2 ///////////////////////////////////////////////////////////////////////////
3 // This program is free software: you can redistribute it and/or modify //
4 // it under the terms of the version 3 of the GNU General Public License //
5 // as published by the Free Software Foundation. //
7 // This program is distributed in the hope that it will be useful, but //
8 // WITHOUT ANY WARRANTY; without even the implied warranty of //
9 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU //
10 // General Public License for more details. //
12 // You should have received a copy of the GNU General Public License //
13 // along with this program. If not, see <http://www.gnu.org/licenses/>. //
15 // Written by Francois Fleuret, (C) IDIAP //
16 // Contact <francois.fleuret@idiap.ch> for comments & bug reports //
17 ///////////////////////////////////////////////////////////////////////////
21 This class factorizes the information from a PoseCell needed by a
22 PiFeature to be evaluated on an image. Since there can be in there
23 costly operations such as trigonometric mappings, it provides a
24 substantial cost optimization.
28 #ifndef PI_REFERENTIAL_H
29 #define PI_REFERENTIAL_H
31 #include "rectangle.h"
32 #include "pose_cell.h"
33 #include "rgb_image.h"
36 // The best scale so that the head size is
37 // ~global.reference_head_size. This is an integer scale as defined
41 scalar_t _horizontal_polarity;
43 // The head frame in _common_scale. The vectors are of length the _RADIUS_ of the head
44 scalar_t _head_xc, _head_yc, _head_radius;
45 scalar_t _head_window_scaling;
46 scalar_t _head_ux, _head_uy, _head_vx, _head_vy;
47 scalar_t _head_ux_nopolarity, _head_uy_nopolarity, _head_vx_nopolarity, _head_vy_nopolarity;
49 // The body frame in that _common_scale. The vectors are of length the radii of the ellipse
50 scalar_t _body_xc, _body_yc;
51 scalar_t _body_radius_1, _body_radius_2, _body_tilt;
53 // The belly frame is defined by the body location and head scale
54 scalar_t _belly_xc, _belly_yc;
55 scalar_t _belly_ux, _belly_uy, _belly_vx, _belly_vy;
56 scalar_t _belly_ux_nopolarity, _belly_uy_nopolarity, _belly_vx_nopolarity, _belly_vy_nopolarity;
57 scalar_t _belly_window_scaling;
59 // The head-belly frame is defined by the head location and the body
61 scalar_t _head_belly_xc, _head_belly_yc;
62 scalar_t _head_belly_ux, _head_belly_uy, _head_belly_vx, _head_belly_vy;
63 int _head_belly_edge_shift;
65 void draw_frame(RGBImage *image,
66 int registration_mode,
73 PiReferential(PoseCell *cell);
76 // A frame centered on the head, of size four times the head radius
77 // and, flipped verically if the body center is on the left of the
81 // Same as above, without the flipping
83 // A frame centered on the body center, of size size times the
84 // head rardius, flipped vertically if the body center is on the
85 // left of the head center
88 // Same as above, without the flipping
91 // A frame centered on the middle point between the head center
92 // and the body center, of size twice the distance head center -
93 // body center in the head-body direction, and of four times the
94 // head radius in the other
97 // Same as above with rotation of the edges
103 // The rectangle coordinates are in the reference frames. For the
104 // head for instance , [-1,1] x [-1,1] corresponds to the head
107 void register_rectangle(int registration_mode,
111 int register_edge(int registration_type, int edge_type);
113 void draw(RGBImage *image, int level);
115 void draw_window(RGBImage *image,
116 int registration_mode, Rectangle *window,
119 void draw_edge_and_scale(RGBImage *image,
120 int registration_mode, Rectangle *window,
121 int _tag, int _edge_scale);
123 static void print_registration_mode(ostream *out, int registration_mode);