#ifdef HAVE_CONFIG_H # include #endif #include "ephysics_private.h" #ifdef __cplusplus extern "C" { #endif static void _ephysics_quaternion_update(EPhysics_Quaternion *quat, btQuaternion *bt_quat) { quat->x = bt_quat->x(); quat->y = bt_quat->y(); quat->z = bt_quat->z(); quat->w = bt_quat->getW(); } static EPhysics_Quaternion * _ephysics_quaternion_params_check(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2, EPhysics_Quaternion *result) { if ((!quat1) || (!quat2)) { ERR("Can't operate over null quaternions."); return NULL; } if (result) return result; return ephysics_quaternion_new(); } EAPI EPhysics_Quaternion * ephysics_quaternion_new(void) { EPhysics_Quaternion *quat; quat = (EPhysics_Quaternion *)calloc(1, sizeof(EPhysics_Quaternion)); if (!quat) { ERR("Could not allocate ephysics quaternion."); return NULL; } quat->w = 1; return quat; } EAPI void ephysics_quaternion_get(const EPhysics_Quaternion *quat, double *x, double *y, double *z, double *w) { if (!quat) { ERR("Can't get quaternion's values, it is null."); return; } if (x) *x = quat->x; if (y) *y = quat->y; if (z) *z = quat->z; if (w) *w = quat->w; } EAPI void ephysics_quaternion_axis_angle_get(const EPhysics_Quaternion *quat, double *nx, double *ny, double *nz, double *a) { btQuaternion bt_quat; if (!quat) { ERR("Can't get quaternion's values, it is null."); return; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); if (nx) *nx = bt_quat.getAxis().getX(); if (ny) *ny = bt_quat.getAxis().getY(); if (nz) *nz = bt_quat.getAxis().getZ(); if (a) *a = bt_quat.getAngle(); } EAPI void ephysics_quaternion_set(EPhysics_Quaternion *quat, double x, double y, double z, double w) { if (!quat) { ERR("Could not set a null quaternion."); return; } quat->x = x; quat->y = y; quat->z = z; quat->w = w; } EAPI void ephysics_quaternion_axis_angle_set(EPhysics_Quaternion *quat, double nx, double ny, double nz, double a) { btQuaternion bt_quat; btVector3 axis; if (!quat) { ERR("Could not set a null quaternion."); return; } axis = btVector3(nx, ny, nz); bt_quat = btQuaternion(axis, a); _ephysics_quaternion_update(quat, &bt_quat); } EAPI void ephysics_quaternion_euler_set(EPhysics_Quaternion *quat, double yaw, double pitch, double roll) { btQuaternion bt_quat; if (!quat) { ERR("Could not set a null quaternion."); return; } bt_quat = btQuaternion(); bt_quat.setEuler(yaw, pitch, roll); _ephysics_quaternion_update(quat, &bt_quat); } EAPI void ephysics_quaternion_normalize(EPhysics_Quaternion *quat) { btQuaternion bt_quat; if (!quat) { ERR("Can't normalize a null quaternion."); return; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); bt_quat.normalize(); _ephysics_quaternion_update(quat, &bt_quat); } EAPI void ephysics_quaternion_invert(EPhysics_Quaternion *quat) { btQuaternion bt_quat; if (!quat) { ERR("Can't normalize a null quaternion."); return; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); bt_quat.inverse(); _ephysics_quaternion_update(quat, &bt_quat); } EAPI void ephysics_quaternion_scale(EPhysics_Quaternion *quat, double scale) { btQuaternion bt_quat; if (!quat) { ERR("Can't operate over a null quaternion."); return; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); bt_quat *= scale; _ephysics_quaternion_update(quat, &bt_quat); } EAPI void ephysics_quaternion_inverse_scale(EPhysics_Quaternion *quat, double scale) { btQuaternion bt_quat; if (!quat) { ERR("Can't operate over a null quaternion."); return; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); bt_quat /= scale; _ephysics_quaternion_update(quat, &bt_quat); } EAPI EPhysics_Quaternion * ephysics_quaternion_sum(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2, EPhysics_Quaternion *result) { btQuaternion bt_quat1, bt_quat2, bt_quat; EPhysics_Quaternion *quat; quat = _ephysics_quaternion_params_check(quat1, quat2, result); if (!quat) return NULL; bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); bt_quat = bt_quat1 + bt_quat2; _ephysics_quaternion_update(quat, &bt_quat); return quat; } EAPI EPhysics_Quaternion * ephysics_quaternion_diff(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2, EPhysics_Quaternion *result) { btQuaternion bt_quat1, bt_quat2, bt_quat; EPhysics_Quaternion *quat; quat = _ephysics_quaternion_params_check(quat1, quat2, result); if (!quat) return NULL; bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); bt_quat = bt_quat1 - bt_quat2; _ephysics_quaternion_update(quat, &bt_quat); return quat; } EAPI EPhysics_Quaternion * ephysics_quaternion_multiply(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2, EPhysics_Quaternion *result) { btQuaternion bt_quat1, bt_quat2, bt_quat; EPhysics_Quaternion *quat; quat = _ephysics_quaternion_params_check(quat1, quat2, result); if (!quat) return NULL; bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); bt_quat = bt_quat1 * bt_quat2; _ephysics_quaternion_update(quat, &bt_quat); return quat; } EAPI EPhysics_Quaternion * ephysics_quaternion_slerp(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2, double ratio, EPhysics_Quaternion *result) { btQuaternion bt_quat1, bt_quat2; EPhysics_Quaternion *quat; quat = _ephysics_quaternion_params_check(quat1, quat2, result); if (!quat) return NULL; bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); bt_quat1.slerp(bt_quat2, ratio); _ephysics_quaternion_update(quat, &bt_quat1); return quat; } EAPI double ephysics_quaternion_dot(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2) { btQuaternion bt_quat1, bt_quat2; if ((!quat1) || (!quat2)) { ERR("Can't operate over null quaternions."); return 0; } bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); return bt_quat1.dot(bt_quat2); } EAPI double ephysics_quaternion_angle_get(const EPhysics_Quaternion *quat1, const EPhysics_Quaternion *quat2) { btQuaternion bt_quat1, bt_quat2; if ((!quat1) || (!quat2)) { ERR("Can't operate over null quaternions."); return 0; } bt_quat1 = btQuaternion(quat1->x, quat1->y, quat1->z, quat1->w); bt_quat2 = btQuaternion(quat2->x, quat2->y, quat2->z, quat2->w); return bt_quat1.angle(bt_quat2); } EAPI double ephysics_quaternion_length_get(const EPhysics_Quaternion *quat) { btQuaternion bt_quat; if (!quat) { ERR("Can't operate over a null quaternion."); return 0; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); return bt_quat.length(); } EAPI double ephysics_quaternion_length2_get(const EPhysics_Quaternion *quat) { btQuaternion bt_quat; if (!quat) { ERR("Can't operate over a null quaternion."); return 0; } bt_quat = btQuaternion(quat->x, quat->y, quat->z, quat->w); return bt_quat.length2(); } #ifdef __cplusplus } #endif