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/*
flext - C++ layer for Max/MSP and pd (pure data) externals
Copyright (c) 2001,2002 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.
*/
/*! \file flsupport.h
\brief flext support functions and classes
*/
#ifndef __FLSUPPORT_H
#define __FLSUPPORT_H
#include "flstdc.h"
#ifdef FLEXT_THREADS
#include <pthread.h>
#endif
class FLEXT_EXT flext {
public:
// --- buffer/array stuff -----------------------------------------
/*! \defgroup FLEXT_N_BUFFER Flext buffer handling
@{
*/
//! Class for platform independent buffer handling
class buffer
{
public:
/*! \brief Construct buffer.
\param delayed = true: only sets name, needs another Set(NULL) to really initialize the buffer
\remark As externals can be created prior to the buffer objects they are pointing to, initialization should be done at loadbang!
*/
buffer(const t_symbol *s = NULL,bool delayed = false);
//! Destroy buffer
~buffer();
/*! \brief Check if the data is valid
*/
bool Ok() const { return sym != NULL && data != NULL; }
/*! \brief Check and update if the buffer has been changed (e.g. resized)
*/
bool Update();
/*! \brief Set to specified buffer.
\param nameonly: if true sets name only, but doesn't look at buffer actually
*/
int Set(const t_symbol *s = NULL,bool nameonly = false);
/*! \brief Declare buffer content as dirty.
\param refr: if true forces immediate graphics refresh
*/
void Dirty(bool refr = false);
//! Get symbol of buffer
t_symbol *Symbol() const { return const_cast<t_symbol *>(sym); }
//! Get literal name of buffer
const char *Name() const { return sym?sym->s_name:""; }
/*! \brief Get pointer to buffer, channel and frame count.
\remark Channels are interleaved
*/
t_sample *Data() { return data; }
//! Get channel count
int Channels() const { return chns; }
//! Get frame count
int Frames() const { return frames; }
//! Set frame count
void Frames(int fr,bool keep = false);
//! Graphic auto refresh interval
void SetRefrIntv(float intv);
protected:
const t_symbol *sym;
t_sample *data;
int chns,frames;
#ifdef PD
t_garray *arr;
float interval;
bool isdirty,ticking;
t_clock *tick;
private:
static void cb_tick(buffer *b);
#endif
};
//! @}
// --- various symbols --------------------------------------------
/*! \defgroup FLEXT_N_SYMBOL Flext atom/symbol handling
@{
*/
//! Symbol constant for "float"
static const t_symbol *sym_float;
//! Symbol constant for "symbol"
static const t_symbol *sym_symbol;
//! Symbol constant for "bang"
static const t_symbol *sym_bang;
//! Symbol constant for "list"
static const t_symbol *sym_list;
//! Symbol constant for "anything"
static const t_symbol *sym_anything;
/*! \brief Symbol constant for "int"
\note Only the Max/MSP system has this defined as an internal type
*/
static const t_symbol *sym_int;
/*! Symbol constant for "pointer"
\note Only PD has this defined as an internal type
*/
static const t_symbol *sym_pointer;
#ifdef PD
/*! \brief Symbol constant for "signal"
\note PD only
*/
static const t_symbol *sym_signal;
#endif
//! Make a symbol from a string
static const t_symbol *MakeSymbol(const char *s) { return gensym(const_cast<char *>(s)); }
//! Get symbol string
static const char *GetString(const t_symbol *s) { return s->s_name; }
//! Check for symbol and get string
static const char *GetAString(const t_symbol *s) { return s?s->s_name:""; }
//! @}
// --- utilities --------------------------------------------------
/*! \defgroup FLEXT_C_UTIL Flext utility functions
@{
*/
//! Copy an atom
static void CopyAtom(t_atom *dst,const t_atom *src) { *dst = *src; }
//! Copy a list of atoms
static t_atom *CopyList(int argc,const t_atom *argv);
//! Copy a memory region
static void CopyMem(void *dst,const void *src,int bytes);
//! Sleep for an amount of time
static void Sleep(float s);
//! @}
// --- atom stuff ----------------------------------------
//! Set atom from another atom
static void SetAtom(t_atom &a,const t_atom &b) { CopyAtom(&a,&b); }
//! Check whether the atom is nothing
static bool IsNothing(const t_atom &a) { return a.a_type == A_NULL; }
//! Set the atom to represent nothing
static void SetNothing(t_atom &a) { a.a_type = A_NULL; }
//! Check whether the atom is a float
static bool IsFloat(const t_atom &a) { return a.a_type == A_FLOAT; }
//! Check whether the atom can be represented as a float
static bool CanbeFloat(const t_atom &a) { return IsFloat(a) || IsInt(a); }
//! Access the float value (without type check)
static float GetFloat(const t_atom &a) { return a.a_w.w_float; }
//! Set the atom to represent a float
static void SetFloat(t_atom &a,float v) { a.a_type = A_FLOAT; a.a_w.w_float = v; }
//! Check whether the atom is a symbol
static bool IsSymbol(const t_atom &a) { return a.a_type == A_SYMBOL; }
//! Access the symbol value (without type check)
static t_symbol *GetSymbol(const t_atom &a) { return a.a_w.w_symbol; }
//! Check for a symbol and get its value
static t_symbol *GetASymbol(const t_atom &a) { return IsSymbol(a)?GetSymbol(a):NULL; } // NULL or empty symbol?
//! Set the atom to represent a symbol
static void SetSymbol(t_atom &a,const t_symbol *s) { a.a_type = A_SYMBOL; a.a_w.w_symbol = const_cast<t_symbol *>(s); }
//! Check whether the atom is a string
static bool IsString(const t_atom &a) { return IsSymbol(a); }
//! Access the string value (without type check)
static const char *GetString(const t_atom &a) { t_symbol *s = GetSymbol(a); return s?GetString(s):NULL; }
//! Check for a string and get its value
static void GetAString(const t_atom &a,char *buf,int szbuf);
//! Set the atom to represent a string
static void SetString(t_atom &a,const char *c) { SetSymbol(a,gensym(const_cast<char *>(c))); }
//! Check whether the atom can be represented as an integer
static bool CanbeInt(const t_atom &a) { return IsFloat(a) || IsInt(a); }
//! Check whether the atom can be represented as a boolean
static bool CanbeBool(const t_atom &a) { return CanbeInt(a); }
//! Check for an boolean and get its value
static bool GetABool(const t_atom &a) { return GetAInt(a) != 0; }
#ifdef PD
//! Check for a float and get its value
static float GetAFloat(const t_atom &a) { return IsFloat(a)?GetFloat(a):0; }
//! Check whether the atom is an integer
static bool IsInt(const t_atom &) { return false; }
//! Access the integer value (without type check)
static int GetInt(const t_atom &a) { return (int)GetFloat(a); }
//! Check for an integer and get its value
static int GetAInt(const t_atom &a) { return (int)GetAFloat(a); }
//! Set the atom to represent a integer (depending on the system)
static void SetInt(t_atom &a,int v) { a.a_type = A_FLOAT; a.a_w.w_float = (float)v; }
//! Check whether the atom is a pointer
static bool IsPointer(const t_atom &a) { return a.a_type == A_POINTER; }
//! Access the pointer value (without type check)
static t_gpointer *GetPointer(const t_atom &a) { return a.a_w.w_gpointer; }
//! Check for a pointer and get its value
static t_gpointer *GetAPointer(const t_atom &a) { return IsPointer(a)?GetPointer(a):NULL; }
//! Set the atom to represent a pointer
static void SetPointer(t_atom &a,t_gpointer *p) { a.a_type = A_POINTER; a.a_w.w_gpointer = p; }
#elif defined(MAXMSP)
//! Check for a float and get its value
static float GetAFloat(const t_atom &a) { return IsFloat(a)?GetFloat(a):(IsInt(a)?GetInt(a):0); }
//! Check whether the atom is an int
static bool IsInt(const t_atom &a) { return a.a_type == A_INT; }
//! Access the integer value (without type check)
static int GetInt(const t_atom &a) { return a.a_w.w_long; }
//! Check for an integer and get its value
static int GetAInt(const t_atom &a) { return IsInt(a)?GetInt(a):(IsFloat(a)?GetFloat(a):0); }
//! Set the atom to represent an integer
static void SetInt(t_atom &a,int v) { a.a_type = A_INT; a.a_w.w_long = v; }
//! Check whether the atom is a pointer
static bool IsPointer(const t_atom &) { return false; }
//! Access the pointer value (without type check)
static void *GetPointer(const t_atom &) { return NULL; }
//! Check for a pointer and get its value
static void *GetAPointer(const t_atom &) { return NULL; }
// void SetPointer(t_atom &,void *) {}
#endif
// --- atom list stuff -------------------------------------------
/*! \defgroup FLEXT_N_ATOM Flext atom/list handling
@{
*/
//! Class representing a list of atoms
class AtomList
{
public:
//! Construct list
AtomList(int argc = 0,const t_atom *argv = NULL);
//! Construct list
AtomList(const AtomList &a);
//! Destroy list
~AtomList();
//! Clear list
AtomList &Clear() { return operator()(); }
//! Set list
AtomList &operator()(int argc = 0,const t_atom *argv = NULL);
//! Set list by another AtomList
AtomList &operator =(const AtomList &a) { return operator()(a.Count(),a.Atoms()); }
//! Get number of atoms in the list
int Count() const { return cnt; }
//! Get a reference to an indexed atom
t_atom &operator [](int ix) { return lst[ix]; }
//! Get a reference to an indexed atom
const t_atom &operator [](int ix) const { return lst[ix]; }
//! Get a pointer to the list of atoms
t_atom *Atoms() { return lst; }
//! Get a pointer to the list of atoms
const t_atom *Atoms() const { return lst; }
//! Append an atom to the list
AtomList &Append(const t_atom &a);
//! Append an atom list to the list
AtomList &Append(int argc,const t_atom *argv);
//! Append an atom list to the list
AtomList &Append(const AtomList &a) { return Append(a.Count(),a.Atoms()); }
//! Prepend an atom to the list
AtomList &Prepend(const t_atom &a);
//! Prepend an atom list to the list
AtomList &Prepend(int argc,const t_atom *argv);
//! Prepend an atom list to the list
AtomList &Prepend(const AtomList &a) { return Prepend(a.Count(),a.Atoms()); }
//! Get a part of the list
AtomList GetPart(int offs,int len) const;
//! Set to a part of the list
AtomList &Part(int offs,int len) { return (*this = GetPart(offs,len)); }
protected:
int cnt;
t_atom *lst;
};
//! Class representing an "anything"
class AtomAnything:
public AtomList
{
public:
//! Construct anything
AtomAnything(const t_symbol *h = NULL,int argc = 0,const t_atom *argv = NULL): AtomList(argc,argv),hdr(h) {}
//! Construct anything
AtomAnything(const char *h,int argc = 0,const t_atom *argv = NULL): AtomList(argc,argv),hdr(MakeSymbol(h)) {}
//! Construct anything
AtomAnything(const AtomAnything &a): AtomList(a),hdr(a.hdr) {}
//! Clear anything
AtomAnything &Clear() { return operator()(); }
//! Get header symbol of anything
const t_symbol *Header() const { return hdr; }
//! Set anything
AtomAnything &operator()(const t_symbol *h = NULL,int argc = 0,const t_atom *argv = NULL)
{
hdr = h; AtomList::operator()(argc,argv);
return *this;
}
//! Set list by another AtomAnything
AtomAnything &operator =(const AtomAnything &a) { return operator()(a.Header(),a.Count(),a.Atoms()); }
protected:
const t_symbol *hdr;
};
//! @}
// --- clock stuff ------------------------------------------------
/*! \defgroup FLEXT_N_CLOCK Flext clock functions
At the moment there are none
@{
*/
//! @}
// --- thread stuff -----------------------------------------------
#ifdef FLEXT_THREADS
/*! \defgroup FLEXT_N_THREAD Flext thread handling
@{
*/
/*! \brief Thread mutex
\sa pthreads documentation
*/
class ThrMutex
{
public:
//! Construct thread mutex
ThrMutex(): cnt(0) { pthread_mutex_init(&mutex,NULL); }
//! Destroy thread mutex
~ThrMutex() { pthread_mutex_destroy(&mutex); }
//! Lock thread mutex
int Lock() { cnt = 1; return pthread_mutex_lock(&mutex); }
//! Try to lock, but don't wait
int TryLock() { return pthread_mutex_trylock(&mutex); }
//! Unlock thread mutex
int Unlock() { cnt = 0; return pthread_mutex_unlock(&mutex); }
//! Lock thread mutex (increase lock count by one)
void Push() { if(!cnt++) Lock(); }
//! Unlock thread mutex if lock count reaches zero
void Pop() { if(!--cnt) Unlock(); }
protected:
pthread_mutex_t mutex;
int cnt;
};
/*! \brief Thread conditional
\sa pthreads documentation
*/
class ThrCond:
public ThrMutex
{
public:
//! Construct thread conditional
ThrCond() { pthread_cond_init(&cond,NULL); }
//! Destroy thread conditional
~ThrCond() { pthread_cond_destroy(&cond); }
//! Wait for condition
int Wait() { return pthread_cond_wait(&cond,&mutex); }
/*! \brief Wait for condition (for a certain time)
\param time Wait time in seconds
*/
int TimedWait(float time)
{
timespec tm; tm.tv_sec = (long)time; tm.tv_nsec = (long)((time-(long)time)*1.e9);
return pthread_cond_timedwait(&cond,&mutex,&tm);
}
//! Signal condition
int Signal() { return pthread_cond_signal(&cond); }
//! Broadcast condition
int Broadcast() { return pthread_cond_broadcast(&cond); }
protected:
pthread_cond_t cond;
};
//! @}
#endif // FLEXT_THREADS
protected:
static void Setup();
};
#endif
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