diff -r 000000000000 -r 0e761a78d257 gstreamer_core/libs/gst/controller/gstlfocontrolsource.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/gstreamer_core/libs/gst/controller/gstlfocontrolsource.c Thu Dec 17 08:53:32 2009 +0200 @@ -0,0 +1,1094 @@ +/* GStreamer + * + * Copyright (C) 2007 Sebastian Dröge + * + * gstlfocontrolsource.c: Control source that provides some periodic waveforms + * as control values. + * + * 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. + */ + +/** + * SECTION:gstlfocontrolsource + * @short_description: LFO control source + * + * #GstLFOControlSource is a #GstControlSource, that provides several periodic waveforms + * as control values. It supports all fundamental, numeric GValue types as property. + * + * To use #GstLFOControlSource get a new instance by calling gst_lfo_control_source_new(), + * bind it to a #GParamSpec and set the relevant properties or use + * gst_lfo_control_source_set_waveform. + * + * All functions are MT-safe. + * + */ + +#include +#include + +#include "gstcontrolsource.h" +#include "gstlfocontrolsource.h" +#include "gstlfocontrolsourceprivate.h" + +#include "math.h" + +#ifdef __SYMBIAN32__ +#include +#include +#endif +#define EMPTY(x) (x) + +/* FIXME: as % in C is not the modulo operator we need here for + * negative numbers implement our own. Are there better ways? */ +static inline GstClockTime +_calculate_pos (GstClockTime timestamp, GstClockTime timeshift, + GstClockTime period) +{ + while (timestamp < timeshift) + timestamp += period; + + timestamp -= timeshift; + + return timestamp % period; +} + +#define DEFINE_SINE(type,round,convert) \ +\ +static inline g##type \ +_sine_get_##type (GstLFOControlSource *self, GstClockTime timestamp) \ +{ \ + gdouble ret; \ + g##type max = g_value_get_##type (&self->priv->maximum_value); \ + g##type min = g_value_get_##type (&self->priv->minimum_value); \ + gdouble amp = convert (g_value_get_##type (&self->priv->amplitude)); \ + gdouble off = convert (g_value_get_##type (&self->priv->offset)); \ + GstClockTime pos = _calculate_pos (timestamp, self->priv->timeshift, self->priv->period); \ + \ + ret = sin (2.0 * M_PI * (self->priv->frequency / GST_SECOND) * gst_util_guint64_to_gdouble (pos)); \ + ret *= amp; \ + ret += off; \ + \ + if (round) \ + ret += 0.5; \ + \ + return (g##type) CLAMP (ret, convert (min), convert (max)); \ +} \ +\ +static gboolean \ +waveform_sine_get_##type (GstLFOControlSource *self, GstClockTime timestamp, \ + GValue *value) \ +{ \ + g##type ret; \ + g_mutex_lock (self->lock); \ + ret = _sine_get_##type (self, timestamp); \ + g_value_set_##type (value, ret); \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} \ +\ +static gboolean \ +waveform_sine_get_##type##_value_array (GstLFOControlSource *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++) { \ + *values = _sine_get_##type (self, ts); \ + ts += value_array->sample_interval; \ + values++; \ + } \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} + +DEFINE_SINE (int, TRUE, EMPTY); +DEFINE_SINE (uint, TRUE, EMPTY); +DEFINE_SINE (long, TRUE, EMPTY); + +DEFINE_SINE (ulong, TRUE, EMPTY); +DEFINE_SINE (int64, TRUE, EMPTY); +DEFINE_SINE (uint64, TRUE, gst_util_guint64_to_gdouble); +DEFINE_SINE (float, FALSE, EMPTY); +DEFINE_SINE (double, FALSE, EMPTY); + +static GstWaveformImplementation waveform_sine = { + (GstControlSourceGetValue) waveform_sine_get_int, + (GstControlSourceGetValueArray) waveform_sine_get_int_value_array, + (GstControlSourceGetValue) waveform_sine_get_uint, + (GstControlSourceGetValueArray) waveform_sine_get_uint_value_array, + (GstControlSourceGetValue) waveform_sine_get_long, + (GstControlSourceGetValueArray) waveform_sine_get_long_value_array, + (GstControlSourceGetValue) waveform_sine_get_ulong, + (GstControlSourceGetValueArray) waveform_sine_get_ulong_value_array, + (GstControlSourceGetValue) waveform_sine_get_int64, + (GstControlSourceGetValueArray) waveform_sine_get_int64_value_array, + (GstControlSourceGetValue) waveform_sine_get_uint64, + (GstControlSourceGetValueArray) waveform_sine_get_uint64_value_array, + (GstControlSourceGetValue) waveform_sine_get_float, + (GstControlSourceGetValueArray) waveform_sine_get_float_value_array, + (GstControlSourceGetValue) waveform_sine_get_double, + (GstControlSourceGetValueArray) waveform_sine_get_double_value_array +}; + +#define DEFINE_SQUARE(type,round, convert) \ +\ +static inline g##type \ +_square_get_##type (GstLFOControlSource *self, GstClockTime timestamp) \ +{ \ + g##type max = g_value_get_##type (&self->priv->maximum_value); \ + g##type min = g_value_get_##type (&self->priv->minimum_value); \ + gdouble amp = convert (g_value_get_##type (&self->priv->amplitude)); \ + gdouble off = convert (g_value_get_##type (&self->priv->offset)); \ + GstClockTime period = self->priv->period; \ + GstClockTime pos = _calculate_pos (timestamp, self->priv->timeshift, period); \ + gdouble ret; \ + \ + if (pos >= period / 2) \ + ret = amp; \ + else \ + ret = - amp; \ + \ + ret += off; \ + \ + if (round) \ + ret += 0.5; \ + \ + return (g##type) CLAMP (ret, convert (min), convert (max)); \ +} \ +\ +static gboolean \ +waveform_square_get_##type (GstLFOControlSource *self, GstClockTime timestamp, \ + GValue *value) \ +{ \ + g##type ret; \ + g_mutex_lock (self->lock); \ + ret = _square_get_##type (self, timestamp); \ + g_value_set_##type (value, ret); \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} \ +\ +static gboolean \ +waveform_square_get_##type##_value_array (GstLFOControlSource *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++) { \ + *values = _square_get_##type (self, ts); \ + ts += value_array->sample_interval; \ + values++; \ + } \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} + +DEFINE_SQUARE (int, TRUE, EMPTY); + +DEFINE_SQUARE (uint, TRUE, EMPTY); +DEFINE_SQUARE (long, TRUE, EMPTY); + +DEFINE_SQUARE (ulong, TRUE, EMPTY); +DEFINE_SQUARE (int64, TRUE, EMPTY); +DEFINE_SQUARE (uint64, TRUE, gst_util_guint64_to_gdouble); +DEFINE_SQUARE (float, FALSE, EMPTY); +DEFINE_SQUARE (double, FALSE, EMPTY); + +static GstWaveformImplementation waveform_square = { + (GstControlSourceGetValue) waveform_square_get_int, + (GstControlSourceGetValueArray) waveform_square_get_int_value_array, + (GstControlSourceGetValue) waveform_square_get_uint, + (GstControlSourceGetValueArray) waveform_square_get_uint_value_array, + (GstControlSourceGetValue) waveform_square_get_long, + (GstControlSourceGetValueArray) waveform_square_get_long_value_array, + (GstControlSourceGetValue) waveform_square_get_ulong, + (GstControlSourceGetValueArray) waveform_square_get_ulong_value_array, + (GstControlSourceGetValue) waveform_square_get_int64, + (GstControlSourceGetValueArray) waveform_square_get_int64_value_array, + (GstControlSourceGetValue) waveform_square_get_uint64, + (GstControlSourceGetValueArray) waveform_square_get_uint64_value_array, + (GstControlSourceGetValue) waveform_square_get_float, + (GstControlSourceGetValueArray) waveform_square_get_float_value_array, + (GstControlSourceGetValue) waveform_square_get_double, + (GstControlSourceGetValueArray) waveform_square_get_double_value_array +}; + +#define DEFINE_SAW(type,round,convert) \ +\ +static inline g##type \ +_saw_get_##type (GstLFOControlSource *self, GstClockTime timestamp) \ +{ \ + g##type max = g_value_get_##type (&self->priv->maximum_value); \ + g##type min = g_value_get_##type (&self->priv->minimum_value); \ + gdouble amp = convert (g_value_get_##type (&self->priv->amplitude)); \ + gdouble off = convert (g_value_get_##type (&self->priv->offset)); \ + GstClockTime period = self->priv->period; \ + GstClockTime pos = _calculate_pos (timestamp, self->priv->timeshift, period); \ + gdouble ret; \ + \ + ret = - ((gst_util_guint64_to_gdouble (pos) - gst_util_guint64_to_gdouble (period) / 2.0) * ((2.0 * amp) / gst_util_guint64_to_gdouble (period)));\ + \ + ret += off; \ + \ + if (round) \ + ret += 0.5; \ + \ + return (g##type) CLAMP (ret, convert (min), convert (max)); \ +} \ +\ +static gboolean \ +waveform_saw_get_##type (GstLFOControlSource *self, GstClockTime timestamp, \ + GValue *value) \ +{ \ + g##type ret; \ + g_mutex_lock (self->lock); \ + ret = _saw_get_##type (self, timestamp); \ + g_value_set_##type (value, ret); \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} \ +\ +static gboolean \ +waveform_saw_get_##type##_value_array (GstLFOControlSource *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++) { \ + *values = _saw_get_##type (self, ts); \ + ts += value_array->sample_interval; \ + values++; \ + } \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} + +DEFINE_SAW (int, TRUE, EMPTY); + +DEFINE_SAW (uint, TRUE, EMPTY); +DEFINE_SAW (long, TRUE, EMPTY); + +DEFINE_SAW (ulong, TRUE, EMPTY); +DEFINE_SAW (int64, TRUE, EMPTY); +DEFINE_SAW (uint64, TRUE, gst_util_guint64_to_gdouble); +DEFINE_SAW (float, FALSE, EMPTY); +DEFINE_SAW (double, FALSE, EMPTY); + +static GstWaveformImplementation waveform_saw = { + (GstControlSourceGetValue) waveform_saw_get_int, + (GstControlSourceGetValueArray) waveform_saw_get_int_value_array, + (GstControlSourceGetValue) waveform_saw_get_uint, + (GstControlSourceGetValueArray) waveform_saw_get_uint_value_array, + (GstControlSourceGetValue) waveform_saw_get_long, + (GstControlSourceGetValueArray) waveform_saw_get_long_value_array, + (GstControlSourceGetValue) waveform_saw_get_ulong, + (GstControlSourceGetValueArray) waveform_saw_get_ulong_value_array, + (GstControlSourceGetValue) waveform_saw_get_int64, + (GstControlSourceGetValueArray) waveform_saw_get_int64_value_array, + (GstControlSourceGetValue) waveform_saw_get_uint64, + (GstControlSourceGetValueArray) waveform_saw_get_uint64_value_array, + (GstControlSourceGetValue) waveform_saw_get_float, + (GstControlSourceGetValueArray) waveform_saw_get_float_value_array, + (GstControlSourceGetValue) waveform_saw_get_double, + (GstControlSourceGetValueArray) waveform_saw_get_double_value_array +}; + +#define DEFINE_RSAW(type,round,convert) \ +\ +static inline g##type \ +_rsaw_get_##type (GstLFOControlSource *self, GstClockTime timestamp) \ +{ \ + g##type max = g_value_get_##type (&self->priv->maximum_value); \ + g##type min = g_value_get_##type (&self->priv->minimum_value); \ + gdouble amp = convert (g_value_get_##type (&self->priv->amplitude)); \ + gdouble off = convert (g_value_get_##type (&self->priv->offset)); \ + GstClockTime period = self->priv->period; \ + GstClockTime pos = _calculate_pos (timestamp, self->priv->timeshift, period); \ + gdouble ret; \ + \ + ret = ((gst_util_guint64_to_gdouble (pos) - gst_util_guint64_to_gdouble (period) / 2.0) * ((2.0 * amp) / gst_util_guint64_to_gdouble (period)));\ + \ + ret += off; \ + \ + if (round) \ + ret += 0.5; \ + \ + return (g##type) CLAMP (ret, convert (min), convert (max)); \ +} \ +\ +static gboolean \ +waveform_rsaw_get_##type (GstLFOControlSource *self, GstClockTime timestamp, \ + GValue *value) \ +{ \ + g##type ret; \ + g_mutex_lock (self->lock); \ + ret = _rsaw_get_##type (self, timestamp); \ + g_value_set_##type (value, ret); \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} \ +\ +static gboolean \ +waveform_rsaw_get_##type##_value_array (GstLFOControlSource *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++) { \ + *values = _rsaw_get_##type (self, ts); \ + ts += value_array->sample_interval; \ + values++; \ + } \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} + +DEFINE_RSAW (int, TRUE, EMPTY); + +DEFINE_RSAW (uint, TRUE, EMPTY); +DEFINE_RSAW (long, TRUE, EMPTY); + +DEFINE_RSAW (ulong, TRUE, EMPTY); +DEFINE_RSAW (int64, TRUE, EMPTY); +DEFINE_RSAW (uint64, TRUE, gst_util_guint64_to_gdouble); +DEFINE_RSAW (float, FALSE, EMPTY); +DEFINE_RSAW (double, FALSE, EMPTY); + +static GstWaveformImplementation waveform_rsaw = { + (GstControlSourceGetValue) waveform_rsaw_get_int, + (GstControlSourceGetValueArray) waveform_rsaw_get_int_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_uint, + (GstControlSourceGetValueArray) waveform_rsaw_get_uint_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_long, + (GstControlSourceGetValueArray) waveform_rsaw_get_long_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_ulong, + (GstControlSourceGetValueArray) waveform_rsaw_get_ulong_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_int64, + (GstControlSourceGetValueArray) waveform_rsaw_get_int64_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_uint64, + (GstControlSourceGetValueArray) waveform_rsaw_get_uint64_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_float, + (GstControlSourceGetValueArray) waveform_rsaw_get_float_value_array, + (GstControlSourceGetValue) waveform_rsaw_get_double, + (GstControlSourceGetValueArray) waveform_rsaw_get_double_value_array +}; + +#define DEFINE_TRIANGLE(type,round,convert) \ +\ +static inline g##type \ +_triangle_get_##type (GstLFOControlSource *self, GstClockTime timestamp) \ +{ \ + g##type max = g_value_get_##type (&self->priv->maximum_value); \ + g##type min = g_value_get_##type (&self->priv->minimum_value); \ + gdouble amp = convert (g_value_get_##type (&self->priv->amplitude)); \ + gdouble off = convert (g_value_get_##type (&self->priv->offset)); \ + GstClockTime period = self->priv->period; \ + GstClockTime pos = _calculate_pos (timestamp, self->priv->timeshift, period); \ + gdouble ret; \ + \ + if (gst_util_guint64_to_gdouble (pos) <= gst_util_guint64_to_gdouble (period) / 4.0) \ + ret = gst_util_guint64_to_gdouble (pos) * ((4.0 * amp) / gst_util_guint64_to_gdouble (period)); \ + else if (gst_util_guint64_to_gdouble (pos) <= (3.0 * gst_util_guint64_to_gdouble (period)) / 4.0) \ + ret = -(gst_util_guint64_to_gdouble (pos) - gst_util_guint64_to_gdouble (period) / 2.0) * ((4.0 * amp) / gst_util_guint64_to_gdouble (period)); \ + else \ + ret = gst_util_guint64_to_gdouble (period) - gst_util_guint64_to_gdouble (pos) * ((4.0 * amp) / gst_util_guint64_to_gdouble (period)); \ + \ + ret += off; \ + \ + if (round) \ + ret += 0.5; \ + \ + return (g##type) CLAMP (ret, convert (min), convert (max)); \ +} \ +\ +static gboolean \ +waveform_triangle_get_##type (GstLFOControlSource *self, GstClockTime timestamp, \ + GValue *value) \ +{ \ + g##type ret; \ + g_mutex_lock (self->lock); \ + ret = _triangle_get_##type (self, timestamp); \ + g_value_set_##type (value, ret); \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} \ +\ +static gboolean \ +waveform_triangle_get_##type##_value_array (GstLFOControlSource *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++) { \ + *values = _triangle_get_##type (self, ts); \ + ts += value_array->sample_interval; \ + values++; \ + } \ + g_mutex_unlock (self->lock); \ + return TRUE; \ +} + +DEFINE_TRIANGLE (int, TRUE, EMPTY); + +DEFINE_TRIANGLE (uint, TRUE, EMPTY); +DEFINE_TRIANGLE (long, TRUE, EMPTY); + +DEFINE_TRIANGLE (ulong, TRUE, EMPTY); +DEFINE_TRIANGLE (int64, TRUE, EMPTY); +DEFINE_TRIANGLE (uint64, TRUE, gst_util_guint64_to_gdouble); +DEFINE_TRIANGLE (float, FALSE, EMPTY); +DEFINE_TRIANGLE (double, FALSE, EMPTY); + +static GstWaveformImplementation waveform_triangle = { + (GstControlSourceGetValue) waveform_triangle_get_int, + (GstControlSourceGetValueArray) waveform_triangle_get_int_value_array, + (GstControlSourceGetValue) waveform_triangle_get_uint, + (GstControlSourceGetValueArray) waveform_triangle_get_uint_value_array, + (GstControlSourceGetValue) waveform_triangle_get_long, + (GstControlSourceGetValueArray) waveform_triangle_get_long_value_array, + (GstControlSourceGetValue) waveform_triangle_get_ulong, + (GstControlSourceGetValueArray) waveform_triangle_get_ulong_value_array, + (GstControlSourceGetValue) waveform_triangle_get_int64, + (GstControlSourceGetValueArray) waveform_triangle_get_int64_value_array, + (GstControlSourceGetValue) waveform_triangle_get_uint64, + (GstControlSourceGetValueArray) waveform_triangle_get_uint64_value_array, + (GstControlSourceGetValue) waveform_triangle_get_float, + (GstControlSourceGetValueArray) waveform_triangle_get_float_value_array, + (GstControlSourceGetValue) waveform_triangle_get_double, + (GstControlSourceGetValueArray) waveform_triangle_get_double_value_array +}; + +static GstWaveformImplementation *waveforms[] = { + &waveform_sine, + &waveform_square, + &waveform_saw, + &waveform_rsaw, + &waveform_triangle +}; + +static guint num_waveforms = G_N_ELEMENTS (waveforms); + +enum +{ + PROP_WAVEFORM = 1, + PROP_FREQUENCY, + PROP_TIMESHIFT, + PROP_AMPLITUDE, + PROP_OFFSET +}; +#ifdef __SYMBIAN32__ +EXPORT_C +#endif + + +GType +gst_lfo_waveform_get_type (void) +{ + static GType gtype = 0; + + if (gtype == 0) { + static const GEnumValue values[] = { + {GST_LFO_WAVEFORM_SINE, "Sine waveform (default)", + "sine"}, + {GST_LFO_WAVEFORM_SQUARE, "Square waveform", + "square"}, + {GST_LFO_WAVEFORM_SAW, "Saw waveform", + "saw"}, + {GST_LFO_WAVEFORM_REVERSE_SAW, "Reverse saw waveform", + "reverse-saw"}, + {GST_LFO_WAVEFORM_TRIANGLE, "Triangle waveform", + "triangle"}, + {0, NULL, NULL} + }; + + gtype = g_enum_register_static ("GstLFOWaveform", values); + } + return gtype; +} + +static void gst_lfo_control_source_init (GstLFOControlSource * self); +static void +gst_lfo_control_source_class_init (GstLFOControlSourceClass * klass); + +G_DEFINE_TYPE (GstLFOControlSource, gst_lfo_control_source, + GST_TYPE_CONTROL_SOURCE); + +static GObjectClass *parent_class = NULL; + +static void +gst_lfo_control_source_reset (GstLFOControlSource * self) +{ + GstControlSource *csource = GST_CONTROL_SOURCE (self); + + csource->get_value = NULL; + csource->get_value_array = NULL; + + self->priv->type = self->priv->base = G_TYPE_INVALID; + + if (G_IS_VALUE (&self->priv->minimum_value)) + g_value_unset (&self->priv->minimum_value); + if (G_IS_VALUE (&self->priv->maximum_value)) + g_value_unset (&self->priv->maximum_value); + + if (G_IS_VALUE (&self->priv->amplitude)) + g_value_unset (&self->priv->amplitude); + if (G_IS_VALUE (&self->priv->offset)) + g_value_unset (&self->priv->offset); +} + +/** + * gst_lfo_control_source_new: + * + * This returns a new, unbound #GstLFOControlSource. + * + * Returns: a new, unbound #GstLFOControlSource. + */ +#ifdef __SYMBIAN32__ +EXPORT_C +#endif + +GstLFOControlSource * +gst_lfo_control_source_new (void) +{ + return g_object_new (GST_TYPE_LFO_CONTROL_SOURCE, NULL); +} + +static gboolean +gst_lfo_control_source_set_waveform (GstLFOControlSource * self, + GstLFOWaveform waveform) +{ + GstControlSource *csource = GST_CONTROL_SOURCE (self); + gboolean ret = TRUE; + + if (waveform >= num_waveforms || waveform < 0) { + GST_WARNING ("waveform %d invalid or not implemented yet", waveform); + return FALSE; + } + + if (self->priv->base == G_TYPE_INVALID) { + GST_WARNING ("not bound to a property yet"); + return FALSE; + } + + switch (self->priv->base) { + case G_TYPE_INT: + csource->get_value = waveforms[waveform]->get_int; + csource->get_value_array = waveforms[waveform]->get_int_value_array; + break; + case G_TYPE_UINT:{ + csource->get_value = waveforms[waveform]->get_uint; + csource->get_value_array = waveforms[waveform]->get_uint_value_array; + break; + } + case G_TYPE_LONG:{ + csource->get_value = waveforms[waveform]->get_long; + csource->get_value_array = waveforms[waveform]->get_long_value_array; + break; + } + case G_TYPE_ULONG:{ + csource->get_value = waveforms[waveform]->get_ulong; + csource->get_value_array = waveforms[waveform]->get_ulong_value_array; + break; + } + case G_TYPE_INT64:{ + csource->get_value = waveforms[waveform]->get_int64; + csource->get_value_array = waveforms[waveform]->get_int64_value_array; + break; + } + case G_TYPE_UINT64:{ + csource->get_value = waveforms[waveform]->get_uint64; + csource->get_value_array = waveforms[waveform]->get_uint64_value_array; + break; + } + case G_TYPE_FLOAT:{ + csource->get_value = waveforms[waveform]->get_float; + csource->get_value_array = waveforms[waveform]->get_float_value_array; + break; + } + case G_TYPE_DOUBLE:{ + csource->get_value = waveforms[waveform]->get_double; + csource->get_value_array = waveforms[waveform]->get_double_value_array; + break; + } + default: + ret = FALSE; + break; + } + + if (ret) + self->priv->waveform = waveform; + else + GST_WARNING ("incomplete implementation for type '%s'", + GST_STR_NULL (g_type_name (self->priv->type))); + + return ret; +} + +static gboolean +gst_lfo_control_source_bind (GstControlSource * source, GParamSpec * pspec) +{ + GType type, base; + GstLFOControlSource *self = GST_LFO_CONTROL_SOURCE (source); + gboolean ret = TRUE; + + /* get the fundamental base type */ + self->priv->type = base = type = G_PARAM_SPEC_VALUE_TYPE (pspec); + while ((type = g_type_parent (type))) + base = type; + + self->priv->base = base; + /* restore type */ + type = self->priv->type; + + switch (base) { + case G_TYPE_INT:{ + GParamSpecInt *tpspec = G_PARAM_SPEC_INT (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_int (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_int (&self->priv->maximum_value, tpspec->maximum); + + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_int (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_int (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_UINT:{ + GParamSpecUInt *tpspec = G_PARAM_SPEC_UINT (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_uint (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_uint (&self->priv->maximum_value, tpspec->maximum); + + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_uint (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_uint (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_LONG:{ + GParamSpecLong *tpspec = G_PARAM_SPEC_LONG (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_long (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_long (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_long (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_long (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_ULONG:{ + GParamSpecULong *tpspec = G_PARAM_SPEC_ULONG (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_ulong (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_ulong (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_ulong (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_ulong (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_INT64:{ + GParamSpecInt64 *tpspec = G_PARAM_SPEC_INT64 (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_int64 (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_int64 (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_int64 (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_int64 (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_UINT64:{ + GParamSpecUInt64 *tpspec = G_PARAM_SPEC_UINT64 (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_uint64 (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_uint64 (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_uint64 (&self->priv->amplitude, 0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_uint64 (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_FLOAT:{ + GParamSpecFloat *tpspec = G_PARAM_SPEC_FLOAT (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_float (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_float (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_float (&self->priv->amplitude, 0.0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_float (&self->priv->offset, tpspec->default_value); + } + break; + } + case G_TYPE_DOUBLE:{ + GParamSpecDouble *tpspec = G_PARAM_SPEC_DOUBLE (pspec); + + g_value_init (&self->priv->minimum_value, type); + g_value_set_double (&self->priv->minimum_value, tpspec->minimum); + g_value_init (&self->priv->maximum_value, type); + g_value_set_double (&self->priv->maximum_value, tpspec->maximum); + if (!G_IS_VALUE (&self->priv->amplitude)) { + g_value_init (&self->priv->amplitude, type); + g_value_set_float (&self->priv->amplitude, 0.0); + } + + if (!G_IS_VALUE (&self->priv->offset)) { + g_value_init (&self->priv->offset, type); + g_value_set_float (&self->priv->offset, tpspec->default_value); + } + break; + } + default: + GST_WARNING ("incomplete implementation for paramspec type '%s'", + G_PARAM_SPEC_TYPE_NAME (pspec)); + ret = FALSE; + break; + } + + if (ret) { + GValue amp = { 0, } + , off = { + 0,}; + + /* This should never fail unless the user already set amplitude or offset + * with an incompatible type before _bind () */ + if (!g_value_type_transformable (G_VALUE_TYPE (&self->priv->amplitude), + base) + || !g_value_type_transformable (G_VALUE_TYPE (&self->priv->offset), + base)) { + GST_WARNING ("incompatible types for amplitude or offset"); + gst_lfo_control_source_reset (self); + return FALSE; + } + + /* Generate copies and transform to the correct type */ + g_value_init (&, base); + g_value_transform (&self->priv->amplitude, &); + g_value_init (&off, base); + g_value_transform (&self->priv->offset, &off); + + ret = gst_lfo_control_source_set_waveform (self, self->priv->waveform); + + g_value_unset (&self->priv->amplitude); + g_value_init (&self->priv->amplitude, self->priv->base); + g_value_transform (&, &self->priv->amplitude); + + g_value_unset (&self->priv->offset); + g_value_init (&self->priv->offset, self->priv->base); + g_value_transform (&off, &self->priv->offset); + + g_value_unset (&); + g_value_unset (&off); + } + + if (!ret) + gst_lfo_control_source_reset (self); + + return ret; +} + +static void +gst_lfo_control_source_init (GstLFOControlSource * self) +{ + self->priv = + G_TYPE_INSTANCE_GET_PRIVATE (self, GST_TYPE_LFO_CONTROL_SOURCE, + GstLFOControlSourcePrivate); + self->priv->waveform = GST_LFO_WAVEFORM_SINE; + self->priv->frequency = 1.0; + self->priv->period = GST_SECOND / self->priv->frequency; + self->priv->timeshift = 0; + + self->lock = g_mutex_new (); +} + +static void +gst_lfo_control_source_finalize (GObject * obj) +{ + GstLFOControlSource *self = GST_LFO_CONTROL_SOURCE (obj); + + gst_lfo_control_source_reset (self); + + if (self->lock) { + g_mutex_free (self->lock); + self->lock = NULL; + } + + G_OBJECT_CLASS (parent_class)->finalize (obj); +} + +static void +gst_lfo_control_source_dispose (GObject * obj) +{ + G_OBJECT_CLASS (parent_class)->dispose (obj); +} + +static void +gst_lfo_control_source_set_property (GObject * object, guint prop_id, + const GValue * value, GParamSpec * pspec) +{ + GstLFOControlSource *self = GST_LFO_CONTROL_SOURCE (object); + + switch (prop_id) { + case PROP_WAVEFORM: + g_mutex_lock (self->lock); + gst_lfo_control_source_set_waveform (self, g_value_get_enum (value)); + g_mutex_unlock (self->lock); + break; + case PROP_FREQUENCY:{ + gdouble frequency = g_value_get_double (value); + + g_return_if_fail (frequency > 0 + || ((GstClockTime) (GST_SECOND / frequency)) != 0); + + g_mutex_lock (self->lock); + self->priv->frequency = frequency; + self->priv->period = GST_SECOND / frequency; + g_mutex_unlock (self->lock); + break; + } + case PROP_TIMESHIFT: + g_mutex_lock (self->lock); + self->priv->timeshift = g_value_get_uint64 (value); + g_mutex_unlock (self->lock); + break; + case PROP_AMPLITUDE:{ + GValue *val = g_value_get_boxed (value); + + if (self->priv->type != G_TYPE_INVALID) { + g_return_if_fail (g_value_type_transformable (self->priv->type, + G_VALUE_TYPE (val))); + + g_mutex_lock (self->lock); + if (G_IS_VALUE (&self->priv->amplitude)) + g_value_unset (&self->priv->amplitude); + + g_value_init (&self->priv->amplitude, self->priv->type); + g_value_transform (val, &self->priv->amplitude); + g_mutex_unlock (self->lock); + } else { + g_mutex_lock (self->lock); + if (G_IS_VALUE (&self->priv->amplitude)) + g_value_unset (&self->priv->amplitude); + + g_value_init (&self->priv->amplitude, G_VALUE_TYPE (val)); + g_value_copy (val, &self->priv->amplitude); + g_mutex_unlock (self->lock); + } + + break; + } + case PROP_OFFSET:{ + GValue *val = g_value_get_boxed (value); + + if (self->priv->type != G_TYPE_INVALID) { + g_return_if_fail (g_value_type_transformable (self->priv->type, + G_VALUE_TYPE (val))); + + g_mutex_lock (self->lock); + if (G_IS_VALUE (&self->priv->offset)) + g_value_unset (&self->priv->offset); + + g_value_init (&self->priv->offset, self->priv->type); + g_value_transform (val, &self->priv->offset); + g_mutex_unlock (self->lock); + } else { + g_mutex_lock (self->lock); + if (G_IS_VALUE (&self->priv->offset)) + g_value_unset (&self->priv->offset); + + g_value_init (&self->priv->offset, G_VALUE_TYPE (val)); + g_value_copy (val, &self->priv->offset); + g_mutex_unlock (self->lock); + } + + break; + } + default: + G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); + break; + } +} + +static void +gst_lfo_control_source_get_property (GObject * object, guint prop_id, + GValue * value, GParamSpec * pspec) +{ + GstLFOControlSource *self = GST_LFO_CONTROL_SOURCE (object); + + switch (prop_id) { + case PROP_WAVEFORM: + g_value_set_enum (value, self->priv->waveform); + break; + case PROP_FREQUENCY: + g_value_set_double (value, self->priv->frequency); + break; + case PROP_TIMESHIFT: + g_value_set_uint64 (value, self->priv->timeshift); + break; + case PROP_AMPLITUDE: + g_value_set_boxed (value, &self->priv->amplitude); + break; + case PROP_OFFSET: + g_value_set_boxed (value, &self->priv->offset); + break; + default: + G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); + break; + } +} + +static void +gst_lfo_control_source_class_init (GstLFOControlSourceClass * klass) +{ + GObjectClass *gobject_class = G_OBJECT_CLASS (klass); + GstControlSourceClass *csource_class = GST_CONTROL_SOURCE_CLASS (klass); + + parent_class = g_type_class_peek_parent (klass); + g_type_class_add_private (klass, sizeof (GstLFOControlSourcePrivate)); + + gobject_class->finalize = gst_lfo_control_source_finalize; + gobject_class->dispose = gst_lfo_control_source_dispose; + gobject_class->set_property = gst_lfo_control_source_set_property; + gobject_class->get_property = gst_lfo_control_source_get_property; + + csource_class->bind = gst_lfo_control_source_bind; + + /** + * GstLFOControlSource:waveform + * + * Specifies the waveform that should be used for this #GstLFOControlSource. + * + **/ + g_object_class_install_property (gobject_class, PROP_WAVEFORM, + g_param_spec_enum ("waveform", "Waveform", "Waveform", + GST_TYPE_LFO_WAVEFORM, GST_LFO_WAVEFORM_SINE, G_PARAM_READWRITE)); + + /** + * GstLFOControlSource:frequency + * + * Specifies the frequency that should be used for the waveform + * of this #GstLFOControlSource. It should be large enough + * so that the period is longer than one nanosecond. + * + **/ + g_object_class_install_property (gobject_class, PROP_FREQUENCY, + g_param_spec_double ("frequency", "Frequency", + "Frequency of the waveform", 0.0, G_MAXDOUBLE, 1.0, + G_PARAM_READWRITE)); + + /** + * GstLFOControlSource:timeshift + * + * Specifies the timeshift to the right that should be used for the waveform + * of this #GstLFOControlSource in nanoseconds. + * + * To get a n nanosecond shift to the left use + * "(GST_SECOND / frequency) - n". + * + **/ + g_object_class_install_property (gobject_class, PROP_TIMESHIFT, + g_param_spec_uint64 ("timeshift", "Timeshift", + "Timeshift of the waveform to the right", 0, G_MAXUINT64, 0, + G_PARAM_READWRITE)); + + /** + * GstLFOControlSource:amplitude + * + * Specifies the amplitude for the waveform of this #GstLFOControlSource. + * + * It should be given as a #GValue with a type that can be transformed + * to the type of the bound property. + **/ + g_object_class_install_property (gobject_class, PROP_AMPLITUDE, + g_param_spec_boxed ("amplitude", "Amplitude", "Amplitude of the waveform", + G_TYPE_VALUE, G_PARAM_READWRITE)); + + /** + * GstLFOControlSource:offset + * + * Specifies the offset for the waveform of this #GstLFOControlSource. + * + * It should be given as a #GValue with a type that can be transformed + * to the type of the bound property. + **/ + g_object_class_install_property (gobject_class, PROP_OFFSET, + g_param_spec_boxed ("offset", "Offset", "Offset of the waveform", + G_TYPE_VALUE, G_PARAM_READWRITE)); +}