/* GIMP - The GNU Image Manipulation Program * Copyright (C) 1995 Spencer Kimball and Peter Mattis * * gimpcoords.c * Copyright (C) 2002 Simon Budig * * 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 3 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, see . */ #include "config.h" #include #include "libgimpmath/gimpmath.h" #include "core-types.h" #include "gimpcoords.h" #define INPUT_RESOLUTION 256 /* amul * a + bmul * b = ret_val */ void gimp_coords_mix (const gdouble amul, const GimpCoords *a, const gdouble bmul, const GimpCoords *b, GimpCoords *ret_val) { if (b) { ret_val->x = amul * a->x + bmul * b->x; ret_val->y = amul * a->y + bmul * b->y; ret_val->pressure = amul * a->pressure + bmul * b->pressure; ret_val->xtilt = amul * a->xtilt + bmul * b->xtilt; ret_val->ytilt = amul * a->ytilt + bmul * b->ytilt; ret_val->wheel = amul * a->wheel + bmul * b->wheel; ret_val->velocity = amul * a->velocity + bmul * b->velocity; ret_val->direction = amul * a->direction + bmul * b->direction; ret_val->extended = b->extended || a->extended; } else { ret_val->x = amul * a->x; ret_val->y = amul * a->y; ret_val->pressure = amul * a->pressure; ret_val->xtilt = amul * a->xtilt; ret_val->ytilt = amul * a->ytilt; ret_val->wheel = amul * a->wheel; ret_val->velocity = amul * a->velocity; ret_val->direction = amul * a->direction; ret_val->extended = a->extended; } } /* (a+b)/2 = ret_average */ void gimp_coords_average (const GimpCoords *a, const GimpCoords *b, GimpCoords *ret_average) { gimp_coords_mix (0.5, a, 0.5, b, ret_average); } /* a + b = ret_add */ void gimp_coords_add (const GimpCoords *a, const GimpCoords *b, GimpCoords *ret_add) { gimp_coords_mix (1.0, a, 1.0, b, ret_add); } /* a - b = ret_difference */ void gimp_coords_difference (const GimpCoords *a, const GimpCoords *b, GimpCoords *ret_difference) { gimp_coords_mix (1.0, a, -1.0, b, ret_difference); } /* a * f = ret_product */ void gimp_coords_scale (const gdouble f, const GimpCoords *a, GimpCoords *ret_product) { gimp_coords_mix (f, a, 0.0, NULL, ret_product); } /* local helper for measuring the scalarproduct of two gimpcoords. */ gdouble gimp_coords_scalarprod (const GimpCoords *a, const GimpCoords *b) { return (a->x * b->x + a->y * b->y + a->pressure * b->pressure + a->xtilt * b->xtilt + a->ytilt * b->ytilt + a->wheel * b->wheel + a->velocity * b->velocity + a->direction * b->direction); } /* * The "length" of the gimpcoord. * Applies a metric that increases the weight on the * pressure/xtilt/ytilt/wheel to ensure proper interpolation */ gdouble gimp_coords_length_squared (const GimpCoords *a) { GimpCoords upscaled_a; upscaled_a.x = a->x; upscaled_a.y = a->y; upscaled_a.pressure = a->pressure * INPUT_RESOLUTION; upscaled_a.xtilt = a->xtilt * INPUT_RESOLUTION; upscaled_a.ytilt = a->ytilt * INPUT_RESOLUTION; upscaled_a.wheel = a->wheel * INPUT_RESOLUTION; upscaled_a.velocity = a->velocity * INPUT_RESOLUTION; upscaled_a.direction = a->direction * INPUT_RESOLUTION; return gimp_coords_scalarprod (&upscaled_a, &upscaled_a); } gdouble gimp_coords_length (const GimpCoords *a) { return sqrt (gimp_coords_length_squared (a)); } /* * Distance via manhattan metric, an upper bound for the eucledian metric. * used for e.g. bezier approximation */ gdouble gimp_coords_manhattan_dist (const GimpCoords *a, const GimpCoords *b) { gdouble dist = 0; dist += ABS (a->pressure - b->pressure); dist += ABS (a->xtilt - b->xtilt); dist += ABS (a->ytilt - b->ytilt); dist += ABS (a->wheel - b->wheel); dist += ABS (a->velocity - b->velocity); dist += ABS (a->direction - b->direction); dist *= INPUT_RESOLUTION; dist += ABS (a->x - b->x); dist += ABS (a->y - b->y); return dist; } gboolean gimp_coords_equal (const GimpCoords *a, const GimpCoords *b) { return (a->x == b->x && a->y == b->y && a->pressure == b->pressure && a->xtilt == b->xtilt && a->ytilt == b->ytilt && a->wheel == b->wheel && a->velocity == b->velocity && a->direction == b->direction); /* Extended attribute was omitted from this comparison deliberately, * it describes the events origin, not its value */ } /* helper for calculating direction of two gimpcoords. */ gdouble gimp_coords_direction (const GimpCoords *a, const GimpCoords *b) { gdouble direction; gdouble delta_x, delta_y; delta_x = a->x - b->x; delta_y = a->y - b->y; if ((delta_x == 0) && (delta_y == 0)) { direction = a->direction; } else if (delta_x == 0) { if (delta_y > 0) direction = 0.25; else direction = 0.75; } else if (delta_y == 0) { if (delta_x < 0) direction = 0.0; else direction = 0.5; } else { direction = atan ((- 1.0 * delta_y) / delta_x) / (2 * G_PI); if (delta_x > 0.0) direction = direction + 0.5; if (direction < 0.0) direction = direction + 1.0; } return direction; }