/* GStreamer * * Copyright (C) <2005> Stefan Kost * Copyright (C) 2007 Sebastian Dröge * * gstinterpolation.c: Interpolation methods for dynamic properties * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "gstinterpolationcontrolsource.h" #include "gstinterpolationcontrolsourceprivate.h" #define GST_CAT_DEFAULT gst_controller_debug GST_DEBUG_CATEGORY_EXTERN (GST_CAT_DEFAULT); #define EMPTY(x) (x) /* common helper */ /* * gst_interpolation_control_source_find_control_point_node: * @self: the interpolation control source to search in * @timestamp: the search key * * Find last value before given timestamp in control point list. * * Returns: the found #GList node or %NULL */ static GList *gst_interpolation_control_source_find_control_point_node (GstInterpolationControlSource * self, GstClockTime timestamp) { GList *prev_node = g_list_last (self->priv->values); GList *node; GstControlPoint *cp; /* Check if we can start from the last requested value * to save some time */ node = self->priv->values; if (self->priv->last_requested_value) { GstControlPoint *last_cp = self->priv->last_requested_value->data; if (timestamp > last_cp->timestamp) node = self->priv->last_requested_value; } /* iterate over timed value list */ for (; node; node = g_list_next (node)) { cp = node->data; /* this timestamp is newer that the one we look for */ if (timestamp < cp->timestamp) { /* get previous one again */ prev_node = g_list_previous (node); break; } } /* If we have something to return save it as a * potential start position for the next search */ if (prev_node) self->priv->last_requested_value = prev_node; return prev_node; } /* * gst_interpolation_control_source_get_first_value: * @self: the interpolation control source to search in * * Find the first value and return it. * * Returns: the found #GValue or %NULL if there are none. */ static inline GValue * gst_interpolation_control_source_get_first_value (GstInterpolationControlSource * self) { if (self->priv->values && self->priv->nvalues > 0) { GstControlPoint *cp = self->priv->values->data; return &cp->value; } else { return NULL; } } /* steps-like (no-)interpolation, default */ /* just returns the value for the most recent key-frame */ #define DEFINE_NONE_GET(type) \ static inline GValue * \ _interpolate_none_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp) \ { \ GValue *ret; \ GList *node; \ \ if ((node = \ gst_interpolation_control_source_find_control_point_node (self, timestamp))) { \ GstControlPoint *cp = node->data; \ g##type ret_val = g_value_get_##type (&cp->value); \ \ if (g_value_get_##type (&self->priv->minimum_value) > ret_val) \ ret = &self->priv->minimum_value; \ else if (g_value_get_##type (&self->priv->maximum_value) < ret_val) \ ret = &self->priv->maximum_value; \ else \ ret = &cp->value; \ } else { \ ret = gst_interpolation_control_source_get_first_value (self); \ } \ return ret; \ } \ \ static gboolean \ interpolate_none_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, GValue *value) \ { \ GValue *ret; \ g_mutex_lock (self->lock); \ \ ret = _interpolate_none_get_##type (self, timestamp); \ if (!ret) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ g_value_copy (ret, value); \ g_mutex_unlock (self->lock); \ return TRUE; \ } \ \ static gboolean \ interpolate_none_get_##type##_value_array (GstInterpolationControlSource *self, \ GstClockTime timestamp, GstValueArray * value_array) \ { \ gint i; \ GstClockTime ts = timestamp; \ g##type *values = (g##type *) value_array->values; \ GValue *ret; \ \ g_mutex_lock (self->lock); \ for(i = 0; i < value_array->nbsamples; i++) { \ ret = _interpolate_none_get_##type (self, timestamp); \ if (!ret) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ *values = g_value_get_##type (ret); \ ts += value_array->sample_interval; \ values++; \ } \ g_mutex_unlock (self->lock); \ return TRUE; \ } DEFINE_NONE_GET (int); DEFINE_NONE_GET (uint); DEFINE_NONE_GET (long); DEFINE_NONE_GET (ulong); DEFINE_NONE_GET (int64); DEFINE_NONE_GET (uint64); DEFINE_NONE_GET (float); DEFINE_NONE_GET (double); static inline GValue * _interpolate_none_get (GstInterpolationControlSource * self, GstClockTime timestamp) { GList *node; GValue *ret; if ((node = gst_interpolation_control_source_find_control_point_node (self, timestamp))) { GstControlPoint *cp = node->data; ret = &cp->value; } else { ret = gst_interpolation_control_source_get_first_value (self); } return ret; } static gboolean interpolate_none_get (GstInterpolationControlSource * self, GstClockTime timestamp, GValue * value) { GValue *ret; g_mutex_lock (self->lock); ret = _interpolate_none_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } g_value_copy (ret, value); g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_none_get_boolean_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gboolean *values = (gboolean *) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_none_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = g_value_get_boolean (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_none_get_enum_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gint *values = (gint *) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_none_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = g_value_get_enum (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_none_get_string_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gchar **values = (gchar **) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_none_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = (gchar *) g_value_get_string (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static GstInterpolateMethod interpolate_none = { (GstControlSourceGetValue) interpolate_none_get_int, (GstControlSourceGetValueArray) interpolate_none_get_int_value_array, (GstControlSourceGetValue) interpolate_none_get_uint, (GstControlSourceGetValueArray) interpolate_none_get_uint_value_array, (GstControlSourceGetValue) interpolate_none_get_long, (GstControlSourceGetValueArray) interpolate_none_get_long_value_array, (GstControlSourceGetValue) interpolate_none_get_ulong, (GstControlSourceGetValueArray) interpolate_none_get_ulong_value_array, (GstControlSourceGetValue) interpolate_none_get_int64, (GstControlSourceGetValueArray) interpolate_none_get_int64_value_array, (GstControlSourceGetValue) interpolate_none_get_uint64, (GstControlSourceGetValueArray) interpolate_none_get_uint64_value_array, (GstControlSourceGetValue) interpolate_none_get_float, (GstControlSourceGetValueArray) interpolate_none_get_float_value_array, (GstControlSourceGetValue) interpolate_none_get_double, (GstControlSourceGetValueArray) interpolate_none_get_double_value_array, (GstControlSourceGetValue) interpolate_none_get, (GstControlSourceGetValueArray) interpolate_none_get_boolean_value_array, (GstControlSourceGetValue) interpolate_none_get, (GstControlSourceGetValueArray) interpolate_none_get_enum_value_array, (GstControlSourceGetValue) interpolate_none_get, (GstControlSourceGetValueArray) interpolate_none_get_string_value_array }; /* returns the default value of the property, except for times with specific values */ /* needed for one-shot events, such as notes and triggers */ #define DEFINE_TRIGGER_GET(type) \ static inline GValue * \ _interpolate_trigger_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp) \ { \ GList *node; \ GstControlPoint *cp; \ \ /* check if there is a value at the registered timestamp */ \ if ((node = \ gst_interpolation_control_source_find_control_point_node (self, timestamp))) { \ cp = node->data; \ if (timestamp == cp->timestamp) { \ g##type ret = g_value_get_##type (&cp->value); \ if (g_value_get_##type (&self->priv->minimum_value) > ret) \ return &self->priv->minimum_value; \ else if (g_value_get_##type (&self->priv->maximum_value) < ret) \ return &self->priv->maximum_value; \ else \ return &cp->value; \ } \ } \ \ if (self->priv->nvalues > 0) \ return &self->priv->default_value; \ else \ return NULL; \ } \ \ static gboolean \ interpolate_trigger_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, GValue *value) \ { \ GValue *ret; \ g_mutex_lock (self->lock); \ ret = _interpolate_trigger_get_##type (self, timestamp); \ if (!ret) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ g_value_copy (ret, value); \ g_mutex_unlock (self->lock); \ return TRUE; \ } \ \ static gboolean \ interpolate_trigger_get_##type##_value_array (GstInterpolationControlSource *self, \ GstClockTime timestamp, GstValueArray * value_array) \ { \ gint i; \ GstClockTime ts = timestamp; \ g##type *values = (g##type *) value_array->values; \ GValue *ret; \ \ g_mutex_lock (self->lock); \ for(i = 0; i < value_array->nbsamples; i++) { \ ret = _interpolate_trigger_get_##type (self, timestamp); \ if (!ret) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ *values = g_value_get_##type (ret); \ ts += value_array->sample_interval; \ values++; \ } \ g_mutex_unlock (self->lock); \ return TRUE; \ } DEFINE_TRIGGER_GET (int); DEFINE_TRIGGER_GET (uint); DEFINE_TRIGGER_GET (long); DEFINE_TRIGGER_GET (ulong); DEFINE_TRIGGER_GET (int64); DEFINE_TRIGGER_GET (uint64); DEFINE_TRIGGER_GET (float); DEFINE_TRIGGER_GET (double); static inline GValue * _interpolate_trigger_get (GstInterpolationControlSource * self, GstClockTime timestamp) { GList *node; GstControlPoint *cp; /* check if there is a value at the registered timestamp */ if ((node = gst_interpolation_control_source_find_control_point_node (self, timestamp))) { cp = node->data; if (timestamp == cp->timestamp) { return &cp->value; } } if (self->priv->nvalues > 0) return &self->priv->default_value; else return NULL; } static gboolean interpolate_trigger_get (GstInterpolationControlSource * self, GstClockTime timestamp, GValue * value) { GValue *ret; g_mutex_lock (self->lock); ret = _interpolate_trigger_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } g_value_copy (ret, value); g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_trigger_get_boolean_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gint *values = (gint *) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_trigger_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = g_value_get_boolean (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_trigger_get_enum_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gint *values = (gint *) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_trigger_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = g_value_get_enum (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static gboolean interpolate_trigger_get_string_value_array (GstInterpolationControlSource * self, GstClockTime timestamp, GstValueArray * value_array) { gint i; GstClockTime ts = timestamp; gchar **values = (gchar **) value_array->values; GValue *ret; g_mutex_lock (self->lock); for (i = 0; i < value_array->nbsamples; i++) { ret = _interpolate_trigger_get (self, timestamp); if (!ret) { g_mutex_unlock (self->lock); return FALSE; } *values = (gchar *) g_value_get_string (ret); ts += value_array->sample_interval; values++; } g_mutex_unlock (self->lock); return TRUE; } static GstInterpolateMethod interpolate_trigger = { (GstControlSourceGetValue) interpolate_trigger_get_int, (GstControlSourceGetValueArray) interpolate_trigger_get_int_value_array, (GstControlSourceGetValue) interpolate_trigger_get_uint, (GstControlSourceGetValueArray) interpolate_trigger_get_uint_value_array, (GstControlSourceGetValue) interpolate_trigger_get_long, (GstControlSourceGetValueArray) interpolate_trigger_get_long_value_array, (GstControlSourceGetValue) interpolate_trigger_get_ulong, (GstControlSourceGetValueArray) interpolate_trigger_get_ulong_value_array, (GstControlSourceGetValue) interpolate_trigger_get_int64, (GstControlSourceGetValueArray) interpolate_trigger_get_int64_value_array, (GstControlSourceGetValue) interpolate_trigger_get_uint64, (GstControlSourceGetValueArray) interpolate_trigger_get_uint64_value_array, (GstControlSourceGetValue) interpolate_trigger_get_float, (GstControlSourceGetValueArray) interpolate_trigger_get_float_value_array, (GstControlSourceGetValue) interpolate_trigger_get_double, (GstControlSourceGetValueArray) interpolate_trigger_get_double_value_array, (GstControlSourceGetValue) interpolate_trigger_get, (GstControlSourceGetValueArray) interpolate_trigger_get_boolean_value_array, (GstControlSourceGetValue) interpolate_trigger_get, (GstControlSourceGetValueArray) interpolate_trigger_get_enum_value_array, (GstControlSourceGetValue) interpolate_trigger_get, (GstControlSourceGetValueArray) interpolate_trigger_get_string_value_array }; /* linear interpolation */ /* smoothes inbetween values */ #define DEFINE_LINEAR_GET(type,round,convert) \ static inline gboolean \ _interpolate_linear_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, g##type *ret) \ { \ GList *node; \ \ if ((node = gst_interpolation_control_source_find_control_point_node (self, timestamp))) { \ GstControlPoint *cp1, *cp2; \ \ cp1 = node->data; \ if ((node = g_list_next (node))) { \ gdouble slope; \ g##type value1,value2; \ \ cp2 = node->data; \ \ value1 = g_value_get_##type (&cp1->value); \ value2 = g_value_get_##type (&cp2->value); \ slope = (gdouble) convert (value2 - value1) / gst_guint64_to_gdouble (cp2->timestamp - cp1->timestamp); \ \ if (round) \ *ret = (g##type) (convert (value1) + gst_guint64_to_gdouble (timestamp - cp1->timestamp) * slope + 0.5); \ else \ *ret = (g##type) (convert (value1) + gst_guint64_to_gdouble (timestamp - cp1->timestamp) * slope); \ } \ else { \ *ret = g_value_get_##type (&cp1->value); \ } \ } else { \ GValue *first = gst_interpolation_control_source_get_first_value (self); \ if (!first) \ return FALSE; \ *ret = g_value_get_##type (first); \ } \ *ret = CLAMP (*ret, g_value_get_##type (&self->priv->minimum_value), g_value_get_##type (&self->priv->maximum_value)); \ return TRUE; \ } \ \ static gboolean \ interpolate_linear_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, GValue *value) \ { \ g##type ret; \ g_mutex_lock (self->lock); \ if (_interpolate_linear_get_##type (self, timestamp, &ret)) { \ g_value_set_##type (value, ret); \ g_mutex_unlock (self->lock); \ return TRUE; \ } \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ \ static gboolean \ interpolate_linear_get_##type##_value_array (GstInterpolationControlSource *self, \ GstClockTime timestamp, GstValueArray * value_array) \ { \ gint i; \ GstClockTime ts = timestamp; \ g##type *values = (g##type *) value_array->values; \ \ g_mutex_lock (self->lock); \ for(i = 0; i < value_array->nbsamples; i++) { \ if (! _interpolate_linear_get_##type (self, ts, values)) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ ts += value_array->sample_interval; \ values++; \ } \ g_mutex_unlock (self->lock); \ return TRUE; \ } DEFINE_LINEAR_GET (int, TRUE, EMPTY); DEFINE_LINEAR_GET (uint, TRUE, EMPTY); DEFINE_LINEAR_GET (long, TRUE, EMPTY); DEFINE_LINEAR_GET (ulong, TRUE, EMPTY); DEFINE_LINEAR_GET (int64, TRUE, EMPTY); DEFINE_LINEAR_GET (uint64, TRUE, gst_util_guint64_to_gdouble); DEFINE_LINEAR_GET (float, FALSE, EMPTY); DEFINE_LINEAR_GET (double, FALSE, EMPTY); static GstInterpolateMethod interpolate_linear = { (GstControlSourceGetValue) interpolate_linear_get_int, (GstControlSourceGetValueArray) interpolate_linear_get_int_value_array, (GstControlSourceGetValue) interpolate_linear_get_uint, (GstControlSourceGetValueArray) interpolate_linear_get_uint_value_array, (GstControlSourceGetValue) interpolate_linear_get_long, (GstControlSourceGetValueArray) interpolate_linear_get_long_value_array, (GstControlSourceGetValue) interpolate_linear_get_ulong, (GstControlSourceGetValueArray) interpolate_linear_get_ulong_value_array, (GstControlSourceGetValue) interpolate_linear_get_int64, (GstControlSourceGetValueArray) interpolate_linear_get_int64_value_array, (GstControlSourceGetValue) interpolate_linear_get_uint64, (GstControlSourceGetValueArray) interpolate_linear_get_uint64_value_array, (GstControlSourceGetValue) interpolate_linear_get_float, (GstControlSourceGetValueArray) interpolate_linear_get_float_value_array, (GstControlSourceGetValue) interpolate_linear_get_double, (GstControlSourceGetValueArray) interpolate_linear_get_double_value_array, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL }; /* square interpolation */ /* cubic interpolation */ /* The following functions implement a natural cubic spline interpolator. * For details look at http://en.wikipedia.org/wiki/Spline_interpolation * * Instead of using a real matrix with n^2 elements for the linear system * of equations we use three arrays o, p, q to hold the tridiagonal matrix * as following to save memory: * * p[0] q[0] 0 0 0 * o[1] p[1] q[1] 0 0 * 0 o[2] p[2] q[2] . * . . . . . */ #define DEFINE_CUBIC_GET(type,round, convert) \ static void \ _interpolate_cubic_update_cache_##type (GstInterpolationControlSource *self) \ { \ gint i, n = self->priv->nvalues; \ gdouble *o = g_new0 (gdouble, n); \ gdouble *p = g_new0 (gdouble, n); \ gdouble *q = g_new0 (gdouble, n); \ \ gdouble *h = g_new0 (gdouble, n); \ gdouble *b = g_new0 (gdouble, n); \ gdouble *z = g_new0 (gdouble, n); \ \ GList *node; \ GstControlPoint *cp; \ GstClockTime x_prev, x, x_next; \ g##type y_prev, y, y_next; \ \ /* Fill linear system of equations */ \ node = self->priv->values; \ cp = node->data; \ x = cp->timestamp; \ y = g_value_get_##type (&cp->value); \ \ p[0] = 1.0; \ \ node = node->next; \ cp = node->data; \ x_next = cp->timestamp; \ y_next = g_value_get_##type (&cp->value); \ h[0] = gst_util_guint64_to_gdouble (x_next - x); \ \ for (i = 1; i < n-1; i++) { \ /* Shuffle x and y values */ \ x_prev = x; \ y_prev = y; \ x = x_next; \ y = y_next; \ node = node->next; \ cp = node->data; \ x_next = cp->timestamp; \ y_next = g_value_get_##type (&cp->value); \ \ h[i] = gst_util_guint64_to_gdouble (x_next - x); \ o[i] = h[i-1]; \ p[i] = 2.0 * (h[i-1] + h[i]); \ q[i] = h[i]; \ b[i] = convert (y_next - y) / h[i] - convert (y - y_prev) / h[i-1]; \ } \ p[n-1] = 1.0; \ \ /* Use Gauss elimination to set everything below the \ * diagonal to zero */ \ for (i = 1; i < n-1; i++) { \ gdouble a = o[i] / p[i-1]; \ p[i] -= a * q[i-1]; \ b[i] -= a * b[i-1]; \ } \ \ /* Solve everything else from bottom to top */ \ for (i = n-2; i > 0; i--) \ z[i] = (b[i] - q[i] * z[i+1]) / p[i]; \ \ /* Save cache next in the GstControlPoint */ \ \ node = self->priv->values; \ for (i = 0; i < n; i++) { \ cp = node->data; \ cp->cache.cubic.h = h[i]; \ cp->cache.cubic.z = z[i]; \ node = node->next; \ } \ \ /* Free our temporary arrays */ \ g_free (o); \ g_free (p); \ g_free (q); \ g_free (h); \ g_free (b); \ g_free (z); \ } \ \ static inline gboolean \ _interpolate_cubic_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, g##type *ret) \ { \ GList *node; \ \ if (self->priv->nvalues <= 2) \ return _interpolate_linear_get_##type (self, timestamp, ret); \ \ if (!self->priv->valid_cache) { \ _interpolate_cubic_update_cache_##type (self); \ self->priv->valid_cache = TRUE; \ } \ \ if ((node = gst_interpolation_control_source_find_control_point_node (self, timestamp))) { \ GstControlPoint *cp1, *cp2; \ \ cp1 = node->data; \ if ((node = g_list_next (node))) { \ gdouble diff1, diff2; \ g##type value1,value2; \ gdouble out; \ \ cp2 = node->data; \ \ value1 = g_value_get_##type (&cp1->value); \ value2 = g_value_get_##type (&cp2->value); \ \ diff1 = gst_guint64_to_gdouble (timestamp - cp1->timestamp); \ diff2 = gst_guint64_to_gdouble (cp2->timestamp - timestamp); \ \ out = (cp2->cache.cubic.z * diff1 * diff1 * diff1 + cp1->cache.cubic.z * diff2 * diff2 * diff2) / cp1->cache.cubic.h; \ out += (convert (value2) / cp1->cache.cubic.h - cp1->cache.cubic.h * cp2->cache.cubic.z) * diff1; \ out += (convert (value1) / cp1->cache.cubic.h - cp1->cache.cubic.h * cp1->cache.cubic.z) * diff2; \ \ if (round) \ *ret = (g##type) (out + 0.5); \ else \ *ret = (g##type) out; \ } \ else { \ *ret = g_value_get_##type (&cp1->value); \ } \ } else { \ GValue *first = gst_interpolation_control_source_get_first_value (self); \ if (!first) \ return FALSE; \ *ret = g_value_get_##type (first); \ } \ *ret = CLAMP (*ret, g_value_get_##type (&self->priv->minimum_value), g_value_get_##type (&self->priv->maximum_value)); \ return TRUE; \ } \ \ static gboolean \ interpolate_cubic_get_##type (GstInterpolationControlSource *self, GstClockTime timestamp, GValue *value) \ { \ g##type ret; \ g_mutex_lock (self->lock); \ if (_interpolate_cubic_get_##type (self, timestamp, &ret)) { \ g_value_set_##type (value, ret); \ g_mutex_unlock (self->lock); \ return TRUE; \ } \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ \ static gboolean \ interpolate_cubic_get_##type##_value_array (GstInterpolationControlSource *self, \ GstClockTime timestamp, GstValueArray * value_array) \ { \ gint i; \ GstClockTime ts = timestamp; \ g##type *values = (g##type *) value_array->values; \ \ g_mutex_lock (self->lock); \ for(i = 0; i < value_array->nbsamples; i++) { \ if (! _interpolate_cubic_get_##type (self, ts, values)) { \ g_mutex_unlock (self->lock); \ return FALSE; \ } \ ts += value_array->sample_interval; \ values++; \ } \ g_mutex_unlock (self->lock); \ return TRUE; \ } DEFINE_CUBIC_GET (int, TRUE, EMPTY); DEFINE_CUBIC_GET (uint, TRUE, EMPTY); DEFINE_CUBIC_GET (long, TRUE, EMPTY); DEFINE_CUBIC_GET (ulong, TRUE, EMPTY); DEFINE_CUBIC_GET (int64, TRUE, EMPTY); DEFINE_CUBIC_GET (uint64, TRUE, gst_util_guint64_to_gdouble); DEFINE_CUBIC_GET (float, FALSE, EMPTY); DEFINE_CUBIC_GET (double, FALSE, EMPTY); static GstInterpolateMethod interpolate_cubic = { (GstControlSourceGetValue) interpolate_cubic_get_int, (GstControlSourceGetValueArray) interpolate_cubic_get_int_value_array, (GstControlSourceGetValue) interpolate_cubic_get_uint, (GstControlSourceGetValueArray) interpolate_cubic_get_uint_value_array, (GstControlSourceGetValue) interpolate_cubic_get_long, (GstControlSourceGetValueArray) interpolate_cubic_get_long_value_array, (GstControlSourceGetValue) interpolate_cubic_get_ulong, (GstControlSourceGetValueArray) interpolate_cubic_get_ulong_value_array, (GstControlSourceGetValue) interpolate_cubic_get_int64, (GstControlSourceGetValueArray) interpolate_cubic_get_int64_value_array, (GstControlSourceGetValue) interpolate_cubic_get_uint64, (GstControlSourceGetValueArray) interpolate_cubic_get_uint64_value_array, (GstControlSourceGetValue) interpolate_cubic_get_float, (GstControlSourceGetValueArray) interpolate_cubic_get_float_value_array, (GstControlSourceGetValue) interpolate_cubic_get_double, (GstControlSourceGetValueArray) interpolate_cubic_get_double_value_array, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL, (GstControlSourceGetValue) NULL, (GstControlSourceGetValueArray) NULL }; /* register all interpolation methods */ GstInterpolateMethod *interpolation_methods[] = { &interpolate_none, &interpolate_trigger, &interpolate_linear, &interpolate_cubic, &interpolate_cubic }; guint num_interpolation_methods = G_N_ELEMENTS (interpolation_methods);