From: Stefan Sauer Date: Mon, 7 Sep 2015 07:39:32 +0000 (+0200) Subject: interpolationcontrolsource: add cubic_mono interpolation X-Git-Tag: 1.10.4~767 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=56f12705cab3affa2fb03fad7e9eb9859f1b9137;p=platform%2Fupstream%2Fgstreamer.git interpolationcontrolsource: add cubic_mono interpolation This new mode won't overshoot the min/max y values set by the control-points. Fixes #754678 API: GST_INTERPOLATION_MODE_CUBIC_MONO --- diff --git a/libs/gst/controller/gstinterpolationcontrolsource.c b/libs/gst/controller/gstinterpolationcontrolsource.c index ddfe9c8..a52f54e 100644 --- a/libs/gst/controller/gstinterpolationcontrolsource.c +++ b/libs/gst/controller/gstinterpolationcontrolsource.c @@ -427,6 +427,176 @@ interpolate_cubic_get_value_array (GstTimedValueControlSource * self, return ret; } + +/* monotonic cubic interpolation */ + +/* the following functions implement monotonic cubic spline interpolation. + * For details: http://en.wikipedia.org/wiki/Monotone_cubic_interpolation + * + * In contrast to the previous cubic mode, the values won't overshoot. + */ + +static void +_interpolate_cubic_mono_update_cache (GstTimedValueControlSource * self) +{ + gint i, n = self->nvalues; + gdouble *dxs = g_new0 (gdouble, n); + gdouble *dys = g_new0 (gdouble, n); + gdouble *ms = g_new0 (gdouble, n); + gdouble *c1s = g_new0 (gdouble, n); + + GSequenceIter *iter; + GstControlPoint *cp; + GstClockTime x, x_next, dx; + gdouble y, y_next, dy; + + /* Get consecutive differences and slopes */ + iter = g_sequence_get_begin_iter (self->values); + cp = g_sequence_get (iter); + x_next = cp->timestamp; + y_next = cp->value; + for (i = 0; i < n - 1; i++) { + x = x_next; + y = y_next; + iter = g_sequence_iter_next (iter); + cp = g_sequence_get (iter); + x_next = cp->timestamp; + y_next = cp->value; + + dx = gst_guint64_to_gdouble (x_next - x); + dy = y_next - y; + dxs[i] = dx; + dys[i] = dy; + ms[i] = dy / dx; + } + + /* Get degree-1 coefficients */ + c1s[0] = ms[0]; + for (i = 1; i < n; i++) { + gdouble m = ms[i - 1]; + gdouble m_next = ms[i]; + + if (m * m_next <= 0) { + c1s[i] = 0.0; + } else { + gdouble dx_next, dx_sum; + + dx = dxs[i], dx_next = dxs[i + 1], dx_sum = dx + dx_next; + c1s[i] = 3.0 * dx_sum / ((dx_sum + dx_next) / m + (dx_sum + dx) / m_next); + } + } + c1s[n - 1] = ms[n - 1]; + + /* Get degree-2 and degree-3 coefficients */ + iter = g_sequence_get_begin_iter (self->values); + for (i = 0; i < n - 1; i++) { + gdouble c1, m, inv_dx, common; + cp = g_sequence_get (iter); + + c1 = c1s[i]; + m = ms[i]; + inv_dx = 1.0 / dxs[i]; + common = c1 + c1s[i + 1] - m - m; + + cp->cache.cubic_mono.c1s = c1; + cp->cache.cubic_mono.c2s = (m - c1 - common) * inv_dx; + cp->cache.cubic_mono.c3s = common * inv_dx * inv_dx; + + iter = g_sequence_iter_next (iter); + } + + /* Free our temporary arrays */ + g_free (dxs); + g_free (dys); + g_free (ms); + g_free (c1s); +} + +static inline gdouble +_interpolate_cubic_mono (GstTimedValueControlSource * self, + GstControlPoint * cp1, gdouble value1, GstControlPoint * cp2, + gdouble value2, GstClockTime timestamp) +{ + if (!self->valid_cache) { + _interpolate_cubic_mono_update_cache (self); + self->valid_cache = TRUE; + } + + if (cp2) { + gdouble diff = gst_guint64_to_gdouble (timestamp - cp1->timestamp); + gdouble diff2 = diff * diff; + gdouble out; + + out = value1 + cp1->cache.cubic_mono.c1s * diff; + out += cp1->cache.cubic_mono.c2s * diff2; + out += cp1->cache.cubic_mono.c3s * diff * diff2; + return out; + } else { + return value1; + } +} + +static gboolean +interpolate_cubic_mono_get (GstTimedValueControlSource * self, + GstClockTime timestamp, gdouble * value) +{ + gboolean ret = FALSE; + GstControlPoint *cp1, *cp2 = NULL; + + if (self->nvalues <= 2) + return interpolate_linear_get (self, timestamp, value); + + g_mutex_lock (&self->lock); + + if (_get_nearest_control_points (self, timestamp, &cp1, &cp2)) { + *value = _interpolate_cubic_mono (self, cp1, cp1->value, cp2, + (cp2 ? cp2->value : 0.0), timestamp); + ret = TRUE; + } + g_mutex_unlock (&self->lock); + return ret; +} + +static gboolean +interpolate_cubic_mono_get_value_array (GstTimedValueControlSource * self, + GstClockTime timestamp, GstClockTime interval, guint n_values, + gdouble * values) +{ + gboolean ret = FALSE; + guint i; + GstClockTime ts = timestamp; + GstClockTime next_ts = 0; + GstControlPoint *cp1 = NULL, *cp2 = NULL; + + if (self->nvalues <= 2) + return interpolate_linear_get_value_array (self, timestamp, interval, + n_values, values); + + g_mutex_lock (&self->lock); + + for (i = 0; i < n_values; i++) { + GST_LOG ("values[%3d] : ts=%" GST_TIME_FORMAT ", next_ts=%" GST_TIME_FORMAT, + i, GST_TIME_ARGS (ts), GST_TIME_ARGS (next_ts)); + if (ts >= next_ts) { + _get_nearest_control_points2 (self, ts, &cp1, &cp2, &next_ts); + } + if (cp1) { + *values = _interpolate_cubic_mono (self, cp1, cp1->value, cp2, + (cp2 ? cp2->value : 0.0), ts); + ret = TRUE; + GST_LOG ("values[%3d]=%lf", i, *values); + } else { + *values = NAN; + GST_LOG ("values[%3d]=-", i); + } + ts += interval; + values++; + } + g_mutex_unlock (&self->lock); + return ret; +} + + static struct { GstControlSourceGetValue get; @@ -438,8 +608,10 @@ static struct (GstControlSourceGetValue) interpolate_linear_get, (GstControlSourceGetValueArray) interpolate_linear_get_value_array}, { (GstControlSourceGetValue) interpolate_cubic_get, - (GstControlSourceGetValueArray) interpolate_cubic_get_value_array} -}; + (GstControlSourceGetValueArray) interpolate_cubic_get_value_array}, { + (GstControlSourceGetValue) interpolate_cubic_mono_get, + (GstControlSourceGetValueArray) +interpolate_cubic_mono_get_value_array}}; static const guint num_interpolation_modes = G_N_ELEMENTS (interpolation_modes); @@ -456,6 +628,8 @@ gst_interpolation_mode_get_type (void) {GST_INTERPOLATION_MODE_NONE, "GST_INTERPOLATION_MODE_NONE", "none"}, {GST_INTERPOLATION_MODE_LINEAR, "GST_INTERPOLATION_MODE_LINEAR", "linear"}, {GST_INTERPOLATION_MODE_CUBIC, "GST_INTERPOLATION_MODE_CUBIC", "cubic"}, + {GST_INTERPOLATION_MODE_CUBIC_MONO, "GST_INTERPOLATION_MODE_CUBIC_MONO", + "cubic-mono"}, {0, NULL, NULL} }; diff --git a/libs/gst/controller/gstinterpolationcontrolsource.h b/libs/gst/controller/gstinterpolationcontrolsource.h index f4b2fbf..065c4be 100644 --- a/libs/gst/controller/gstinterpolationcontrolsource.h +++ b/libs/gst/controller/gstinterpolationcontrolsource.h @@ -54,7 +54,10 @@ typedef struct _GstInterpolationControlSourcePrivate GstInterpolationControlSour * GstInterpolationMode: * @GST_INTERPOLATION_MODE_NONE: steps-like interpolation, default * @GST_INTERPOLATION_MODE_LINEAR: linear interpolation - * @GST_INTERPOLATION_MODE_CUBIC: cubic interpolation + * @GST_INTERPOLATION_MODE_CUBIC: cubic interpolation (natural), may overshoot + * the min or max values set by the control point, but is more 'curvy' + * @GST_INTERPOLATION_MODE_CUBIC_MONO: (Since 1.8) monotonic cubic interpolation, will not + * produce any values outside of the min-max range set by the control points * * The various interpolation modes available. */ @@ -62,7 +65,8 @@ typedef enum { GST_INTERPOLATION_MODE_NONE, GST_INTERPOLATION_MODE_LINEAR, - GST_INTERPOLATION_MODE_CUBIC + GST_INTERPOLATION_MODE_CUBIC, + GST_INTERPOLATION_MODE_CUBIC_MONO, } GstInterpolationMode; /** diff --git a/libs/gst/controller/gsttimedvaluecontrolsource.h b/libs/gst/controller/gsttimedvaluecontrolsource.h index b661da9..7bc901e 100644 --- a/libs/gst/controller/gsttimedvaluecontrolsource.h +++ b/libs/gst/controller/gsttimedvaluecontrolsource.h @@ -74,6 +74,9 @@ struct _GstControlPoint gdouble h; gdouble z; } cubic; + struct { + gdouble c1s, c2s, c3s; + } cubic_mono; } cache; };