#include "ardour/quantize.h"
#include "ardour/midi_model.h"
-#include "i18n.h"
+#include "pbd/i18n.h"
using namespace std;
using namespace PBD;
* 0.25 = quantize to beats/4, etc.
*/
-Quantize::Quantize (Session& s, bool snap_start, bool snap_end,
+Quantize::Quantize (bool snap_start, bool snap_end,
double start_grid, double end_grid,
float strength, float swing, float threshold)
- : session (s)
- , _snap_start (snap_start)
+ : _snap_start (snap_start)
, _snap_end (snap_end)
, _start_grid(start_grid)
, _end_grid(end_grid)
{
}
+static double
+swing_position (double pos, double grid, double swing, double offset)
+{
+ /* beats start out numbered at zero.
+ *
+ * every other position on the start-quantize-grid is
+ * optionally swung, meaning that its position is moved
+ * somewhere between its natural position and 2/3 of
+ * the way to the next start-quantize-grid position.
+ *
+ * so, if the _start grid is 0.5, the beat at 0 isn't
+ * swung, but something at 0.5 is, the beat at 1 isn't
+ * swung, but something at 1.5 is.
+ *
+ * if the start grid is 1.0, the beat at 0 isn't swung,
+ * but the beat at 1.0 is. the beat at 2.0 isn't swung,
+ * but the beat at 3.0 is. and so on.
+ *
+ * so the criterion for a position being swung is
+ * whether or not ((possible_grid_position / grid) % 2) != 0
+ */
+
+ const bool swing_quantize_grid_position = pos > 0.0 && fmod ((pos/grid), 2.0) != 0;
+ const bool swing_previous_grid_position = pos > grid && fmod ((pos-grid)/grid, 2.0) != 0;
+
+ /* one of these will not be subject to swing */
+
+ double swung_pos = pos;
+ double swung_previous_grid_position;
+
+ if (pos > grid) {
+ swung_previous_grid_position = pos - grid;
+ } else {
+ swung_previous_grid_position = 0.0;
+ }
+
+ if (swing_previous_grid_position) {
+ swung_previous_grid_position = swung_previous_grid_position + (2.0/3.0 * swing * grid);
+ }
+
+ if (swing_quantize_grid_position) {
+ swung_pos = swung_pos + (2.0/3.0 * swing * grid);
+ }
+
+ /* now correct for start-of-model offset */
+
+ pos += offset;
+
+ if (fabs (pos - swung_pos) > fabs (pos - swung_previous_grid_position)) {
+ pos = swung_previous_grid_position;
+ } else {
+ pos = swung_pos;
+ }
+
+ return pos;
+}
+
Command*
Quantize::operator () (boost::shared_ptr<MidiModel> model,
- double position,
- std::vector<Evoral::Sequence<Evoral::MusicalTime>::Notes>& seqs)
+ Evoral::Beats position,
+ std::vector<Evoral::Sequence<Evoral::Beats>::Notes>& seqs)
{
+ /* TODO: Rewrite this to be precise with fixed point? */
+
/* Calculate offset from start of model to next closest quantize step,
to quantize relative to actual session beats (etc.) rather than from the
start of the model.
*/
- const double round_pos = ceil(position / _start_grid) * _start_grid;
- const double offset = round_pos - position;
+ const double round_pos = round(position.to_double() / _start_grid) * _start_grid;
+ const double offset = round_pos - position.to_double();
- bool even;
MidiModel::NoteDiffCommand* cmd = new MidiModel::NoteDiffCommand (model, "quantize");
- for (std::vector<Evoral::Sequence<Evoral::MusicalTime>::Notes>::iterator s = seqs.begin(); s != seqs.end(); ++s) {
-
- even = false;
+ for (std::vector<Evoral::Sequence<Evoral::Beats>::Notes>::iterator s = seqs.begin(); s != seqs.end(); ++s) {
for (Evoral::Sequence<MidiModel::TimeType>::Notes::iterator i = (*s).begin(); i != (*s).end(); ++i) {
- double new_start = round ((*i)->time() / _start_grid) * _start_grid + offset;
- double new_end = round ((*i)->end_time() / _end_grid) * _end_grid + offset;
+ /* compute new start + end points WITHOUT the offset
+ * caused by the start of the model (see above).
+ *
+ * these versions of new_start and new_end are
+ * guaranteed to precisely align with the quantize grid(s).
+ */
- if (_swing > 0.0 && !even) {
+ double new_start = round (((*i)->time().to_double() - offset) / _start_grid) * _start_grid;
+ double new_end = round (((*i)->end_time().to_double() - offset) / _end_grid) * _end_grid;
- double next_grid = new_start + _start_grid;
+ if (_swing) {
- /* find a spot 2/3 (* swing factor) of the way between the grid point
- we would put this note at, and the nominal position of the next note.
- */
+ new_start = swing_position (new_start, _start_grid, _swing, offset);
+ new_end = swing_position (new_end, _end_grid, _swing, offset);
- new_start = new_start + (2.0/3.0 * _swing * (next_grid - new_start));
+ } else {
- } else if (_swing < 0.0 && !even) {
-
- double prev_grid = new_start - _start_grid;
-
- /* find a spot 2/3 (* swing factor) of the way between the grid point
- we would put this note at, and the nominal position of the previous note.
- */
-
- new_start = new_start - (2.0/3.0 * _swing * (new_start - prev_grid));
+ /* now correct for start-of-model offset */
+ new_start += offset;
+ new_end += offset;
}
- double delta = new_start - (*i)->time();
+ double delta = new_start - (*i)->time().to_double();
+
if (fabs (delta) >= _threshold) {
if (_snap_start) {
delta *= _strength;
cmd->change ((*i), MidiModel::NoteDiffCommand::StartTime,
- (*i)->time() + delta);
+ (*i)->time() + delta);
}
}
if (_snap_end) {
- delta = new_end - (*i)->end_time();
+ delta = new_end - (*i)->end_time().to_double();
if (fabs (delta) >= _threshold) {
- double new_dur = new_end - new_start;
+ Evoral::Beats new_dur(new_end - new_start);
- if (new_dur == 0.0) {
- new_dur = _end_grid;
+ if (!new_dur) {
+ new_dur = Evoral::Beats(_end_grid);
}
cmd->change ((*i), MidiModel::NoteDiffCommand::Length, new_dur);
}
}
-
- even = !even;
}
}