#include "legounknown.h" DECOMP_SIZE_ASSERT(LegoUnknown, 0x50) // FUNCTION: LEGO1 0x1009a0f0 LegoUnknown::LegoUnknown() { for (LegoS32 i = 0; i < sizeOfArray(m_unk0x00); i++) { m_unk0x00[i].Clear(); } } // FUNCTION: LEGO1 0x1009a130 LegoUnknown::~LegoUnknown() { } // FUNCTION: LEGO1 0x1009a140 void LegoUnknown::FUN_1009a140(const Vector3& p_point1, Vector3& p_point2, Vector3& p_point3, Vector3& p_point4) { m_unk0x00[0] = p_point1; m_unk0x00[1] = p_point2; for (LegoS32 i = 0; i < 3; i++) { m_unk0x00[2][i] = (p_point3[i] - p_point1[i]) * 3.0f - p_point2[i] * 2.0f - p_point4[i]; m_unk0x00[3][i] = (p_point1[i] - p_point3[i]) * 2.0f + p_point4[i] + p_point2[i]; } } // FUNCTION: LEGO1 0x1009a1e0 // FUNCTION: BETA10 0x10182d61 LegoResult LegoUnknown::FUN_1009a1e0(float p_f1, Matrix4& p_mat, Vector3& p_v, LegoU32 p_und) { Vector3 v1(p_mat[3]); Vector3 v2(p_mat[0]); Vector3 v3(p_mat[1]); Vector3 v4(p_mat[2]); if (p_f1 <= 0.001) { v1 = m_unk0x00[0]; v4 = m_unk0x00[1]; } else if (p_f1 >= 0.999) { v1 = m_unk0x00[0]; v1 += m_unk0x00[1]; v1 += m_unk0x00[2]; v1 += m_unk0x00[3]; for (LegoS32 i = 0; i < 3; i++) { v4[i] = m_unk0x00[1][i] + m_unk0x00[2][i] * 2.0f + m_unk0x00[3][i] * 3.0f; } } else { float local30 = p_f1 * p_f1; float local34 = local30 * p_f1; for (LegoS32 i = 0; i < 3; i++) { v1[i] = m_unk0x00[0][i] + m_unk0x00[1][i] * p_f1 + m_unk0x00[2][i] * local30 + m_unk0x00[3][i] * local34; v4[i] = m_unk0x00[1][i] + m_unk0x00[2][i] * p_f1 * 2.0f + m_unk0x00[3][i] * local30 * 3.0f; } } if (p_und) { v4 *= -1.0f; } if (v4.Unitize() != 0) { return FAILURE; } v2.EqualsCross(&p_v, &v4); if (v2.Unitize() != 0) { return FAILURE; } v3.EqualsCross(&v4, &v2); return SUCCESS; }