m_flags |= PARTICLE_NOZBUFFER;
			}
		} else {
			pd->m_flags = FADE_IN_AND_OUT;
		}

		pd->ov = flare.v.p + randomVec(-5.f, 5.f);
		pd->move = Vec3f(0.f, 5.f, 0.f);
		pd->scale = Vec3f(-2.f);
		pd->tolive = 1300 + kk * 100 + Random::getu(0, 800);
		pd->tc = fire2;
		if(kk == 1) {
			pd->move.y = 4.f;
			pd->siz = 1.5f;
		} else {
			pd->siz = Random::getf(1.f, 2.f);
		}
		pd->rgb = Color3f(flare.rgb.r * (2.f/3), flare.rgb.g * (2.f/3), flare.rgb.b * (2.f/3));
		pd->m_rotation = 1.2f;

		if(bookDraw)
			pd->is2D = true;
	}
}

Esempio n. 19

File: MagicFlare.cpp Progetto: Batora07/ArxLibertatis

void AddFlare(const Vec2s & pos, float sm, short typ, Entity * io, bool bookDraw) {
	
	int oldest = 0;
	size_t i;
	for(i = 0; i < MAX_FLARES; i++) {
		if(!magicFlares[i].exist) {
			break;
		}
		if(magicFlares[i].tolive < magicFlares[oldest].tolive) {
			oldest = i;
		}
	}
	if(i >= MAX_FLARES) {
		removeFlare(magicFlares[oldest]);
		i = oldest;
	}

	FLARES * fl = &magicFlares[i];
	fl->exist = 1;
	flarenum++;

	if(!bookDraw)
		fl->bDrawBitmap = 0;
	else
		fl->bDrawBitmap = 1;

	fl->io = io;
	if(io) {
		fl->flags = 1;
		io->flarecount++;
	} else {
		fl->flags = 0;
	}

	fl->pos.x = float(pos.x) - rnd() * 4.f;
	fl->pos.y = float(pos.y) - rnd() * 4.f - 50.f;
	fl->tv.rhw = fl->v.rhw = 1.f;

	if(!bookDraw) {
		EERIE_CAMERA ka = *Kam;
		ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
		EERIE_CAMERA * oldcam = ACTIVECAM;
		SetActiveCamera(&ka);
		PrepareCamera(&ka, g_size);
		fl->v.p += ka.orgTrans.pos;
		EE_RTP(fl->tv.p, &fl->v);
		fl->v.p += ka.orgTrans.pos;

		float vx = -(fl->pos.x - subj.center.x) * 0.2173913f;
		float vy = (fl->pos.y - subj.center.y) * 0.1515151515151515f;
		if(io) {
			fl->v.p = io->pos;
			fl->v.p += angleToVectorXZ(io->angle.getPitch() + vx) * 100.f;
			fl->v.p.y += std::sin(glm::radians(MAKEANGLE(io->angle.getYaw() + vy))) * 100.f - 150.f;
		} else {
			fl->v.p.x = 1.0f  * float(pos.x - (g_size.width()  / 2)) * 156.f / (640.f * g_sizeRatio.y);
			fl->v.p.y = 0.75f * float(pos.y - (g_size.height() / 2)) * 156.f / (480.f * g_sizeRatio.y);
			fl->v.p.z = 75.f;
			ka = *oldcam;
			SetActiveCamera(&ka);
			PrepareCamera(&ka, g_size);
			float temp = (fl->v.p.y * -ka.orgTrans.xsin) + (fl->v.p.z * ka.orgTrans.xcos);
			fl->v.p.y = (fl->v.p.y * ka.orgTrans.xcos) - (-fl->v.p.z * ka.orgTrans.xsin);
			fl->v.p.z = (temp * ka.orgTrans.ycos) - (-fl->v.p.x * ka.orgTrans.ysin);
			fl->v.p.x = (temp * -ka.orgTrans.ysin) + (fl->v.p.x * ka.orgTrans.ycos);
			fl->v.p += oldcam->orgTrans.pos;
		}
		fl->tv.p = fl->v.p;
		SetActiveCamera(oldcam);
		PrepareCamera(oldcam, g_size);
	} else {
		fl->tv.p = Vec3f(fl->pos.x, fl->pos.y, 0.001f);
	}

	switch(PIPOrgb) {
		case 0: {
			fl->rgb = Color3f(.4f, 0.f, .4f) + Color3f(2.f/3, 2.f/3, 2.f/3) * randomColor3f();
			break;
		}
		case 1: {
			fl->rgb = Color3f(.5f, .5f, 0.f) + Color3f(.625f, .625f, .55f) * randomColor3f();
			break;
		}
		case 2: {
			fl->rgb = Color3f(.4f, 0.f, 0.f) + Color3f(2.f/3, .55f, .55f) * randomColor3f();
			break;
		}
	}

	if(typ == -1) {
		float zz = eeMousePressed1() ? 0.29f : ((sm > 0.5f) ? rnd() : 1.f);
		if(zz < 0.2f) {
			fl->type = 2;
			fl->size = rnd() * 42.f + 42.f;
			fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
		} else if(zz < 0.5f) {
			fl->type = 3;
			fl->size = rnd() * 52.f + 16.f;
			fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
		} else {
			fl->type = 1;
			fl->size = (rnd() * 24.f + 32.f) * sm;
			fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
		}
	} else {
		fl->type = (rnd() > 0.8f) ? 1 : 4;
		fl->size = (rnd() * 38.f + 64.f) * sm;
		fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
	}

	fl->dynlight = LightHandle::Invalid;

	for(long kk = 0; kk < 3; kk++) {

		if(rnd() < 0.5f) {
			continue;
		}

		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}

		if(!bookDraw) {
			pd->special = FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION | DISSIPATING;
			if(!io) {
				pd->special |= PARTICLE_NOZBUFFER;
			}
		} else {
			pd->special = FADE_IN_AND_OUT;
		}

		pd->ov = fl->v.p + randomVec(-5.f, 5.f);
		pd->move = Vec3f(0.f, 5.f, 0.f);
		pd->scale = Vec3f(-2.f);
		pd->tolive = 1300 + kk * 100 + Random::get(0, 800);
		pd->tc = fire2;
		if(kk == 1) {
			pd->move.y = 4.f;
			pd->siz = 1.5f;
		} else {
			pd->siz = 1.f + rnd();
		}
		pd->rgb = Color3f(fl->rgb.r * (2.f/3), fl->rgb.g * (2.f/3), fl->rgb.b * (2.f/3));
		pd->fparam = 1.2f;

		if(bookDraw)
			pd->is2D = true;
	}
}

Esempio n. 20

File: SpellsLvl01.cpp Progetto: Dimoks/ArxLibertatis_fork

void MagicMissileSpell::Launch() {
	
	m_duration = ArxDurationMs(6000);
	
	m_hand_group = GetActionPointIdx(entities[m_caster]->obj, "primary_attach");
	
	if(m_hand_group != ActionPoint()) {
		Entity * caster = entities[m_caster];
		ActionPoint group = m_hand_group;
		m_hand_pos = actionPointPosition(caster->obj, group);
	}
	
	Vec3f startPos;
	float pitch, yaw;
	if(m_caster == EntityHandle_Player) {
		yaw = player.angle.getYaw();
		pitch = player.angle.getPitch();
		
		Vec3f vector = angleToVector(Anglef(pitch, yaw, 0.f)) * 60.f;
		
		if(m_hand_group != ActionPoint()) {
			startPos = m_hand_pos;
		} else {
			startPos = player.pos;
			startPos += angleToVectorXZ(yaw);
		}
		
		startPos += vector;
		
	} else {
		pitch = 0;
		yaw = entities[m_caster]->angle.getYaw();
		
		Vec3f vector = angleToVector(Anglef(pitch, yaw, 0.f)) * 60.f;
		
		if(m_hand_group != ActionPoint()) {
			startPos = m_hand_pos;
		} else {
			startPos = entities[m_caster]->pos;
		}
		
		startPos += vector;
		
		Entity * io = entities[m_caster];
		
		if(ValidIONum(io->targetinfo)) {
			const Vec3f & p1 = m_caster_pos;
			const Vec3f & p2 = entities[io->targetinfo]->pos;
			pitch = -(glm::degrees(getAngle(p1.y, p1.z, p2.y, p2.z + glm::distance(Vec2f(p2.x, p2.z), Vec2f(p1.x, p1.z))))); //alpha entre orgn et dest;
		} else if (ValidIONum(m_target)) {
			const Vec3f & p1 = m_caster_pos;
			const Vec3f & p2 = entities[m_target]->pos;
			pitch = -(glm::degrees(getAngle(p1.y, p1.z, p2.y, p2.z + glm::distance(Vec2f(p2.x, p2.z), Vec2f(p1.x, p1.z))))); //alpha entre orgn et dest;
		}
	}
	
	m_mrCheat = (m_caster == EntityHandle_Player && cur_mr == 3);
	
	ArxDuration lMax = ArxDuration_ZERO;
	
	long number;
	if(sp_max || cur_rf == 3) {
		number = long(m_level);
	} else {
		number = glm::clamp(long(m_level + 1) / 2, 1l, 5l);
	}
	
	pTab.reserve(number);
	
	for(size_t i = 0; i < size_t(number); i++) {
		CMagicMissile * missile = NULL;
		if(!m_mrCheat) {
			missile = new CMagicMissile();
		} else {
			missile = new MrMagicMissileFx();
		}
		
		pTab.push_back(missile);
		
		Anglef angles(pitch, yaw, 0.f);
		
		if(i > 0) {
			angles.setPitch(angles.getPitch() + Random::getf(-4.0f, 4.0f));
			angles.setYaw(angles.getYaw() + Random::getf(-6.0f, 6.0f));
		}
		
		missile->Create(startPos, angles);
		
		ArxDuration lTime = m_duration + ArxDurationMs(Random::get(-1000, 1000));
		
		lTime		= std::max(ArxDurationMs(1000), lTime);
		lMax		= std::max(lMax, lTime);
		
		missile->SetDuration(lTime);
		
		EERIE_LIGHT * el = dynLightCreate(missile->lLightId);
		if(el) {
			el->intensity	= 0.7f + 2.3f;
			el->fallend		= 190.f;
			el->fallstart	= 80.f;
			
			if(m_mrCheat) {
				el->rgb = Color3f(1.f, 0.3f, 0.8f);
			} else {
				el->rgb = Color3f(0.f, 0.f, 1.f);
			}
			
			el->pos = startPos;
			el->duration = ArxDurationMs(300);
		}
	}
	
	m_duration = lMax + ArxDurationMs(1000);
}

Esempio n. 21

File: MagicFlare.cpp Progetto: EstrangedGames/ArxLibertatis

void AddFlare(const Vec2s & pos, float sm, short typ, Entity * io, bool bookDraw) {

	long i;
	for(i = 0; i < MAX_FLARES; i++) {
		if(!magicFlares[i].exist) {
			break;
		}
	}
	if(i >= MAX_FLARES) {
		return;
	}

	FLARES * fl = &magicFlares[i];
	fl->exist = 1;
	flarenum++;

	if(!bookDraw)
		fl->bDrawBitmap = 0;
	else
		fl->bDrawBitmap = 1;

	fl->io = io;
	if(io) {
		fl->flags = 1;
		io->flarecount++;
	} else {
		fl->flags = 0;
	}

	fl->x = float(pos.x) - rnd() * 4.f;
	fl->y = float(pos.y) - rnd() * 4.f - 50.f;
	fl->tv.rhw = fl->v.rhw = 1.f;
	fl->tv.specular = fl->v.specular = 1;

	if(!bookDraw) {
		EERIE_CAMERA ka = *Kam;
		ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
		EERIE_CAMERA * oldcam = ACTIVECAM;
		SetActiveCamera(&ka);
		PrepareCamera(&ka);
		fl->v.p += ka.orgTrans.pos;
		EE_RTP(&fl->tv, &fl->v);
		fl->v.p += ka.orgTrans.pos;

		float vx = -(fl->x - subj.center.x) * 0.2173913f;
		float vy = (fl->y - subj.center.y) * 0.1515151515151515f;
		if(io) {
			fl->v.p.x = io->pos.x - EEsin(radians(MAKEANGLE(io->angle.getPitch() + vx))) * 100.f;
			fl->v.p.y = io->pos.y + EEsin(radians(MAKEANGLE(io->angle.getYaw() + vy))) * 100.f - 150.f;
			fl->v.p.z = io->pos.z + EEcos(radians(MAKEANGLE(io->angle.getPitch() + vx))) * 100.f;
		} else {
			fl->v.p.x = float(pos.x - (g_size.width() / 2)) * 150.f / float(g_size.width());
			fl->v.p.y = float(pos.y - (g_size.height() / 2)) * 150.f / float(g_size.width());
			fl->v.p.z = 75.f;
			ka = *oldcam;
			SetActiveCamera(&ka);
			PrepareCamera(&ka);
			float temp = (fl->v.p.y * -ka.orgTrans.xsin) + (fl->v.p.z * ka.orgTrans.xcos);
			fl->v.p.y = (fl->v.p.y * ka.orgTrans.xcos) - (-fl->v.p.z * ka.orgTrans.xsin);
			fl->v.p.z = (temp * ka.orgTrans.ycos) - (-fl->v.p.x * ka.orgTrans.ysin);
			fl->v.p.x = (temp * -ka.orgTrans.ysin) + (fl->v.p.x * ka.orgTrans.ycos);
			fl->v.p += oldcam->orgTrans.pos;
		}
		fl->tv.p = fl->v.p;
		SetActiveCamera(oldcam);
		PrepareCamera(oldcam);
	} else {
		fl->tv.p = Vec3f(fl->x, fl->y, 0.001f);
	}

	switch(PIPOrgb) {
		case 0: {
			fl->rgb = Color3f(rnd() * (2.f/3) + .4f, rnd() * (2.f/3), rnd() * (2.f/3) + .4f);
			break;
		}
		case 1: {
			fl->rgb = Color3f(rnd() * .625f + .5f, rnd() * .625f + .5f, rnd() * .55f);
			break;
		}
		case 2: {
			fl->rgb = Color3f(rnd() * (2.f/3) + .4f, rnd() * .55f, rnd() * .55f);
			break;
		}
	}

	if(typ == -1) {
		float zz = (EERIEMouseButton & 1) ? 0.29f : ((sm > 0.5f) ? rnd() : 1.f);
		if(zz < 0.2f) {
			fl->type = 2;
			fl->size = rnd() * 42.f + 42.f;
			fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
		} else if(zz < 0.5f) {
			fl->type = 3;
			fl->size = rnd() * 52.f + 16.f;
			fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
		} else {
			fl->type = 1;
			fl->size = (rnd() * 24.f + 32.f) * sm;
			fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
		}
	} else {
		fl->type = (rnd() > 0.8f) ? 1 : 4;
		fl->size = (rnd() * 38.f + 64.f) * sm;
		fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
	}

	fl->dynlight = -1;
	fl->move = OPIPOrgb;

	for(long kk = 0; kk < 3; kk++) {

		if(rnd() < 0.5f) {
			continue;
		}

		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}

		if(!bookDraw) {
			pd->special = FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION | DISSIPATING;
			if(!io) {
				pd->special |= PARTICLE_NOZBUFFER;
			}
		} else {
			pd->special = FADE_IN_AND_OUT;
		}

		pd->ov = fl->v.p + randomVec(-5.f, 5.f);
		pd->move = Vec3f(0.f, 5.f, 0.f);
		pd->scale = Vec3f(-2.f);
		pd->tolive = 1300 + kk * 100 + Random::get(0, 800);
		pd->tc = fire2;
		if(kk == 1) {
			pd->move.y = 4.f;
			pd->siz = 1.5f;
		} else {
			pd->siz = 1.f + rnd();
		}
		pd->rgb = Color3f(fl->rgb.r * (2.f/3), fl->rgb.g * (2.f/3), fl->rgb.b * (2.f/3));
		pd->fparam = 1.2f;

		if(bookDraw)
			pd->type = PARTICLE_2D;
	}
}

Esempio n. 22

File: SpellsLvl07.cpp Progetto: Drakesinger/ArxLibertatis

void ConfuseSpell::Update(float timeDelta) {
	
	ARX_UNUSED(timeDelta);
	
	Vec3f pos = entities[m_target]->pos;
	if(m_target != PlayerEntityHandle) {
		pos.y += entities[m_target]->physics.cyl.height - 30.f;
	}
	
	long idx = entities[m_target]->obj->fastaccess.head_group_origin;
	if(idx >= 0) {
		pos = entities[m_target]->obj->vertexlist3[idx].v;
		pos.y -= 50.f;
	}
	
	eCurPos = pos;
	
	RenderMaterial mat;
	mat.setDepthTest(false);
	mat.setBlendType(RenderMaterial::Additive);
	mat.setTexture(tex_trail);
	
	Anglef stiteangle = Anglef(0.f, -glm::degrees(arxtime.get_updated() * ( 1.0f / 500 )), 0.f);
	Draw3DObject(spapi, stiteangle, eCurPos, Vec3f_ONE, Color3f::white, mat);
	
	for(int i = 0; i < 6; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		float ang = rnd() * 360.f;
		float rad = rnd() * 15.f;
		pd->ov = eCurPos;
		pd->ov += angleToVectorXZ(ang) * rad;
		
		pd->move = Vec3f(0.f, rnd() * 3.f + 1.f, 0.f);
		pd->siz = 0.25f;
		pd->tolive = Random::get(2300, 3300);
		pd->tc = tex_p1;
		pd->special = PARTICLE_GOLDRAIN | FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION
					  | DISSIPATING;
		pd->fparam = 0.0000001f;
		
		Color3f baseColor = Color3f(0.4f, 0.2f, 0.4f);
		Color3f randomFactor = Color3f(0.4f, 0.6f, 0.4f);
		Color3f c = baseColor + Color3f(rnd(), rnd(), rnd()) * randomFactor;
		while(glm::abs(c.r - c.g) > 0.3f && glm::abs(c.g - c.b) > 0.3f) {
			c = baseColor + Color3f(rnd(), rnd(), rnd()) * randomFactor;
		}
		pd->rgb = c * Color3f(0.8f, 0.8f, 0.8f);
	}
	
	if(!lightHandleIsValid(m_light))
		m_light = GetFreeDynLight();

	if(lightHandleIsValid(m_light)) {
		EERIE_LIGHT * light = lightHandleGet(m_light);
		
		light->intensity = 1.3f;
		light->fallstart = 180.f;
		light->fallend   = 420.f;
		light->rgb = Color3f(0.3f, 0.3f, 0.5f) + Color3f(0.2f, 0.f, 0.2f) * Color3f(rnd(), rnd(), rnd());
		light->pos = eCurPos;
		light->duration = 200;
		light->extras = 0;
	}
}

Esempio n. 23

File: SpellsLvl07.cpp Progetto: nemyax/ArxLibertatis

void ConfuseSpell::Update() {
	
	Vec3f pos = entities[m_target]->pos;
	if(m_target != PlayerEntityHandle) {
		pos.y += entities[m_target]->physics.cyl.height - 30.f;
	}
	
	long idx = entities[m_target]->obj->fastaccess.head_group_origin;
	if(idx >= 0) {
		pos = entities[m_target]->obj->vertexlist3[idx].v;
		pos.y -= 50.f;
	}
	
	eCurPos = pos;
	
	RenderMaterial mat;
	mat.setDepthTest(false);
	mat.setBlendType(RenderMaterial::Additive);
	mat.setTexture(tex_trail);
	
	arxtime.update();
	Anglef stiteangle = Anglef(0.f, -glm::degrees(arxtime.now_f() * ( 1.0f / 500 )), 0.f);
	
	{
		EERIEDrawAnimQuatUpdate(spapi, animlayer, stiteangle, eCurPos, g_framedelay, NULL, false);
		EERIEDrawAnimQuatRender(spapi, eCurPos, NULL, 0.f);
	}
	
	for(int i = 0; i < 6; i++) {
		
		PARTICLE_DEF * pd = createParticle();
		if(!pd) {
			break;
		}
		
		Vec2f p = glm::diskRand(15.f);
		pd->ov = eCurPos + Vec3f(p.x, 0.f, p.y);
		
		pd->move = Vec3f(0.f, Random::getf(1.f, 4.f), 0.f);
		pd->siz = 0.25f;
		pd->tolive = Random::getu(2300, 3300);
		pd->tc = tex_p1;
		pd->special = PARTICLE_GOLDRAIN | FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION
					  | DISSIPATING;
		pd->fparam = 0.0000001f;
		
		Color3f baseColor = Color3f(0.4f, 0.2f, 0.4f);
		Color3f randomFactor = Color3f(0.4f, 0.6f, 0.4f);
		Color3f c = baseColor + randomColor3f() * randomFactor;
		while(glm::abs(c.r - c.g) > 0.3f && glm::abs(c.g - c.b) > 0.3f) {
			c = baseColor + randomColor3f() * randomFactor;
		}
		pd->rgb = c * Color3f(0.8f, 0.8f, 0.8f);
	}
	
	if(!lightHandleIsValid(m_light))
		m_light = GetFreeDynLight();

	if(lightHandleIsValid(m_light)) {
		EERIE_LIGHT * light = lightHandleGet(m_light);
		
		light->intensity = 1.3f;
		light->fallstart = 180.f;
		light->fallend   = 420.f;
		light->rgb = Color3f(0.3f, 0.3f, 0.5f) + Color3f(0.2f, 0.f, 0.2f) * randomColor3f();
		light->pos = eCurPos;
		light->duration = 200;
		light->extras = 0;
	}
}