if (instance->input.data == NULL ||
instance->input.m_data == NULL ||
instance->output.data == NULL ||
- instance->output.m_data == NULL)
+ instance->output.m_data == NULL) {
+ free(pchannels);
return -ENOMEM;
+ }
for (idx = 0; idx < instance->input.channels.size; idx++) {
chn = instance->output.channels.array[idx];
if (pchannels[chn] == NULL && chn < ichannels) {
instance->input.data[idx] = pchannels[chn];
if (instance->input.data[idx] == NULL) {
instance->input.data[idx] = snd_pcm_ladspa_allocate_zero(ladspa, 0);
- if (instance->input.data[idx] == NULL)
+ if (instance->input.data[idx] == NULL) {
+ free(pchannels);
return -ENOMEM;
+ }
}
}
for (idx = 0; idx < instance->output.channels.size; idx++) {
/* FIXME/OPTIMIZE: check if we can remove double alloc */
/* if LADSPA plugin has no broken inplace */
instance->output.data[idx] = malloc(sizeof(LADSPA_Data) * ladspa->allocated);
- if (instance->output.data[idx] == NULL)
+ if (instance->output.data[idx] == NULL) {
+ free(pchannels);
return -ENOMEM;
+ }
pchannels[chn] = instance->output.m_data[idx] = instance->output.data[idx];
}
}
instance->output.data[idx] = NULL;
} else {
instance->output.data[idx] = snd_pcm_ladspa_allocate_zero(ladspa, 1);
- if (instance->output.data[idx] == NULL)
+ if (instance->output.data[idx] == NULL) {
+ free(pchannels);
return -ENOMEM;
+ }
}
}
}