Draw all automation points, rather than trying to use a heuristic to show some

at any given zoom level. 

This works because (1) automation data is obtained by sampling, and we control
the sampling interval (2) automation data is filtered to remove co-linear
points before becoming part of a ControlList. 

This commit removes some of the hairiest code in Ardour's GUI, which was
responsible for figuring out which invisible control points were affected by an
edit. The change is based on an experiment in mixbus done by Ben Loftis.


git-svn-id: svn://localhost/ardour2/branches/3.0@11798 d708f5d6-7413-0410-9779-e7cbd77b26cf

1 files changed, 114 insertions, 339 deletions

diff --git a/gtk2_ardour/automation_line.cc b/gtk2_ardour/automation_line.cc
index 2ee64e5706..263fe29b7b 100644
--- a/gtk2_ardour/automation_line.cc
+++ b/gtk2_ardour/automation_line.cc
@@ -286,246 +286,6 @@ AutomationLine::sync_model_with_view_points (list<ControlPoint*> cp, bool did_pu
 	}
 }
 
-void
-AutomationLine::model_representation (ControlPoint& cp, ModelRepresentation& mr)
-{
-	/* part one: find out where the visual control point is.
-	   initial results are in canvas units. ask the
-	   line to convert them to something relevant.
-	*/
-
-	mr.xval = cp.get_x();
-	mr.yval = 1.0 - (cp.get_y() / _height);
-
-	/* if xval has not changed, set it directly from the model to avoid rounding errors */
-
-	if (mr.xval == trackview.editor().frame_to_unit(_time_converter->to((*cp.model())->when)) - _offset) {
-		mr.xval = (*cp.model())->when - _offset;
-	} else {
-		mr.xval = trackview.editor().unit_to_frame (mr.xval);
-		mr.xval = _time_converter->from (mr.xval + _offset);
-	}
-
-	/* convert y to model units; the x was already done above
-	*/
-
-	view_to_model_coord_y (mr.yval);
-
-	/* part 2: find out where the model point is now
-	 */
-
-	mr.xpos = (*cp.model())->when - _offset;
-	mr.ypos = (*cp.model())->value;
-
-	/* part 3: get the position of the visual control
-	   points before and after us.
-	*/
-
-	ControlPoint* before;
-	ControlPoint* after;
-
-	if (cp.view_index()) {
-		before = nth (cp.view_index() - 1);
-	} else {
-		before = 0;
-	}
-
-	after = nth (cp.view_index() + 1);
-
-	if (before) {
-		mr.xmin = (*before->model())->when;
-		mr.ymin = (*before->model())->value;
-		mr.start = before->model();
-		++mr.start;
-	} else {
-		mr.xmin = mr.xpos;
-		mr.ymin = mr.ypos;
-		mr.start = cp.model();
-	}
-
-	if (after) {
-		mr.end = after->model();
-	} else {
-		mr.xmax = mr.xpos;
-		mr.ymax = mr.ypos;
-		mr.end = cp.model();
-		++mr.end;
-	}
-}
-
-/** @param points AutomationLine points to consider.  These will correspond 1-to-1 to
- *  points in the AutomationList, but will have been transformed so that they are in pixels;
- *  the x coordinate being the pixel distance from the start of the line (0, or the start
- *  of the AutomationRegionView if we are in one).
- *
- *  @param skipped Number of points in the AutomationList that were skipped before
- *  `points' starts.
- */
-
-void
-AutomationLine::determine_visible_control_points (ALPoints& points, int skipped)
-{
-	uint32_t view_index, pi, n;
-	uint32_t npoints;
-	uint32_t this_rx = 0;
-	uint32_t prev_rx = 0;
-	uint32_t this_ry = 0;
-	uint32_t prev_ry = 0;
-	double* slope;
-	uint32_t box_size;
-
-	/* hide all existing points, and the line */
-
-	for (vector<ControlPoint*>::iterator i = control_points.begin(); i != control_points.end(); ++i) {
-		(*i)->hide();
-	}
-
-	line->hide ();
-
-	if (points.empty()) {
-		return;
-	}
-
-	npoints = points.size();
-
-	/* compute derivative/slope for the entire line */
-
-	slope = new double[npoints];
-
-	for (n = 0; n < npoints - 1; ++n) {
-		double xdelta = points[n+1].x - points[n].x;
-		double ydelta = points[n+1].y - points[n].y;
-		slope[n] = ydelta/xdelta;
-	}
-
-	box_size = (uint32_t) control_point_box_size ();
-
-	/* read all points and decide which ones to show as control points */
-
-	view_index = 0;
-
-	/* skip over unused AutomationList points before we start */
-
-	AutomationList::iterator model = alist->begin ();
-	for (int i = 0; i < skipped; ++i) {
-		++model;
-	}
-
-	for (pi = 0; pi < npoints; ++model, ++pi) {
-
-		/* If this line is in an AutomationRegionView, this is an offset from the region position, in pixels */
-		double tx = points[pi].x;
-		double ty = points[pi].y;
-
-		if (find (_always_in_view.begin(), _always_in_view.end(), (*model)->when) != _always_in_view.end()) {
-			add_visible_control_point (view_index, pi, tx, ty, model, npoints);
-			prev_rx = this_rx;
-			prev_ry = this_ry;
-			++view_index;
-			continue;
-		}
-
-		if (isnan (tx) || isnan (ty)) {
-			warning << string_compose (_("Ignoring illegal points on AutomationLine \"%1\""),
-						   _name) << endmsg;
-			continue;
-		}
-
-		/* now ensure that the control_points vector reflects the current curve
-		   state, but don't plot control points too close together. also, don't
-		   plot a series of points all with the same value.
-
-		   always plot the first and last points, of course.
-		*/
-
-		if (invalid_point (points, pi)) {
-			/* for some reason, we are supposed to ignore this point,
-			   but still keep track of the model index.
-			*/
-			continue;
-		}
-
-		if (pi > 0 && pi < npoints - 1) {
-			if (slope[pi] == slope[pi-1]) {
-
-				/* no reason to display this point */
-
-				continue;
-			}
-		}
-
-		/* need to round here. the ultimate coordinates are integer
-		   pixels, so tiny deltas in the coords will be eliminated
-		   and we end up with "colinear" line segments. since the
-		   line rendering code in libart doesn't like this very
-		   much, we eliminate them here. don't do this for the first and last
-		   points.
-		*/
-
-		this_rx = (uint32_t) rint (tx);
-		this_ry = (uint32_t) rint (ty);
-
-		if (view_index && pi != npoints && /* not the first, not the last */
-		    (((this_rx == prev_rx) && (this_ry == prev_ry)) || /* same point */
-		     (((this_rx - prev_rx) < (box_size + 2)) &&  /* not identical, but still too close horizontally */
-		      (abs ((int)(this_ry - prev_ry)) < (int) (box_size + 2))))) { /* too close vertically */
-			continue;
-		}
-
-		/* ok, we should display this point */
-
-		add_visible_control_point (view_index, pi, tx, ty, model, npoints);
-
-		prev_rx = this_rx;
-		prev_ry = this_ry;
-
-		view_index++;
-	}
-
-	/* discard extra CP's to avoid confusing ourselves */
-
-	while (control_points.size() > view_index) {
-		ControlPoint* cp = control_points.back();
-		control_points.pop_back ();
-		delete cp;
-	}
-
-	if (!terminal_points_can_slide) {
-		control_points.back()->set_can_slide(false);
-	}
-
-	delete [] slope;
-
-	if (view_index > 1) {
-
-		npoints = view_index;
-
-		/* reset the line coordinates */
-
-		while (line_points.size() < npoints) {
-			line_points.push_back (Art::Point (0,0));
-		}
-
-		while (line_points.size() > npoints) {
-			line_points.pop_back ();
-		}
-
-		for (view_index = 0; view_index < npoints; ++view_index) {
-			line_points[view_index].set_x (control_points[view_index]->get_x());
-			line_points[view_index].set_y (control_points[view_index]->get_y());
-		}
-
-		line->property_points() = line_points;
-
-		if (_visible && alist->interpolation() != AutomationList::Discrete) {
-			line->show();
-		}
-
-	}
-
-	set_selected_points (trackview.editor().get_selection().points);
-}
-
 string
 AutomationLine::get_verbose_cursor_string (double fraction) const
 {
@@ -589,19 +349,6 @@ AutomationLine::string_to_fraction (string const & s) const
 	return v;
 }
 
-bool
-AutomationLine::invalid_point (ALPoints& p, uint32_t index)
-{
-	return p[index].x == max_framepos && p[index].y == DBL_MAX;
-}
-
-void
-AutomationLine::invalidate_point (ALPoints& p, uint32_t index)
-{
-	p[index].x = max_framepos;
-	p[index].y = DBL_MAX;
-}
-
 /** Start dragging a single point, possibly adding others if the supplied point is selected and there
  *  are other selected points.
  *
@@ -839,67 +586,35 @@ AutomationLine::end_drag ()
 void
 AutomationLine::sync_model_with_view_point (ControlPoint& cp, bool did_push, int64_t distance)
 {
-	ModelRepresentation mr;
-	double ydelta;
-
-	model_representation (cp, mr);
-
-	/* how much are we changing the central point by */
-
-	ydelta = mr.yval - mr.ypos;
-
-	/*
-	   apply the full change to the central point, and interpolate
-	   on both axes to cover all model points represented
-	   by the control point.
+	/* find out where the visual control point is.
+	   initial results are in canvas units. ask the
+	   line to convert them to something relevant.
 	*/
 
-	/* change all points before the primary point */
-
-	for (AutomationList::iterator i = mr.start; i != cp.model(); ++i) {
+	double view_x = cp.get_x();
+	double view_y = 1.0 - (cp.get_y() / _height);
 
-		double fract = ((*i)->when - mr.xmin) / (mr.xpos - mr.xmin);
-		double y_delta = ydelta * fract;
-		double x_delta = distance * fract;
-
-		/* interpolate */
+	/* if xval has not changed, set it directly from the model to avoid rounding errors */
 
-		if (y_delta || x_delta) {
-			alist->modify (i, (*i)->when + x_delta, mr.ymin + y_delta);
-		}
+	if (view_x == trackview.editor().frame_to_unit (_time_converter->to ((*cp.model())->when)) - _offset) {
+		view_x = (*cp.model())->when - _offset;
+	} else {
+		view_x = trackview.editor().unit_to_frame (view_x);
+		view_x = _time_converter->from (view_x + _offset);
 	}
 
-	/* change the primary point */
-
 	update_pending = true;
-	alist->modify (cp.model(), mr.xval, mr.yval);
-
-	/* change later points */
-
-	AutomationList::iterator i = cp.model();
 
-	++i;
+	view_to_model_coord_y (view_y);
 
-	while (i != mr.end) {
-
-		double delta = ydelta * (mr.xmax - (*i)->when) / (mr.xmax - mr.xpos);
-
-		/* all later points move by the same distance along the x-axis as the main point */
-
-		if (delta) {
-			alist->modify (i, (*i)->when + distance, (*i)->value + delta);
-		}
-
-		++i;
-	}
+	alist->modify (cp.model(), view_x, view_y);
 
 	if (did_push) {
 
-		/* move all points after the range represented by the view by the same distance
-		   as the main point moved.
+		/* move all points after cp by the same distance
 		*/
 
-		alist->slide (mr.end, distance);
+		alist->slide (cp.model()++, distance);
 	}
 }
 
@@ -934,13 +649,16 @@ AutomationLine::control_points_adjacent (double xval, uint32_t & before, uint32_
 bool
 AutomationLine::is_last_point (ControlPoint& cp)
 {
-	ModelRepresentation mr;
+	// If the list is not empty, and the point is the last point in the list
 
-	model_representation (cp, mr);
+	if (alist->empty()) {
+		return false;
+	}
 
-	// If the list is not empty, and the point is the last point in the list
+	AutomationList::const_iterator i = alist->end();
+	--i;
 
-	if (!alist->empty() && mr.end == alist->end()) {
+	if (cp.model() == i) {
 		return true;
 	}
 
@@ -950,13 +668,9 @@ AutomationLine::is_last_point (ControlPoint& cp)
 bool
 AutomationLine::is_first_point (ControlPoint& cp)
 {
-	ModelRepresentation mr;
-
-	model_representation (cp, mr);
-
 	// If the list is not empty, and the point is the first point in the list
 
-	if (!alist->empty() && mr.start == alist->begin()) {
+	if (!alist->empty() && cp.model() == alist->begin()) {
 		return true;
 	}
 
@@ -967,15 +681,11 @@ AutomationLine::is_first_point (ControlPoint& cp)
 void
 AutomationLine::remove_point (ControlPoint& cp)
 {
-	ModelRepresentation mr;
-
-	model_representation (cp, mr);
-
 	trackview.editor().session()->begin_reversible_command (_("remove control point"));
 	XMLNode &before = alist->get_state();
 
-	alist->erase (mr.start, mr.end);
-
+	alist->erase (cp.model());
+	
 	trackview.editor().session()->add_command(
 		new MementoCommand<AutomationList> (memento_command_binder (), &before, &alist->get_state())
 		);
@@ -1087,10 +797,11 @@ AutomationLine::list_changed ()
 void
 AutomationLine::reset_callback (const Evoral::ControlList& events)
 {
-	ALPoints tmp_points;
-	uint32_t npoints = events.size();
+	uint32_t vp = 0;
+	uint32_t pi = 0;
+	uint32_t np;
 
-	if (npoints == 0) {
+	if (events.empty()) {
 		for (vector<ControlPoint*>::iterator i = control_points.begin(); i != control_points.end(); ++i) {
 			delete *i;
 		}
@@ -1099,26 +810,89 @@ AutomationLine::reset_callback (const Evoral::ControlList& events)
 		return;
 	}
 
-	AutomationList::const_iterator ai;
-	int skipped = 0;
+	/* hide all existing points, and the line */
+
+	for (vector<ControlPoint*>::iterator i = control_points.begin(); i != control_points.end(); ++i) {
+		(*i)->hide();
+	}
+
+	line->hide ();
+	np = events.size();
+
+	Evoral::ControlList& e = const_cast<Evoral::ControlList&> (events);
+	
+	for (AutomationList::iterator ai = e.begin(); ai != e.end(); ++ai, ++pi) {
+
+		double tx = (*ai)->when;
+		double ty = (*ai)->value;
+
+		/* convert from model coordinates to canonical view coordinates */
+
+		model_to_view_coord (tx, ty);
+
+		if (isnan (tx) || isnan (ty)) {
+			warning << string_compose (_("Ignoring illegal points on AutomationLine \"%1\""),
+						   _name) << endmsg;
+			continue;
+		}
+		
+		if (tx >= max_framepos || tx < 0 || tx >= _maximum_time) {
+			continue;
+		}
+		
+		/* convert x-coordinate to a canvas unit coordinate (this takes
+		 * zoom and scroll into account).
+		 */
+			
+		tx = trackview.editor().frame_to_unit (tx);
+		
+		/* convert from canonical view height (0..1.0) to actual
+		 * height coordinates (using X11's top-left rooted system)
+		 */
+
+		ty = _height - (ty * _height);
+
+		add_visible_control_point (vp, pi, tx, ty, ai, np);
+		vp++;
+	}
+
+	/* discard extra CP's to avoid confusing ourselves */
+
+	while (control_points.size() > vp) {
+		ControlPoint* cp = control_points.back();
+		control_points.pop_back ();
+		delete cp;
+	}
+
+	if (!terminal_points_can_slide) {
+		control_points.back()->set_can_slide(false);
+	}
 
-	for (ai = events.begin(); ai != events.end(); ++ai) {
+	if (vp > 1) {
 
-		double translated_x = (*ai)->when;
-		double translated_y = (*ai)->value;
-		model_to_view_coord (translated_x, translated_y);
+		/* reset the line coordinates given to the CanvasLine */
 
-		if (translated_x >= 0 && translated_x < _maximum_time) {
-			tmp_points.push_back (ALPoint (
-						      trackview.editor().frame_to_unit (translated_x),
-						      _height - (translated_y * _height))
-				);
-		} else if (translated_x < 0) {
-			++skipped;
+		while (line_points.size() < vp) {
+			line_points.push_back (Art::Point (0,0));
+		}
+
+		while (line_points.size() > vp) {
+			line_points.pop_back ();
+		}
+
+		for (uint32_t n = 0; n < vp; ++n) {
+			line_points[n].set_x (control_points[n]->get_x());
+			line_points[n].set_y (control_points[n]->get_y());
+		}
+
+		line->property_points() = line_points;
+
+		if (_visible && alist->interpolation() != AutomationList::Discrete) {
+			line->show();
 		}
 	}
 
-	determine_visible_control_points (tmp_points, skipped);
+	set_selected_points (trackview.editor().get_selection().points);
 }
 
 void
@@ -1284,8 +1058,11 @@ AutomationLine::interpolation_changed (AutomationList::InterpolationStyle style)
 }
 
 void
-AutomationLine::add_visible_control_point (uint32_t view_index, uint32_t pi, double tx, double ty, AutomationList::iterator model, uint32_t npoints)
+AutomationLine::add_visible_control_point (uint32_t view_index, uint32_t pi, double tx, double ty, 
+					   AutomationList::iterator model, uint32_t npoints)
 {
+	ControlPoint::ShapeType shape;
+
 	if (view_index >= control_points.size()) {
 
 		/* make sure we have enough control points */
@@ -1296,25 +1073,23 @@ AutomationLine::add_visible_control_point (uint32_t view_index, uint32_t pi, dou
 		control_points.push_back (ncp);
 	}
 
-	ControlPoint::ShapeType shape;
-
 	if (!terminal_points_can_slide) {
 		if (pi == 0) {
-			control_points[view_index]->set_can_slide(false);
+			control_points[view_index]->set_can_slide (false);
 			if (tx == 0) {
 				shape = ControlPoint::Start;
 			} else {
 				shape = ControlPoint::Full;
 			}
 		} else if (pi == npoints - 1) {
-			control_points[view_index]->set_can_slide(false);
+			control_points[view_index]->set_can_slide (false);
 			shape = ControlPoint::End;
 		} else {
-			control_points[view_index]->set_can_slide(true);
+			control_points[view_index]->set_can_slide (true);
 			shape = ControlPoint::Full;
 		}
 	} else {
-		control_points[view_index]->set_can_slide(true);
+		control_points[view_index]->set_can_slide (true);
 		shape = ControlPoint::Full;
 	}