#include "player.h" Player::Player(const Vector3f& position, float rotX, float rotY) : m_position(position), m_rotX(rotX), m_rotY(rotY) { } void Player::TurnLeftRight(float value) { m_rotY += value; if (m_rotY > 360) m_rotY = 0; else if (m_rotY < -360) m_rotY = 0; } void Player::TurnTopBottom(float value) { m_rotX += value; if (m_rotX > 45) m_rotX = 45; else if (m_rotX < -45) m_rotX = -45; } void Player::Move(bool front, bool back, bool left, bool right, bool jump, bool dash, float elapsedTime) { static float accWS = 0; static float accAD = 0; static float accjmp = 0; static float yrotrad = 0; static float xrotrad = 0; static bool jumped = true; static int dbljump = 0; // Peut sauter ou dasher tant que la variable est en dessous de 2. static int dashtimeout = 0; if (dashtimeout > 0) { dash = false; --dashtimeout; } if (jumped && !jump) jumped = false; // Anti-rebondissement du saut, pour pouvoir rebondir. if (dash) dashtimeout = 100; if ((jump || dash) && dbljump < 2 && !jumped ) { accjmp += jump? m_jumpforce: 0.1f; jumped = true; dbljump++; std::cout << accjmp << std::endl; } else if (m_position.y > -0.2f && accjmp != 0) { if (accjmp > 0.f) { if (jump) { accjmp *= 0.95f - accjmp * elapsedTime; accjmp -= elapsedTime * 1.1; } else { accjmp *= 0.75f - accjmp * elapsedTime; accjmp -= elapsedTime * 1.1; } } else { if (jump) accjmp -= elapsedTime * 0.7; else accjmp -= elapsedTime * 0.9; } } else accjmp = 0; if (m_position.y < 0.f) { // Suivi de mouvement pour l'atterrissage. m_position.y += elapsedTime * 5.f; if (m_position.y > 0.f) { dbljump = 0; m_position.y = 0; } } if (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. } m_position.y += accjmp; if (front) { if (jumped == 0) if (accWS < m_topspeed) accWS += elapsedTime * 30; else accWS = m_topspeed; if (dash) { ++accWS *= 3.f; //m_position.y += float(-sin(xrotrad)) * elapsedTime * 70; // à remettre pour implémenter une fonction de vol. } m_position.x += float(sin(yrotrad)) * elapsedTime * accWS; m_position.z += float(-cos(yrotrad)) * elapsedTime * accWS; } else if (back) { if (jumped == 0) if (accWS > -m_topspeed) accWS -= elapsedTime * 30; else accWS = -m_topspeed; if (dash) { --accWS *= 3.f; //m_position.y += float(sin(xrotrad)) * elapsedTime * 20; // à remettre pour implémenter une fonction de vol. } m_position.x += float(-sin(yrotrad)) * elapsedTime * -accWS; m_position.z += float(cos(yrotrad)) * elapsedTime * -accWS; } else if (accWS != 0) { accWS = accWS > 0 ? accWS - elapsedTime * (m_position.y > 0.f ? 10 : 120) : accWS + elapsedTime * (m_position.y > 0.f ? 10 : 120); m_position.x += float(sin(yrotrad)) * elapsedTime * accWS; m_position.z += float(-cos(yrotrad)) * elapsedTime * accWS; if (accWS < 1 && accWS > -1) accWS = 0; } if (left) { if (jumped == 0) if (accAD < m_topspeed) accAD += elapsedTime * 30; else accAD = m_topspeed; if (dash) ++accAD *= 3.f; m_position.x += float(-cos(yrotrad)) * elapsedTime * accAD; m_position.z += float(-sin(yrotrad)) * elapsedTime * accAD; } else if (right) { if (jumped == 0) if (accAD > -m_topspeed) accAD -= elapsedTime * 30; else accAD = -m_topspeed; if (dash) --accAD *= 3.f; m_position.x += float(cos(yrotrad)) * elapsedTime * -accAD; m_position.z += float(sin(yrotrad)) * elapsedTime * -accAD; } else if (accAD != 0) { accAD = accAD > 0 ? accAD - elapsedTime * (m_position.y > 0.f ? 10 : 120) : accAD + elapsedTime * (m_position.y > 0.f ? 10 : 120); m_position.x += float(-cos(yrotrad)) * elapsedTime * accAD; m_position.z += float(-sin(yrotrad)) * elapsedTime * accAD; if (accAD < 1 && accAD > -1) 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 ((accWS >= 0 ? accWS : -accWS + accAD >= 0 ? accAD : -accAD) > sqrtf(m_topspeed * m_topspeed + m_topspeed * m_topspeed)) { accWS *= 0.9f; accAD *= 0.9f; } } 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); }