/* xsample - extended sample objects for Max/MSP and pd (pure data) Copyright (c) 2001-2003 Thomas Grill (xovo@gmx.net) 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 #include #ifdef _MSC_VER #pragma warning (disable:4244) #endif #define XZONE_TABLE 512 class xgroove: public xinter { FLEXT_HEADER_S(xgroove,xinter,setup) public: xgroove(I argc,const t_atom *argv); ~xgroove(); virtual BL Init(); virtual V m_help(); virtual V m_print(); virtual V m_units(xs_unit mode = xsu__); virtual BL m_reset(); virtual V m_pos(F pos); virtual V m_all(); virtual V m_min(F mn); virtual V m_max(F mx); V m_xzone(F xz); V m_xsymm(F xz); V m_xshape(I argc = 0,const t_atom *argv = NULL); inline V ms_xshape(const AtomList &ret) { m_xshape(ret.Count(),ret.Atoms()); } V mg_xshape(AtomList &ret) const; V m_xkeep(BL k); enum xs_loop { xsl__ = -1, // don't change xsl_once = 0,xsl_loop,xsl_bidir }; V m_loop(xs_loop lp = xsl__); protected: xs_loop loopmode; D curpos; // in samples I bidir; F _xzone,xzone,xsymm; I xshape; F xshparam; F znmin,znmax; I xkeep; S **znbuf; S *znpos,*znmul,*znidx; I pblksz; inline V outputmin() { ToOutFloat(outchns+1,curmin*s2u); } inline V outputmax() { ToOutFloat(outchns+2,curmax*s2u); } inline V setpos(F pos) { if(pos < curmin) pos = curmin; else if(pos > curmax) pos = curmax; curpos = pos; } inline V mg_pos(F &v) const { v = curpos*s2u; } private: static V setup(t_classid c); virtual V s_dsp(); DEFSIGFUN(s_pos_off); DEFSIGFUN(s_pos_once); DEFSIGFUN(s_pos_loop); DEFSIGFUN(s_pos_loopzn); DEFSIGFUN(s_pos_bidir); DEFSIGCALL(posfun); DEFSTCALL(zonefun); V do_xzone(); virtual V m_signal(I n,S *const *in,S *const *out) { bufchk(); posfun(n,in,out); } FLEXT_CALLBACK_F(m_pos) FLEXT_CALLBACK_F(m_min) FLEXT_CALLBACK_F(m_max) FLEXT_CALLBACK(m_all) FLEXT_CALLSET_F(m_xzone) FLEXT_ATTRGET_F(_xzone) FLEXT_CALLSET_F(m_xsymm) FLEXT_ATTRGET_F(xsymm) FLEXT_CALLVAR_V(mg_xshape,ms_xshape) FLEXT_CALLSET_B(m_xkeep) FLEXT_ATTRGET_B(xkeep) FLEXT_CALLVAR_F(mg_pos,m_pos) FLEXT_CALLSET_F(m_min) FLEXT_CALLSET_F(m_max) FLEXT_CALLSET_E(m_loop,xs_loop) FLEXT_ATTRGET_E(loopmode,xs_loop) }; FLEXT_LIB_DSP_V("xgroove~",xgroove) V xgroove::setup(t_classid c) { DefineHelp(c,"xgroove~"); FLEXT_CADDMETHOD_(c,0,"all",m_all); FLEXT_CADDMETHOD(c,1,m_min); FLEXT_CADDMETHOD(c,2,m_max); FLEXT_CADDATTR_VAR(c,"min",mg_min,m_min); FLEXT_CADDATTR_VAR(c,"max",mg_max,m_max); FLEXT_CADDATTR_VAR(c,"pos",mg_pos,m_pos); FLEXT_CADDATTR_VAR_E(c,"loop",loopmode,m_loop); FLEXT_CADDATTR_VAR(c,"xzone",_xzone,m_xzone); FLEXT_CADDATTR_VAR(c,"xsymm",xsymm,m_xsymm); FLEXT_CADDATTR_VAR(c,"xshape",mg_xshape,ms_xshape); FLEXT_CADDATTR_VAR(c,"xkeep",xkeep,m_xkeep); } xgroove::xgroove(I argc,const t_atom *argv): loopmode(xsl_loop),curpos(0), _xzone(0),xzone(0),xsymm(0.5),xkeep(0),pblksz(0), xshape(0),xshparam(1), znbuf(NULL),znmul(NULL),znidx(NULL),znpos(NULL), bidir(1) { I argi = 0; #if FLEXT_SYS == FLEXT_SYS_MAX if(argc > argi && CanbeInt(argv[argi])) { outchns = GetAInt(argv[argi]); argi++; } #endif if(argc > argi && IsSymbol(argv[argi])) { buf = new buffer(GetSymbol(argv[argi]),true); argi++; #if FLEXT_SYS == FLEXT_SYS_MAX // oldstyle command line? if(argi == 1 && argc == 2 && CanbeInt(argv[argi])) { outchns = GetAInt(argv[argi]); argi++; post("%s: old style command line detected - please change to '%s [channels] [buffer]'",thisName(),thisName()); } #endif } else buf = new buffer(NULL,true); AddInSignal("Signal of playing speed"); // speed signal AddInFloat("Starting point"); // min play pos AddInFloat("Ending point"); // max play pos for(I ci = 0; ci < outchns; ++ci) { C tmp[30]; STD::sprintf(tmp,"Audio signal channel %i",ci+1); AddOutSignal(tmp); // output } AddOutSignal("Position currently played"); // position AddOutFloat("Starting point (rounded to frame)"); // play min AddOutFloat("Ending point (rounded to frame)"); // play max AddOutBang("Bang on loop end/rollover"); // loop bang znbuf = new S *[outchns]; for(I i = 0; i < outchns; ++i) znbuf[i] = new S[0]; znpos = new S[0]; znidx = new S[0]; m_xshape(); } xgroove::~xgroove() { if(znbuf) { for(I i = 0; i < outchns; ++i) delete[] znbuf[i]; delete[] znbuf; } if(znmul) delete[] znmul; if(znpos) delete[] znpos; if(znidx) delete[] znidx; } BL xgroove::Init() { if(xinter::Init()) { m_reset(); return true; } else return false; } V xgroove::m_units(xs_unit mode) { xsample::m_units(mode); m_sclmode(); outputmin(); outputmax(); } V xgroove::m_min(F mn) { xsample::m_min(mn); m_pos(curpos*s2u); do_xzone(); outputmin(); } V xgroove::m_max(F mx) { xsample::m_max(mx); m_pos(curpos*s2u); do_xzone(); outputmax(); } V xgroove::m_pos(F pos) { setpos(pos?pos/s2u:0); } V xgroove::m_all() { xsample::m_all(); do_xzone(); outputmin(); outputmax(); } BL xgroove::m_reset() { curpos = 0; bidir = 1; return xsample::m_reset(); } V xgroove::m_xzone(F xz) { bufchk(); _xzone = xz < 0?0:xz; do_xzone(); s_dsp(); } V xgroove::m_xsymm(F xs) { if(xs < 0) xsymm = -1; else if(xs <= 1) xsymm = xs; else { post("%s - xsymm value out of range - set to center (0.5)",thisName()); xsymm = 0.5; } do_xzone(); } V xgroove::m_xshape(I argc,const t_atom *argv) { const F pi = 3.14159265358979f; xshape = 0; xshparam = 1; if(argc >= 1 && CanbeInt(argv[0])) xshape = GetAInt(argv[0]); if(argc >= 2 && CanbeFloat(argv[1])) { xshparam = GetAFloat(argv[1]); // clip to 0..1 if(xshparam < 0) xshparam = 0; else if(xshparam > 1) xshparam = 1; } if(znmul) delete[] znmul; znmul = new S[XZONE_TABLE+1]; I i; switch(xshape) { case 1: for(i = 0; i <= XZONE_TABLE; ++i) znmul[i] = sin(i*(pi/2./XZONE_TABLE))*xshparam+i*(1./XZONE_TABLE)*(1-xshparam); break; case 0: default: for(i = 0; i <= XZONE_TABLE; ++i) znmul[i] = i*(1./XZONE_TABLE); } } V xgroove::mg_xshape(AtomList &ret) const { ret(2); SetInt(ret[0],xshape); SetFloat(ret[1],xshparam); } V xgroove::m_xkeep(BL k) { xkeep = k; do_xzone(); } V xgroove::do_xzone() { xzone = _xzone/s2u; I smin = curmin,smax = curmax,plen = smax-smin; //curlen; if(xsymm < 0) { // crossfade zone is inside the loop (-> loop is shorter than nominal!) if(xzone >= plen) xzone = plen-1; znmin = smin+xzone,znmax = smax-xzone; } else { // desired crossfade points znmin = smin+xzone*xsymm,znmax = smax+xzone*(xsymm-1); // extra space at beginning and end F o1 = znmin-xzone,o2 = buf->Frames()-(znmax+xzone); if(o1 < 0 || o2 < 0) { // or (o1*o2 < 0) if(o1+o2 < 0) { // must reduce crossfade/loop length if(!xkeep) { // prefer preservation of cross-fade length if(xzone >= plen) // have to reduce cross-fade length xzone = plen-1; znmin = smin+xzone,znmax = smax-xzone; } else { // prefer preservation of loop length znmin += o1,znmax -= o2; xzone = (buf->Frames()-znmax+znmin)/2; } smin = 0,plen = smax = buf->Frames(); } else if(o1 < 0) { // min point is out of bounds (but enough space for mere shift) I i1 = (I)o1; smin -= i1,smax -= i1; znmin = smin+xzone*xsymm,znmax = smax+xzone*(xsymm-1); } else /* o2 < 0 */ { // max point is out of bounds (but enough space for mere shift) I i2 = (I)o2; smin += i2,smax += i2; znmin = smin+xzone*xsymm,znmax = smax+xzone*(xsymm-1); } } } } V xgroove::m_loop(xs_loop lp) { loopmode = lp; bidir = 1; s_dsp(); } V xgroove::s_pos_off(I n,S *const *invecs,S *const *outvecs) { S *pos = outvecs[outchns]; I si; for(si = 0; si < n; ++si) pos[si] = curpos; playfun(n,&pos,outvecs); const F oscl = scale(curpos); for(si = 0; si < n; ++si) pos[si] = oscl; } V xgroove::s_pos_once(I n,S *const *invecs,S *const *outvecs) { const S *speed = invecs[0]; S *pos = outvecs[outchns]; BL lpbang = false; const I smin = curmin,smax = curmax,plen = smax-smin; //curlen; if(buf && plen > 0) { register D o = curpos; for(I i = 0; i < n; ++i) { const S spd = speed[i]; // must be first because the vector is reused for output! if(o >= smax) { o = smax; lpbang = true; } else if(o < smin) { o = smin; lpbang = true; } pos[i] = o; o += spd; } // normalize and store current playing position setpos(o); playfun(n,&pos,outvecs); for(I i = 0; i < n; ++i) pos[i] = scale(pos[i]); } else s_pos_off(n,invecs,outvecs); if(lpbang) ToOutBang(outchns+3); } V xgroove::s_pos_loop(I n,S *const *invecs,S *const *outvecs) { const S *speed = invecs[0]; S *pos = outvecs[outchns]; BL lpbang = false; const I smin = curmin,smax = curmax,plen = smax-smin; //curlen; if(buf && plen > 0) { register D o = curpos; for(I i = 0; i < n; ++i) { const S spd = speed[i]; // must be first because the vector is reused for output! // normalize offset if(o >= smax) { o = fmod(o-smin,plen)+smin; lpbang = true; } else if(o < smin) { o = fmod(o-smin,plen)+smax; lpbang = true; } pos[i] = o; o += spd; } // normalize and store current playing position setpos(o); playfun(n,&pos,outvecs); for(I i = 0; i < n; ++i) pos[i] = scale(pos[i]); } else s_pos_off(n,invecs,outvecs); if(lpbang) ToOutBang(outchns+3); } V xgroove::s_pos_loopzn(I n,S *const *invecs,S *const *outvecs) { const S *speed = invecs[0]; S *pos = outvecs[outchns]; BL lpbang = false; const I smin = curmin,smax = curmax,plen = smax-smin; //curlen; const F xz = xzone,lmin = znmin,lmax = znmax; const F xf = (F)XZONE_TABLE/xz; if(buf && plen > 0) { BL inzn = false; register D o = curpos; for(I i = 0; i < n; ++i) { const S spd = speed[i]; // must be first because the vector is reused for output! // normalize offset if(o >= smax) { o = fmod(o-smin,plen)+smin; lpbang = true; } else if(o < smin) { o = fmod(o-smin,plen)+smax; lpbang = true; } if(o >= lmax) // in late cross-fade zone o -= lmax-smin; if(o < lmin) { // in early cross-fade zone register F inp = o-smin; znidx[i] = inp*xf; znpos[i] = lmax+inp; inzn = true; } else znidx[i] = XZONE_TABLE,znpos[i] = 0; pos[i] = o; o += spd; } // normalize and store current playing position setpos(o); playfun(n,&pos,outvecs); for(I i = 0; i < n; ++i) pos[i] = scale(pos[i]); if(inzn) { // only if we were in cross-fade zone playfun(n,&znpos,znbuf); for(I i = 0; i < n; ++i) znpos[i] = XZONE_TABLE-znidx[i]; zonefun(znmul,0,XZONE_TABLE+1,1,n,1,1,&znidx,&znidx); zonefun(znmul,0,XZONE_TABLE+1,1,n,1,1,&znpos,&znpos); for(I o = 0; o < outchns; ++o) { F *ov = outvecs[o],*ob = znbuf[o]; for(I i = 0; i < n; ++i,ov++,ob++) *ov = (*ov)*znidx[i]+(*ob)*znpos[i]; } } } else s_pos_off(n,invecs,outvecs); if(lpbang) ToOutBang(outchns+3); } V xgroove::s_pos_bidir(I n,S *const *invecs,S *const *outvecs) { const S *speed = invecs[0]; S *pos = outvecs[outchns]; BL lpbang = false; const I smin = curmin,smax = curmax,plen = smax-smin; //curlen; if(buf && plen > 0) { register D o = curpos; register F bd = bidir; for(I i = 0; i < n; ++i) { const S spd = speed[i]; // must be first because the vector is reused for output! // normalize offset if(o >= smax) { o = smax-fmod(o-smin,plen); // mirror the position at smax bd = -bd; lpbang = true; } else if(o < smin) { o = smin-fmod(o-smin,plen); // mirror the position at smin bd = -bd; lpbang = true; } pos[i] = o; o += spd*bd; } // normalize and store current playing position setpos(o); bidir = (I)bd; playfun(n,&pos,outvecs); for(I i = 0; i < n; ++i) pos[i] = scale(pos[i]); } else s_pos_off(n,invecs,outvecs); if(lpbang) ToOutBang(outchns+3); } V xgroove::s_dsp() { if(doplay) { switch(loopmode) { case xsl_once: SETSIGFUN(posfun,SIGFUN(s_pos_once)); break; case xsl_loop: if(xzone > 0) { const I blksz = Blocksize(); if(pblksz != blksz) { for(I o = 0; o < outchns; ++o) { delete[] znbuf[o]; znbuf[o] = new S[blksz]; } delete[] znpos; znpos = new S[blksz]; delete[] znidx; znidx = new S[blksz]; pblksz = blksz; } SETSIGFUN(posfun,SIGFUN(s_pos_loopzn)); if(interp == xsi_4p) switch(outchns) { case 1: SETSTFUN(zonefun,TMPLSTF(st_play4,1,1)); break; case 2: SETSTFUN(zonefun,TMPLSTF(st_play4,1,2)); break; case 4: SETSTFUN(zonefun,TMPLSTF(st_play4,1,4)); break; default: SETSTFUN(zonefun,TMPLSTF(st_play4,1,-1)); } else if(interp == xsi_lin) switch(outchns) { case 1: SETSTFUN(zonefun,TMPLSTF(st_play2,1,1)); break; case 2: SETSTFUN(zonefun,TMPLSTF(st_play2,1,2)); break; case 4: SETSTFUN(zonefun,TMPLSTF(st_play2,1,4)); break; default: SETSTFUN(zonefun,TMPLSTF(st_play2,1,-1)); } else switch(outchns) { case 1: SETSTFUN(zonefun,TMPLSTF(st_play1,1,1)); break; case 2: SETSTFUN(zonefun,TMPLSTF(st_play1,1,2)); break; case 4: SETSTFUN(zonefun,TMPLSTF(st_play1,1,4)); break; default: SETSTFUN(zonefun,TMPLSTF(st_play1,1,-1)); } } else SETSIGFUN(posfun,SIGFUN(s_pos_loop)); break; case xsl_bidir: SETSIGFUN(posfun,SIGFUN(s_pos_bidir)); break; } } else SETSIGFUN(posfun,SIGFUN(s_pos_off)); xinter::s_dsp(); } V xgroove::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, 2001-2003"); #if FLEXT_SYS == FLEXT_SYS_MAX post("Arguments: %s [channels=1] [buffer]",thisName()); #else post("Arguments: %s [buffer]",thisName()); #endif post("Inlets: 1:Messages/Speed signal, 2:Min position, 3:Max position"); post("Outlets: 1:Audio signal, 2:Position signal, 3:Min position (rounded), 4:Max position (rounded)"); post("Methods:"); post("\thelp: shows this help"); post("\tset [name] / @buffer [name]: set buffer or reinit"); post("\tenable 0/1: turn dsp calculation off/on"); post("\treset: reset min/max playing points and playing offset"); post("\tprint: print current settings"); post("\t@loop 0/1/2: sets looping to off/forward/bidirectional"); post("\t@interp 0/1/2: set interpolation to off/4-point/linear"); post("\t@min {unit}: set minimum playing point"); post("\t@max {unit}: set maximum playing point"); post("\tall: select entire buffer length"); post("\tpos {unit}: set playing position (obeying the current scale mode)"); post("\tbang/start: start playing"); post("\tstop: stop playing"); 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("\txzone {unit}: length of loop crossfade zone"); post("\txsymm -1,0...1: symmetry of crossfade zone inside/outside point"); post("\txshape 0/1 [param 0...1]: shape of crossfading (linear/trig)"); post("\txkeep 0/1: try to preserve xzone/loop length"); post(""); } V xgroove::m_print() { static const C *sclmode_txt[] = {"units","units in loop","buffer","loop"}; static const C *interp_txt[] = {"off","4-point","linear"}; static const C *loop_txt[] = {"once","looping","bidir"}; // print all current settings post("%s - current settings:",thisName()); post("bufname = '%s', length = %.3f, channels = %i",buf->Name(),(F)(buf->Frames()*s2u),buf->Channels()); post("out channels = %i, frames/unit = %.3f, scale mode = %s",outchns,(F)(1./s2u),sclmode_txt[sclmode]); post("loop = %s, interpolation = %s",loop_txt[(I)loopmode],interp_txt[interp >= xsi_none && interp <= xsi_lin?interp:xsi_none]); post("loop crossfade zone = %.3f",(F)(xzone*s2u)); post(""); }