WaveViewCache* WaveView::images = 0;
gint WaveView::drawing_thread_should_quit = 0;
Glib::Threads::Mutex WaveView::request_queue_lock;
+Glib::Threads::Mutex WaveView::current_image_lock;
Glib::Threads::Cond WaveView::request_cond;
Glib::Threads::Thread* WaveView::_drawing_thread = 0;
WaveView::DrawingRequestQueue WaveView::request_queue;
PBD::Signal0<void> WaveView::VisualPropertiesChanged;
PBD::Signal0<void> WaveView::ClipLevelChanged;
+/* NO_THREAD_WAVEVIEWS is defined by the top level wscript
+ * if --no-threaded-waveviws is provided at the configure step.
+ */
+
+#ifndef NO_THREADED_WAVEVIEWS
+#define ENABLE_THREADED_WAVEFORM_RENDERING
+#endif
+
WaveView::WaveView (Canvas* c, boost::shared_ptr<ARDOUR::AudioRegion> region)
: Item (c)
, _region (region)
WaveView::~WaveView ()
{
invalidate_image_cache ();
+ if (images ) {
+ images->clear_cache ();
+ }
}
string
WaveView::debug_name() const
{
- return _region->name() + string (":") + PBD::to_string (_channel+1, std::dec);
+ return _region->name() + string (":") + PBD::to_string (_channel+1);
}
void
WaveView::image_ready ()
{
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("queue draw for %1 at %2 (vis = %3 bbox = %4 CR %5)\n", this, g_get_monotonic_time(), visible(), _bounding_box, current_request));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("queue draw for %1 at %2 (vis = %3 CR %4)\n", this, g_get_monotonic_time(), visible(), current_request));
redraw ();
}
void
WaveView::invalidate_image_cache ()
{
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 invalidates image cache and cancels current request\n", this));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 invalidates image cache and cancels current request\n", this));
cancel_my_render_request ();
+ Glib::Threads::Mutex::Lock lci (current_image_lock);
_current_image.reset ();
}
{
const double effective_height = _height;
- /* remember: canvas (and cairo) coordinate space puts the origin at the upper left.
-
+ /* remember: canvas (and cairo) coordinate space puts the origin at the upper left.
+
So, a sample value of 1.0 (0dbFS) will be computed as:
(1.0 - 1.0) * 0.5 * effective_height
tips.top = center - spread;
tips.bot = center + spread;
}
-
+
tips.top = min (effective_height, max (0.0, tips.top));
tips.bot = min (effective_height, max (0.0, tips.bot));
}
-
+
Coord
WaveView::y_extent (double s) const
} else {
p.min = 0.0;
}
-
+
compute_tips (p, tips[i]);
tips[i].spread = tips[i].bot - tips[i].top;
}
if (req->should_stop()) {
return;
}
-
+
Color alpha_one = rgba_to_color (0, 0, 0, 1.0);
set_source_rgba (wave_context, alpha_one);
outline_context->stroke ();
} else {
- const double height_2 = _height * .5;
+ const int height_zero = floor( _height * .5);
for (int i = 0; i < n_peaks; ++i) {
wave_context->move_to (i, tips[i].top);
wave_context->line_to (i, tips[i].bot);
}
-
+
/* draw square waves and other discontiguous points clearly */
if (i > 0) {
if (tips[i-1].top + 2 < tips[i].top) {
}
}
- /* zero line, show only if there is enough spread */
+ /* zero line, show only if there is enough spread
+ or the waveform line does not cross zero line */
- if (tips[i].spread >= 5.0 && show_zero_line()) {
- zero_context->move_to (i, floor(height_2));
+ if (show_zero_line() && ((tips[i].spread >= 5.0) || (tips[i].top > height_zero ) || (tips[i].bot < height_zero)) ) {
+ zero_context->move_to (i, height_zero);
zero_context->rel_line_to (1.0, 0);
}
clipped = true;
}
- if (!clipped) {
+ if (!clipped && tips[i].spread > 2.0) {
+ /* only draw the outline if the spread
+ implies 3 or more pixels (so that we see 1
+ white pixel in the middle).
+ */
outline_context->move_to (i, tips[i].bot);
/* normal lower terminal dot; line moves up */
outline_context->rel_line_to (0, -1.0);
}
if (!clipped) {
+ /* special case where only 1 pixel of
+ * the waveform line is drawn (and
+ * nothing else).
+ *
+ * we draw a 1px "line", pretending
+ * that the span is 1.0 (whether it is
+ * zero or 1.0)
+ */
wave_context->move_to (i, tips[i].top);
- /* special case where outline only is drawn.
- * we draw a 1px "line", pretending that the span is 1.0
- */
wave_context->rel_line_to (0, 1.0);
}
}
if (req->should_stop()) {
return;
}
-
+
Cairo::RefPtr<Cairo::Context> context = Cairo::Context::create (image);
/* Here we set a source colour and use the various components as a mask. */
if (req->should_stop()) {
return;
}
-
+
context->mask (images.wave, 0, 0);
context->fill ();
boost::shared_ptr<WaveViewCache::Entry>
WaveView::cache_request_result (boost::shared_ptr<WaveViewThreadRequest> req) const
{
+ if (!req->image) {
+ // cerr << "asked to cache null image!!!\n";
+ return boost::shared_ptr<WaveViewCache::Entry> ();
+ }
+
boost::shared_ptr<WaveViewCache::Entry> ret (new WaveViewCache::Entry (req->channel,
req->height,
req->amplitude,
req->end,
req->image));
images->add (_region->audio_source (_channel), ret);
-
+
/* consolidate cache first (removes fully-contained
* duplicate images)
*/
-
+
images->consolidate_image_cache (_region->audio_source (_channel),
req->channel, req->height, req->amplitude,
req->fill_color, req->samples_per_pixel);
boost::shared_ptr<WaveViewCache::Entry> ret;
full_image = true;
-
+
/* this is called from a ::render() call, when we need an image to
draw with.
*/
DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 needs image from %2 .. %3\n", name, start, end));
-
-
+
+
{
Glib::Threads::Mutex::Lock lmq (request_queue_lock);
* while we're here.
*/
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 CR %2 stop? %3 image %4\n", this, current_request,
- (current_request ? current_request->should_stop() : false),
- (current_request ? current_request->image : 0)));
-
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 CR %2 stop? %3 image %4\n", this, current_request,
+ (current_request ? current_request->should_stop() : false),
+ (current_request ? (current_request->image ? "yes" : "no") : "n/a")));
+
if (current_request && !current_request->should_stop() && current_request->image) {
/* put the image into the cache so that other
*/
if (current_request->start <= start && current_request->end >= end) {
-
+
ret.reset (new WaveViewCache::Entry (current_request->channel,
current_request->height,
current_request->amplitude,
current_request->start,
current_request->end,
current_request->image));
-
+
cache_request_result (current_request);
DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1: got image from completed request, spans %2..%3\n",
name, current_request->start, current_request->end));
if (!ret) {
/* no current image draw request, so look in the cache */
-
+
ret = get_image_from_cache (start, end, full_image);
DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1: lookup from cache gave %2 (full %3)\n",
name, ret, full_image));
}
-
-
+
+
if (!ret || !full_image) {
- if ((rendered && get_image_in_thread) || always_get_image_in_thread) {
-
+#ifndef ENABLE_THREADED_WAVEFORM_RENDERING
+ if (1)
+#else
+ if ((rendered && get_image_in_thread) || always_get_image_in_thread)
+#endif
+ {
+
DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1: generating image in caller thread\n", name));
-
+
boost::shared_ptr<WaveViewThreadRequest> req (new WaveViewThreadRequest);
req->type = WaveViewThreadRequest::Draw;
req->height = _height;
req->fill_color = _fill_color;
req->amplitude = _region_amplitude * _amplitude_above_axis;
- req->width = desired_image_width ();
+ req->width = desired_image_width ();
/* draw image in this (the GUI thread) */
-
+
generate_image (req, false);
/* cache the result */
/* reset this so that future missing images are
* generated in a a worker thread.
*/
-
+
get_image_in_thread = false;
} else {
framecnt_t
WaveView::desired_image_width () const
{
- /* compute how wide the image should be, in samples.
- *
- * We want at least 1 canvas width's worth, but if that
- * represents less than 1/10th of a second, use 1/10th of
- * a second instead.
- */
-
- framecnt_t canvas_width_samples = _canvas->visible_area().width() * _samples_per_pixel;
- const framecnt_t one_tenth_of_second = _region->session().frame_rate() / 10;
-
- if (canvas_width_samples > one_tenth_of_second) {
- return canvas_width_samples;
- }
-
- return one_tenth_of_second;
+ /* compute how wide the image should be, in samples.
+ *
+ * We want at least 1 canvas width's worth, but if that
+ * represents less than 1/10th of a second, use 1/10th of
+ * a second instead.
+ */
+
+ framecnt_t canvas_width_samples = _canvas->visible_area().width() * _samples_per_pixel;
+ const framecnt_t one_tenth_of_second = _region->session().frame_rate() / 10;
+
+ if (canvas_width_samples > one_tenth_of_second) {
+ return canvas_width_samples;
+ }
+
+ return one_tenth_of_second;
}
void
req->height = _height;
req->fill_color = _fill_color;
req->amplitude = _region_amplitude * _amplitude_above_axis;
- req->width = desired_image_width ();
+ req->width = desired_image_width ();
if (current_request) {
/* this will stop rendering in progress (which might otherwise
be long lived) for any current request.
*/
- current_request->cancel ();
+ Glib::Threads::Mutex::Lock lm (request_queue_lock);
+ if (current_request) {
+ current_request->cancel ();
+ }
}
start_drawing_thread ();
Glib::Threads::Mutex::Lock lm (request_queue_lock);
current_request = req;
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 now has current request %2\n", this, req));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 now has current request %2\n", this, req));
- if (request_queue.insert (this).second) {
- /* this waveview was not already in the request queue, make sure we wake
- the rendering thread in case it is asleep.
- */
- request_cond.signal ();
- }
+ if (request_queue.insert (this).second) {
+ /* this waveview was not already in the request queue, make sure we wake
+ the rendering thread in case it is asleep.
+ */
+ request_cond.signal ();
+ }
}
}
if (!req->should_stop()) {
/* sample position is canonical here, and we want to generate
- * an image that spans about 3x the canvas width. We get to that
- * width by using an image sample count of the screen width added
- * on each side of the desired image center.
+ * an image that spans about 3x the canvas width. We get to that
+ * width by using an image sample count of the screen width added
+ * on each side of the desired image center.
*/
-
+
const framepos_t center = req->start + ((req->end - req->start) / 2);
const framecnt_t image_samples = req->width;
-
+
/* we can request data from anywhere in the Source, between 0 and its length
*/
-
+
framepos_t sample_start = max (_region_start, (center - image_samples));
framepos_t sample_end = min (center + image_samples, region_end());
- const int n_peaks = llrintf ((sample_end - sample_start)/ (req->samples_per_pixel));
-
+ const int n_peaks = std::max (1LL, llrint (ceil ((sample_end - sample_start) / (req->samples_per_pixel))));
+
+ assert (n_peaks > 0 && n_peaks < 32767);
+
boost::scoped_array<ARDOUR::PeakData> peaks (new PeakData[n_peaks]);
/* Note that Region::read_peaks() takes a start position based on an
offset into the Region's **SOURCE**, rather than an offset into
the Region itself.
*/
-
+
framecnt_t peaks_read = _region->read_peaks (peaks.get(), n_peaks,
sample_start, sample_end - sample_start,
req->channel,
req->samples_per_pixel);
-
+
+ if (req->should_stop()) {
+ // cerr << "Request stopped after reading peaks\n";
+ return;
+ }
+
req->image = Cairo::ImageSurface::create (Cairo::FORMAT_ARGB32, n_peaks, req->height);
+
+ // http://cairographics.org/manual/cairo-Image-Surfaces.html#cairo-image-surface-create
+ // This function always returns a valid pointer, but it will return a pointer to a "nil" surface..
+ // but there's some evidence that req->image can be NULL.
+ // http://tracker.ardour.org/view.php?id=6478
+ assert (req->image);
+
/* make sure we record the sample positions that were actually used */
req->start = sample_start;
req->end = sample_end;
-
+
if (peaks_read > 0) {
+ /* region amplitude will have been used to generate the
+ * peak values already, but not the visual-only
+ * amplitude_above_axis. So apply that here before
+ * rendering.
+ */
+
if (_amplitude_above_axis != 1.0) {
for (framecnt_t i = 0; i < n_peaks; ++i) {
peaks[i].max *= _amplitude_above_axis;
} else {
draw_absent_image (req->image, peaks.get(), n_peaks);
}
+ } else {
+ // cerr << "Request stopped before image generation\n";
}
-
+
if (in_render_thread && !req->should_stop()) {
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("done with request for %1 at %2 CR %3 req %4 range %5 .. %6\n", this, g_get_monotonic_time(), current_request, req, req->start, req->end));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("done with request for %1 at %2 CR %3 req %4 range %5 .. %6\n", this, g_get_monotonic_time(), current_request, req, req->start, req->end));
const_cast<WaveView*>(this)->ImageReady (); /* emit signal */
}
-
+
return;
}
WaveView::render (Rect const & area, Cairo::RefPtr<Cairo::Context> context) const
{
assert (_samples_per_pixel != 0);
-
+
if (!_region) {
return;
}
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("render %1 at %2\n", this, g_get_monotonic_time()));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("render %1 at %2\n", this, g_get_monotonic_time()));
/* a WaveView is intimately connected to an AudioRegion. It will
* display the waveform within the region, anywhere from the start of
* window coordinates. It begins at zero (in item coordinates for this
* waveview, and extends to region_length() / _samples_per_pixel.
*/
-
+
Rect self = item_to_window (Rect (0.0, 0.0, region_length() / _samples_per_pixel, _height));
// cerr << name << " RENDER " << area << " self = " << self << endl;
-
+
/* Now lets get the intersection with the area we've been asked to draw */
- boost::optional<Rect> d = self.intersection (area);
+ Rect d = self.intersection (area);
if (!d) {
return;
}
- Rect draw = d.get();
+ Rect draw = d;
/* "draw" is now a rectangle that defines the rectangle we need to
* update/render the waveview into, in window coordinate space.
*/
-
+
/* window coordinates - pixels where x=0 is the left edge of the canvas
* window. We round down in case we were asked to
* draw "between" pixels at the start and/or end.
*/
-
+
double draw_start = floor (draw.x0);
const double draw_end = floor (draw.x1);
// cerr << "Need to draw " << draw_start << " .. " << draw_end << " vs. " << area << " and self = " << self << endl;
-
+
/* image coordnates: pixels where x=0 is the start of this waveview,
* wherever it may be positioned. thus image_start=N means "an image
* that begins N pixels after the start of region that this waveview is
const framepos_t image_start = window_to_image (self.x0, draw_start);
const framepos_t image_end = window_to_image (self.x0, draw_end);
-
+
// cerr << "Image/WV space: " << image_start << " .. " << image_end << endl;
-
- /* sample coordinates - note, these are not subject to rounding error
+
+ /* sample coordinates - note, these are not subject to rounding error
*
* "sample_start = N" means "the first sample we need to represent is N
* samples after the first sample of the region"
*/
-
+
framepos_t sample_start = _region_start + (image_start * _samples_per_pixel);
framepos_t sample_end = _region_start + (image_end * _samples_per_pixel);
-
+
// cerr << "Sample space: " << sample_start << " .. " << sample_end << " @ " << _samples_per_pixel << " rs = " << _region_start << endl;
/* sample_start and sample_end are bounded by the region
*/
sample_end = min (region_end(), sample_end);
-
+
// cerr << debug_name() << " will need image spanning " << sample_start << " .. " << sample_end << " region spans " << _region_start << " .. " << region_end() << endl;
double image_origin_in_self_coordinates;
boost::shared_ptr<WaveViewCache::Entry> image_to_draw;
-
+
+ Glib::Threads::Mutex::Lock lci (current_image_lock);
if (_current_image) {
/* check it covers the right sample range */
-
+
if (_current_image->start > sample_start || _current_image->end < sample_end) {
/* doesn't cover the area we need ... reset */
_current_image.reset ();
image_to_draw = get_image (sample_start, sample_end, full_image);
DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 image to draw = %2 (full? %3)\n", name, image_to_draw, full_image));
-
+
if (!image_to_draw) {
/* image not currently available. A redraw will be scheduled
when it is ready.
}
/* compute the first pixel of the image that should be used when we
- * render the specified range.
+ * render the specified range.
*/
image_origin_in_self_coordinates = (image_to_draw->start - _region_start) / _samples_per_pixel;
-
+
if (_start_shift && (sample_start == _region_start) && (self.x0 == draw.x0)) {
- /* we are going to draw the first pixel for this region, but
+ /* we are going to draw the first pixel for this region, but
we may not want this to overlap a border around the
waveform. If so, _start_shift will be set.
*/
//draw_start += _start_shift;
//image_origin_in_self_coordinates += _start_shift;
}
-
+
/* the image may only be a best-effort ... it may not span the entire
* range requested, though it is guaranteed to cover the start. So
* determine how many pixels we can actually draw.
*/
double draw_width;
-
+
if (image_to_draw != _current_image) {
+ lci.release ();
/* the image is guaranteed to start at or before
* draw_start. But if it starts before draw_start, that reduces
* draw or the available width of the image.
*/
- draw_width = min ((double) image_to_draw->image->get_width() - (draw_start - image_to_draw->start),
- (draw_end - draw_start));
+ draw_width = min ((double) image_to_draw->image->get_width(), (draw_end - draw_start));
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 draw just %2 of %3 (iwidth %4 off %5 img @ %6 rs @ %7)\n", name, draw_width, (draw_end - draw_start),
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 draw just %2 of %3 @ %8 (iwidth %4 off %5 img @ %6 rs @ %7)\n", name, draw_width, (draw_end - draw_start),
image_to_draw->image->get_width(), image_origin_in_self_coordinates,
- image_to_draw->start, _region_start));
+ image_to_draw->start, _region_start, draw_start));
} else {
draw_width = draw_end - draw_start;
DEBUG_TRACE (DEBUG::WaveView, string_compose ("use current image, span entire render width %1..%2\n", draw_start, draw_end));
* will appear. So specifying (10,10) will put the upper left corner of
* the image at (10,10) in user space.
*/
-
+
context->set_source (image_to_draw->image, x, y);
context->fill ();
if (_region) {
_bounding_box = Rect (0.0, 0.0, region_length() / _samples_per_pixel, _height);
} else {
- _bounding_box = boost::optional<Rect> ();
+ _bounding_box = Rect ();
}
_bounding_box_dirty = false;
invalidate_image_cache ();
_height = height;
get_image_in_thread = true;
-
+
_bounding_box_dirty = true;
end_change ();
}
{
if (_global_shape != s) {
_global_shape = s;
+ if (images) {
+ images->clear_cache ();
+ }
VisualPropertiesChanged (); /* EMIT SIGNAL */
}
}
{
if (_global_logscaled != yn) {
_global_logscaled = yn;
+ if (images) {
+ images->clear_cache ();
+ }
VisualPropertiesChanged (); /* EMIT SIGNAL */
}
}
/* try to stop any current rendering of the request, or prevent it from
* ever starting up.
*/
-
+
+ Glib::Threads::Mutex::Lock lm (request_queue_lock);
+
if (current_request) {
current_request->cancel ();
}
-
- Glib::Threads::Mutex::Lock lm (request_queue_lock);
/* now remove it from the queue and reset our request pointer so that
have no outstanding request (that we know about)
*/
-
+
request_queue.erase (this);
current_request.reset ();
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 now has no request %2\n", this));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("%1 now has no request %2\n", this));
}
void
WaveView::stop_drawing_thread ()
{
- if (_drawing_thread) {
+ while (_drawing_thread) {
Glib::Threads::Mutex::Lock lm (request_queue_lock);
g_atomic_int_set (&drawing_thread_should_quit, 1);
request_cond.signal ();
while (run) {
/* remember that we hold the lock at this point, no matter what */
-
+
if (g_atomic_int_get (&drawing_thread_should_quit)) {
break;
}
request_cond.wait (request_queue_lock);
}
+ if (request_queue.empty()) {
+ continue;
+ }
+
/* remove the request from the queue (remember: the "request"
* is just a pointer to a WaveView object)
*/
-
+
requestor = *(request_queue.begin());
request_queue.erase (request_queue.begin());
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("start request for %1 at %2\n", requestor, g_get_monotonic_time()));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("start request for %1 at %2\n", requestor, g_get_monotonic_time()));
boost::shared_ptr<WaveViewThreadRequest> req = requestor->current_request;
* as we do rendering.
*/
- request_queue_lock.unlock (); /* some RAII would be good here */
+ lm.release (); /* some RAII would be good here */
try {
requestor->generate_image (req, true);
req->image.clear(); /* just in case it was set before the exception, whatever it was */
}
- request_queue_lock.lock ();
+ lm.acquire ();
req.reset (); /* drop/delete request as appropriate */
}
bool& full_coverage)
{
ImageCache::iterator x;
-
+
if ((x = cache_map.find (src)) == cache_map.end ()) {
/* nothing in the cache for this audio source at all */
return boost::shared_ptr<WaveViewCache::Entry> ();
CacheLine& caches = x->second;
boost::shared_ptr<Entry> best_partial;
framecnt_t max_coverage = 0;
-
+
/* Find a suitable ImageSurface, if it exists.
*/
for (CacheLine::iterator c = caches.begin(); c != caches.end(); ++c) {
boost::shared_ptr<Entry> e (*c);
-
+
if (channel != e->channel
|| height != e->height
|| amplitude != e->amplitude
continue;
}
- switch (Evoral::coverage (start, end, e->start, e->end)) {
- case Evoral::OverlapExternal: /* required range is inside image range */
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("found image spanning %1..%2 covers %3..%4\n",
- e->start, e->end, start, end));
- use (src, e);
- full_coverage = true;
- return e;
-
- case Evoral::OverlapStart: /* required range start is covered by image range */
- if ((e->end - start) > max_coverage) {
- best_partial = e;
- max_coverage = e->end - start;
- }
- break;
-
- case Evoral::OverlapNone:
- case Evoral::OverlapEnd:
- case Evoral::OverlapInternal:
- break;
+ switch (Evoral::coverage (start, end, e->start, e->end)) {
+ case Evoral::OverlapExternal: /* required range is inside image range */
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("found image spanning %1..%2 covers %3..%4\n",
+ e->start, e->end, start, end));
+ use (src, e);
+ full_coverage = true;
+ return e;
+
+ case Evoral::OverlapStart: /* required range start is covered by image range */
+ if ((e->end - start) > max_coverage) {
+ best_partial = e;
+ max_coverage = e->end - start;
+ }
+ break;
+
+ case Evoral::OverlapNone:
+ case Evoral::OverlapEnd:
+ case Evoral::OverlapInternal:
+ break;
}
}
ImageCache::iterator x;
/* MUST BE CALLED FROM (SINGLE) GUI THREAD */
-
+
if ((x = cache_map.find (src)) == cache_map.end ()) {
return;
}
++nxt;
boost::shared_ptr<Entry> e1 (*c1);
-
+
if (channel != e1->channel
|| height != e1->height
|| amplitude != e1->amplitude
/* doesn't match current properties, ignore and move on
* to the next one.
*/
-
+
other_entries++;
c1 = nxt;
continue;
}
-
+
/* c1 now points to a cached image entry that matches current
* properties. Check all subsequent cached imaged entries to
* see if there are others that also match but represent
++nxt2;
boost::shared_ptr<Entry> e2 (*c2);
-
+
if (e1 == e2 || channel != e2->channel
|| height != e2->height
|| amplitude != e2->amplitude
c2 = nxt2;
continue;
}
-
+
if (e2->start >= e1->start && e2->end <= e1->end) {
/* c2 is fully contained by c1, so delete it */
caches.erase (c2);
WaveViewCache::add (boost::shared_ptr<ARDOUR::AudioSource> src, boost::shared_ptr<Entry> ce)
{
/* MUST BE CALLED FROM (SINGLE) GUI THREAD */
-
+
Cairo::RefPtr<Cairo::ImageSurface> img (ce->image);
image_cache_size += img->get_height() * img->get_width () * 4; /* 4 = bytes per FORMAT_ARGB32 pixel */
WaveViewCache::cache_flush ()
{
/* Build a sortable list of all cache entries */
-
+
CacheList cache_list;
for (ImageCache::const_iterator cm = cache_map.begin(); cm != cache_map.end(); ++cm) {
cache_list.push_back (make_pair (cm->first, *cl));
}
}
-
+
/* sort list in LRU order */
SortByTimestamp sorter;
sort (cache_list.begin(), cache_list.end(), sorter);
ListEntry& le (cache_list.front());
ImageCache::iterator x;
-
+
if ((x = cache_map.find (le.first)) != cache_map.end ()) {
-
+
CacheLine& cl = x->second;
-
+
for (CacheLine::iterator c = cl.begin(); c != cl.end(); ++c) {
-
+
if (*c == le.second) {
DEBUG_TRACE (DEBUG::WaveView, string_compose ("Removing cache line entry for %1\n", x->first->name()));
-
+
/* Remove this entry from this cache line */
cl.erase (c);
-
+
if (cl.empty()) {
/* remove cache line from main cache: no more entries */
cache_map.erase (x);
}
-
+
break;
}
}
-
+
Cairo::RefPtr<Cairo::ImageSurface> img (le.second->image);
uint64_t size = img->get_height() * img->get_width() * 4; /* 4 = bytes per FORMAT_ARGB32 pixel */
-
+
if (image_cache_size > size) {
image_cache_size -= size;
} else {
}
DEBUG_TRACE (DEBUG::WaveView, string_compose ("cache shrunk to %1\n", image_cache_size));
}
-
+
/* Remove from the linear list, even if we didn't find it in
* the actual cache_mao
*/
}
}
+void
+WaveViewCache::clear_cache ()
+{
+ DEBUG_TRACE (DEBUG::WaveView, "clear cache\n");
+ const uint64_t image_cache_threshold = _image_cache_threshold;
+ _image_cache_threshold = 0;
+ cache_flush ();
+ _image_cache_threshold = image_cache_threshold;
+}
+
void
WaveViewCache::set_image_cache_threshold (uint64_t sz)
{
- DEBUG_TRACE (DEBUG::WaveView, string_compose ("new image cache size \n", sz));
+ DEBUG_TRACE (DEBUG::WaveView, string_compose ("new image cache size %1\n", sz));
_image_cache_threshold = sz;
cache_flush ();
}