1 /* === S Y N F I G ========================================================= */
2 /*! \file widget_timeslider.cpp
3 ** \brief Time Slider Widget Implementation File
8 ** Copyright (c) 2004 Adrian Bentley
9 ** Copyright (c) 2007, 2008 Chris Moore
11 ** This package is free software; you can redistribute it and/or
12 ** modify it under the terms of the GNU General Public License as
13 ** published by the Free Software Foundation; either version 2 of
14 ** the License, or (at your option) any later version.
16 ** This package is distributed in the hope that it will be useful,
17 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
18 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
19 ** General Public License for more details.
22 /* ========================================================================= */
24 /* === H E A D E R S ======================================================= */
33 #include "widget_timeslider.h"
43 /* === U S I N G =========================================================== */
47 using namespace synfig;
49 using studio::Widget_Timeslider;
51 /* === M A C R O S ========================================================= */
53 /* === G L O B A L S ======================================================= */
54 const double zoominfactor = 0.75;
55 const double zoomoutfactor = 1/zoominfactor;
57 /* === P R O C E D U R E S ================================================= */
59 Gdk::Color get_interp_color(synfig::Interpolation x)
63 case INTERPOLATION_TCB:
64 return Gdk::Color("#00B000");
68 case INTERPOLATION_LINEAR:
69 return Gdk::Color("#B0B000");
72 case INTERPOLATION_CONSTANT:
73 return Gdk::Color("#C70000");
76 case INTERPOLATION_HALT:
77 return Gdk::Color("#00b0b0");
80 case INTERPOLATION_MANUAL:
81 return Gdk::Color("#B000B0");
84 case INTERPOLATION_UNDEFINED: default:
85 return Gdk::Color("#808080");
91 color_darken(Gdk::Color x, float amount)
93 double red = x.get_red_p() * amount;
94 double green = x.get_green_p() * amount;
95 double blue = x.get_blue_p() * amount;
97 x.set_rgb_p( red > 1 ? 1 : red,
98 green > 1 ? 1 : green,
105 studio::render_time_point_to_window(
106 const Glib::RefPtr<Gdk::Drawable>& window,
107 const Gdk::Rectangle& area,
108 const synfig::TimePoint &tp,
112 Glib::RefPtr<Gdk::GC> gc(Gdk::GC::create(window));
113 const Gdk::Color black("#000000");
116 gc->set_line_attributes(2,Gdk::LINE_SOLID,Gdk::CAP_BUTT,Gdk::JOIN_MITER);
118 gc->set_line_attributes(1,Gdk::LINE_SOLID,Gdk::CAP_BUTT,Gdk::JOIN_MITER);
121 std::vector<Gdk::Point> points;
123 /*- BEFORE ------------------------------------- */
125 color=get_interp_color(tp.get_before());
126 color=color_darken(color,1.0f);
127 if(selected)color=color_darken(color,1.3f);
128 gc->set_rgb_fg_color(color);
130 switch(tp.get_before())
132 case INTERPOLATION_TCB:
143 gc->set_rgb_fg_color(black);
156 case INTERPOLATION_HALT:
167 gc->set_rgb_fg_color(black);
180 case INTERPOLATION_LINEAR:
182 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
183 points.push_back(Gdk::Point(area.get_x(),area.get_y()+area.get_height()));
184 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
185 window->draw_polygon(gc,true,points);
186 gc->set_rgb_fg_color(black);
187 window->draw_lines(gc,points);
190 case INTERPOLATION_CONSTANT:
192 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
193 points.push_back(Gdk::Point(area.get_x()+area.get_width()/4,area.get_y()));
194 points.push_back(Gdk::Point(area.get_x()+area.get_width()/4,area.get_y()+area.get_height()/2));
195 points.push_back(Gdk::Point(area.get_x(),area.get_y()+area.get_height()/2));
196 points.push_back(Gdk::Point(area.get_x(),area.get_y()+area.get_height()));
197 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
198 window->draw_polygon(gc,true,points);
199 gc->set_rgb_fg_color(black);
200 window->draw_lines(gc,points);
203 case INTERPOLATION_UNDEFINED: default:
205 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
206 points.push_back(Gdk::Point(area.get_x()+area.get_width()/3,area.get_y()));
207 points.push_back(Gdk::Point(area.get_x(),area.get_y()+area.get_height()/3));
208 points.push_back(Gdk::Point(area.get_x(),area.get_y()+area.get_height()-area.get_height()/3));
209 points.push_back(Gdk::Point(area.get_x()+area.get_width()/3,area.get_y()+area.get_height()));
210 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
211 window->draw_polygon(gc,true,points);
212 gc->set_rgb_fg_color(black);
213 window->draw_lines(gc,points);
217 /*- AFTER -------------------------------------- */
219 color=get_interp_color(tp.get_after());
220 color=color_darken(color,0.8f);
221 if(selected)color=color_darken(color,1.3f);
222 gc->set_rgb_fg_color(color);
224 switch(tp.get_after())
226 case INTERPOLATION_TCB:
237 gc->set_rgb_fg_color(black);
250 case INTERPOLATION_HALT:
255 area.get_y()-area.get_height(),
261 gc->set_rgb_fg_color(black);
266 area.get_y()-area.get_height(),
274 case INTERPOLATION_LINEAR:
276 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
277 points.push_back(Gdk::Point(area.get_x()+area.get_width(),area.get_y()));
278 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
279 window->draw_polygon(gc,true,points);
280 gc->set_rgb_fg_color(black);
281 window->draw_lines(gc,points);
284 case INTERPOLATION_CONSTANT:
286 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
287 points.push_back(Gdk::Point(area.get_x()+area.get_width(),area.get_y()));
288 points.push_back(Gdk::Point(area.get_x()+area.get_width(),area.get_y()+area.get_height()/2));
289 points.push_back(Gdk::Point(area.get_x()+area.get_width()-area.get_width()/4,area.get_y()+area.get_height()/2));
290 points.push_back(Gdk::Point(area.get_x()+area.get_width()-area.get_width()/4,area.get_y()+area.get_height()));
291 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
292 window->draw_polygon(gc,true,points);
293 gc->set_rgb_fg_color(black);
294 window->draw_lines(gc,points);
297 case INTERPOLATION_UNDEFINED: default:
299 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()));
300 points.push_back(Gdk::Point(area.get_x()+area.get_width()-area.get_width()/3,area.get_y()));
301 points.push_back(Gdk::Point(area.get_x()+area.get_width(),area.get_y()+area.get_height()/3));
302 points.push_back(Gdk::Point(area.get_x()+area.get_width(),area.get_y()+area.get_height()-area.get_height()/3));
303 points.push_back(Gdk::Point(area.get_x()+area.get_width()-area.get_width()/3,area.get_y()+area.get_height()));
304 points.push_back(Gdk::Point(area.get_x()+area.get_width()/2,area.get_y()+area.get_height()));
305 window->draw_polygon(gc,true,points);
306 gc->set_rgb_fg_color(black);
307 window->draw_lines(gc,points);
313 /* === M E T H O D S ======================================================= */
315 /* === E N T R Y P O I N T ================================================= */
316 double defaultfps = 24;
317 const int fullheight = 20;
319 Widget_Timeslider::Widget_Timeslider()
320 :layout(Pango::Layout::create(get_pango_context())),
321 adj_default(0,0,2,1/defaultfps,10/defaultfps),
323 //invalidated(false),
328 set_size_request(-1,fullheight);
331 add_events( Gdk::BUTTON_PRESS_MASK | Gdk::BUTTON_RELEASE_MASK
332 | Gdk::BUTTON_MOTION_MASK | Gdk::SCROLL_MASK );
334 set_time_adjustment(&adj_default);
338 Widget_Timeslider::~Widget_Timeslider()
342 void Widget_Timeslider::set_time_adjustment(Gtk::Adjustment *x)
344 //disconnect old connections
345 time_value_change.disconnect();
346 time_other_change.disconnect();
348 //connect update function to new adjustment
353 time_value_change = x->signal_value_changed().connect(sigc::mem_fun(*this,&Widget_Timeslider::queue_draw));
354 time_other_change = x->signal_changed().connect(sigc::mem_fun(*this,&Widget_Timeslider::queue_draw));
355 //invalidated = true;
360 void Widget_Timeslider::set_global_fps(float d)
366 //update everything since we need to redraw already
367 //invalidated = true;
373 /*void Widget_Timeslider::update_times()
377 start = adj_timescale->get_lower();
378 end = adj_timescale->get_upper();
379 current = adj_timescale->get_value();
383 void Widget_Timeslider::refresh()
391 }else if(adj_timescale)
393 double l = adj_timescale->get_lower(),
394 u = adj_timescale->get_upper(),
395 v = adj_timescale->get_value();
397 bool invalid = (l != start) || (u != end) || (v != current);
403 if(invalid) queue_draw();
407 bool Widget_Timeslider::redraw(bool /*doublebuffer*/)
409 Glib::RefPtr<Gdk::Window> window = get_window();
411 if(!window) return false;
413 Glib::RefPtr<Gdk::GC> gc = Gdk::GC::create(window);
414 if(!gc) return false;
416 //synfig::info("Drawing Timeslider");
417 //clear and update to current values
418 //invalidated = false;
421 //draw grey rectangle
422 Gdk::Color c("#7f7f7f");
423 gc->set_rgb_fg_color(c);
424 gc->set_background(c);
426 //Get the data for the window and the params to draw it...
427 int w = get_width(), h = get_height();
429 window->draw_rectangle(gc,true,0,0,w,h);
431 const double EPSILON = 1e-6;
432 if(!adj_timescale || w == 0) return true;
434 //Get the time information since we now know it's valid
435 double start = adj_timescale->get_lower(),
436 end = adj_timescale->get_upper(),
437 current = adj_timescale->get_value();
439 if(end-start < EPSILON) return true;
441 //synfig::info("Drawing Lines");
443 //draw all the time stuff
444 double dtdp = (end - start)/get_width();
445 double dpdt = 1/dtdp;
449 //Draw the time line...
450 double tpx = (current-start)*dpdt;
451 gc->set_rgb_fg_color(Gdk::Color("#ffaf00"));
452 window->draw_line(gc,round_to_int(tpx),0,round_to_int(tpx),fullheight);
454 //normal line/text color
455 gc->set_rgb_fg_color(Gdk::Color("#333333"));
457 int ifps = round_to_int(fps);
458 if (ifps < 1) ifps = 1;
460 std::vector<double> ranges;
462 unsigned int pos = 0;
464 // build a list of all the factors of the frame rate
465 for (int i = 1; i*i <= ifps; i++)
468 ranges.insert(ranges.begin()+pos, i/fps);
470 ranges.insert(ranges.begin()+pos+1, ifps/i/fps);
474 // fill in any gaps where one factor is more than 2 times the previous
475 std::vector<double>::iterator iter, next;
477 for (pos = 0; pos < ranges.size()-1; pos++)
479 iter = ranges.begin()+pos;
482 ranges.insert(next, *iter*2);
485 double more_ranges[] = {
486 2, 3, 5, 10, 20, 30, 60, 90, 120, 180,
487 300, 600, 1200, 1800, 2700, 3600, 3600*2,
488 3600*4, 3600*8, 3600*16, 3600*32, 3600*64,
489 3600*128, 3600*256, 3600*512, 3600*1024 };
491 ranges.insert(ranges.end(), more_ranges, more_ranges + sizeof(more_ranges)/sizeof(double));
493 double lowerrange = dtdp*140, upperrange = dtdp*280;
494 double midrange = (lowerrange + upperrange)/2;
496 //find most ideal scale
498 next = binary_find(ranges.begin(), ranges.end(), midrange);
501 if (iter == ranges.end()) iter--;
502 if (next == ranges.end()) next--;
504 if (abs(*next - midrange) < abs(*iter - midrange))
509 // subdivide into this many tick marks (8 or less)
510 int subdiv = round_to_int(scale * ifps);
514 const int ideal = subdiv;
516 // find a number of tick marks that nicely divides the scale
517 // (5 minutes divided by 6 is 50s, but that's not 'nice' -
518 // 5 ticks of 1m each is much simpler than 6 ticks of 50s)
519 for (subdiv = 8; subdiv > 0; subdiv--)
520 if ((ideal <= ifps*2 && (ideal % (subdiv )) == 0) ||
521 (ideal <= ifps*2*60 && (ideal % (subdiv*ifps )) == 0) ||
522 (ideal <= ifps*2*60*60 && (ideal % (subdiv*ifps*60 )) == 0) ||
523 (true && (ideal % (subdiv*ifps*60*60)) == 0))
526 // if we didn't find anything, use 4 ticks
531 time_per_tickmark = scale / subdiv;
533 //get first valid line and its position in pixel space
539 double subr = scale / subdiv;
541 //get its position inside...
542 time = ceil(start/subr)*subr - start;
545 //absolute time of the line to be drawn
549 double t = (time/scale - floor(time/scale))*subdiv; // the difference from the big mark in 0:1
550 //sdindex = (int)floor(t + 0.5); //get how far through the range it is...
551 sdindex = round_to_int(t); //get how far through the range it is...
553 //synfig::info("Extracted fr %.2lf -> %d", t, sdindex);
556 //synfig::info("Initial values: %.4lf t, %.1lf pixels, %d i", time,pixel,sdindex);
559 const int heightbig = 12;
560 const int heightsmall = 4;
562 int width = get_width();
563 while( pixel < width )
565 int xpx = round_to_int(pixel);
570 window->draw_line(gc,xpx,0,xpx,heightbig);
571 //round the time to nearest frame and draw the text
572 Time tm((double)time);
573 if(get_global_fps()) tm.round(get_global_fps());
574 Glib::ustring timecode(tm.get_string(get_global_fps(),App::get_time_format()));
576 //gc->set_rgb_fg_color(Gdk::Color("#000000"));
577 layout->set_text(timecode);
578 window->draw_layout(gc,xpx+2,heightsmall,layout);
581 window->draw_line(gc,xpx,0,xpx,heightsmall);
584 //increment time and position
585 pixel += subr / dtdp;
589 if(++sdindex >= subdiv) sdindex -= subdiv;
595 bool Widget_Timeslider::on_motion_notify_event(GdkEventMotion* event) //for dragging
597 if(!adj_timescale) return false;
599 Gdk::ModifierType mod = Gdk::ModifierType(event->state);
603 //NOTE: we might want to address the possibility of dragging with both buttons held down
605 if(mod & Gdk::BUTTON2_MASK)
608 //we need this for scrolling by dragging
609 double curx = event->x;
611 double start = adj_timescale->get_lower(),
612 end = adj_timescale->get_upper();
616 if(event->time-last_event_time<30)
619 last_event_time=event->time;
621 if(abs(lastx - curx) < 1 && end != start) return true;
622 //translate the window and correct it
624 //update our stuff so we are operating correctly
625 //invalidated = true;
628 //Note: Use inverse of mouse movement because of conceptual space relationship
629 double diff = lastx - curx; //curx - lastx;
631 //NOTE: This might be incorrect...
632 //fraction to move...
633 double dpx = (end - start)/get_width();
642 //But clamp to bounds if they exist...
643 //HACK - bounds should not be required for this slider
646 if(start < adj_bounds->get_lower())
648 diff = adj_bounds->get_lower() - start;
653 if(end > adj_bounds->get_upper())
655 diff = adj_bounds->get_upper() - end;
661 //synfig::info("Scrolling timerange to (%.4f,%.4f)",start,end);
663 adj_timescale->set_lower(start);
664 adj_timescale->set_upper(end);
666 adj_timescale->changed();
677 if(mod & Gdk::BUTTON1_MASK)
679 double curx = event->x;
681 //get time from drag...
682 double start = adj_timescale->get_lower(),
683 end = adj_timescale->get_upper(),
684 current = adj_timescale->get_value();
685 double t = start + curx*(end - start)/get_width();
687 //snap it to fps - if they exist...
690 t = floor(t*fps + 0.5)/fps;
696 adj_timescale->set_value(t);
698 //Fixed this to actually do what it's supposed to...
699 if(event->time-last_event_time>50)
701 adj_timescale->value_changed();
702 last_event_time = event->time;
712 bool Widget_Timeslider::on_scroll_event(GdkEventScroll* event) //for zooming
714 if(!adj_timescale) return false;
716 //Update so we are calculating based on current values
719 //figure out if we should center ourselves on the current time
722 //we want to zoom in on the time value if control is held down
723 if(Gdk::ModifierType(event->state) & Gdk::CONTROL_MASK)
726 switch(event->direction)
728 case GDK_SCROLL_UP: //zoom in
732 case GDK_SCROLL_DOWN: //zoom out
736 case GDK_SCROLL_RIGHT:
737 case GDK_SCROLL_LEFT:
739 double t = adj_timescale->get_value();
741 double start = adj_timescale->get_lower();
742 double end = adj_timescale->get_upper();
743 double lower = adj_bounds->get_lower();
744 double upper = adj_bounds->get_upper();
745 double adj = time_per_tickmark;
747 if( event->direction == GDK_SCROLL_RIGHT )
749 // step forward one tick
752 // don't go past the end of time
756 // if we are already in the right half of the slider
757 if ((t-start)*2 > (end-start))
759 // if we can't scroll the background left one whole tick, scroll it to the end
760 if (end > upper - (t-orig_t))
762 adj_timescale->set_lower(upper - (end-start));
763 adj_timescale->set_upper(upper);
765 // else scroll the background left
768 adj_timescale->set_lower(start + (t-orig_t));
769 adj_timescale->set_upper(start + (t-orig_t) + (end-start));
775 // step backwards one tick
778 // don't go past the start of time
782 // if we are already in the left half of the slider
783 if ((t-start)*2 < (end-start))
785 // if we can't scroll the background right one whole tick, scroll it to the beginning
786 if (start < lower + (orig_t-t))
788 adj_timescale->set_lower(lower);
789 adj_timescale->set_upper(lower + (end-start));
791 // else scroll the background right
794 adj_timescale->set_lower(start - (orig_t-t));
795 adj_timescale->set_upper(start - (orig_t-t) + (end-start));
802 adj_timescale->set_value(t);
803 adj_timescale->value_changed();
812 void Widget_Timeslider::zoom_in(bool centerontime)
814 if(!adj_timescale) return;
816 double start = adj_timescale->get_lower(),
817 end = adj_timescale->get_upper(),
818 current = adj_timescale->get_value();
820 double focuspoint = centerontime ? current : (start + end)/2;
822 //calculate new beginning and end
823 end = focuspoint + (end-focuspoint)*zoominfactor;
824 start = focuspoint + (start-focuspoint)*zoominfactor;
826 //synfig::info("Zooming in timerange to (%.4f,%.4f)",start,end);
829 if(start < adj_bounds->get_lower())
831 start = adj_bounds->get_lower();
834 if(end > adj_bounds->get_upper())
836 end = adj_bounds->get_upper();
841 adj_timescale->set_lower(start);
842 adj_timescale->set_upper(end);
844 //call changed function
845 adj_timescale->changed();
848 void Widget_Timeslider::zoom_out(bool centerontime)
850 if(!adj_timescale) return;
852 double start = adj_timescale->get_lower(),
853 end = adj_timescale->get_upper(),
854 current = adj_timescale->get_value();
856 double focuspoint = centerontime ? current : (start + end)/2;
858 //calculate new beginning and end
859 end = focuspoint + (end-focuspoint)*zoomoutfactor;
860 start = focuspoint + (start-focuspoint)*zoomoutfactor;
862 //synfig::info("Zooming out timerange to (%.4f,%.4f)",start,end);
865 if(start < adj_bounds->get_lower())
867 start = adj_bounds->get_lower();
870 if(end > adj_bounds->get_upper())
872 end = adj_bounds->get_upper();
877 adj_timescale->set_lower(start);
878 adj_timescale->set_upper(end);
880 //call changed function
881 adj_timescale->changed();
884 bool Widget_Timeslider::on_button_press_event(GdkEventButton *event) //for clicking
886 switch(event->button)
891 double start = adj_timescale->get_lower(),
892 end = adj_timescale->get_upper(),
893 current = adj_timescale->get_value();
895 double w = get_width();
896 double t = start + (end - start) * event->x / w;
898 t = floor(t*fps + 0.5)/fps;
900 /*synfig::info("Clicking time from %.3lf to %.3lf [(%.2lf,%.2lf) %.2lf / %.2lf ... %.2lf",
901 current, vt, start, end, event->x, w, fps);*/
909 adj_timescale->set_value(current);
910 adj_timescale->value_changed();
937 bool Widget_Timeslider::on_button_release_event(GdkEventButton *event) //end drag
939 switch(event->button)