fs = pa_frame_size(&e->sample_spec);
n = chunk->length;
- pa_log_debug("Envelop position %d applying factor %d=%f, sample spec is %d, chunk's length is %d, fs is %d\n", e->x, linear_get_int(e, v), ((float) linear_get_int(e,v))/0x10000, e->sample_spec.format, n, fs);
+ pa_log_debug("Envelop position %zu applying factor %d=%f, sample spec is %d, chunk's length is %zu, fs is %zu\n", e->x, linear_get_int(e, v), ((float) linear_get_int(e,v))/0x10000, e->sample_spec.format, n, fs);
switch (e->sample_spec.format) {
}
pa_bool_t pa_envelope_is_finished(pa_envelope* e) {
- pa_assert(e);
-
int v;
pa_bool_t finished;
+ pa_assert(e);
envelope_begin_read(e, &v);
finished = (e->x >= e->points[v].x[e->points[v].n_points-1]);
envelope_commit_read(e, v);
}
int32_t pa_envelope_length(pa_envelope *e) {
- pa_assert(e);
-
int v;
size_t size;
+ pa_assert(e);
envelope_begin_read(e, &v);
size = e->points[v].x[e->points[v].n_points-1] - e->points[v].x[0];
envelope_commit_read(e, v);