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/*
xsample - extended sample objects for Max/MSP and pd (pure data)
Copyright (c) 2001-2005 Thomas Grill (gr@grrrr.org)
For information on usage and redistribution, and for a DISCLAIMER OF ALL
WARRANTIES, see the file, "license.txt," in this distribution.
*/
#include "main.h"
#include <stdio.h>
#ifdef _MSC_VER
#pragma warning (disable:4244)
#endif
extern "C++" {
class xrecord:
public xsample
{
FLEXT_HEADER_S(xrecord,xsample,setup)
public:
xrecord(int argc,const t_atom *argv);
void m_pos(float pos)
{
curpos = pos?CASTINT<long>(pos/s2u+.5):0;
Update(xsc_pos);
Refresh();
}
inline void mg_pos(float &v) const { v = curpos*s2u; }
void m_start();
void m_stop();
inline void m_append(bool app)
{
appmode = app;
Update(xsc_play);
if(!appmode) m_pos(0);
}
void m_draw(int argc,const t_atom *argv);
protected:
int inchns;
bool sigmode,appmode;
float drintv;
bool dorec,doloop;
int mixmode;
long curpos; // in samples
virtual void DoReset();
virtual void DoUpdate(unsigned int flags);
virtual void CbSignal();
virtual void m_help();
virtual void m_print();
private:
static void setup(t_classid c);
TMPLSIGFUN(s_rec);
DEFSIGCALL(recfun);
FLEXT_CALLBACK(m_start)
FLEXT_CALLBACK(m_stop)
FLEXT_CALLVAR_F(mg_pos,m_pos)
FLEXT_CALLBACK(m_all)
FLEXT_CALLSET_F(m_min)
FLEXT_CALLSET_F(m_max)
FLEXT_CALLBACK_F(m_min)
FLEXT_CALLBACK_F(m_max)
FLEXT_ATTRVAR_B(doloop)
FLEXT_ATTRVAR_I(mixmode)
FLEXT_ATTRVAR_B(sigmode)
FLEXT_CALLSET_B(m_append)
FLEXT_ATTRGET_B(appmode)
FLEXT_CALLBACK_V(m_draw)
};
}
FLEXT_LIB_DSP_V("xrecord~",xrecord)
void xrecord::setup(t_classid c)
{
DefineHelp(c,"xrecord~");
FLEXT_CADDBANG(c,0,m_start);
FLEXT_CADDMETHOD_(c,0,"start",m_start);
FLEXT_CADDMETHOD_(c,0,"stop",m_stop);
FLEXT_CADDATTR_VAR(c,"pos",mg_pos,m_pos);
FLEXT_CADDATTR_VAR(c,"min",mg_min,m_min);
FLEXT_CADDATTR_VAR(c,"max",mg_max,m_max);
FLEXT_CADDMETHOD_(c,0,"all",m_all);
FLEXT_CADDMETHOD_(c,0,"draw",m_draw);
FLEXT_CADDATTR_VAR1(c,"loop",doloop);
FLEXT_CADDATTR_VAR1(c,"mixmode",mixmode);
FLEXT_CADDATTR_VAR1(c,"sigmode",sigmode);
FLEXT_CADDATTR_VAR(c,"append",appmode,m_append);
}
xrecord::xrecord(int argc,const t_atom *argv):
inchns(1),
sigmode(false),appmode(true),
drintv(0),
dorec(false),doloop(false),
mixmode(0)
{
int argi = 0;
#if FLEXT_SYS == FLEXT_SYS_MAX
if(argc > argi && CanbeInt(argv[argi])) {
inchns = GetAInt(argv[argi]);
argi++;
}
#endif
if(argc > argi && IsSymbol(argv[argi])) {
buf.Set(GetSymbol(argv[argi]),true);
argi++;
#if FLEXT_SYS == FLEXT_SYS_MAX
// oldstyle command line?
if(argi == 1 && argc == 2 && CanbeInt(argv[argi])) {
inchns = GetAInt(argv[argi]);
argi++;
post("%s: old style command line detected - please change to '%s [channels] [buffer]'",thisName(),thisName());
}
#endif
}
for(int ci = 0; ci < inchns; ++ci) {
char tmp[40];
STD::sprintf(tmp,ci == 0?"Messages/audio channel %i":"Audio channel %i",ci+1);
AddInSignal(tmp); // audio signals
}
AddInSignal("On/Off/Fade/Mix signal (0..1)"); // on/off signal
AddInFloat("Starting point of recording"); // min
AddInFloat("Ending point of recording"); // max
AddOutSignal("Current position of recording"); // pos signal
AddOutFloat("Starting point (rounded to frame)"); // min
AddOutFloat("Ending point (rounded to frame)"); // max
AddOutBang("Bang on loop end/rollover"); // loop bang
FLEXT_ADDMETHOD(inchns+1,m_min);
FLEXT_ADDMETHOD(inchns+2,m_max);
}
void xrecord::m_start()
{
ChkBuffer();
if(!sigmode && !appmode) { curpos = 0; Update(xsc_pos); }
dorec = true;
Update(xsc_startstop);
Refresh();
}
void xrecord::m_stop()
{
ChkBuffer();
dorec = false;
Update(xsc_startstop);
Refresh();
}
void xrecord::DoReset()
{
xsample::DoReset();
curpos = 0;
}
void xrecord::m_draw(int argc,const t_atom *argv)
{
if(argc >= 1) {
drintv = GetAInt(argv[0]);
if(dorec) buf.SetRefrIntv(drintv);
}
else
buf.Dirty(true);
}
TMPLDEF void xrecord::s_rec(int n,t_sample *const *invecs,t_sample *const *outvecs)
{
SIGCHNS(BCHNS,buf.Channels(),ICHNS,inchns);
const t_sample *const *sig = invecs;
register int si = 0;
const t_sample *on = invecs[inchns];
t_sample *pos = outvecs[0];
bool lpbang = false;
register const float pf = sclmul;
register long o = curpos;
if(o < curmin) o = curmin;
if(dorec && curmax > curmin) {
while(n) {
long ncur = curmax-o; // at max to buffer or recording end
if(ncur <= 0) { // end of buffer
if(doloop) {
ncur = curmax-(o = curmin);
}
else {
// loop expired;
dorec = false;
Update(xsc_startstop);
}
lpbang = true;
}
if(!dorec) break;
if(ncur > n) ncur = n;
register int i;
register t_sample *bf = buf.Data()+o*BCHNS;
register float p = scale(o);
if(sigmode) {
if(appmode) {
// append to current position
switch(mixmode) {
case 0:
for(i = 0; i < ncur; ++i,++si) {
if(!(*(on++) < 0)) {
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] = sig[ci][si];
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else
*(pos++) = p;
}
break;
case 1:
for(i = 0; i < ncur; ++i,++si) {
register const t_sample g = *(on++);
if(!(g < 0)) {
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] = bf[ci]*(1.-g)+sig[ci][si]*g;
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else
*(pos++) = p;
}
break;
case 2:
for(i = 0; i < ncur; ++i,++si) {
if(!(*(on++) < 0)) {
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] += sig[ci][si];
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else
*(pos++) = p;
}
break;
}
}
else {
// don't append
switch(mixmode) {
case 0: {
for(i = 0; i < ncur; ++i,++si) {
if(!(*(on++) < 0))
{
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] = sig[ci][si];
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else {
*(pos++) = p = scale(o = 0);
bf = buf.Data();
}
}
break;
}
case 1: {
for(i = 0; i < ncur; ++i,++si) {
register const t_sample g = *(on++);
if(!(g < 0)) {
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] = bf[ci]*(1.-g)+sig[ci][si]*g;
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else {
*(pos++) = p = scale(o = 0);
bf = buf.Data();
}
}
break;
}
case 2: {
for(i = 0; i < ncur; ++i,++si) {
if(!(*(on++) < 0))
{
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] += sig[ci][si];
bf += BCHNS;
*(pos++) = p,p += pf,++o;
}
else {
*(pos++) = p = scale(o = 0);
bf = buf.Data();
}
}
break;
}
}
}
}
else {
// message mode
// Altivec optimization for that!
switch(mixmode) {
case 0: {
for(int ci = 0; ci < ICHNS; ++ci) {
register t_sample *b = bf+ci;
register const float *s = sig[ci]+si;
for(i = 0; i < ncur; ++i,b += BCHNS,++s)
*b = *s;
}
si += ncur;
break;
}
case 1: {
for(i = 0; i < ncur; ++i,++si) {
register const t_sample w = *(on++);
for(int ci = 0; ci < ICHNS; ++ci)
bf[ci] = bf[ci]*(1.-w)+sig[ci][si]*w;
bf += BCHNS;
}
break;
}
case 2: {
for(int ci = 0; ci < ICHNS; ++ci) {
register t_sample *b = bf+ci;
register const float *s = sig[ci]+si;
for(i = 0; i < ncur; ++i,b += BCHNS,++s)
*b += *s;
}
si += ncur;
break;
}
}
for(i = 0; i < ncur; ++i) {
*(pos++) = p,p += pf,++o;
}
}
n -= ncur;
}
curpos = o;
buf.Dirty();
}
if(n) {
register float p = scale(o);
while(n--) *(pos++) = p;
}
if(lpbang) ToOutBang(3);
}
void xrecord::CbSignal()
{
int ret = ChkBuffer(true);
if(ret) {
// call the appropriate dsp function
const lock_t l = Lock();
recfun(Blocksize(),InSig(),OutSig());
Unlock(l);
Refresh();
}
else
// set position signal to zero
ZeroSamples(OutSig()[0],Blocksize());
}
void xrecord::DoUpdate(unsigned int flags)
{
xsample::DoUpdate(flags);
if(flags&(xsc_pos|xsc_range)) {
if(curpos < curmin) curpos = curmin;
else if(curpos > curmax) curpos = curmax;
}
if(flags&xsc_range) {
ToOutFloat(1,curmin*s2u);
ToOutFloat(2,curmax*s2u);
}
if(flags&xsc_transport && buf.Ok()) {
if(dorec)
buf.SetRefrIntv(drintv);
else {
buf.Dirty(true);
buf.SetRefrIntv(0);
}
}
if(flags&xsc_play) {
switch(buf.Channels()*1000+inchns) {
case 1001: SETSIGFUN(recfun,TMPLFUN(s_rec,1,1)); break;
case 1002: SETSIGFUN(recfun,TMPLFUN(s_rec,1,2)); break;
case 2001: SETSIGFUN(recfun,TMPLFUN(s_rec,2,1)); break;
case 2002: SETSIGFUN(recfun,TMPLFUN(s_rec,2,2)); break;
case 4001:
case 4002:
case 4003: SETSIGFUN(recfun,TMPLFUN(s_rec,4,-1)); break;
case 4004: SETSIGFUN(recfun,TMPLFUN(s_rec,4,4)); break;
default: SETSIGFUN(recfun,TMPLFUN(s_rec,-1,-1)); break;
}
}
}
void xrecord::m_help()
{
post("%s - part of xsample objects, version " XSAMPLE_VERSION,thisName());
#ifdef FLEXT_DEBUG
post("compiled on " __DATE__ " " __TIME__);
#endif
post("(C) Thomas Grill, 2001-2005");
#if FLEXT_SYS == FLEXT_SYS_MAX
post("Arguments: %s [channels=1] [buffer]",thisName());
#else
post("Arguments: %s [buffer]",thisName());
#endif
post("Inlets: 1:Messages/Audio signal, 2:Trigger signal, 3:Min point, 4: Max point");
post("Outlets: 1:Position signal, 2:Min point, 3:Max point");
post("Methods:");
post("\thelp: shows this help");
post("\tset [name]: set buffer or reinit");
post("\tenable 0/1: turn dsp calculation off/on");
post("\treset: reset min/max recording points and recording offset");
post("\tprint: print current settings");
post("\t@sigmode 0/1: specify message or signal triggered recording");
post("\t@append 0/1: reset recording position or append to current position");
post("\t@loop 0/1: switches looping off/on");
post("\t@mixmode 0/1/2: specify how audio signal should be mixed in (none,mixed,added)");
post("\tmin {unit}: set minimum recording point");
post("\tmax {unit}: set maximum recording point");
post("\tall: select entire buffer length");
post("\tpos {unit}: set recording position (obeying the current scale mode)");
post("\tbang/start: start recording");
post("\tstop: stop recording");
post("\trefresh: checks buffer and refreshes outlets");
post("\t@units 0/1/2/3: set units to frames/buffer size/ms/s");
post("\t@sclmode 0/1/2/3: set range of position to units/units in loop/buffer/loop");
post("\tdraw [{float}]: redraw buffer immediately (arg omitted) or periodic (in ms)");
post("");
}
void xrecord::m_print()
{
static const char sclmode_txt[][20] = {"units","units in loop","buffer","loop"};
// print all current settings
post("%s - current settings:",thisName());
post("bufname = '%s', length = %.3f, channels = %i",buf.Name(),(float)(buf.Frames()*s2u),buf.Channels());
post("in channels = %i, frames/unit = %.3f, scale mode = %s",inchns,(float)(1./s2u),sclmode_txt[sclmode]);
post("sigmode = %s, append = %s, loop = %s, mixmode = %i",sigmode?"yes":"no",appmode?"yes":"no",doloop?"yes":"no",mixmode);
post("");
}
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