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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.
*/
#ifndef __XSAMPLE_H
#define __XSAMPLE_H
#include "prefix.h"
#if !defined(FLEXT_VERSION) || (FLEXT_VERSION < 500)
#error You need at least flext version 0.5.0
#endif
#define XSAMPLE_VERSION "0.3.1"
extern "C++" {
// most compilers are somehow broken - in other words - can't handle all C++ features
#if defined(_MSC_VER)
// MS VC 6.0 can't handle <int,int> templates?! -> no optimization
// MS VC .NET 2002 just dies with template optimization switched on
#if _MSC_VER >= 1310
#define TMPLOPT
#endif
#elif defined(__BORLANDC__)
// handles all optimizations
#define TMPLOPT
#elif defined(__GNUC__)
// GNUC 2.95.2 dies at compile with <int,int> templates
#if __GNUC__ >= 3
#define TMPLOPT // only workable with gcc >= 3.0
#endif
#elif defined(__MWERKS__)
// CodeWarrior <= 8 can't take address of a template member function
#ifndef FLEXT_DEBUG
#define TMPLOPT
#endif
// #define SIGSTATIC // define that for CW6
#elif defined(__MRC__)
// Apple MPW - MrCpp
// #define TMPLOPT // template optimation for more speed
#else
// another compiler
// #define TMPLOPT // template optimation for more speed (about 10%)
//#define SIGSTATIC // another redirection to avoid addresses of class member functions
#endif
#if defined(__MWERKS__) && !defined(__MACH__)
#define STD std
#else
#define STD
#endif
#ifdef __ALTIVEC__
#if FLEXT_CPU == FLEXT_CPU_PPC && defined(__MWERKS__)
#pragma altivec_model on
#include <vBasicOps.h>
#include <vectorOps.h>
#elif FLEXT_CPU == FLEXT_CPU_PPC && defined(__GNUG__)
#include <vecLib/vBasicOps.h>
#include <vecLib/vectorOps.h>
#endif
// this is for the UInt32 prototype (thanks to Jamie)
// \TODO we'd rather not use Carbon but some other framework
#ifdef __MACH__
#include <Carbon/Carbon.h>
#endif
// Initialize a prefetch constant for use with vec_dst(), vec_dstt(), vec_dstst or vec_dststt
// Taken from the "AltiVec tutorial" by Ian Ollmann, Ph.D.
inline UInt32 GetPrefetchConstant( int blockSizeInVectors,int blockCount,int blockStride )
{
// FLEXT_ASSERT( blockSizeInVectors > 0 && blockSizeInVectors <= 32 );
// FLEXT_ASSERT( blockCount > 0 && blockCount <= 256 );
// FLEXT_ASSERT( blockStride > MIN_SHRT && blockStride <= MAX_SHRT );
return ((blockSizeInVectors << 24) & 0x1F000000) |
((blockCount << 16) && 0x00FF0000) |
(blockStride & 0xFFFF);
}
#endif
#if FLEXT_CPU == FLEXT_CPU_INTEL && defined(__GNUC__)
template<typename I,typename F> inline I CASTINT(F o) { return lrintf(o); }
#elif FLEXT_CPU == FLEXT_CPU_INTEL && defined(_MSC_VER)
template<typename I,typename F>
inline I CASTINT(F x) {
// by Laurent de Soras (http://ldesoras.free.fr)
// assert (x > static_cast <double> (INT_MIN / 2) + 1.0);
// assert (x < static_cast <double> (INT_MAX / 2) + 1.0);
const float round_towards_m_i = -0.5f;
I i;
__asm
{
fld x
fadd st,st
fabs
fadd round_towards_m_i
fistp i
sar i, 1
}
if(x < 0) i = -i;
return i;
}
#else
template<typename I,typename F> inline I CASTINT(F o) { return static_cast<I>(o); }
#endif
class xsample:
public flext_dsp
{
FLEXT_HEADER_S(xsample,flext_dsp,setup)
public:
xsample();
~xsample();
enum xs_change {
xsc__ = 0,
xsc_units = 0x0001,
xsc_play = 0x0002,
xsc_pos = 0x0008,
xsc_range = 0x0010,
xsc_transport = 0x0020,
xsc_fade = 0x0040,
xsc_intp = xsc_play,
xsc_srate = xsc_play|xsc_units,
xsc_chns = xsc_play,
xsc_loop = xsc_play,
xsc_startstop = xsc_play|xsc_transport,
xsc_buffer = xsc_units|xsc_pos|xsc_range|xsc_play,
xsc_reset = xsc_buffer,
xsc_all = 0xffff
};
enum xs_unit {
xsu_sample = 0,xsu_buffer,xsu_ms,xsu_s
};
enum xs_intp {
xsi_none = 0,xsi_4p,xsi_lin
};
enum xs_sclmd {
xss_unitsinbuf = 0,xss_unitsinloop,xss_buffer,xss_loop
};
protected:
virtual bool Finalize();
buffer buf;
void m_reset()
{
ChkBuffer(true);
DoReset();
Refresh();
}
void m_set(int argc,const t_atom *argv);
void m_refresh()
{
Update(xsc_buffer,true);
}
void m_units(xs_unit mode)
{
unitmode = mode;
Update(xsc_units,true);
}
void m_sclmode(xs_sclmd mode)
{
sclmode = mode;
Update(xsc_units,true);
}
void m_all()
{
ChkBuffer(true);
ResetRange();
Refresh();
}
void m_min(float mn);
void m_max(float mx);
xs_unit unitmode;
xs_sclmd sclmode;
long curmin,curmax; //,curlen; // in samples
long sclmin; // in samples
float sclmul;
float s2u; // sample to unit conversion factor
inline float scale(float smp) const { return (smp-sclmin)*sclmul; }
static void arrscale(int n,const t_sample *in,t_sample *out,t_sample add,t_sample mul) { flext::ScaleSamples(out,in,mul,add,n); }
inline void arrscale(int n,const t_sample *in,t_sample *out) const { arrscale(n,in,out,-sclmin*sclmul,sclmul); }
static void arrmul(int n,const t_sample *in,t_sample *out,t_sample mul) { flext::MulSamples(out,in,mul,n); }
inline void arrmul(int n,const t_sample *in,t_sample *out) const { arrmul(n,in,out,(t_sample)(1.f/s2u)); }
void mg_buffer(AtomList &l) { if(buf.Symbol()) { l(1); SetSymbol(l[0],buf.Symbol()); } }
inline void ms_buffer(const AtomList &l) { m_set(l.Count(),l.Atoms()); }
inline void mg_min(float &v) const { v = curmin*s2u; }
inline void mg_max(float &v) const { v = curmax*s2u; }
void Refresh() { if(update && !Initing()) { DoUpdate(update); update = xsc__; } }
void Update(unsigned int f,bool refr = false) { update |= f; if(refr) Refresh(); }
//! return 0...invalid, 1...changed, -1...unchanged
int ChkBuffer(bool refr = false);
typedef flext::buffer::lock_t lock_t;
//! Lock buffer (buffer must be checked ok)
lock_t Lock() { return buf.Lock(); }
//! Unlock buffer (buffer must be checked ok)
void Unlock(lock_t l) { buf.Unlock(l); }
void ResetRange()
{
curmin = 0;
curmax = buf.Frames();
Update(xsc_range);
}
virtual void DoReset();
virtual void DoUpdate(unsigned int flags);
virtual void CbLoadbang();
virtual bool CbDsp();
virtual void m_help() = 0;
virtual void m_print() = 0;
private:
unsigned int update;
static void setup(t_classid c);
FLEXT_CALLBACK(m_help)
FLEXT_CALLBACK_V(m_set)
FLEXT_CALLBACK(m_print)
FLEXT_CALLBACK(m_refresh)
FLEXT_CALLBACK(m_reset)
FLEXT_CALLVAR_V(mg_buffer,ms_buffer)
FLEXT_CALLSET_E(m_units,xs_unit)
FLEXT_ATTRGET_E(unitmode,xs_unit)
FLEXT_CALLSET_E(m_sclmode,xs_sclmd)
FLEXT_ATTRGET_E(sclmode,xs_sclmd)
FLEXT_ATTRGET_F(s2u)
protected:
FLEXT_CALLGET_F(mg_min)
FLEXT_CALLGET_F(mg_max)
};
// defines which are used in the derived classes
#ifdef SIGSTATIC
#ifdef TMPLOPT
#define TMPLFUN(FUN,BCHNS,IOCHNS) &thisType::st_##FUN<BCHNS,IOCHNS>
#define TMPLSTF(FUN,BCHNS,IOCHNS) &thisType::FUN<BCHNS,IOCHNS>
#define SIGFUN(FUN) &thisType::st_##FUN
#define TMPLDEF template <int _BCHNS_,int _IOCHNS_>
#define TMPLCALL <_BCHNS_,_IOCHNS_>
#else
#define TMPLFUN(FUN,BCHNS,IOCHNS) &thisType::st_##FUN
#define TMPLSTF(FUN,BCHNS,IOCHNS) &thisType::FUN
#define SIGFUN(FUN) &thisType::st_##FUN
#define TMPLDEF
#define TMPLCALL
#endif
#define DEFSIGFUN(NAME) \
static void st_##NAME(thisType *obj,int n,t_sample *const *in,t_sample *const *out) { obj->NAME (n,in,out); } \
void NAME(int n,t_sample *const *in,t_sample *const *out)
#define TMPLSIGFUN(NAME) \
TMPLDEF static void st_##NAME(thisType *obj,int n,t_sample *const *in,t_sample *const *out) { obj->NAME TMPLCALL (n,in,out); } \
TMPLDEF void NAME(int n,t_sample *const *in,t_sample *const *out)
#define TMPLSTFUN(NAME) TMPLDEF static void NAME(const t_sample *bdt,const int smin,const int smax,const int n,const int inchns,const int outchns,t_sample *const *invecs,t_sample *const *outvecs)
#define SETSIGFUN(VAR,FUN) v_##VAR = FUN
#define SETSTFUN(VAR,FUN) VAR = FUN
#define DEFSIGCALL(NAME) \
inline void NAME(int n,t_sample *const *in,t_sample *const *out) { (*v_##NAME)(this,n,in,out); } \
void (*v_##NAME)(thisType *obj,int n,t_sample *const *in,t_sample *const *out)
#define DEFSTCALL(NAME) \
void (*NAME)(const t_sample *bdt,const int smin,const int smax,const int n,const int inchns,const int outchns,t_sample *const *invecs,t_sample *const *outvecs)
#else
#ifdef TMPLOPT
#define TMPLFUN(FUN,BCHNS,IOCHNS) &thisType::FUN<BCHNS,IOCHNS>
#define SIGFUN(FUN) &thisType::FUN
#define TMPLDEF template <int _BCHNS_,int _IOCHNS_>
#define TMPLCALL <_BCHNS_,_IOCHNS_>
#else
#define TMPLFUN(FUN,BCHNS,IOCHNS) &thisType::FUN
#define SIGFUN(FUN) &thisType::FUN
#define TMPLDEF
#define TMPLCALL
#endif
#define TMPLSTF(FUN,BCHNS,IOCHNS) TMPLFUN(FUN,BCHNS,IOCHNS)
#define DEFSIGFUN(NAME) void NAME(int n,t_sample *const *in,t_sample *const *out)
#define TMPLSIGFUN(NAME) TMPLDEF void NAME(int n,t_sample *const *in,t_sample *const *out)
#define TMPLSTFUN(NAME) TMPLDEF static void NAME(const t_sample *bdt,const int smin,const int smax,const int n,const int inchns,const int outchns,t_sample *const *invecs,t_sample *const *outvecs,bool looped)
#define SETSIGFUN(VAR,FUN) v_##VAR = FUN
#define DEFSIGCALL(NAME) \
inline void NAME(int n,t_sample *const *in,t_sample *const *out) { (this->*v_##NAME)(n,in,out); } \
void (thisType::*v_##NAME)(int n,t_sample *const *invecs,t_sample *const *outvecs)
#define SETSTFUN(VAR,FUN) VAR = FUN
#define DEFSTCALL(NAME) \
void (*NAME)(const t_sample *bdt,const int smin,const int smax,const int n,const int inchns,const int outchns,t_sample *const *invecs,t_sample *const *outvecs,bool looped)
#endif
#ifndef MIN
#define MIN(x,y) ((x) < (y)?(x):(y))
#endif
// in the signal functions
#ifdef TMPLOPT
// optimization by using constants for channel numbers
#define SIGCHNS(BCHNS,bchns,IOCHNS,iochns) \
const int BCHNS = _BCHNS_ < 0?(bchns):_BCHNS_; \
const int IOCHNS = _IOCHNS_ < 0?MIN(iochns,BCHNS):MIN(_IOCHNS_,BCHNS)
#else
// no template optimization
#if FLEXT_SYS == FLEXT_SYS_PD // only mono buffers
#define SIGCHNS(BCHNS,bchns,IOCHNS,iochns) \
const int BCHNS = 1; \
const int IOCHNS = MIN(iochns,BCHNS)
#else // MAXMSP
#define SIGCHNS(BCHNS,bchns,IOCHNS,iochns) \
const int BCHNS = bchns; \
const int IOCHNS = MIN(iochns,BCHNS)
#endif
#endif
class xinter:
public xsample
{
FLEXT_HEADER_S(xinter,xsample,setup)
public:
enum xs_loop {
xsl_once = 0,xsl_loop,xsl_bidir
};
xinter()
: outchns(1),doplay(false)
, interp(xsi_4p),loopmode(xsl_loop)
{}
void m_start()
{
ChkBuffer();
doplay = true;
Update(xsc_startstop,true);
}
void m_stop()
{
ChkBuffer();
doplay = false;
Update(xsc_startstop,true);
}
void m_interp(xs_intp mode)
{
interp = mode;
Update(xsc_intp,true);
}
protected:
int outchns;
bool doplay;
xs_intp interp;
xs_loop loopmode;
TMPLSIGFUN(s_play0);
TMPLSIGFUN(s_play1);
TMPLSIGFUN(s_play2);
TMPLSIGFUN(s_play4);
TMPLSTFUN(st_play0);
TMPLSTFUN(st_play1);
TMPLSTFUN(st_play2);
TMPLSTFUN(st_play4);
DEFSIGCALL(playfun);
DEFSIGCALL(zerofun);
virtual void DoUpdate(unsigned int flags);
FLEXT_CALLBACK(m_start)
FLEXT_CALLBACK(m_stop)
FLEXT_CALLSET_E(m_interp,xs_intp)
FLEXT_ATTRGET_E(interp,xs_intp)
FLEXT_ATTRGET_E(loopmode,xs_loop)
private:
static void setup(t_classid c);
};
#ifdef TMPLOPT
#include "inter.h"
#endif
}
#endif
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