/* Copyright (C) 2010 Paul Davis Author: Robin Gareus 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifdef WITH_VIDEOTIMELINE #include #include #include "ardour/tempo.h" #include "pbd/file_utils.h" #include "ardour/session_directory.h" #include "ardour_ui.h" #include "public_editor.h" #include "gui_thread.h" #include "utils.h" #include "canvas_impl.h" #include "simpleline.h" #include "utils_videotl.h" #include "rgb_macros.h" #include "video_timeline.h" #include #include #include #include "i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Timecode; VideoTimeLine::VideoTimeLine (PublicEditor *ed, ArdourCanvas::Group *vbg, int initial_height) : editor (ed) , videotl_bar_group(vbg) , bar_height(initial_height) { video_start_offset = 0L; video_offset = 0L; video_offset_p = 0L; video_duration = 0L; auto_set_session_fps = false; video_offset_lock = false; video_aspect_ratio = 4.0/3.0; open_video_monitor_dialog = 0; Config->ParameterChanged.connect (*this, invalidator (*this), ui_bind (&VideoTimeLine::parameter_changed, this, _1), gui_context()); video_server_url = video_get_server_url(Config); server_docroot = video_get_docroot(Config); video_filename = ""; local_file = true; video_file_fps = 25.0; flush_frames = false; vmonitor=0; reopen_vmonitor=false; find_xjadeo(); VtlUpdate.connect (*this, invalidator (*this), boost::bind (&PublicEditor::queue_visual_videotimeline_update, editor), gui_context()); GuiUpdate.connect (*this, invalidator (*this), boost::bind (&VideoTimeLine::gui_update, this, _1), gui_context()); } VideoTimeLine::~VideoTimeLine () { close_session(); } /* close and save settings */ void VideoTimeLine::save_session () { if (!_session) { return; } LocaleGuard lg (X_("POSIX")); bool is_dirty = false; XMLNode* prev = _session->extra_xml (X_("Videomonitor")); /* remember if vmonitor was open.. */ XMLNode* node = new XMLNode(X_("Videomonitor")); node->add_property (X_("active"), (vmonitor && vmonitor->is_started())?"yes":"no"); if (!prev || !(prev->property (X_("active")) && prev->property (X_("active"))->value() == node->property(X_("active"))->value()) ){ _session->add_extra_xml (*node); is_dirty=true; // TODO not if !prev && value==default } /* VTL settings */ node = _session->extra_xml (X_("Videotimeline")); if (node) { if (!(node->property(X_("id")) && node->property(X_("id"))->value() == id().to_s())) { node->add_property (X_("id"), id().to_s()); is_dirty=true; } } /* remember timeline height.. */ if (node) { int h = editor->get_videotl_bar_height(); if (!(node->property(X_("Height")) && atoi(node->property(X_("Height"))->value().c_str())==h)) { node->add_property (X_("Height"), h); is_dirty=true; } } /* save video-offset-lock */ if (node) { if (!(node->property(X_("VideoOffsetLock")) && atoi(node->property(X_("VideoOffsetLock"))->value().c_str())==video_offset_lock)) { node->add_property (X_("VideoOffsetLock"), video_offset_lock?X_("1"):X_("0")); is_dirty=true; } } /* save video-offset */ if (node) { if (!(node->property(X_("VideoOffset")) && atoll(node->property(X_("VideoOffset"))->value().c_str())==video_offset)) { node->add_property (X_("VideoOffset"), video_offset); is_dirty=true; } } /* save 'auto_set_session_fps' */ if (node) { if (!(node->property(X_("AutoFPS")) && atoi(node->property(X_("AutoFPS"))->value().c_str())==auto_set_session_fps)) { node->add_property (X_("AutoFPS"), auto_set_session_fps?X_("1"):X_("0")); is_dirty=true; } } if (is_dirty) { _session->set_dirty (); } } /* close and save settings */ void VideoTimeLine::close_session () { close_video_monitor(); save_session(); remove_frames(); video_filename = ""; video_duration = 0L; } /** load settings from session */ void VideoTimeLine::set_session (ARDOUR::Session *s) { SessionHandlePtr::set_session (s); if (!_session) { return ; } LocaleGuard lg (X_("POSIX")); XMLNode* node = _session->extra_xml (X_("Videotimeline")); if (node) { ARDOUR_UI::instance()->start_video_server((Gtk::Window*)0, false); set_id(*node); const XMLProperty* proph = node->property (X_("Height")); if (proph) { editor->set_video_timeline_height(atoi(proph->value().c_str())); } #if 0 /* TODO THINK: set FPS first time only ?! */ const XMLProperty* propasfps = node->property (X_("AutoFPS")); if (propasfps) { auto_set_session_fps = atoi(propasfps->value().c_str())?true:false; } #endif const XMLProperty* propoffset = node->property (X_("VideoOffset")); if (propoffset) { video_offset = atoll(propoffset->value().c_str()); video_offset_p = video_offset; } const XMLProperty* proplock = node->property (X_("VideoOffsetLock")); if (proplock) { video_offset_lock = atoi(proplock->value().c_str())?true:false; } const XMLProperty* localfile = node->property (X_("LocalFile")); if (localfile) { local_file = atoi(localfile->value().c_str())?true:false; } const XMLProperty* propf = node->property (X_("Filename")); video_file_info(propf->value(), local_file); } node = _session->extra_xml (X_("Videomonitor")); if (node) { const XMLProperty* prop = node->property (X_("active")); if (prop->value() == "yes" && found_xjadeo() && !video_filename.empty() && local_file) { open_video_monitor(false); } } _session->register_with_memento_command_factory(id(), this); _session->config.ParameterChanged.connect (*this, invalidator (*this), ui_bind (&VideoTimeLine::parameter_changed, this, _1), gui_context()); } void VideoTimeLine::save_undo () { video_offset_p = video_offset; } int VideoTimeLine::set_state (const XMLNode& node, int /*version*/) { LocaleGuard lg (X_("POSIX")); const XMLProperty* propoffset = node.property (X_("VideoOffset")); if (propoffset) { video_offset = atoll(propoffset->value().c_str()); } ARDOUR_UI::instance()->flush_videotimeline_cache(true); return 0; } XMLNode& VideoTimeLine::get_state () { XMLNode* node = new XMLNode (X_("Videotimeline")); LocaleGuard lg (X_("POSIX")); node->add_property (X_("VideoOffset"), video_offset_p); return *node; } void VideoTimeLine::remove_frames () { for (VideoFrames::iterator i = video_frames.begin(); i != video_frames.end(); ++i ) { VideoImageFrame *frame = (*i); delete frame; (*i) = 0; } video_frames.clear(); } VideoImageFrame * VideoTimeLine::get_video_frame (framepos_t vfn, int cut, int rightend) { if (vfn==0) cut=0; for (VideoFrames::iterator i = video_frames.begin(); i != video_frames.end(); ++i) { VideoImageFrame *frame = (*i); if (abs(frame->get_video_frame_number()-vfn)<=cut && frame->get_rightend() == rightend) { return frame; } } return 0; } float VideoTimeLine::get_apv() { // XXX: dup code - TODO use this fn in update_video_timeline() float apv = -1; /* audio frames per video frame; */ if (!_session) return apv; if (_session->config.get_use_video_file_fps()) { if (video_file_fps == 0 ) return apv; } else { if (_session->timecode_frames_per_second() == 0 ) return apv; } if (_session->config.get_videotimeline_pullup()) { apv = _session->frame_rate(); } else { apv = _session->nominal_frame_rate(); } if (_session->config.get_use_video_file_fps()) { apv /= video_file_fps; } else { apv /= _session->timecode_frames_per_second(); } return apv; } void VideoTimeLine::update_video_timeline() { if (!_session) return; if (_session->config.get_use_video_file_fps()) { if (video_file_fps == 0 ) return; } else { if (_session->timecode_frames_per_second() == 0 ) return; } double frames_per_unit = editor->unit_to_frame(1.0); framepos_t leftmost_frame = editor->leftmost_position(); /* Outline: * 1) calculate how many frames there should be in current zoom (plus 1 page on each side) * 2) calculate first frame and distance between video-frames (according to zoom) * 3) destroy/add frames * 4) reposition existing frames * 5) assign framenumber to frames -> request/decode video. */ /* video-file and session properties */ double display_vframe_width; /* unit: pixels ; width of one thumbnail in the timeline */ float apv; /* audio frames per video frame; */ framepos_t leftmost_video_frame; /* unit: video-frame number ; temporary var -> vtl_start */ /* variables needed to render videotimeline -- what needs to computed first */ framepos_t vtl_start; /* unit: audio-frames ; first displayed video-frame */ framepos_t vtl_dist; /* unit: audio-frames ; distance between displayed video-frames */ unsigned int visible_video_frames; /* number of frames that fit on current canvas */ if (_session->config.get_videotimeline_pullup()) { apv = _session->frame_rate(); } else { apv = _session->nominal_frame_rate(); } if (_session->config.get_use_video_file_fps()) { apv /= video_file_fps; } else { apv /= _session->timecode_frames_per_second(); } display_vframe_width = bar_height * video_aspect_ratio; if (apv > frames_per_unit * display_vframe_width) { /* high-zoom: need space between successive video-frames */ vtl_dist = rint(apv); } else { /* continous timeline: skip video-frames */ vtl_dist = ceil(display_vframe_width * frames_per_unit / apv) * apv; } assert (vtl_dist > 0); assert (apv > 0); #define GOFFSET (video_offset) leftmost_video_frame = floor (floor((leftmost_frame - video_start_offset - GOFFSET ) / vtl_dist) * vtl_dist / apv); vtl_start = rint (GOFFSET + video_start_offset + leftmost_video_frame * apv); visible_video_frames = 2 + ceil(editor->current_page_frames() / vtl_dist); /* +2 left+right partial frames */ /* expand timeline (cache next/prev page images) */ vtl_start -= visible_video_frames * vtl_dist; visible_video_frames *=3; if (vtl_start < GOFFSET ) { visible_video_frames += ceil(vtl_start/vtl_dist); vtl_start = GOFFSET; } /* apply video-file constraints */ if (vtl_start > video_start_offset + video_duration + GOFFSET ) { visible_video_frames = 0; } /* TODO optimize: compute rather than iterate */ while (visible_video_frames > 0 && vtl_start + (visible_video_frames-1) * vtl_dist >= video_start_offset + video_duration + GOFFSET) { --visible_video_frames; } if (flush_frames) { remove_frames(); flush_frames=false; } while (video_frames.size() < visible_video_frames) { VideoImageFrame *frame; frame = new VideoImageFrame(*editor, *videotl_bar_group, display_vframe_width, bar_height, video_server_url, translated_filename()); frame->ImgChanged.connect (*this, invalidator (*this), boost::bind (&PublicEditor::queue_visual_videotimeline_update, editor), gui_context()); video_frames.push_back(frame); } VideoFrames outdated_video_frames; std::list remaining; outdated_video_frames = video_frames; #if 1 /* when zoomed out, ignore shifts by +-1 frame * which can occur due to rounding errors when * scrolling to a new leftmost-audio frame. */ int cut =1; if (vtl_dist/apv < 3.0) cut =0; #else int cut =0; #endif for (unsigned int vfcount=0; vfcount < visible_video_frames; ++vfcount){ framepos_t vfpos = vtl_start + vfcount * vtl_dist; /* unit: audio-frames */ framepos_t vframeno = rint ( (vfpos - GOFFSET) / apv); /* unit: video-frames */ vfpos = (vframeno * apv ) + GOFFSET; /* audio-frame corresponding to /rounded/ video-frame */ int rightend = -1; /* unit: pixels */ if (vfpos + vtl_dist > video_start_offset + video_duration + GOFFSET) { rightend = display_vframe_width * (video_start_offset + video_duration + GOFFSET - vfpos) / vtl_dist; //printf("lf(e): %lu\n", vframeno); // XXX } VideoImageFrame * frame = get_video_frame(vframeno, cut, rightend); if (frame) { frame->set_position(vfpos-leftmost_frame); outdated_video_frames.remove(frame); } else { remaining.push_back(vfcount); } } for (VideoFrames::iterator i = outdated_video_frames.begin(); i != outdated_video_frames.end(); ++i ) { VideoImageFrame *frame = (*i); if (remaining.empty()) { frame->set_position(-2 * vtl_dist); /* move off screen */ } else { int vfcount=remaining.front(); remaining.pop_front(); framepos_t vfpos = vtl_start + vfcount * vtl_dist; /* unit: audio-frames */ framepos_t vframeno = rint ((vfpos - GOFFSET) / apv); /* unit: video-frames */ int rightend = -1; /* unit: pixels */ if (vfpos + vtl_dist > video_start_offset + video_duration + GOFFSET) { rightend = display_vframe_width * (video_start_offset + video_duration + GOFFSET - vfpos) / vtl_dist; //printf("lf(n): %lu\n", vframeno); // XXX } frame->set_position(vfpos-leftmost_frame); frame->set_videoframe(vframeno, rightend); } } } std::string VideoTimeLine::translated_filename () { if (!local_file){ return video_filename; } else { return video_map_path(server_docroot, video_filename); } } bool VideoTimeLine::video_file_info (std::string filename, bool local) { local_file = local; if (filename.at(0) == G_DIR_SEPARATOR || !local_file) { video_filename = filename; } else { video_filename = Glib::build_filename (_session->session_directory().video_path(), filename); } long long int _duration; double _start_offset; if (!video_query_info( video_server_url, translated_filename(), video_file_fps, _duration, _start_offset, video_aspect_ratio)) { warning << _("Parsing video file info failed. Is the Video Server running? Is the file readable by the Video Server? Does the docroot match? Is it a video file?") << endmsg; return false; } video_duration = _duration * _session->nominal_frame_rate() / video_file_fps; video_start_offset = _start_offset * _session->nominal_frame_rate(); if (auto_set_session_fps && video_file_fps != _session->timecode_frames_per_second()) { switch ((int)floorf(video_file_fps*1000.0)) { case 23976: _session->config.set_timecode_format(timecode_23976); break; case 24000: _session->config.set_timecode_format(timecode_24); break; case 24975: case 24976: _session->config.set_timecode_format(timecode_24976); break; case 25000: _session->config.set_timecode_format(timecode_25); break; case 29970: _session->config.set_timecode_format(timecode_2997drop); break; case 30000: _session->config.set_timecode_format(timecode_30); break; case 59940: _session->config.set_timecode_format(timecode_5994); break; case 60000: _session->config.set_timecode_format(timecode_60); break; default: warning << _("Failed to set session-framerate: ") << video_file_fps << _(" does not have a corresponding option setting in Ardour.") << endmsg; /* TODO: gettext arg */ break; } _session->config.set_video_pullup(0); /* TODO only set if set_timecode_format() was successful ?!*/ } if (video_file_fps != _session->timecode_frames_per_second()) { warning << _("Video file's framerate is not equal to Ardour session timecode's framerate: ") << video_file_fps << _(" vs ") << _session->timecode_frames_per_second() << endmsg; } flush_local_cache (); _session->maybe_update_session_range( std::max(get_offset(), (ARDOUR::frameoffset_t) 0), std::max(get_offset() + get_duration(), (ARDOUR::frameoffset_t) 0) ); if (found_xjadeo() && local_file) { GuiUpdate("set-xjadeo-sensitive-on"); if (vmonitor && vmonitor->is_started()) { vmonitor->set_fps(video_file_fps); vmonitor->open(video_filename); } } else if (!local_file) { #if 1 /* temp debug/devel message */ // TODO - call xjremote remotely. printf("the given video file can not be accessed on localhost, video monitoring is not currently supported for this case\n"); GuiUpdate("set-xjadeo-sensitive-off"); #endif } VtlUpdate(); return true; } bool VideoTimeLine::check_server () { bool ok = false; char url[1024]; snprintf(url, sizeof(url), "%s%sstatus" , video_server_url.c_str() , (video_server_url.length()>0 && video_server_url.at(video_server_url.length()-1) == '/')?"":"/" ); char *res=curl_http_get(url, NULL); if (res) { if (strstr(res, "status: ok, online.")) { ok = true; } free(res); } return ok; } void VideoTimeLine::gui_update(std::string const & t) { /* this is to be called via GuiUpdate() only. */ ENSURE_GUI_THREAD (*this, &VideoTimeLine::queue_visual_videotimeline_update) if (t == "videotimeline-update") { editor->queue_visual_videotimeline_update(); } else if (t == "set-xjadeo-active-off") { editor->toggle_xjadeo_proc(0); } else if (t == "set-xjadeo-active-on") { editor->toggle_xjadeo_proc(1); } else if (t == "set-xjadeo-sensitive-on") { editor->set_xjadeo_sensitive(true); } else if (t == "set-xjadeo-sensitive-off") { editor->toggle_xjadeo_proc(0); //close_video_monitor(); editor->set_xjadeo_sensitive(false); } } void VideoTimeLine::set_height (int height) { bar_height = height; flush_local_cache(); } void VideoTimeLine::vmon_update () { if (vmonitor && vmonitor->is_started()) { vmonitor->set_offset( GOFFSET); // TODO proper re-init xjadeo w/o restart not just offset. } } void VideoTimeLine::flush_local_cache () { flush_frames = true; vmon_update(); } void VideoTimeLine::flush_cache () { flush_local_cache(); char url[1024]; snprintf(url, sizeof(url), "%s%sadmin/flush_cache" , video_server_url.c_str() , (video_server_url.length()>0 && video_server_url.at(video_server_url.length()-1) == '/')?"":"/" ); char *res=curl_http_get(url, NULL); if (res) { free (res); } if (vmonitor && vmonitor->is_started()) { reopen_vmonitor=true; vmonitor->quit(); } video_file_info(video_filename, local_file); } /* config */ void VideoTimeLine::parameter_changed (std::string const & p) { if (p == "video-server-url") { set_video_server_url (video_get_server_url(Config)); } else if (p == "video-server-docroot") { set_video_server_docroot (video_get_docroot(Config)); } else if (p == "video-advanced-setup") { set_video_server_url (video_get_server_url(Config)); set_video_server_docroot (video_get_docroot(Config)); } if (p == "use-video-file-fps" || p == "videotimeline-pullup" ) { /* session->config parameter */ VtlUpdate(); } } void VideoTimeLine::set_video_server_url(std::string vsu) { flush_local_cache (); video_server_url = vsu; VtlUpdate(); } void VideoTimeLine::set_video_server_docroot(std::string vsr) { flush_local_cache (); server_docroot = vsr; VtlUpdate(); } /* video-monitor for this timeline */ void VideoTimeLine::find_xjadeo () { std::string xjadeo_file_path; if (getenv("XJREMOTE")) { _xjadeo_bin = strdup(getenv("XJREMOTE")); // XXX TODO: free it?! } else if (find_file_in_search_path (SearchPath(Glib::getenv("PATH")), X_("xjremote"), xjadeo_file_path)) { _xjadeo_bin = xjadeo_file_path; } else if (Glib::file_test(X_("/Applications/Jadeo.app/Contents/MacOS/xjremote"), Glib::FILE_TEST_EXISTS|Glib::FILE_TEST_IS_EXECUTABLE)) { _xjadeo_bin = X_("/Applications/Jadeo.app/Contents/MacOS/xjremote"); } /* TODO: win32: allow to configure PATH to xjremote */ else if (Glib::file_test(X_("C:\\Program Files\\xjadeo\\xjremote.exe"), Glib::FILE_TEST_EXISTS)) { _xjadeo_bin = X_("C:\\Program Files\\xjadeo\\xjremote.exe"); } else if (Glib::file_test(X_("C:\\Program Files\\xjadeo\\xjremote.bat"), Glib::FILE_TEST_EXISTS)) { _xjadeo_bin = X_("C:\\Program Files\\xjadeo\\xjremote.bat"); } else { _xjadeo_bin = X_(""); warning << _("Video-monitor 'xjadeo' was not found. Please install http://xjadeo.sf.net/ " "(a custom path to xjadeo can be specified by setting the XJREMOTE environment variable. " "It should point to an application compatible with xjadeo's remote-control interface 'xjremote').") << endmsg; } } void VideoTimeLine::open_video_monitor(bool interactive) { if (!found_xjadeo()) return; if (!vmonitor) { vmonitor = new VideoMonitor(editor, _xjadeo_bin); vmonitor->set_session(_session); vmonitor->Terminated.connect (sigc::mem_fun (*this, &VideoTimeLine::terminated_video_monitor)); } else if (vmonitor->is_started()) { return; } int xj_settings_mask = vmonitor->restore_settings_mask(); if (_session) { /* load mask from Session */ XMLNode* node = _session->extra_xml (X_("XJRestoreSettings")); if (node) { const XMLProperty* prop = node->property (X_("mask")); if (prop) { xj_settings_mask = atoi(prop->value().c_str()); } } } if (interactive && Config->get_video_monitor_setup_dialog()) { if (open_video_monitor_dialog == 0) { open_video_monitor_dialog = new OpenVideoMonitorDialog(_session); } if (open_video_monitor_dialog->is_visible()) { return; } open_video_monitor_dialog->setup_settings_mask(xj_settings_mask); open_video_monitor_dialog->set_filename(video_filename); Gtk::ResponseType r = (Gtk::ResponseType) open_video_monitor_dialog->run (); open_video_monitor_dialog->hide(); if (r != Gtk::RESPONSE_ACCEPT) { GuiUpdate("set-xjadeo-active-off"); return; } if (_session && (xj_settings_mask != open_video_monitor_dialog->xj_settings_mask()) ) { /* save mask to Session */ XMLNode* node = new XMLNode(X_("XJRestoreSettings")); node->add_property (X_("mask"), (const long) open_video_monitor_dialog->xj_settings_mask() ); _session->add_extra_xml (*node); _session->set_dirty (); } if (open_video_monitor_dialog->show_again()) { Config->set_video_monitor_setup_dialog(false); } #if 1 vmonitor->set_debug(open_video_monitor_dialog->enable_debug()); #endif vmonitor->restore_settings_mask(open_video_monitor_dialog->xj_settings_mask()); } else { vmonitor->restore_settings_mask(xj_settings_mask); } if (!vmonitor->start()) { warning << "launching xjadeo failed.." << endmsg; close_video_monitor(); } else { GuiUpdate("set-xjadeo-active-on"); vmonitor->set_fps(video_file_fps); vmonitor->open(video_filename); } } void VideoTimeLine::close_video_monitor() { if (vmonitor && vmonitor->is_started()) { vmonitor->quit(); } } void VideoTimeLine::terminated_video_monitor () { if (vmonitor) { delete vmonitor; } GuiUpdate("set-xjadeo-active-off"); vmonitor=0; if (reopen_vmonitor) { reopen_vmonitor=false; open_video_monitor(false); } } /* void VideoTimeLine::clear_video_monitor_session_state () { if (vmonitor) { vmonitor->clear_session_state(); } else { if (!_session) { return; } XMLNode* node = new XMLNode(X_("XJSettings")); _session->add_extra_xml (*node); _session->set_dirty (); } } */ void VideoTimeLine::manual_seek_video_monitor (framepos_t pos) { if (!vmonitor) { return; } if (!vmonitor->is_started()) { return; } if (!vmonitor->synced_by_manual_seeks()) { return; } vmonitor->manual_seek(pos, false, GOFFSET); // XXX -> set offset in xjadeo } #endif /* WITH_VIDEOTIMELINE */