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#include "stdio.h"
#ifndef mips
#include "stdlib.h"
#endif
#include "xlisp.h"
#include "sound.h"
#include "falloc.h"
#include "cext.h"
#include "partial.h"
void partial_free();
typedef struct partial_susp_struct {
snd_susp_node susp;
long terminate_cnt;
boolean logically_stopped;
sound_type env;
long env_cnt;
sample_block_values_type env_ptr;
long phase;
long ph_incr;
} partial_susp_node, *partial_susp_type;
#include "sine.h"
void partial_n_fetch(register partial_susp_type susp, snd_list_type snd_list)
{
int cnt = 0; /* how many samples computed */
int togo;
int n;
sample_block_type out;
register sample_block_values_type out_ptr;
register sample_block_values_type out_ptr_reg;
register long phase_reg;
register long ph_incr_reg;
register sample_block_values_type env_ptr_reg;
falloc_sample_block(out, "partial_n_fetch");
out_ptr = out->samples;
snd_list->block = out;
while (cnt < max_sample_block_len) { /* outer loop */
/* first compute how many samples to generate in inner loop: */
/* don't overflow the output sample block: */
togo = max_sample_block_len - cnt;
/* don't run past the env input sample block: */
susp_check_term_log_samples(env, env_ptr, env_cnt);
togo = MIN(togo, susp->env_cnt);
/* don't run past terminate time */
if (susp->terminate_cnt != UNKNOWN &&
susp->terminate_cnt <= susp->susp.current + cnt + togo) {
togo = susp->terminate_cnt - (susp->susp.current + cnt);
if (togo == 0) break;
}
/* don't run past logical stop time */
if (!susp->logically_stopped && susp->susp.log_stop_cnt != UNKNOWN) {
int to_stop = susp->susp.log_stop_cnt - (susp->susp.current + cnt);
/* break if to_stop == 0 (we're at the logical stop)
* AND cnt > 0 (we're not at the beginning of the
* output block).
*/
if (to_stop < togo) {
if (to_stop == 0) {
if (cnt) {
togo = 0;
break;
} else /* keep togo as is: since cnt == 0, we
* can set the logical stop flag on this
* output block
*/
susp->logically_stopped = true;
} else /* limit togo so we can start a new
* block at the LST
*/
togo = to_stop;
}
}
n = togo;
phase_reg = susp->phase;
ph_incr_reg = susp->ph_incr;
env_ptr_reg = susp->env_ptr;
out_ptr_reg = out_ptr;
if (n) do { /* the inner sample computation loop */
*out_ptr_reg++ = sine_table[phase_reg >> SINE_TABLE_SHIFT] * *env_ptr_reg++;
phase_reg += ph_incr_reg;
phase_reg &= SINE_TABLE_MASK;;
} while (--n); /* inner loop */
susp->phase = (susp->phase + susp->ph_incr * togo) & SINE_TABLE_MASK;
/* using env_ptr_reg is a bad idea on RS/6000: */
susp->env_ptr += togo;
out_ptr += togo;
susp_took(env_cnt, togo);
cnt += togo;
} /* outer loop */
/* test for termination */
if (togo == 0 && cnt == 0) {
snd_list_terminate(snd_list);
} else {
snd_list->block_len = cnt;
susp->susp.current += cnt;
}
/* test for logical stop */
if (susp->logically_stopped) {
snd_list->logically_stopped = true;
} else if (susp->susp.log_stop_cnt == susp->susp.current) {
susp->logically_stopped = true;
}
} /* partial_n_fetch */
void partial_s_fetch(register partial_susp_type susp, snd_list_type snd_list)
{
int cnt = 0; /* how many samples computed */
int togo;
int n;
sample_block_type out;
register sample_block_values_type out_ptr;
register sample_block_values_type out_ptr_reg;
register long phase_reg;
register long ph_incr_reg;
register sample_type env_scale_reg = susp->env->scale;
register sample_block_values_type env_ptr_reg;
falloc_sample_block(out, "partial_s_fetch");
out_ptr = out->samples;
snd_list->block = out;
while (cnt < max_sample_block_len) { /* outer loop */
/* first compute how many samples to generate in inner loop: */
/* don't overflow the output sample block: */
togo = max_sample_block_len - cnt;
/* don't run past the env input sample block: */
susp_check_term_log_samples(env, env_ptr, env_cnt);
togo = MIN(togo, susp->env_cnt);
/* don't run past terminate time */
if (susp->terminate_cnt != UNKNOWN &&
susp->terminate_cnt <= susp->susp.current + cnt + togo) {
togo = susp->terminate_cnt - (susp->susp.current + cnt);
if (togo == 0) break;
}
/* don't run past logical stop time */
if (!susp->logically_stopped && susp->susp.log_stop_cnt != UNKNOWN) {
int to_stop = susp->susp.log_stop_cnt - (susp->susp.current + cnt);
/* break if to_stop == 0 (we're at the logical stop)
* AND cnt > 0 (we're not at the beginning of the
* output block).
*/
if (to_stop < togo) {
if (to_stop == 0) {
if (cnt) {
togo = 0;
break;
} else /* keep togo as is: since cnt == 0, we
* can set the logical stop flag on this
* output block
*/
susp->logically_stopped = true;
} else /* limit togo so we can start a new
* block at the LST
*/
togo = to_stop;
}
}
n = togo;
phase_reg = susp->phase;
ph_incr_reg = susp->ph_incr;
env_ptr_reg = susp->env_ptr;
out_ptr_reg = out_ptr;
if (n) do { /* the inner sample computation loop */
*out_ptr_reg++ = sine_table[phase_reg >> SINE_TABLE_SHIFT] * (env_scale_reg * *env_ptr_reg++);
phase_reg += ph_incr_reg;
phase_reg &= SINE_TABLE_MASK;;
} while (--n); /* inner loop */
susp->phase = (susp->phase + susp->ph_incr * togo) & SINE_TABLE_MASK;
/* using env_ptr_reg is a bad idea on RS/6000: */
susp->env_ptr += togo;
out_ptr += togo;
susp_took(env_cnt, togo);
cnt += togo;
} /* outer loop */
/* test for termination */
if (togo == 0 && cnt == 0) {
snd_list_terminate(snd_list);
} else {
snd_list->block_len = cnt;
susp->susp.current += cnt;
}
/* test for logical stop */
if (susp->logically_stopped) {
snd_list->logically_stopped = true;
} else if (susp->susp.log_stop_cnt == susp->susp.current) {
susp->logically_stopped = true;
}
} /* partial_s_fetch */
void partial_toss_fetch(susp, snd_list)
register partial_susp_type susp;
snd_list_type snd_list;
{
long final_count = susp->susp.toss_cnt;
time_type final_time = susp->susp.t0;
long n;
/* fetch samples from env up to final_time for this block of zeros */
while ((round((final_time - susp->env->t0) * susp->env->sr)) >=
susp->env->current)
susp_get_samples(env, env_ptr, env_cnt);
/* convert to normal processing when we hit final_count */
/* we want each signal positioned at final_time */
n = round((final_time - susp->env->t0) * susp->env->sr -
(susp->env->current - susp->env_cnt));
susp->env_ptr += n;
susp_took(env_cnt, n);
susp->susp.fetch = susp->susp.keep_fetch;
(*(susp->susp.fetch))(susp, snd_list);
}
void partial_mark(partial_susp_type susp)
{
sound_xlmark(susp->env);
}
void partial_free(partial_susp_type susp)
{
sound_unref(susp->env);
ffree_generic(susp, sizeof(partial_susp_node), "partial_free");
}
void partial_print_tree(partial_susp_type susp, int n)
{
indent(n);
stdputstr("env:");
sound_print_tree_1(susp->env, n);
}
sound_type snd_make_partial(rate_type sr, double hz, sound_type env)
{
register partial_susp_type susp;
/* sr specified as input parameter */
time_type t0 = env->t0;
int interp_desc = 0;
sample_type scale_factor = 1.0F;
time_type t0_min = t0;
falloc_generic(susp, partial_susp_node, "snd_make_partial");
susp->phase = 0;
susp->ph_incr = round((hz * SINE_TABLE_LEN) * (1 << SINE_TABLE_SHIFT) / sr);
/* select a susp fn based on sample rates */
interp_desc = (interp_desc << 2) + interp_style(env, sr);
switch (interp_desc) {
case INTERP_n: susp->susp.fetch = partial_n_fetch; break;
case INTERP_s: susp->susp.fetch = partial_s_fetch; break;
default: snd_badsr(); break;
}
susp->terminate_cnt = UNKNOWN;
/* handle unequal start times, if any */
if (t0 < env->t0) sound_prepend_zeros(env, t0);
/* minimum start time over all inputs: */
t0_min = MIN(env->t0, t0);
/* how many samples to toss before t0: */
susp->susp.toss_cnt = (long) ((t0 - t0_min) * sr + 0.5);
if (susp->susp.toss_cnt > 0) {
susp->susp.keep_fetch = susp->susp.fetch;
susp->susp.fetch = partial_toss_fetch;
}
/* initialize susp state */
susp->susp.free = partial_free;
susp->susp.sr = sr;
susp->susp.t0 = t0;
susp->susp.mark = partial_mark;
susp->susp.print_tree = partial_print_tree;
susp->susp.name = "partial";
susp->logically_stopped = false;
susp->susp.log_stop_cnt = logical_stop_cnt_cvt(env);
susp->susp.current = 0;
susp->env = env;
susp->env_cnt = 0;
return sound_create((snd_susp_type)susp, t0, sr, scale_factor);
}
sound_type snd_partial(rate_type sr, double hz, sound_type env)
{
sound_type env_copy = sound_copy(env);
return snd_make_partial(sr, hz, env_copy);
}
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