/**
* Register a sequencer client.
* @param seq Sequencer object
* @param name Name of sequencer client
* @param callback Sequencer client callback or NULL for a source client.
* @param data User data to pass to the \a callback
* @return Unique sequencer ID or #FLUID_FAILED on error
*
* Clients can be sources or destinations of events. Sources don't need to
* register a callback.
*/
short
fluid_sequencer_register_client (fluid_sequencer_t* seq, const char *name,
fluid_event_callback_t callback, void* data)
{
fluid_sequencer_client_t * client;
char * nameCopy;
client = FLUID_NEW(fluid_sequencer_client_t);
if (client == NULL) {
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
return FLUID_FAILED;
}
nameCopy = FLUID_STRDUP(name);
if (nameCopy == NULL) {
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_FREE(client);
return FLUID_FAILED;
}
seq->clientsID++;
client->name = nameCopy;
client->id = seq->clientsID;
client->callback = callback;
client->data = data;
seq->clients = fluid_list_append(seq->clients, (void *)client);
return (client->id);
}
/**
* Add a MIDI file to a player queue.
* @param player MIDI player instance
* @param midifile File name of the MIDI file to add
* @return #FLUID_OK
*/
int
fluid_player_add(fluid_player_t* player, const char* midifile)
{
char *s = FLUID_STRDUP(midifile);
player->playlist = fluid_list_append(player->playlist, s);
return FLUID_OK;
}
/**
* Add an option to a string setting (like an enumeration value).
* @param settings a settings object
* @param name a setting's name
* @param s option string to add
* @return 1 if the setting exists and option was added, 0 otherwise
*
* Causes the setting's #FLUID_HINT_OPTIONLIST hint to be set.
*/
int
fluid_settings_add_option(fluid_settings_t* settings, const char *name, const char *s)
{
fluid_setting_node_t *node;
int retval = 0;
fluid_return_val_if_fail (settings != NULL, 0);
fluid_return_val_if_fail (name != NULL, 0);
fluid_return_val_if_fail (s != NULL, 0);
fluid_rec_mutex_lock (settings->mutex);
if (fluid_settings_get(settings, name, &node)
&& (node->type == FLUID_STR_TYPE)) {
fluid_str_setting_t* setting = (fluid_str_setting_t*) node;
char* copy = FLUID_STRDUP(s);
setting->options = fluid_list_append(setting->options, copy);
setting->hints |= FLUID_HINT_OPTIONLIST;
retval = 1;
}
fluid_rec_mutex_unlock (settings->mutex);
return retval;
}
/**
* Add a MIDI file to a player queue.
* @param player MIDI player instance
* @param midifile File name of the MIDI file to add
* @return #FLUID_OK or #FLUID_FAILED
*/
int
fluid_player_add(fluid_player_t *player, const char *midifile)
{
fluid_playlist_item *pi = FLUID_MALLOC(sizeof(fluid_playlist_item));
char* f = FLUID_STRDUP(midifile);
if (!pi || !f) {
FLUID_FREE(pi);
FLUID_FREE(f);
FLUID_LOG(FLUID_PANIC, "Out of memory");
return FLUID_FAILED;
}
pi->filename = f;
pi->buffer = NULL;
pi->buffer_len = 0;
player->playlist = fluid_list_append(player->playlist, pi);
return FLUID_OK;
}
/**
* Add a MIDI file to a player queue, from a buffer in memory.
* @param player MIDI player instance
* @param buffer Pointer to memory containing the bytes of a complete MIDI
* file. The data is copied, so the caller may free or modify it immediately
* without affecting the playlist.
* @param len Length of the buffer, in bytes.
* @return #FLUID_OK or #FLUID_FAILED
*/
int
fluid_player_add_mem(fluid_player_t* player, const void *buffer, size_t len)
{
/* Take a copy of the buffer, so the caller can free immediately. */
fluid_playlist_item *pi = FLUID_MALLOC(sizeof(fluid_playlist_item));
void *buf_copy = FLUID_MALLOC(len);
if (!pi || !buf_copy) {
FLUID_FREE(pi);
FLUID_FREE(buf_copy);
FLUID_LOG(FLUID_PANIC, "Out of memory");
return FLUID_FAILED;
}
FLUID_MEMCPY(buf_copy, buffer, len);
pi->filename = NULL;
pi->buffer = buf_copy;
pi->buffer_len = len;
player->playlist = fluid_list_append(player->playlist, pi);
return FLUID_OK;
}
static int
fluid_settings_foreach_iter (void* key, void* value, void* data)
{
fluid_settings_foreach_bag_t *bag = data;
char *keystr = key;
fluid_setting_node_t *node = value;
int pathlen;
char *s;
pathlen = strlen (bag->path);
if (pathlen > 0)
{
bag->path[pathlen] = '.';
bag->path[pathlen + 1] = 0;
}
strcat (bag->path, keystr);
switch (node->type) {
case FLUID_NUM_TYPE:
case FLUID_INT_TYPE:
case FLUID_STR_TYPE:
s = FLUID_STRDUP (bag->path);
if (s) bag->names = fluid_list_append (bag->names, s);
break;
case FLUID_SET_TYPE:
fluid_hashtable_foreach(((fluid_set_setting_t *)value)->hashtable,
fluid_settings_foreach_iter, bag);
break;
}
bag->path[pathlen] = 0;
return 0;
}
/**
* Iterate the available options for a named string setting, calling the provided
* callback function for each existing option.
*
* @param settings a settings object
* @param name a setting's name
* @param data any user provided pointer
* @param func callback function to be called on each iteration
*
* NOTE: Starting with FluidSynth 1.1.0 the \a func callback is called for each
* option in alphabetical order. Sort order was undefined in previous versions.
*/
void
fluid_settings_foreach_option (fluid_settings_t* settings, const char *name,
void* data, fluid_settings_foreach_option_t func)
{
fluid_setting_node_t *node;
fluid_str_setting_t *setting;
fluid_list_t *p, *newlist = NULL;
fluid_return_if_fail (settings != NULL);
fluid_return_if_fail (name != NULL);
fluid_return_if_fail (func != NULL);
fluid_rec_mutex_lock (settings->mutex); /* ++ lock */
if (!fluid_settings_get (settings, name, &node) || node->type != FLUID_STR_TYPE)
{
fluid_rec_mutex_unlock (settings->mutex); /* -- unlock */
return;
}
setting = (fluid_str_setting_t*)node;
/* Duplicate option list */
for (p = setting->options; p; p = p->next)
newlist = fluid_list_append (newlist, fluid_list_get (p));
/* Sort by name */
newlist = fluid_list_sort (newlist, fluid_list_str_compare_func);
for (p = newlist; p; p = p->next)
(*func)(data, (char *)name, (char *)fluid_list_get (p));
fluid_rec_mutex_unlock (settings->mutex); /* -- unlock */
delete_fluid_list (newlist);
}
/**
* Concatenate options for a string setting together with a separator between.
* @param settings Settings object
* @param name Settings name
* @param separator String to use between options (NULL to use ", ")
* @return Newly allocated string or NULL on error (out of memory, not a valid
* setting \a name or not a string setting). Free the string when finished with it.
* @since 1.1.0
*/
char *
fluid_settings_option_concat (fluid_settings_t *settings, const char *name,
const char *separator)
{
fluid_setting_node_t *node;
fluid_str_setting_t *setting;
fluid_list_t *p, *newlist = NULL;
int count, len;
char *str, *option;
fluid_return_val_if_fail (settings != NULL, NULL);
fluid_return_val_if_fail (name != NULL, NULL);
if (!separator) separator = ", ";
fluid_rec_mutex_lock (settings->mutex); /* ++ lock */
if (!fluid_settings_get (settings, name, &node) || node->type != FLUID_STR_TYPE)
{
fluid_rec_mutex_unlock (settings->mutex); /* -- unlock */
return (NULL);
}
setting = (fluid_str_setting_t*)node;
/* Duplicate option list, count options and get total string length */
for (p = setting->options, count = 0, len = 0; p; p = p->next, count++)
{
option = fluid_list_get (p);
if (option)
{
newlist = fluid_list_append (newlist, option);
len += strlen (option);
}
}
if (count > 1) len += (count - 1) * strlen (separator);
len++; /* For terminator */
/* Sort by name */
newlist = fluid_list_sort (newlist, fluid_list_str_compare_func);
str = FLUID_MALLOC (len);
str[0] = 0;
if (str)
{
for (p = newlist; p; p = p->next)
{
option = fluid_list_get (p);
strcat (str, option);
if (p->next) strcat (str, separator);
}
}
fluid_rec_mutex_unlock (settings->mutex); /* -- unlock */
delete_fluid_list (newlist);
if (!str) FLUID_LOG (FLUID_ERR, "Out of memory");
return (str);
}
