4 * Copyright (C) 2008 Adam Williams <broadcast at earthling dot net>
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
25 #include "edlsession.h"
26 #include "floatauto.h"
27 #include "floatautos.h"
30 #include "maskautos.h"
31 #include "overlayframe.inc"
32 #include "transportque.inc"
33 #include "vautomation.h"
36 VAutomation::VAutomation(EDL *edl, Track *track)
37 : Automation(edl, track)
43 VAutomation::~VAutomation()
48 void VAutomation::create_objects()
50 Automation::create_objects();
52 autos[AUTOMATION_FADE] = new FloatAutos(edl, track, 100);
53 autos[AUTOMATION_FADE]->create_objects();
55 autos[AUTOMATION_SPEED] = new FloatAutos(edl, track, 1.);
56 autos[AUTOMATION_SPEED]->create_objects();
57 ((FloatAutos*)autos[AUTOMATION_SPEED])->set_float_min(SPEED_MIN);
59 autos[AUTOMATION_MODE] = new IntAutos(edl, track, TRANSFER_NORMAL);
60 autos[AUTOMATION_MODE]->create_objects();
62 autos[AUTOMATION_MASK] = new MaskAutos(edl, track);
63 autos[AUTOMATION_MASK]->create_objects();
65 autos[AUTOMATION_CAMERA_X] = new FloatAutos(edl, track, 0.0);
66 autos[AUTOMATION_CAMERA_X]->create_objects();
68 autos[AUTOMATION_CAMERA_Y] = new FloatAutos(edl, track, 0.0);
69 autos[AUTOMATION_CAMERA_Y]->create_objects();
71 autos[AUTOMATION_PROJECTOR_X] = new FloatAutos(edl, track, 0.0);
72 autos[AUTOMATION_PROJECTOR_X]->create_objects();
74 autos[AUTOMATION_PROJECTOR_Y] = new FloatAutos(edl, track, 0.0);
75 autos[AUTOMATION_PROJECTOR_Y]->create_objects();
77 autos[AUTOMATION_CAMERA_Z] = new FloatAutos(edl, track, 1.0);
78 autos[AUTOMATION_CAMERA_Z]->create_objects();
80 autos[AUTOMATION_PROJECTOR_Z] = new FloatAutos(edl, track, 1.0);
81 autos[AUTOMATION_PROJECTOR_Z]->create_objects();
82 for(int i = 0; i < AUTOMATION_TOTAL; i++) {
83 if( !autos[i] ) continue;
84 autos[i]->autoidx = i;
85 autos[i]->autogrouptype = autogrouptype(i, autos[i]->track);
89 int VAutomation::direct_copy_possible(int64_t start, int direction)
91 int64_t end = (direction == PLAY_FORWARD) ? (start + 1) : (start - 1);
93 if(!Automation::direct_copy_possible(start, direction))
96 // Automation is constant
98 if(((FloatAutos*)autos[AUTOMATION_FADE])->automation_is_constant(
99 start, end, direction, constant))
101 if(!EQUIV(constant, 100))
108 // Track must not be muted
109 if(autos[AUTOMATION_MUTE]->automation_is_constant(start, end))
111 if(autos[AUTOMATION_MUTE]->get_automation_constant(start, end) > 0)
117 // Projector must be centered.
118 FloatAuto *previous = 0, *next = 0;
119 float z = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_Z])->
120 get_value(start, direction, previous, next);
121 if(!EQUIV(z, 1)) return 0;
125 float x = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_X])->
126 get_value(start, direction, previous, next);
127 if(!EQUIV(x, 0)) return 0;
130 float y = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_Y])->
131 get_value(start, direction, previous, next);
132 if(!EQUIV(y, 0)) return 0;
137 // Camera must be centered
140 z = ((FloatAutos*)autos[AUTOMATION_CAMERA_Z])->
141 get_value(start, direction, previous, next);
142 if(!EQUIV(z, 1)) return 0;
148 x = ((FloatAutos*)autos[AUTOMATION_CAMERA_X])->
149 get_value(start, direction, previous, next);
150 if(!EQUIV(x, 0)) return 0;
154 y = ((FloatAutos*)autos[AUTOMATION_CAMERA_Y])->
155 get_value(start, direction, previous, next);
157 if(!EQUIV(y, 0)) return 0;
159 // No mask must exist
160 if(((MaskAutos*)autos[AUTOMATION_MASK])->mask_exists(start, direction))
166 void VAutomation::get_projector(float *x,
172 FloatAuto *before, *after;
175 *x = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_X])->
176 get_value(position, direction, before, after);
179 *y = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_Y])->
180 get_value(position, direction, before, after);
183 *z = ((FloatAutos*)autos[AUTOMATION_PROJECTOR_Z])->
184 get_value(position, direction, before, after);
188 void VAutomation::get_camera(float *x,
194 FloatAuto *before, *after;
197 *x = ((FloatAutos*)autos[AUTOMATION_CAMERA_X])->
198 get_value(position, direction, before, after);
201 *y = ((FloatAutos*)autos[AUTOMATION_CAMERA_Y])->
202 get_value(position, direction, before, after);
205 *z = ((FloatAutos*)autos[AUTOMATION_CAMERA_Z])->
206 get_value(position, direction, before, after);