/* * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: some of this file. */ #pragma once /** \file * \ingroup bli */ #include "BLI_compiler_attrs.h" #include "BLI_math_inline.h" #include "BLI_utildefines.h" #ifdef __cplusplus extern "C" { #endif /************************************* Init ***********************************/ #ifdef BLI_MATH_GCC_WARN_PRAGMA # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wredundant-decls" #endif MINLINE void zero_v2(float r[2]); MINLINE void zero_v3(float r[3]); MINLINE void zero_v4(float r[4]); MINLINE void copy_v2_v2(float r[2], const float a[2]); MINLINE void copy_v3_v3(float r[3], const float a[3]); MINLINE void copy_v4_v4(float r[4], const float a[4]); MINLINE void copy_v2_fl(float r[2], float f); MINLINE void copy_v3_fl(float r[3], float f); MINLINE void copy_v4_fl(float r[4], float f); MINLINE void swap_v2_v2(float a[2], float b[2]); MINLINE void swap_v3_v3(float a[3], float b[3]); MINLINE void swap_v4_v4(float a[4], float b[4]); /* unsigned char */ MINLINE void copy_v2_v2_uchar(unsigned char r[2], const unsigned char a[2]); MINLINE void copy_v3_v3_uchar(unsigned char r[3], const unsigned char a[3]); MINLINE void copy_v4_v4_uchar(unsigned char r[4], const unsigned char a[4]); MINLINE void copy_v2_uchar(unsigned char r[2], const unsigned char a); MINLINE void copy_v3_uchar(unsigned char r[3], const unsigned char a); MINLINE void copy_v4_uchar(unsigned char r[4], const unsigned char a); /* char */ MINLINE void copy_v2_v2_char(char r[2], const char a[2]); MINLINE void copy_v3_v3_char(char r[3], const char a[3]); MINLINE void copy_v4_v4_char(char r[4], const char a[4]); /* short */ MINLINE void copy_v2_v2_short(short r[2], const short a[2]); MINLINE void copy_v3_v3_short(short r[3], const short a[3]); MINLINE void copy_v4_v4_short(short r[4], const short a[4]); /* int */ MINLINE void zero_v3_int(int r[3]); MINLINE void copy_v2_v2_int(int r[2], const int a[2]); MINLINE void copy_v3_v3_int(int r[3], const int a[3]); MINLINE void copy_v4_v4_int(int r[4], const int a[4]); /* double */ MINLINE void zero_v3_db(double r[3]); MINLINE void copy_v2_v2_db(double r[2], const double a[2]); MINLINE void copy_v3_v3_db(double r[3], const double a[3]); MINLINE void copy_v4_v4_db(double r[4], const double a[4]); /* short -> float */ MINLINE void copy_v3fl_v3s(float r[3], const short a[3]); /* int <-> float */ MINLINE void copy_v2fl_v2i(float r[2], const int a[2]); MINLINE void round_v2i_v2fl(int r[2], const float a[2]); /* double -> float */ MINLINE void copy_v2fl_v2db(float r[2], const double a[2]); MINLINE void copy_v3fl_v3db(float r[3], const double a[3]); MINLINE void copy_v4fl_v4db(float r[4], const double a[4]); /* float -> double */ MINLINE void copy_v2db_v2fl(double r[2], const float a[2]); MINLINE void copy_v3db_v3fl(double r[3], const float a[3]); MINLINE void copy_v4db_v4fl(double r[4], const float a[4]); /* float args -> vec */ MINLINE void copy_v2_fl2(float v[2], float x, float y); MINLINE void copy_v3_fl3(float v[3], float x, float y, float z); MINLINE void copy_v4_fl4(float v[4], float x, float y, float z, float w); /********************************* Arithmetic ********************************/ MINLINE void add_v2_fl(float r[2], float f); MINLINE void add_v3_fl(float r[3], float f); MINLINE void add_v4_fl(float r[4], float f); MINLINE void add_v2_v2(float r[2], const float a[2]); MINLINE void add_v2_v2_db(double r[2], const double a[2]); MINLINE void add_v2_v2v2(float r[2], const float a[2], const float b[2]); MINLINE void add_v2_v2_int(int r[2], const int a[2]); MINLINE void add_v2_v2v2_int(int r[2], const int a[2], const int b[2]); MINLINE void add_v3_v3(float r[3], const float a[3]); MINLINE void add_v3_v3_db(double r[3], const double a[3]); MINLINE void add_v3_v3v3(float r[3], const float a[3], const float b[3]); MINLINE void add_v4_v4(float r[4], const float a[4]); MINLINE void add_v4_v4v4(float r[4], const float a[4], const float b[4]); MINLINE void add_v3fl_v3fl_v3i(float r[3], const float a[3], const int b[3]); MINLINE void add_v3fl_v3fl_v3s(float r[3], const float a[3], const short b[3]); MINLINE void sub_v2_v2(float r[2], const float a[2]); MINLINE void sub_v2_v2v2(float r[2], const float a[2], const float b[2]); MINLINE void sub_v2_v2v2_db(double r[2], const double a[2], const double b[2]); MINLINE void sub_v2_v2v2_int(int r[2], const int a[2], const int b[2]); MINLINE void sub_v3_v3(float r[3], const float a[3]); MINLINE void sub_v3_v3v3(float r[3], const float a[3], const float b[3]); MINLINE void sub_v3_v3v3_int(int r[3], const int a[3], const int b[3]); MINLINE void sub_v3_v3v3_db(double r[3], const double a[3], const double b[3]); MINLINE void sub_v4_v4(float r[4], const float a[4]); MINLINE void sub_v4_v4v4(float r[4], const float a[4], const float b[4]); MINLINE void sub_v2db_v2fl_v2fl(double r[2], const float a[2], const float b[2]); MINLINE void sub_v3db_v3fl_v3fl(double r[3], const float a[3], const float b[3]); MINLINE void mul_v2_fl(float r[2], float f); MINLINE void mul_v2_v2fl(float r[2], const float a[2], float f); MINLINE void mul_v3_fl(float r[3], float f); MINLINE void mul_v3db_db(double r[3], double f); MINLINE void mul_v3_v3fl(float r[3], const float a[3], float f); MINLINE void mul_v3_v3db_db(double r[3], const double a[3], double f); MINLINE void mul_v2_v2(float r[2], const float a[2]); MINLINE void mul_v2_v2v2(float r[2], const float a[2], const float b[2]); MINLINE void mul_v3_v3(float r[3], const float a[3]); MINLINE void mul_v3_v3v3(float r[3], const float a[3], const float b[3]); MINLINE void mul_v4_fl(float r[4], float f); MINLINE void mul_v4_v4(float r[4], const float a[4]); MINLINE void mul_v4_v4fl(float r[4], const float a[4], float f); MINLINE void mul_v2_v2_cw(float r[2], const float mat[2], const float vec[2]); MINLINE void mul_v2_v2_ccw(float r[2], const float mat[2], const float vec[2]); MINLINE float mul_project_m4_v3_zfac(const float mat[4][4], const float co[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m3_v3_row_x(const float M[3][3], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m3_v3_row_y(const float M[3][3], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m3_v3_row_z(const float M[3][3], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m4_v3_row_x(const float M[4][4], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m4_v3_row_y(const float M[4][4], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_m4_v3_row_z(const float M[4][4], const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE void madd_v2_v2fl(float r[2], const float a[2], float f); MINLINE void madd_v3_v3fl(float r[3], const float a[3], float f); MINLINE void madd_v3_v3v3(float r[3], const float a[3], const float b[3]); MINLINE void madd_v2_v2v2fl(float r[2], const float a[2], const float b[2], float f); MINLINE void madd_v3_v3v3fl(float r[3], const float a[3], const float b[3], float f); MINLINE void madd_v3_v3v3db_db(double r[3], const double a[3], const double b[3], double f); MINLINE void madd_v3_v3v3v3(float r[3], const float a[3], const float b[3], const float c[3]); MINLINE void madd_v4_v4fl(float r[4], const float a[4], float f); MINLINE void madd_v4_v4v4(float r[4], const float a[4], const float b[4]); MINLINE void madd_v3fl_v3fl_v3fl_v3i(float r[3], const float a[3], const float b[3], const int c[3]); MINLINE void negate_v2(float r[2]); MINLINE void negate_v2_v2(float r[2], const float a[2]); MINLINE void negate_v3(float r[3]); MINLINE void negate_v3_v3(float r[3], const float a[3]); MINLINE void negate_v4(float r[4]); MINLINE void negate_v4_v4(float r[4], const float a[4]); MINLINE void negate_v3_short(short r[3]); MINLINE void negate_v3_db(double r[3]); MINLINE void invert_v2(float r[2]); MINLINE void invert_v3(float r[3]); MINLINE void invert_v3_safe(float r[3]); /* Invert the vector, but leaves zero values as zero. */ MINLINE void abs_v2(float r[2]); MINLINE void abs_v2_v2(float r[2], const float a[2]); MINLINE void abs_v3(float r[3]); MINLINE void abs_v3_v3(float r[3], const float a[3]); MINLINE void abs_v4(float r[4]); MINLINE void abs_v4_v4(float r[4], const float a[4]); MINLINE float dot_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE double dot_v2v2_db(const double a[2], const double b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_v3v3v3(const float p[3], const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float dot_v4v4(const float a[4], const float b[4]) ATTR_WARN_UNUSED_RESULT; MINLINE double dot_v3db_v3fl(const double a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE double dot_v3v3_db(const double a[3], const double b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float cross_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE double cross_v2v2_db(const double a[2], const double b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE void cross_v3_v3v3(float r[3], const float a[3], const float b[3]); MINLINE void cross_v3_v3v3_hi_prec(float r[3], const float a[3], const float b[3]); MINLINE void cross_v3_v3v3_db(double r[3], const double a[3], const double b[3]); MINLINE void add_newell_cross_v3_v3v3(float n[3], const float v_prev[3], const float v_curr[3]); MINLINE void star_m3_v3(float rmat[3][3], float a[3]); /*********************************** Length **********************************/ MINLINE float len_squared_v2(const float v[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_squared_v3(const float v[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_manhattan_v2(const float v[2]) ATTR_WARN_UNUSED_RESULT; MINLINE int len_manhattan_v2_int(const int v[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_manhattan_v3(const float v[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_v2(const float a[2]) ATTR_WARN_UNUSED_RESULT; MINLINE double len_v2_db(const double v[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE double len_v2v2_db(const double a[2], const double b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_v2v2_int(const int v1[2], const int v2[2]); MINLINE float len_squared_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE double len_squared_v2v2_db(const double a[2], const double b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_squared_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_squared_v4v4(const float a[4], const float b[4]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_manhattan_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE int len_manhattan_v2v2_int(const int a[2], const int b[2]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_manhattan_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_v3(const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float len_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE double len_v3_db(const double a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE double len_squared_v3_db(const double v[3]) ATTR_WARN_UNUSED_RESULT; MINLINE float normalize_v2_length(float r[2], const float unit_scale); MINLINE float normalize_v2_v2_length(float r[2], const float a[2], const float unit_scale); MINLINE float normalize_v3_length(float r[3], const float unit_scale); MINLINE float normalize_v3_v3_length(float r[3], const float a[3], const float unit_scale); MINLINE double normalize_v3_length_db(double n[3], const double unit_scale); MINLINE double normalize_v3_v3_length_db(double r[3], const double a[3], const double unit_scale); MINLINE float normalize_v2(float r[2]); MINLINE float normalize_v2_v2(float r[2], const float a[2]); MINLINE float normalize_v3(float r[3]); MINLINE float normalize_v3_v3(float r[3], const float a[3]); MINLINE double normalize_v3_v3_db(double r[3], const double a[3]); MINLINE double normalize_v3_db(double n[3]); /******************************* Interpolation *******************************/ void interp_v2_v2v2(float r[2], const float a[2], const float b[2], const float t); void interp_v2_v2v2_db(double target[2], const double a[2], const double b[2], const double t); void interp_v2_v2v2v2( float r[2], const float a[2], const float b[2], const float c[2], const float t[3]); void interp_v3_v3v3(float r[3], const float a[3], const float b[3], const float t); void interp_v3_v3v3_db(double target[3], const double a[3], const double b[3], const double t); void interp_v3_v3v3v3( float p[3], const float v1[3], const float v2[3], const float v3[3], const float w[3]); void interp_v3_v3v3v3v3(float p[3], const float v1[3], const float v2[3], const float v3[3], const float v4[3], const float w[4]); void interp_v4_v4v4(float r[4], const float a[4], const float b[4], const float t); void interp_v4_v4v4v4( float p[4], const float v1[4], const float v2[4], const float v3[4], const float w[3]); void interp_v4_v4v4v4v4(float p[4], const float v1[4], const float v2[4], const float v3[4], const float v4[4], const float w[4]); void interp_v3_v3v3v3_uv( float p[3], const float v1[3], const float v2[3], const float v3[3], const float uv[2]); bool interp_v3_v3v3_slerp(float target[3], const float a[3], const float b[3], const float t) ATTR_WARN_UNUSED_RESULT; bool interp_v2_v2v2_slerp(float target[2], const float a[2], const float b[2], const float t) ATTR_WARN_UNUSED_RESULT; void interp_v3_v3v3_slerp_safe(float target[3], const float a[3], const float b[3], const float t); void interp_v2_v2v2_slerp_safe(float target[2], const float a[2], const float b[2], const float t); void interp_v2_v2v2v2v2_cubic(float p[2], const float v1[2], const float v2[2], const float v3[2], const float v4[2], const float u); void interp_v3_v3v3_char(char target[3], const char a[3], const char b[3], const float t); void interp_v3_v3v3_uchar(unsigned char target[3], const unsigned char a[3], const unsigned char b[3], const float t); void interp_v4_v4v4_char(char target[4], const char a[4], const char b[4], const float t); void interp_v4_v4v4_uchar(unsigned char target[4], const unsigned char a[4], const unsigned char b[4], const float t); void mid_v3_v3v3(float r[3], const float a[3], const float b[3]); void mid_v2_v2v2(float r[2], const float a[2], const float b[2]); void mid_v3_v3v3v3(float v[3], const float v1[3], const float v2[3], const float v3[3]); void mid_v2_v2v2v2(float v[2], const float v1[2], const float v2[2], const float v3[2]); void mid_v3_v3v3v3v3( float v[3], const float v1[3], const float v2[3], const float v3[3], const float v4[3]); void mid_v3_v3_array(float r[3], const float (*vec_arr)[3], const unsigned int nbr); void mid_v3_v3v3_angle_weighted(float r[3], const float a[3], const float b[3]); void mid_v3_angle_weighted(float r[3]); void flip_v4_v4v4(float v[4], const float v1[4], const float v2[4]); void flip_v3_v3v3(float v[3], const float v1[3], const float v2[3]); void flip_v2_v2v2(float v[2], const float v1[2], const float v2[2]); /********************************* Comparison ********************************/ MINLINE bool is_zero_v2(const float a[2]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_zero_v3(const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_zero_v4(const float a[4]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_zero_v2_db(const double a[2]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_zero_v3_db(const double a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_zero_v4_db(const double a[4]) ATTR_WARN_UNUSED_RESULT; bool is_finite_v2(const float a[2]) ATTR_WARN_UNUSED_RESULT; bool is_finite_v3(const float a[3]) ATTR_WARN_UNUSED_RESULT; bool is_finite_v4(const float a[4]) ATTR_WARN_UNUSED_RESULT; MINLINE bool is_one_v3(const float a[3]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v2v2(const float v1[2], const float v2[2]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v4v4(const float a[4], const float b[4]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v2v2_int(const int v1[2], const int v2[2]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v3v3_int(const int v1[3], const int v2[3]) ATTR_WARN_UNUSED_RESULT; MINLINE bool equals_v4v4_int(const int v1[4], const int v2[4]) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v2v2(const float a[2], const float b[2], const float limit) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v3v3(const float a[3], const float b[3], const float limit) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v4v4(const float a[4], const float b[4], const float limit) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v2v2_relative(const float a[2], const float b[2], const float limit, const int max_ulps) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v3v3_relative(const float a[3], const float b[3], const float limit, const int max_ulps) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_v4v4_relative(const float a[4], const float b[4], const float limit, const int max_ulps) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_len_v3v3(const float a[3], const float b[3], const float limit) ATTR_WARN_UNUSED_RESULT; MINLINE bool compare_size_v3v3(const float a[3], const float b[3], const float limit) ATTR_WARN_UNUSED_RESULT; MINLINE float line_point_side_v2(const float l1[2], const float l2[2], const float pt[2]) ATTR_WARN_UNUSED_RESULT; /********************************** Angles ***********************************/ /* - angle with 2 arguments is angle between vector. * - angle with 3 arguments is angle between 3 points at the middle point. * - angle_normalized_* is faster equivalent if vectors are normalized. */ float angle_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; float angle_signed_v2v2(const float v1[2], const float v2[2]) ATTR_WARN_UNUSED_RESULT; float angle_v2v2v2(const float a[2], const float b[2], const float c[2]) ATTR_WARN_UNUSED_RESULT; float angle_normalized_v2v2(const float a[2], const float b[2]) ATTR_WARN_UNUSED_RESULT; float angle_v3v3(const float a[3], const float b[3]) ATTR_WARN_UNUSED_RESULT; float angle_v3v3v3(const float a[3], const float b[3], const float c[3]) ATTR_WARN_UNUSED_RESULT; float cos_v3v3v3(const float p1[3], const float p2[3], const float p3[3]) ATTR_WARN_UNUSED_RESULT; float cos_v2v2v2(const float p1[2], const float p2[2], const float p3[2]) ATTR_WARN_UNUSED_RESULT; float angle_on_axis_v3v3_v3(const float v1[3], const float v2[3], const float axis[3]) ATTR_WARN_UNUSED_RESULT; float angle_signed_on_axis_v3v3_v3(const float v1[3], const float v2[3], const float axis[3]) ATTR_WARN_UNUSED_RESULT; float angle_normalized_v3v3(const float v1[3], const float v2[3]) ATTR_WARN_UNUSED_RESULT; float angle_on_axis_v3v3v3_v3(const float v1[3], const float v2[3], const float v3[3], const float axis[3]) ATTR_WARN_UNUSED_RESULT; float angle_signed_on_axis_v3v3v3_v3(const float v1[3], const float v2[3], const float v3[3], const float axis[3]) ATTR_WARN_UNUSED_RESULT; void angle_tri_v3(float angles[3], const float v1[3], const float v2[3], const float v3[3]); void angle_quad_v3( float angles[4], const float v1[3], const float v2[3], const float v3[3], const float v4[3]); void angle_poly_v3(float *angles, const float *verts[3], int len); /********************************* Geometry **********************************/ void project_v2_v2v2(float out[2], const float p[2], const float v_proj[2]); void project_v3_v3v3(float out[3], const float p[3], const float v_proj[3]); void project_v3_v3v3_db(double out[3], const double p[3], const double v_proj[3]); void project_v2_v2v2_normalized(float out[2], const float p[2], const float v_proj[2]); void project_v3_v3v3_normalized(float out[3], const float p[3], const float v_proj[3]); void project_plane_v3_v3v3(float out[3], const float p[3], const float v_plane[3]); void project_plane_v2_v2v2(float out[2], const float p[2], const float v_plane[2]); void project_plane_normalized_v3_v3v3(float out[3], const float p[3], const float v_plane[3]); void project_plane_normalized_v2_v2v2(float out[2], const float p[2], const float v_plane[2]); void project_v3_plane(float out[3], const float plane_no[3], const float plane_co[3]); void reflect_v3_v3v3(float out[3], const float vec[3], const float normal[3]); void reflect_v3_v3v3_db(double out[3], const double vec[3], const double normal[3]); void ortho_basis_v3v3_v3(float r_n1[3], float r_n2[3], const float n[3]); void ortho_v3_v3(float out[3], const float v[3]); void ortho_v2_v2(float out[2], const float v[2]); void bisect_v3_v3v3v3(float r[3], const float a[3], const float b[3], const float c[3]); void rotate_v2_v2fl(float r[2], const float p[2], const float angle); void rotate_v3_v3v3fl(float r[3], const float p[3], const float axis[3], const float angle); void rotate_normalized_v3_v3v3fl(float out[3], const float p[3], const float axis[3], const float angle); /*********************************** Other ***********************************/ void print_v2(const char *str, const float v[2]); void print_v3(const char *str, const float v[3]); void print_v4(const char *str, const float v[4]); void print_vn(const char *str, const float v[], const int n); #define print_v2_id(v) print_v2(STRINGIFY(v), v) #define print_v3_id(v) print_v3(STRINGIFY(v), v) #define print_v4_id(v) print_v4(STRINGIFY(v), v) #define print_vn_id(v, n) print_vn(STRINGIFY(v), v, n) MINLINE void normal_float_to_short_v2(short r[2], const float n[2]); MINLINE void normal_short_to_float_v3(float r[3], const short n[3]); MINLINE void normal_float_to_short_v3(short r[3], const float n[3]); MINLINE void normal_float_to_short_v4(short r[4], const float n[4]); void minmax_v4v4_v4(float min[4], float max[4], const float vec[4]); void minmax_v3v3_v3(float min[3], float max[3], const float vec[3]); void minmax_v2v2_v2(float min[2], float max[2], const float vec[2]); void minmax_v3v3_v3_array(float r_min[3], float r_max[3], const float (*vec_arr)[3], int nbr); void dist_ensure_v3_v3fl(float v1[3], const float v2[3], const float dist); void dist_ensure_v2_v2fl(float v1[2], const float v2[2], const float dist); void axis_sort_v3(const float axis_values[3], int r_axis_order[3]); MINLINE void clamp_v2(float vec[2], const float min, const float max); MINLINE void clamp_v3(float vec[3], const float min, const float max); MINLINE void clamp_v4(float vec[4], const float min, const float max); MINLINE void clamp_v2_v2v2(float vec[2], const float min[2], const float max[2]); MINLINE void clamp_v3_v3v3(float vec[3], const float min[3], const float max[3]); MINLINE void clamp_v4_v4v4(float vec[4], const float min[4], const float max[4]); /***************************** Array Functions *******************************/ /* follow fixed length vector function conventions. */ double dot_vn_vn(const float *array_src_a, const float *array_src_b, const int size) ATTR_WARN_UNUSED_RESULT; double len_squared_vn(const float *array, const int size) ATTR_WARN_UNUSED_RESULT; float normalize_vn_vn(float *array_tar, const float *array_src, const int size); float normalize_vn(float *array_tar, const int size); void range_vn_i(int *array_tar, const int size, const int start); void range_vn_u(unsigned int *array_tar, const int size, const unsigned int start); void range_vn_fl(float *array_tar, const int size, const float start, const float step); void negate_vn(float *array_tar, const int size); void negate_vn_vn(float *array_tar, const float *array_src, const int size); void mul_vn_vn(float *array_tar, const float *array_src, const int size); void mul_vn_vnvn(float *array_tar, const float *array_src_a, const float *array_src_b, const int size); void mul_vn_fl(float *array_tar, const int size, const float f); void mul_vn_vn_fl(float *array_tar, const float *array_src, const int size, const float f); void add_vn_vn(float *array_tar, const float *array_src, const int size); void add_vn_vnvn(float *array_tar, const float *array_src_a, const float *array_src_b, const int size); void madd_vn_vn(float *array_tar, const float *array_src, const float f, const int size); void madd_vn_vnvn(float *array_tar, const float *array_src_a, const float *array_src_b, const float f, const int size); void sub_vn_vn(float *array_tar, const float *array_src, const int size); void sub_vn_vnvn(float *array_tar, const float *array_src_a, const float *array_src_b, const int size); void msub_vn_vn(float *array_tar, const float *array_src, const float f, const int size); void msub_vn_vnvn(float *array_tar, const float *array_src_a, const float *array_src_b, const float f, const int size); void interp_vn_vn(float *array_tar, const float *array_src, const float t, const int size); void copy_vn_i(int *array_tar, const int size, const int val); void copy_vn_short(short *array_tar, const int size, const short val); void copy_vn_ushort(unsigned short *array_tar, const int size, const unsigned short val); void copy_vn_uchar(unsigned char *array_tar, const int size, const unsigned char val); void copy_vn_fl(float *array_tar, const int size, const float val); void add_vn_vn_d(double *array_tar, const double *array_src, const int size); void add_vn_vnvn_d(double *array_tar, const double *array_src_a, const double *array_src_b, const int size); void mul_vn_db(double *array_tar, const int size, const double f); /**************************** Inline Definitions ******************************/ #if BLI_MATH_DO_INLINE # include "intern/math_vector_inline.c" #endif #ifdef BLI_MATH_GCC_WARN_PRAGMA # pragma GCC diagnostic pop #endif #ifdef __cplusplus } #endif