TOUT FONCTIONNE!

2021-11-16 20:48:52 -05:00 · 2021-11-16 20:48:52 -05:00 · b12e5599be
commit b12e5599be
parent aa1d19d93d
8 changed files with 124 additions and 303 deletions
--- a/SQCSim2021/SQCSim2021.vcxproj
+++ b/SQCSim2021/SQCSim2021.vcxproj
@ -166,6 +166,9 @@
      <IntrinsicFunctions>true</IntrinsicFunctions>
      <PreprocessorDefinitions>WIN32;NDEBUG;_CONSOLE;NOMINMAX;%(PreprocessorDefinitions)</PreprocessorDefinitions>
      <LanguageStandard>stdcpp17</LanguageStandard>
      <InlineFunctionExpansion>AnySuitable</InlineFunctionExpansion>
      <FavorSizeOrSpeed>Speed</FavorSizeOrSpeed>
      <FloatingPointModel>Fast</FloatingPointModel>
    </ClCompile>
    <Link>
      <SubSystem>Console</SubSystem>
@ -185,6 +188,9 @@
      <IntrinsicFunctions>true</IntrinsicFunctions>
      <PreprocessorDefinitions>WIN32;NDEBUG;_CONSOLE;NOMINMAX;%(PreprocessorDefinitions)</PreprocessorDefinitions>
      <LanguageStandard>stdcpp17</LanguageStandard>
      <InlineFunctionExpansion>AnySuitable</InlineFunctionExpansion>
      <FavorSizeOrSpeed>Speed</FavorSizeOrSpeed>
      <FloatingPointModel>Fast</FloatingPointModel>
    </ClCompile>
    <Link>
      <SubSystem>Console</SubSystem>
--- a/SQCSim2021/audio.cpp
+++ b/SQCSim2021/audio.cpp
@ -40,6 +40,10 @@ void Audio::Render3DAudioObj(irrklang::ISound* sound, Vector3f& pos, Vector3f& v
 	sound->setVolume(volume);
 }
 void Audio::PlaySong(const char* music) {
 	m_music = m_engine->play2D(music, true, true, true, irrklang::ESM_STREAMING);
 }
 void Audio::ToggleMusicState() { m_music->setIsPaused(!m_music->getIsPaused()); }
 void Audio::PauseEngine() { m_engine->setAllSoundsPaused(); }
--- a/SQCSim2021/audio.h
+++ b/SQCSim2021/audio.h
@ -22,6 +22,8 @@ public:
 	void Render3DAudioObj(irrklang::ISound* sound, Vector3f& pos, Vector3f& vel, float volume);
 	void PlaySong(const char* music);
 	void ToggleMusicState();
 	void PauseEngine();
--- a/SQCSim2021/engine.cpp
+++ b/SQCSim2021/engine.cpp
@ -47,87 +47,48 @@ void Engine::Init()
 	// Objet de musique!
 	m_audio.ToggleMusicState();
-	for (int x = 0; x < CHUNK_SIZE_X; ++x)
+	// Init Chunks
 		for (int z = 0; z < CHUNK_SIZE_Z; ++z)
 			for (int y = 0; y < 32; ++y)
 				m_copychunk.SetBlock(x, y, z, BTYPE_GRASS);
 	m_copychunk.SetBlock(5, 32, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(5, 33, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(5, 34, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(6, 34, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(7, 34, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(7, 33, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(7, 32, 15, BTYPE_GRASS);
 	m_copychunk.SetBlock(8, 32, 3, BTYPE_GRASS);
 	m_copychunk.SetBlock(8, 33, 4, BTYPE_GRASS);
 	m_copychunk.SetBlock(8, 34, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(8, 35, 6, BTYPE_GRASS);
 	m_copychunk.SetBlock(11, 32, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(11, 33, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(11, 34, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(11, 35, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(12, 32, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(12, 33, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(12, 34, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(12, 35, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(13, 32, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(13, 33, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(13, 34, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(13, 35, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(14, 32, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(14, 33, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(14, 34, 5, BTYPE_GRASS);
 	m_copychunk.SetBlock(14, 35, 5, BTYPE_GRASS);
 	for (int chx = 0; chx < VIEW_DISTANCE; ++chx)
 		for (int chy = 0; chy < VIEW_DISTANCE; ++chy)
-			m_world.GetChunks().Set(chx, chy, &m_copychunk);
+			m_world.GetChunks().Set(chx, chy, new Chunk(chx, chy));
-	// Init Chunks
+	// Génération Chunks.
-	//for (int chx = 0; chx < VIEW_DISTANCE; ++chx)
+	for (int chx = 0; chx < VIEW_DISTANCE; ++chx)
-	//	for (int chy = 0; chy < VIEW_DISTANCE; ++chy)
+		for (int chy = 0; chy < VIEW_DISTANCE; ++chy) {
 	//		m_world.GetChunks().Set(chx, chy, new Chunk(chx, chy));
-	//		// Génération Chunks.
+			for (int x = 0; x < CHUNK_SIZE_X; ++x)
-	//		for (int chx = 0; chx < VIEW_DISTANCE; ++chx)
+				for (int z = 0; z < CHUNK_SIZE_Z; ++z)
-	//			for (int chy = 0; chy < VIEW_DISTANCE; ++chy) {
+					for (int y = 0; y < 32; ++y)
-
+						m_world.GetChunks().Get(chx, chy)->SetBlock(x, y, z, ((chx + chy) % (BTYPE_LAST - 1)) + 1);
 	//				for (int x = 0; x < CHUNK_SIZE_X; ++x)
 	//					for (int z = 0; z < CHUNK_SIZE_Z; ++z)
 	//						for (int y = 0; y < 32; ++y)
 	//							m_world.GetChunks().Get(chx, chy)->SetBlock(x, y, z, ((chx + chy) % (BTYPE_LAST - 1)) + 1);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(5, 32, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(5, 33, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(5, 34, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(6, 34, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(7, 34, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(7, 33, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(7, 32, 15, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(8, 32, 3, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(8, 33, 4, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(8, 34, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(8, 35, 6, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(11, 32, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(11, 33, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(11, 34, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(11, 35, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(12, 32, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(12, 33, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(12, 34, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(12, 35, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(13, 32, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(13, 33, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(13, 34, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(13, 35, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(14, 32, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(14, 33, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(14, 34, 5, BTYPE_GRASS);
 	//				m_world.GetChunks().Get(chx, chy)->SetBlock(14, 35, 5, BTYPE_GRASS);
 	//			}
 			m_world.GetChunks().Get(chx, chy)->SetBlock(5, 32, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(5, 33, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(5, 34, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(6, 34, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(7, 34, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(7, 33, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(7, 32, 15, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(8, 32, 3, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(8, 33, 4, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(8, 34, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(8, 35, 6, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(11, 32, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(11, 33, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(11, 34, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(11, 35, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(12, 32, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(12, 33, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(12, 34, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(12, 35, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(13, 32, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(13, 33, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(13, 34, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(13, 35, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(14, 32, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(14, 33, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(14, 34, 5, BTYPE_GRASS);
 			m_world.GetChunks().Get(chx, chy)->SetBlock(14, 35, 5, BTYPE_GRASS);
 		}
 	// Gestion de souris.
 	CenterMouse();
@ -204,7 +165,7 @@ void Engine::DrawHud(float elapsedTime) {
 	ss << " Position  : " << m_player.GetPosition();
 	PrintText(10, 30, ss.str());
 	ss.str("");
-	ss << " Delta  : " << m_player.GetPOV();
+	ss << " CamPos  : " << m_player.GetPOV();
 	PrintText(10, 40, ss.str());
 	// Affichage du crosshair
 	m_textureCrosshair.Bind();
@ -301,7 +262,7 @@ void Engine::Render(float elapsedTime) {
 		glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
-	if (m_player.GetPosition().y < -10.f) m_player = Player(Vector3f(64, 34, 64));
+	if (m_player.GetPosition().y < -10.f) m_player = Player(Vector3f(64, 34, 64)); // Respawn si le bonho- joueur tombe en bas du monde.
 }
 void Engine::KeyPressEvent(unsigned char key)
--- a/SQCSim2021/engine.h
+++ b/SQCSim2021/engine.h
@ -61,8 +61,6 @@ private:
    bool m_keylshift = false;
    bool m_keySpace = false;
 };
 #endif // ENGINE_H__
--- a/SQCSim2021/player.cpp
+++ b/SQCSim2021/player.cpp
@ -2,7 +2,6 @@
 Player::Player(const Vector3f& position, float rotX, float rotY) : m_position(position), m_rotX(rotX), m_rotY(rotY) {
 	m_velocity = Vector3f(0, 0, 0);
 	m_dbljump = 0;
 	m_airborne = true;
 }
@ -20,186 +19,51 @@ void Player::TurnTopBottom(float value) {
 Vector3f Player::GetInput(bool front, bool back, bool left, bool right, bool jump, bool dash, float elapsedTime) {
 	static float yrotrad = 0;
 	static float xrotrad = 0;
 	static float dashtimeout = 0;
 	Vector3f delta = Vector3f(0, 0, 0);
-	m_direction = Vector3f(cos(m_rotY / 57.2957795056f) * cos(m_rotX / 57.2957795056f),
+	float yrotrad = (m_rotY / 57.2957795056f); // 180/Pi = 57.295...
-						  -sin(m_rotX / 57.2957795056f),
+	float xrotrad = (m_rotX / 57.2957795056f);
 						   sin(m_rotY / 57.2957795056f) * cos(m_rotX / 57.2957795056f));
-	if ((jump || dash) && !m_airborne) {
+	m_direction = Vector3f(cos(yrotrad) * cos(xrotrad),
-		delta.y += jump ? m_jumpforce : 0.1f;
+		-sin(xrotrad),
 		sin(yrotrad) * cos(xrotrad));
 	if (front) {
 		delta.x += float(sin(yrotrad)) * elapsedTime * 10.f;
 		delta.z += float(-cos(yrotrad)) * elapsedTime * 10.f;
 	}
 	else if (back) {
 		delta.x -= float(-sin(yrotrad)) * elapsedTime * -10.f;
 		delta.z -= float(cos(yrotrad)) * elapsedTime * -10.f;
 	}
 	if (left) {
 		delta.x += float(-cos(yrotrad)) * elapsedTime * 10.f;
 		delta.z += float(-sin(yrotrad)) * elapsedTime * 10.f;
 	}
 	else if (right) {
 		delta.x -= float(cos(yrotrad)) * elapsedTime * -10.f;
 		delta.z -= float(sin(yrotrad)) * elapsedTime * -10.f;
 	}
 	delta.Normalize();
 	delta.x *= .6f;
 	delta.z *= .6f;
 	if (jump && !m_airborne) {
 		delta.y += .32f;
 		m_airborne = true;
 	}
 	if (dashtimeout > 0.f) { // Gestion du timeout de dash pour ne pas pouvoir spammer le dash.
 		dash = false;
 		dashtimeout -= elapsedTime;
 	}
 	else dashtimeout = 0;
 	if (dash) dashtimeout = 2;
 	if ((!m_airborne && (left || right || front || back)) ||
 		(dash && !(left || right || front || back))) {
 		yrotrad = (m_rotY / 57.2957795056f); // 180/Pi = 57.295...
 		xrotrad = (m_rotX / 57.2957795056f);
 		if (dash) {
 			delta.x += float(sin(yrotrad)) * elapsedTime * 20.f;
 			delta.z += float(-cos(yrotrad)) * elapsedTime * 20.f;
 		}
 	}
 	if (!m_airborne) {
 		if (front) {
 			delta.x += float(sin(yrotrad)) * elapsedTime * 10.f;
 			delta.z += float(-cos(yrotrad)) * elapsedTime * 10.f;
 		}
 		else if (back) {
 			delta.x -= float(-sin(yrotrad)) * elapsedTime * -10.f;
 			delta.z -= float(cos(yrotrad)) * elapsedTime * -10.f;
 		}
 		if (left) {
 			delta.x += float(-cos(yrotrad)) * elapsedTime * 10.f;
 			delta.z += float(-sin(yrotrad)) * elapsedTime * 10.f;
 		}
 		else if (right) {
 			delta.x -= float(cos(yrotrad)) * elapsedTime * -10.f;
 			delta.z -= float(sin(yrotrad)) * elapsedTime * -10.f;
 		}
 	}
 	return delta;
 }
 //
 //Vector3f Player::GetInput(bool front, bool back, bool left, bool right, bool jump, bool dash, float elapsedTime) {
 //	static float accWS = 0;
 //	static float accAD = 0;
 //	static float yrotrad = 0;
 //	static float xrotrad = 0;
 //	static float dashtimeout = 0;
 //
 //	Vector3f movepos = m_velocity;
 //
 //	m_direction = Vector3f(cos(m_rotY / 57.2957795056f) * cos(m_rotX / 57.2957795056f),
 //						   -sin(m_rotX / 57.2957795056f),
 //						   sin(m_rotY / 57.2957795056f) * cos(m_rotX / 57.2957795056f));
 //
 //	if (dashtimeout > 0.f) { // Gestion du timeout de dash pour ne pas pouvoir spammer le dash.
 //		dash = false;
 //		dashtimeout -= elapsedTime;
 //	}
 //	else dashtimeout = 0;
 //	if (dash) dashtimeout = 2;
 //
 //	if (m_airborne && !jump) m_airborne = false; // Anti-rebondissement du saut, pour pouvoir rebondir.
 //
 //	if (m_dbljump >= 2) jump = false;
 //
 //	if ((jump || dash)  && !m_airborne ) {
 //		m_velocity.y += jump? m_jumpforce: 0.1f;
 //		movepos.y += m_velocity.y;
 //		m_airborne = true;
 //		m_dbljump++;
 //	}
 //
 //	if ((m_dbljump < 1 && ( left || right || front || back)) || 
 //		(dash && !(left || right || front || back)) ) {
 //		yrotrad = (m_rotY / 57.2957795056f); // 180/Pi = 57.295...
 //		xrotrad = (m_rotX / 57.2957795056f);
 //		if (dash) accWS = m_topspeed; // Pour avoir un boost de vitesse vers l'avant si le dash est appuyé seul.
 //	}
 //
 //	if (front) {
 //		if (m_dbljump == 0)
 //			if (accWS < m_topspeed) accWS += elapsedTime * 30; else accWS = m_topspeed;
 //		if (dash) accWS *= accWS > 0.f ? 3.f : -1.f;
 //		m_velocity.x = float(sin(yrotrad)) * elapsedTime * accWS;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(-cos(yrotrad)) * elapsedTime * accWS;
 //		movepos.z += m_velocity.z;
 //	}
 //	else if (back) {
 //		if (m_dbljump == 0)
 //			if (accWS > -m_topspeed) accWS -= elapsedTime * 30; else accWS = -m_topspeed;
 //		if (dash) accWS *= accWS < 0.f? 3.f: -1.f;
 //		m_velocity.x = float(-sin(yrotrad)) * elapsedTime * -accWS;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(cos(yrotrad)) * elapsedTime * -accWS;
 //		movepos.z += m_velocity.z;
 //	}
 //	else if (accWS != 0) {
 //		accWS = accWS > 0 ? accWS - elapsedTime * (m_position.y > 0.1f ? 10 : 120) 
 //			  : accWS + elapsedTime * (m_position.y > 0.1f ? 10 : 120);
 //
 //		m_velocity.x = float(sin(yrotrad)) * elapsedTime * accWS;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(-cos(yrotrad)) * elapsedTime * accWS;
 //		movepos.z += m_velocity.z;
 //		if (accWS < 1 && accWS > -1) accWS = 0;
 //	}
 //
 //	if (left) {
 //		if (m_dbljump == 0)
 //			if (accAD < m_topspeed) accAD += elapsedTime * 30; else accAD = m_topspeed;
 //		if (dash) accAD *= accAD > 0.f? 3.f: -1.f;
 //		m_velocity.x = float(-cos(yrotrad)) * elapsedTime * accAD;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(-sin(yrotrad)) * elapsedTime * accAD;
 //		movepos.z += m_velocity.z;
 //	}
 //	else if (right) {
 //		if (m_dbljump == 0)
 //			if (accAD > -m_topspeed) accAD -= elapsedTime * 30; else accAD = -m_topspeed;
 //		if (dash) accAD *= accAD < 0.f ? 3.f : -1.f;
 //		m_velocity.x = float(cos(yrotrad)) * elapsedTime * -accAD;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(sin(yrotrad)) * elapsedTime * -accAD;
 //		movepos.z += m_velocity.z;
 //	}
 //	else if (accAD != 0) {
 //		accAD = accAD > 0 ? accAD - elapsedTime * (m_position.y > 0.1f ? 10 : 120) 
 //			  : accAD + elapsedTime * (m_position.y > 0.1f ? 10 : 120);
 //
 //		m_velocity.x = float(-cos(yrotrad)) * elapsedTime * accAD;
 //		movepos.x += m_velocity.x;
 //		m_velocity.z = float(-sin(yrotrad)) * elapsedTime * accAD;
 //		movepos.z += m_velocity.z;
 //		if (accAD < 1.f && accAD > -1.f) accAD = 0;
 //	}
 //
 //	// Gestion de si le personnage va en diagonale, qu'il n'aille pas plus vite que s'il allait en ligne droite.
 //	if (abs(accAD) + abs(accWS) > sqrtf(exp2f(m_topspeed) * 2)) {
 //		accWS *= 0.8f;
 //		accAD *= 0.8f;
 //	}
 //
 //	return movepos;
 //}
 void Player::ApplyPhysics(Vector3f input, World world, float elapsedTime) {
 	/* Gestion de collisions */
 	/* Gestion de collisions */
 	BlockType bt1, bt2, bt3;
 	if (m_velocity.x * m_velocity.x + m_velocity.z * m_velocity.z >= .005f) {
 		m_velocity.x *= 0.9f;
 		m_velocity.z *= 0.9f;
 	}
 	if (!m_airborne) {
 		m_velocity.x = input.x ? m_velocity.x + input.x * 4.f * elapsedTime : -.1f * m_velocity.x * elapsedTime;
 		m_velocity.z = input.z ? m_velocity.z + input.z * 4.f * elapsedTime : -.1f * m_velocity.z * elapsedTime;
 	}
 	else {
 		m_velocity.x += -.1f * m_velocity.x * elapsedTime;
 		m_velocity.z += -.1f * m_velocity.x * elapsedTime;
 	}
 	bt1 = world.BlockAt(m_position.x, m_position.y + input.y, m_position.z);
 	bt2 = world.BlockAt(m_position.x, m_position.y + input.y - 0.9f, m_position.z);
 	bt3 = world.BlockAt(m_position.x, m_position.y + input.y - 1.7f, m_position.z);
@ -212,54 +76,80 @@ void Player::ApplyPhysics(Vector3f input, World world, float elapsedTime) {
 	else {
 		if (abs(m_velocity.y) < 1.1f) m_velocity.y += input.y - 1.1f * elapsedTime;
 		bt3 = world.BlockAt(m_position.x, m_position.y + m_velocity.y - 1.7f, m_position.z);
 		bt1 = world.BlockAt(m_position.x, m_position.y + .3f, m_position.z);
 		if (bt3 != BTYPE_AIR) {
 			m_velocity.y = 0;
 			m_airborne = false;
 		}
 		else if (bt1 != BTYPE_AIR) {
 			m_velocity.y = -.1f;
 		}
 		else m_airborne = true;
 	}
 	bt1 = world.BlockAt(m_position.x + input.x, m_position.y, m_position.z);
 	bt2 = world.BlockAt(m_position.x + input.x, m_position.y - 0.9f, m_position.z);
 	bt3 = world.BlockAt(m_position.x + input.x, m_position.y - 1.7f, m_position.z);
 	if (bt1 != BTYPE_AIR || bt2 != BTYPE_AIR || bt3 != BTYPE_AIR) {
-		input.x = 0;
+		input.x = m_velocity.x = 0;
-		m_velocity.x = 0;
+		m_velocity.z *= .5f;
 	}
 	bt1 = world.BlockAt(m_position.x, m_position.y, m_position.z + input.z);
 	bt2 = world.BlockAt(m_position.x, m_position.y - 0.9f, m_position.z + input.z);
 	bt3 = world.BlockAt(m_position.x, m_position.y - 1.7f, m_position.z + input.z);
 	if (bt1 != BTYPE_AIR || bt2 != BTYPE_AIR || bt3 != BTYPE_AIR) {
-		input.z = 0;
+		input.z = m_velocity.z = 0;
-		m_velocity.z = 0;
+		m_velocity.x *= .5f;
 	}
 	/* Fin gestion de collisions */
 	/* Gestion de la friction */
 	if (!m_airborne) {
 		m_velocity.x += input.x * 2.f * elapsedTime;
 		m_velocity.z += input.z * 2.f * elapsedTime;
 		if (input.x == 0.f) 
 			m_velocity.x *= .6f;
 		if (input.z == 0.f) 
 			m_velocity.z *= .6f;
 	}
 	else {
 		m_velocity.x += input.x * .4f * elapsedTime; // Techniquement contre les lois de la physique, mais c'est beaucoup moins chiant pour grimper sur les blocs.
 		m_velocity.z += input.z * .4f * elapsedTime;
 		m_velocity.x *= .99f;
 		m_velocity.z *= .99f;
 	}
 	/* Fin gestion de la friction */
 	float vy = m_velocity.y;
 	m_velocity.y = 1.f; // Padding pour limiter le x et z lors du Normalize().
 	if (m_velocity.Length() >= 1.f) m_velocity.Normalize(); // Limiteur de vitesse en x/z.
 	m_velocity.y = 0;
 	if (m_velocity.Length() < .005f) m_velocity.Zero(); // Threshold en x/z.
 	m_velocity.y = vy;
 	m_position += m_velocity;
 	static float bobbingtime = 0; // Gestion de la caméra
-	if (bobbingtime <= 360.f) bobbingtime += elapsedTime * m_topspeed / 2; else bobbingtime = 0;
+	if (bobbingtime <= 360.f) bobbingtime += elapsedTime * 20.f; else bobbingtime = 0;
-	m_POV.x = m_position.x;
+	m_POV = m_position.y;
-	m_POV.z = m_position.z;
+	m_POV += m_airborne ? 0 : (sin(bobbingtime) - 0.5f) * (abs(m_velocity.x) + abs(m_velocity.z)) * .2f;
 	m_POV.y = m_position.y - 1.7f + m_airborne ? 0 : ((sin(bobbingtime) - 0.5f) * (abs(m_velocity.x * 40) + abs(m_velocity.z * 40)) / (10.f * m_topspeed));
 }
 void Player::ApplyTransformation(Transformation& transformation, bool rel) const {
 	transformation.ApplyRotation(-m_rotX, 1, 0, 0);
 	transformation.ApplyRotation(-m_rotY, 0, 1, 0);
-	if (rel) transformation.ApplyTranslation(-m_position);
+	if (rel) transformation.ApplyTranslation(-m_position.x,-m_POV,-m_position.z);
 }
 Vector3f Player::GetPosition() const { return m_position; }
 Vector3f Player::GetVelocity() const { return m_velocity; }
-Vector3f Player::GetPOV() const
+Vector3f Player::GetPOV() const { return Vector3f(m_position.x, m_POV, m_position.z); }
 {
 	return m_POV;
 }
 Vector3f Player::GetDirection() const { return m_direction; }
--- a/SQCSim2021/player.h
+++ b/SQCSim2021/player.h
@ -21,18 +21,14 @@ public:
 private:
 	Vector3f m_position;
 	Vector3f m_POV;
 	Vector3f m_velocity;
 	Vector3f m_direction;
 	float m_rotX = 0; 
 	float m_rotY = 0;
-	float m_topspeed = 20;
+	float m_POV;
 	float m_jumpforce = 0.3f;
 	bool m_airborne;
 	bool m_jumped;
 	int m_dbljump; // Peut sauter ou dasher tant que la variable est en dessous de 2.
 };
 #endif //_PLAYER_H__
--- a/SQCSim2021/world.h
+++ b/SQCSim2021/world.h
@ -25,41 +25,5 @@ private:
 	int m_center[2] = {0, 0};
 };
-//
+#endif // WORLD_H__
 //template <class T>
 //Chunk* World::ChunkAt(T x, T y, T z) const {
 //    int cx = (int)x / CHUNK_SIZE_X;
 //    int cz = (int)z / CHUNK_SIZE_Z;
 //
 //    if (cx >= VIEW_DISTANCE || // L'array en ce moment est de VIEW_DISTANCE par VIEW_DISTANCE.
 //        cz >= VIEW_DISTANCE ||
 //        cx < 0 || cz < 0)
 //        return 0;
 //
 //    return m_chunks.Get(cx, cz);
 //}
 //
 //template <class T>
 //Chunk* World::ChunkAt(const Vector3<T>& pos) const { return ChunkAt(pos.x, pos.y, pos.z); }
 //
 //template <class T>
 //BlockType World::BlockAt(T x, T y, T z, BlockType defaultBlockType) const {
 //    Chunk* c = ChunkAt(x, y, z);
 //
 //    if (!c)
 //        return defaultBlockType;
 //
 //    int bx = (int)x % CHUNK_SIZE_X;
 //    int by = (int)y % CHUNK_SIZE_Y;
 //    int bz = (int)z % CHUNK_SIZE_Z;
 //
 //    return c->GetBlock(bx, by, bz);
 //}
 //
 //template <class T>
 //BlockType World::BlockAt(const Vector3<T>& pos, BlockType defaultBlockType) const {
 //    return BlockAt(pos.x, pos.y, pos.z);
 //}
 #endif