/usr/include/flext/flsupport.cpp is in pd-flext-dev 0.6.0+git20161101.1.01318a94-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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flext - C++ layer for Max and Pure Data externals
Copyright (c) 2001-2015 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.
*/
/*! \file flsupport.cpp
\brief flext support functions and classes.
*/
#ifndef __FLEXT_SUPPORT_CPP
#define __FLEXT_SUPPORT_CPP
#include "flext.h"
#include <cstdio>
#include <cstdarg>
#include <cstdlib>
#include <cstring>
#include <new>
#include "flpushns.h"
#ifdef _MSC_VER
#define vsnprintf _vsnprintf
#define snprintf _snprintf
#endif
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym__ = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_float = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_symbol = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_bang = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_list = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_pointer = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_int = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_signal = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_anything = NULL;
#if FLEXT_SYS == FLEXT_SYS_MAX
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_buffer = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_size = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_dirty = NULL;
#endif
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_attributes = NULL;
FLEXT_TEMPIMPL(const t_symbol *FLEXT_CLASSDEF(flext))::sym_methods = NULL;
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext))::indsp = false;
FLEXT_TEMPIMPL(int FLEXT_CLASSDEF(flext))::Version() { return FLEXT_VERSION; }
FLEXT_TEMPIMPL(const char *FLEXT_CLASSDEF(flext))::VersionStr() { return FLEXT_VERSTR; }
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext))::Setup()
{
if(sym__) return;
#if FLEXT_SYS == FLEXT_SYS_PD
sym__ = &s_;
sym_anything = &s_anything;
sym_pointer = &s_pointer;
sym_float = &s_float;
sym_symbol = &s_symbol;
sym_bang = &s_bang;
sym_list = &s_list;
sym_signal = &s_signal;
sym_int = flext::MakeSymbol("int");
#elif FLEXT_SYS == FLEXT_SYS_MAX
sym__ = flext::MakeSymbol("");
sym_int = flext::MakeSymbol("int");
sym_float = flext::MakeSymbol("float");
sym_symbol = flext::MakeSymbol("symbol");
sym_bang = flext::MakeSymbol("bang");
sym_list = flext::MakeSymbol("list");
sym_anything = flext::MakeSymbol("anything");
sym_signal = flext::MakeSymbol("signal");
sym_buffer = flext::MakeSymbol("buffer~");
sym_size = flext::MakeSymbol("size");
sym_dirty = flext::MakeSymbol("dirty");
#endif
sym_attributes = flext::MakeSymbol("attributes");
sym_methods = flext::MakeSymbol("methods");
#ifdef FLEXT_THREADS
thrid = GetThreadId();
StartHelper();
#endif
}
#if FLEXT_SYS == FLEXT_SYS_PD && defined(FLEXT_THREADED) && defined(FLEXT_PDLOCK)
#define SYSLOCK() sys_lock()
#define SYSUNLOCK() sys_unlock()
#else
#define SYSLOCK() (void)0
#define SYSUNLOCK() (void)0
#endif
/////////////////////////////////////////////////////////
// overloaded new/delete memory allocation methods
//
/////////////////////////////////////////////////////////
#define LARGEALLOC 32000
#ifndef FLEXT_USE_CMEM
#ifdef FLEXT_DEBUGMEM
static const size_t memtest = 0x12345678L;
#endif
FLEXT_TEMPIMPL(void *FLEXT_CLASSDEF(flext_root))::operator new(size_t bytes)
{
bytes += sizeof(size_t);
#ifdef FLEXT_DEBUGMEM
bytes += sizeof(memtest)*2;
#endif
char *blk;
if(UNLIKELY(bytes >= LARGEALLOC)) {
#if FLEXT_SYS == FLEXT_SYS_MAX && defined(_SYSMEM_H_)
blk = (char *)sysmem_newptr(bytes);
#else
// use C library function for large memory blocks
blk = (char *)malloc(bytes);
#endif
}
else {
//! We need system locking here for secondary threads!
SYSLOCK();
blk = (char *)getbytes(bytes);
SYSUNLOCK();
}
FLEXT_ASSERT(blk);
*(size_t *)blk = bytes;
#ifdef FLEXT_DEBUGMEM
*(size_t *)(blk+sizeof(size_t)) = memtest;
*(size_t *)(blk+bytes-sizeof(memtest)) = memtest;
return blk+sizeof(size_t)+sizeof(memtest);
#else
return blk+sizeof(size_t);
#endif
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_root))::operator delete(void *blk)
{
if(!blk) return;
FLEXT_ASSERT(MemCheck(blk));
#ifdef FLEXT_DEBUGMEM
char *ori = (char *)blk-sizeof(size_t)-sizeof(memtest);
#else
char *ori = (char *)blk-sizeof(size_t);
#endif
size_t bytes = *(size_t *)ori;
if(UNLIKELY(bytes >= LARGEALLOC)) {
#if FLEXT_SYS == FLEXT_SYS_MAX && defined(_SYSMEM_H_)
sysmem_freeptr(ori);
#else
// use C library function for large memory blocks
free(ori);
#endif
}
else {
//! We need system locking here for secondary threads!
SYSLOCK();
freebytes(ori,bytes);
SYSUNLOCK();
}
}
#ifdef FLEXT_DEBUGMEM
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_root))::MemCheck(void *blk)
{
char *ori = (char *)blk-sizeof(size_t)-sizeof(memtest);
size_t bytes = *(size_t *)ori;
return
*(size_t *)((char *)ori+sizeof(size_t)) == memtest &&
*(size_t *)((char *)ori+bytes-sizeof(memtest)) == memtest;
}
#endif
#endif
FLEXT_TEMPIMPL(void *FLEXT_CLASSDEF(flext_root))::NewAligned(size_t bytes,int bitalign)
{
const size_t ovh = sizeof(size_t)+sizeof(char *);
const size_t alignovh = bitalign/8-1;
bytes += ovh+alignovh;
char *blk;
if(UNLIKELY(bytes >= LARGEALLOC)) {
#if FLEXT_SYS == FLEXT_SYS_MAX && defined(_SYSMEM_H_)
blk = (char *)sysmem_newptr(bytes);
#else
// use C library function for large memory blocks
blk = (char *)malloc(bytes);
#endif
}
else {
//! We need system locking here for secondary threads!
SYSLOCK();
#if defined(FLEXT_USE_CMEM)
blk = (char *)malloc(bytes);
#else
blk = (char *)getbytes(bytes);
#endif
SYSUNLOCK();
}
FLEXT_ASSERT(blk);
char *ablk = reinterpret_cast<char *>((reinterpret_cast<size_t>(blk)+ovh+alignovh) & ~alignovh);
*(char **)(ablk-sizeof(size_t)-sizeof(char *)) = blk;
*(size_t *)(ablk-sizeof(size_t)) = bytes;
return ablk;
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_root))::FreeAligned(void *blk)
{
FLEXT_ASSERT(blk);
char *ori = *(char **)((char *)blk-sizeof(size_t)-sizeof(char *));
size_t bytes = *(size_t *)((char *)blk-sizeof(size_t));
if(UNLIKELY(bytes >= LARGEALLOC)) {
#if FLEXT_SYS == FLEXT_SYS_MAX && defined(_SYSMEM_H_)
sysmem_freeptr(ori);
#else
// use C library function for large memory blocks
free(ori);
#endif
}
else {
//! We need system locking here for secondary threads!
SYSLOCK();
#if defined(FLEXT_USE_CMEM)
free(ori);
#else
freebytes(ori,bytes);
#endif
SYSUNLOCK();
}
}
// ------------------------------------------
/*! \todo there is probably also a shortcut for Max and jMax
\todo size checking
*/
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext))::GetAString(const t_atom &a,char *buf,size_t szbuf)
{
#if FLEXT_SYS == FLEXT_SYS_PD
atom_string(const_cast<t_atom *>(&a),buf,(int)szbuf);
#else
if(IsSymbol(a)) STD::strncpy(buf,GetString(a),szbuf);
else if(IsFloat(a)) STD::snprintf(buf,szbuf,"%f",GetFloat(a));
else if(IsInt(a)) STD::snprintf(buf,szbuf,"%i",GetInt(a));
else *buf = 0;
#endif
}
FLEXT_TEMPIMPL(unsigned long FLEXT_CLASSDEF(flext))::AtomHash(const t_atom &a)
{
#if FLEXT_SYS == FLEXT_SYS_MAX || FLEXT_SYS == FLEXT_SYS_PD
return ((unsigned long)a.a_type<<28)^*(unsigned long *)&a.a_w;
#else
#error Not implemented
#endif
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_root))::post(const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
char buf[1024];
vsnprintf(buf,sizeof buf,fmt, ap);
buf[sizeof buf-1] = 0; // in case of full buffer
#if FLEXT_SYS == FLEXT_SYS_MAX && C74_MAX_SDK_VERSION >= 0x0500
::object_post(NULL,buf);
#else
::post(buf);
#endif
va_end(ap);
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_root))::error(const char *fmt,...)
{
va_list ap;
va_start(ap, fmt);
char buf[1024];
STD::strcpy(buf,"error: ");
vsnprintf(buf+7,sizeof buf-7,fmt, ap);
buf[sizeof buf-1] = 0; // in case of full buffer
#if FLEXT_SYS == FLEXT_SYS_MAX
#if C74_MAX_SDK_VERSION >= 0x0500
::object_error(NULL,buf);
#else
::error(buf);
#endif
#else
::post(buf);
#endif
va_end(ap);
}
#include "flpopns.h"
#endif // __FLEXT_SUPPORT_CPP
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