Nouvelles textures.

SQCSim2021/player.cpp

@@ -8,18 +8,15 @@ void Player::TurnLeftRight(float value) {
 	else if (m_rotX < -45) m_rotX = -45;
 }
 
-void Player::TurnTopBottom(float value) {
-	 m_rotY += value;
-}
+void Player::TurnTopBottom(float value) { m_rotY += value; }
 
 void Player::Move(bool front, bool back, bool left, bool right, bool jump, float elapsedTime) {
-	float xrotrad, yrotrad;
 
-	if (m_accjmp == 0 && jump && !jumped) {
-		m_accjmp = 0.3;
+	if (jump && !jumped) {
+		m_accjmp = m_jumpheight;
 		jumped = true;
 	}
-	else if (m_position.y > -0.2f && m_accjmp != 0)
+	else if (m_position.y > -0.3f && m_accjmp != 0) {
 		if (m_accjmp > 0.1f) {
 			if (jump) {
 				m_accjmp *= 0.95 - m_accjmp * elapsedTime;
@@ -34,64 +31,69 @@ void Player::Move(bool front, bool back, bool left, bool right, bool jump, float
 			if (jump) m_accjmp -= elapsedTime * 0.7;
 			else m_accjmp -= elapsedTime * 0.9;
 		}
+		front = false; // Emp<6D>che le d<>placement dans les airs.
+		back = false;
+		left = false;
+		right = false;
+	}
 	else m_accjmp = 0;
-	
-	if (!jump) jumped = false; // Bloque les sauts <20> r<>p<EFBFBD>tition en tenant le bouton de saut.
 
 	if (m_position.y < 0) { // Suivi de mouvement pour l'atterrissage.
 		m_position.y += elapsedTime * 5;
-		if (m_position.y > 0.f) m_position.y = 0;
+		if (m_position.y > 0.f) {
+			jumped = false; 
+			m_position.y = 0;
+		}
 	}
 	
 	m_position.y += m_accjmp;
 
+	if (!jumped || left || right || front || back) {
+		m_yrotrad = (m_rotY / 57.2957795056f); // 180/Pi = 57.295...
+		m_xrotrad = (m_rotX / 57.2957795056f);
+	}
+
 	if (front) {
-		if (m_accWS < 10) m_accWS += elapsedTime * 30; else m_accWS = 10;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		xrotrad = (m_rotX / 180 * 3.141592654f);
-		m_position.x += float(sin(yrotrad)) * elapsedTime * m_accWS;
-		m_position.z += float(-cos(yrotrad)) * elapsedTime * m_accWS;
+		if (m_accWS < m_topspeed) m_accWS += elapsedTime * 30; else m_accWS = m_topspeed;
+
+		m_position.x += float(sin(m_yrotrad)) * elapsedTime * m_accWS;
+		m_position.z += float(-cos(m_yrotrad)) * elapsedTime * m_accWS;
 		// m_position.y += float(-sin(xrotrad)) * elapsedTime * 20; // <20> remettre pour impl<70>menter une fonction de vol.
 	}
 	else if (back) { 
-		if (m_accWS > -10) m_accWS -= elapsedTime * 30; else m_accWS = -10;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		xrotrad = (m_rotX / 180 * 3.141592654f);
-		m_position.x += float(-sin(yrotrad)) * elapsedTime * -m_accWS;
-		m_position.z += float(cos(yrotrad)) * elapsedTime * -m_accWS;
+		if (m_accWS > -m_topspeed) m_accWS -= elapsedTime * 30; else m_accWS = -m_topspeed;
+
+		m_position.x += float(-sin(m_yrotrad)) * elapsedTime * -m_accWS;
+		m_position.z += float(cos(m_yrotrad)) * elapsedTime * -m_accWS;
 		// m_position.y += float(sin(xrotrad)) * elapsedTime * 20; // <20> remettre pour impl<70>menter une fonction de vol.
 	}
 	else if (m_accWS != 0) {
-		m_accWS = m_accWS > 0 ? m_accWS - elapsedTime * 60 : m_accWS + elapsedTime * 60;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		xrotrad = (m_rotX / 180 * 3.141592654f);
-		m_position.x += float(sin(yrotrad)) * elapsedTime * m_accWS;
-		m_position.z += float(-cos(yrotrad)) * elapsedTime * m_accWS;
+		m_accWS = m_accWS > 0 ? m_accWS - elapsedTime * (jumped? 10 : 60) : m_accWS + elapsedTime * (jumped ? 10 : 60);
+
+		m_position.x += float(sin(m_yrotrad)) * elapsedTime * m_accWS;
+		m_position.z += float(-cos(m_yrotrad)) * elapsedTime * m_accWS;
 		if (m_accWS < 1 && m_accWS > -1) m_accWS = 0;
 	}
 
 	if (left) { 
-		if (m_accAD < 10) m_accAD += elapsedTime * 30; else m_accAD = 10;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		m_position.x += float(-cos(yrotrad)) * elapsedTime * m_accAD;
-		m_position.z += float(-sin(yrotrad)) * elapsedTime * m_accAD;
+		if (m_accAD < m_topspeed) m_accAD += elapsedTime * 30; else m_accAD = m_topspeed;
+		m_position.x += float(-cos(m_yrotrad)) * elapsedTime * m_accAD;
+		m_position.z += float(-sin(m_yrotrad)) * elapsedTime * m_accAD;
 	}
 	else if (right) {
-		if (m_accAD > -10) m_accAD -= elapsedTime * 30; else m_accAD = -10;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		m_position.x += float(cos(yrotrad)) * elapsedTime * -m_accAD;
-		m_position.z += float(sin(yrotrad)) * elapsedTime * -m_accAD;
+		if (m_accAD > -m_topspeed) m_accAD -= elapsedTime * 30; else m_accAD = -m_topspeed;
+		m_position.x += float(cos(m_yrotrad)) * elapsedTime * -m_accAD;
+		m_position.z += float(sin(m_yrotrad)) * elapsedTime * -m_accAD;
 	}
 	else if (m_accAD != 0) {
-		m_accAD = m_accAD > 0 ? m_accAD - elapsedTime * 60 : m_accAD + elapsedTime * 60;
-		yrotrad = (m_rotY / 180 * 3.141592654f);
-		m_position.x += float(-cos(yrotrad)) * elapsedTime * m_accAD;
-		m_position.z += float(-sin(yrotrad)) * elapsedTime * m_accAD;
+		m_accAD = m_accAD > 0 ? m_accAD - elapsedTime * (jumped ? 10 : 60) : m_accAD + elapsedTime * (jumped ? 10 : 60);
+		m_position.x += float(-cos(m_yrotrad)) * elapsedTime * m_accAD;
+		m_position.z += float(-sin(m_yrotrad)) * elapsedTime * m_accAD;
 		if (m_accAD < 1 && m_accAD > -1) m_accAD = 0;
 	}
 
-	// Gestion de si le personnage va en diagonale pour qu'il n'aille pas plus vite que s'il allait en ligne droite: SQRT(10^2+10^2) = ~12.
-	if ((m_accWS >= 0? m_accWS: -m_accWS + m_accAD >= 0 ? m_accAD : -m_accAD) > 12) {
+	// Gestion de si le personnage va en diagonale pour qu'il n'aille pas plus vite que s'il allait en ligne droite: SQRT(15^2+15^2) = ~21.2
+	if ((m_accWS >= 0? m_accWS: -m_accWS + m_accAD >= 0 ? m_accAD : -m_accAD) > sqrtf(m_topspeed * m_topspeed + m_topspeed * m_topspeed)) {
 		m_accWS *= 0.9f;
 		m_accAD *= 0.9f;
 	}