/**
* ags_output_find_last_input_recycling:
* @output: an #AgsOutput
*
* Retrieve last input recycling.
*
* Returns: the last #AgsRecycling of #AgsAudio
*
* Since: 0.4
*/
AgsRecycling*
ags_output_find_last_input_recycling(AgsOutput *output)
{
AgsAudio *audio;
AgsChannel *input;
if(output == NULL)
return(NULL);
audio = AGS_AUDIO(AGS_CHANNEL(output)->audio);
if((AGS_AUDIO_ASYNC & (audio->flags)) != 0){
input = ags_channel_nth(audio->input, AGS_CHANNEL(output)->audio_channel);
input = ags_channel_last_with_recycling(input);
}else{
input = ags_channel_nth(audio->input, AGS_CHANNEL(output)->line);
}
if(input != NULL){
return(input->last_recycling);
}else{
return(NULL);
}
}
void
ags_matrix_draw_matrix(AgsMatrix *matrix)
{
AgsChannel *channel;
guint gutter;
int i, j;
channel = ags_channel_nth(AGS_MACHINE(matrix)->audio->input, (guint) matrix->adjustment->value);
if(channel == NULL){
return;
}
if(AGS_MACHINE(matrix)->audio->input_pads > AGS_MATRIX_OCTAVE){
gutter = AGS_MATRIX_OCTAVE;
}else{
gutter = AGS_MACHINE(matrix)->audio->input_pads;
}
for (i = 0; i < gutter; i++){
for (j = 0; j < 32; j++)
ags_matrix_redraw_gutter_point (matrix, channel, j, i);
channel = channel->next;
}
}
void
ags_matrix_draw_gutter(AgsMatrix *matrix)
{
AgsChannel *channel;
guint gutter;
int i, j;
gdk_draw_rectangle (GTK_WIDGET (matrix->drawing_area)->window,
GTK_WIDGET (matrix->drawing_area)->style->bg_gc[0],
TRUE,
0, 0,
288, 80);
channel = ags_channel_nth(AGS_MACHINE(matrix)->audio->input, (guint) matrix->adjustment->value);
if(AGS_MACHINE(matrix)->audio->input_pads > AGS_MATRIX_OCTAVE){
gutter = AGS_MATRIX_OCTAVE;
}else{
gutter = AGS_MACHINE(matrix)->audio->input_pads;
}
for (i = 0; i < gutter; i++){
for (j = 0; j < 32; j++){
gdk_draw_rectangle (GTK_WIDGET (matrix->drawing_area)->window,
GTK_WIDGET (matrix->drawing_area)->style->fg_gc[0],
FALSE,
j * 12, i * 10,
12, 10);
ags_matrix_redraw_gutter_point (matrix, channel, j, i);
}
channel = channel->next;
}
}
void
ags_matrix_output_map_recall(AgsMatrix *matrix, guint output_pad_start)
{
AgsAudio *audio;
AgsChannel *source;
AgsDelayAudio *recall_delay_audio;
AgsCountBeatsAudioRun *recall_count_beats_audio_run;
GList *list;
audio = AGS_MACHINE(matrix)->audio;
if(matrix->mapped_output_pad > output_pad_start){
return;
}
source = ags_channel_nth(audio->output,
output_pad_start * audio->audio_channels);
if(source == NULL){
return;
}
/* get some recalls */
list = ags_recall_find_type(audio->play, AGS_TYPE_DELAY_AUDIO);
if(list != NULL){
recall_delay_audio = AGS_DELAY_AUDIO(list->data);
}else{
recall_delay_audio = NULL;
}
list = ags_recall_find_type(audio->play, AGS_TYPE_COUNT_BEATS_AUDIO_RUN);
if(list != NULL){
recall_count_beats_audio_run = AGS_COUNT_BEATS_AUDIO_RUN(list->data);
}else{
recall_count_beats_audio_run = NULL;
}
/* ags-stream */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-stream\0",
source->audio_channel, source->audio_channel + 1,
output_pad_start, audio->output_pads,
(AGS_RECALL_FACTORY_OUTPUT |
AGS_RECALL_FACTORY_PLAY |
AGS_RECALL_FACTORY_ADD),
0);
matrix->mapped_output_pad = output_pad_start;
}
void
ags_mixer_set_pads(AgsAudio *audio, GType type,
guint pads, guint pads_old,
gpointer data)
{
AgsMixer *mixer;
AgsChannel *channel;
GList *list, *list_next;
guint i, j;
mixer = (AgsMixer *) audio->machine;
if(type == AGS_TYPE_INPUT){
AgsMixerInputPad *mixer_input_pad;
if(pads_old < pads){
channel = ags_channel_nth(audio->input, pads_old * audio->audio_channels);
for(i = pads_old; i < pads; i++){
mixer_input_pad = ags_mixer_input_pad_new(channel);
gtk_box_pack_start((GtkBox *) mixer->input_pad,
(GtkWidget *) mixer_input_pad, FALSE, FALSE, 0);
ags_pad_resize_lines((AgsPad *) mixer_input_pad, AGS_TYPE_MIXER_INPUT_LINE,
AGS_AUDIO(channel->audio)->audio_channels, 0);
if(GTK_WIDGET_VISIBLE((GtkWidget *) mixer)){
ags_connectable_connect(AGS_CONNECTABLE(mixer_input_pad));
ags_pad_find_port(AGS_PAD(mixer_input_pad));
gtk_widget_show_all((GtkWidget *) mixer_input_pad);
}
channel = channel->next_pad;
}
}else{
/* destroy AgsPad's */
list = gtk_container_get_children((GtkContainer *) mixer->input_pad);
list = g_list_nth(list, pads);
while(list != NULL){
list_next = list->next;
gtk_widget_destroy((GtkWidget *) list->data);
list = list_next;
}
}
}
}
void
ags_drum_input_line_map_recall(AgsDrumInputLine *drum_input_line,
guint output_pad_start)
{
AgsDrum *drum;
AgsLine *line;
AgsLineMember *line_member;
AgsAudio *audio;
AgsChannel *source;
AgsChannel *current, *destination;
AgsCopyChannel *copy_channel;
AgsCopyChannelRun *copy_channel_run;
GList *list;
guint i;
line = AGS_LINE(drum_input_line);
line->flags |= AGS_LINE_MAPPED_RECALL;
audio = AGS_AUDIO(line->channel->audio);
drum = AGS_DRUM(audio->machine);
source = line->channel;
/* ags-play */
// ags_recall_factory_create(audio,
// "ags-play\0",
// 0, audio->audio_channels,
// source->pad, source->pad + 1,
// FALSE,
// FALSE);
/* ags-volume */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-volume\0",
source->audio_channel, source->audio_channel + 1,
source->pad, source->pad + 1,
(AGS_RECALL_FACTORY_INPUT |
AGS_RECALL_FACTORY_RECALL |
AGS_RECALL_FACTORY_ADD),
0);
/* ags-copy */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-copy\0",
source->audio_channel, source->audio_channel + 1,
source->pad, source->pad + 1,
(AGS_RECALL_FACTORY_INPUT |
AGS_RECALL_FACTORY_RECALL |
AGS_RECALL_FACTORY_ADD),
0);
current = source;
destination = ags_channel_nth(audio->output,
current->audio_channel);
while(destination != NULL){
/* recall */
list = current->recall;
while((list = ags_recall_find_type(list, AGS_TYPE_COPY_CHANNEL)) != NULL){
copy_channel = AGS_COPY_CHANNEL(list->data);
g_object_set(G_OBJECT(copy_channel),
"destination\0", destination,
NULL);
list = list->next;
}
list = current->recall;
while((list = ags_recall_find_type(list, AGS_TYPE_COPY_CHANNEL_RUN)) != NULL){
copy_channel_run = AGS_COPY_CHANNEL_RUN(list->data);
g_object_set(G_OBJECT(copy_channel_run),
"destination\0", destination,
NULL);
list = list->next;
}
destination = destination->next_pad;
}
/* ags-stream */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-stream\0",
source->audio_channel, source->audio_channel + 1,
source->pad, source->pad + 1,
(AGS_RECALL_FACTORY_INPUT |
AGS_RECALL_FACTORY_PLAY |
AGS_RECALL_FACTORY_RECALL |
AGS_RECALL_FACTORY_ADD),
0);
}
void
ags_audio_test_set_audio_channels()
{
AgsAudio *audio;
AgsChannel *channel, *current;
guint i, j;
/* instantiate */
audio = ags_audio_new(devout);
CU_ASSERT(audio != NULL);
/* set pads */
audio->output_pads = AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_OUTPUT_PADS;
audio->input_pads = AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_INPUT_PADS;
/* set audio channels */
ags_audio_set_audio_channels(audio,
AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS, 0);
CU_ASSERT(audio->audio_channels == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS);
/* verify pad count */
channel = audio->input;
for(i = 0; channel != ags_channel_nth(audio->input,
AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS); i++){
current = channel;
for(j = 0; current != NULL; j++){
current = current->next_pad;
}
CU_ASSERT(j == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_INPUT_PADS);
channel = channel->next;
}
CU_ASSERT(i == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS);
/* verify line count */
channel = audio->input;
for(i = 0; channel != NULL; i++){
channel = channel->next;
}
CU_ASSERT(i == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_INPUT_PADS * AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS);
/* verify pad count */
channel = audio->output;
for(i = 0; channel != ags_channel_nth(audio->output,
AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS); i++){
current = channel;
for(j = 0; current != NULL; j++){
current = current->next_pad;
}
CU_ASSERT(j == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_OUTPUT_PADS);
channel = channel->next;
}
CU_ASSERT(i == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS);
/* verify line count */
channel = audio->output;
for(i = 0; channel != NULL; i++){
channel = channel->next;
}
CU_ASSERT(i == AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_OUTPUT_PADS * AGS_AUDIO_TEST_SET_AUDIO_CHANNELS_AUDIO_CHANNELS);
}
void
ags_link_editor_apply(AgsApplicable *applicable)
{
AgsLinkEditor *link_editor;
GtkTreeIter iter;
link_editor = AGS_LINK_EDITOR(applicable);
if(gtk_combo_box_get_active_iter(link_editor->combo,
&iter)){
AgsWindow *window;
AgsMachine *link_machine;
AgsMachineEditor *machine_editor;
AgsLineEditor *line_editor;
GtkTreeModel *model;
AgsChannel *channel, *link;
AgsLinkChannel *link_channel;
AgsThread *main_loop, *current;
AgsTaskThread *task_thread;
AgsApplicationContext *application_context;
line_editor = AGS_LINE_EDITOR(gtk_widget_get_ancestor(GTK_WIDGET(link_editor),
AGS_TYPE_LINE_EDITOR));
machine_editor = gtk_widget_get_ancestor(line_editor,
AGS_TYPE_MACHINE_EDITOR);
window = machine_editor->parent;
application_context = window->application_context;
channel = line_editor->channel;
main_loop = application_context->main_loop;
task_thread = ags_thread_find_type(main_loop,
AGS_TYPE_TASK_THREAD);
model = gtk_combo_box_get_model(link_editor->combo);
gtk_tree_model_get(model,
&iter,
1, &link_machine,
-1);
if(link_machine == NULL){
/* create task */
link_channel = ags_link_channel_new(channel, NULL);
/* append AgsLinkChannel */
ags_task_thread_append_task(task_thread,
AGS_TASK(link_channel));
}else{
guint link_line;
link_line = (guint) gtk_spin_button_get_value_as_int(link_editor->spin_button);
if(AGS_IS_INPUT(channel))
link = ags_channel_nth(link_machine->audio->output,
link_line);
else
link = ags_channel_nth(link_machine->audio->input,
link_line);
/* create task */
link_channel = ags_link_channel_new(channel, link);
/* append AgsLinkChannel */
ags_task_thread_append_task(task_thread,
AGS_TASK(link_channel));
}
}
}
void
ags_matrix_input_map_recall(AgsMatrix *matrix, guint input_pad_start)
{
AgsAudio *audio;
AgsPattern *pattern;
AgsChannel *source, *current, *destination;
AgsBufferChannel *buffer_channel;
AgsBufferChannelRun *buffer_channel_run;
GList *list;
audio = AGS_MACHINE(matrix)->audio;
if(matrix->mapped_input_pad > input_pad_start){
return;
}
source = ags_channel_nth(audio->input,
input_pad_start * audio->audio_channels);
if(source == NULL){
return;
}
current = source;
while(current != NULL){
/* ags-buffer */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-buffer\0",
current->audio_channel, current->audio_channel + 1,
current->pad, current->pad + 1,
(AGS_RECALL_FACTORY_INPUT |
AGS_RECALL_FACTORY_RECALL |
AGS_RECALL_FACTORY_ADD),
0);
destination = ags_channel_nth(audio->output,
current->audio_channel);
while(destination != NULL){
/* recall */
list = current->recall;
while((list = ags_recall_find_type(list, AGS_TYPE_BUFFER_CHANNEL)) != NULL){
buffer_channel = AGS_BUFFER_CHANNEL(list->data);
g_object_set(G_OBJECT(buffer_channel),
"destination\0", destination,
NULL);
list = list->next;
}
list = current->recall;
while((list = ags_recall_find_type(list, AGS_TYPE_BUFFER_CHANNEL_RUN)) != NULL){
buffer_channel_run = AGS_BUFFER_CHANNEL_RUN(list->data);
g_object_set(G_OBJECT(buffer_channel_run),
"destination\0", destination,
NULL);
list = list->next;
}
destination = destination->next_pad;
}
/* ags-stream */
ags_recall_factory_create(audio,
NULL, NULL,
"ags-stream\0",
current->audio_channel, current->audio_channel + 1,
current->pad, current->pad + 1,
(AGS_RECALL_FACTORY_INPUT |
AGS_RECALL_FACTORY_RECALL |
AGS_RECALL_FACTORY_ADD),
0);
current = current->next_pad;
}
matrix->mapped_input_pad = input_pad_start;
}
void
ags_matrix_set_pads(AgsAudio *audio, GType type,
guint pads, guint pads_old,
gpointer data)
{
AgsMachine *machine;
AgsMatrix *matrix;
AgsChannel *channel, *source;
AgsAudioSignal *audio_signal;
guint i, j;
gboolean grow;
GValue value = {0,};
if(pads == pads_old){
return;
}
matrix = (AgsMatrix *) audio->machine_widget;
machine = AGS_MACHINE(matrix);
if(type == AGS_TYPE_INPUT){
if(pads < AGS_MATRIX_OCTAVE){
gtk_widget_set_size_request((GtkWidget *) matrix->drawing_area,
32 * AGS_MATRIX_CELL_WIDTH +1,
pads * AGS_MATRIX_CELL_HEIGHT +1);
}else if(pads_old < AGS_MATRIX_OCTAVE){
gtk_widget_set_size_request((GtkWidget *) matrix->drawing_area,
32 * AGS_MATRIX_CELL_WIDTH +1,
AGS_MATRIX_OCTAVE * AGS_MATRIX_CELL_HEIGHT +1);
}
}
if(pads_old == pads)
return;
if(pads_old < pads)
grow = TRUE;
else
grow = FALSE;
if(type == AGS_TYPE_INPUT){
AgsPattern *pattern;
GList *list, *notation;
if(grow){
/* create pattern */
source = ags_channel_nth(audio->input, pads_old);
while(source != NULL){
if(source->pattern == NULL){
source->pattern = g_list_alloc();
source->pattern->data = (gpointer) ags_pattern_new();
ags_pattern_set_dim((AgsPattern *) source->pattern->data, 1, 9, 32);
}
source = source->next;
}
if((AGS_MACHINE_MAPPED_RECALL & (machine->flags)) != 0){
ags_matrix_input_map_recall(matrix,
pads_old);
}
}else{
}
}else{
if(grow){
AgsChannel *current, *output;
GList *recall;
GList *list;
guint stop;
source = ags_channel_nth(audio->output, pads_old);
if(source != NULL){
AgsAudioSignal *audio_signal;
AgsSoundcard *soundcard;
gdouble delay;
guint stop;
soundcard = AGS_SOUNDCARD(AGS_AUDIO(source->audio)->soundcard);
delay = ags_soundcard_get_delay(soundcard);
stop = (guint) ceil(16.0 * delay * exp2(8.0 - 4.0) + 1.0);
audio_signal = ags_audio_signal_new(soundcard,
source->first_recycling,
NULL);
audio_signal->flags |= AGS_AUDIO_SIGNAL_TEMPLATE;
// ags_audio_signal_stream_resize(audio_signal,
// stop);
ags_recycling_add_audio_signal(source->first_recycling,
audio_signal);
if((AGS_MACHINE_MAPPED_RECALL & (machine->flags)) != 0){
ags_matrix_output_map_recall(matrix,
pads_old);
}
}
}else{
}
}
}
void
ags_link_collection_editor_apply(AgsApplicable *applicable)
{
AgsLinkCollectionEditor *link_collection_editor;
GtkTreeIter iter;
link_collection_editor = AGS_LINK_COLLECTION_EDITOR(applicable);
if(gtk_combo_box_get_active_iter(link_collection_editor->link,
&iter)){
AgsWindow *window;
AgsMachine *machine, *link_machine;
AgsMachineEditor *machine_editor;
GtkTreeModel *model;
AgsChannel *channel, *link;
AgsLinkChannel *link_channel;
AgsThread *main_loop;
AgsTaskThread *task_thread;
AgsApplicationContext *application_context;
GList *task;
guint first_line, count;
guint i;
GError *error;
machine_editor = AGS_MACHINE_EDITOR(gtk_widget_get_ancestor(GTK_WIDGET(link_collection_editor),
AGS_TYPE_MACHINE_EDITOR));
window = machine_editor->parent;
application_context = window->application_context;
machine = machine_editor->machine;
first_line = (guint) gtk_spin_button_get_value_as_int(link_collection_editor->first_line);
if(link_collection_editor->channel_type == AGS_TYPE_INPUT){
channel = ags_channel_nth(machine_editor->machine->audio->input, first_line);
}else{
channel = ags_channel_nth(machine_editor->machine->audio->output, first_line);
}
main_loop = application_context->main_loop;
task_thread = ags_thread_find_type(main_loop,
AGS_TYPE_TASK_THREAD);
model = gtk_combo_box_get_model(link_collection_editor->link);
gtk_tree_model_get(model,
&iter,
1, &link_machine,
-1);
task = NULL;
count = (guint) gtk_spin_button_get_value_as_int(link_collection_editor->count);
error = NULL;
if(link_machine == NULL){
for(i = 0; i < count; i++){
/* create task */
link_channel = ags_link_channel_new(channel, NULL);
task = g_list_prepend(task, link_channel);
channel = channel->next;
}
/* append AgsLinkChannel */
task = g_list_reverse(task);
ags_task_thread_append_tasks(task_thread,
task);
}else{
guint first_link;
first_link = (guint) gtk_spin_button_get_value_as_int(link_collection_editor->first_link);
if(link_collection_editor->channel_type == AGS_TYPE_INPUT)
link = ags_channel_nth(link_machine->audio->output, first_link);
else
link = ags_channel_nth(link_machine->audio->input, first_link);
for(i = 0; i < count; i++){
/* create task */
link_channel = ags_link_channel_new(channel, link);
task = g_list_prepend(task, link_channel);
channel = channel->next;
link = link->next;
}
task = g_list_reverse(task);
ags_task_thread_append_tasks(task_thread,
task);
}
}
}
