/usr/include/flext/flbind.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 flbind.cpp
\brief Functionality for symbol-bound methods.
*/
#ifndef __FLEXT_BIND_CPP
#define __FLEXT_BIND_CPP
#include "flext.h"
#include "flinternal.h"
#include "flpushns.h"
FLEXT_TEMPIMPL(t_class *FLEXT_CLASSDEF(flext_base))::pxbnd_class = NULL;
#if FLEXT_SYS == FLEXT_SYS_MAX
FLEXT_TEMPLATE
struct ProxyVars {
static t_object *px_freelist;
static t_messlist px_messlist[3];
};
FLEXT_TEMPIMPL(t_object *ProxyVars)::px_freelist = NULL;
FLEXT_TEMPIMPL(t_messlist ProxyVars)::px_messlist[3];
#endif
/*! \brief Set up the proxy class for symbol-bound methods
*/
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_base))::SetupBindProxy()
{
// already initialized?
if(!pxbnd_class) {
#if FLEXT_SYS == FLEXT_SYS_PD
pxbnd_class = class_new(gensym(const_cast<char *>("flext_base bind proxy")),NULL,NULL,sizeof(pxbnd_object),CLASS_PD|CLASS_NOINLET, A_NULL);
add_anything(pxbnd_class,pxbnd_object::px_method); // for symbol-bound methods
#elif FLEXT_SYS == FLEXT_SYS_MAX
pxbnd_class = new t_class;
pxbnd_class->c_sym = const_cast<t_symbol *>(sym__);
pxbnd_class->c_freelist = &FLEXT_TEMPINST(ProxyVars)::px_freelist;
pxbnd_class->c_freefun = NULL;
pxbnd_class->c_size = sizeof(pxbnd_object);
pxbnd_class->c_tiny = 0;
pxbnd_class->c_noinlet = 1;
FLEXT_TEMPINST(ProxyVars)::px_messlist[0].m_sym = (t_symbol *)pxbnd_class;
FLEXT_TEMPINST(ProxyVars)::px_messlist[1].m_sym = const_cast<t_symbol *>(sym_anything);
FLEXT_TEMPINST(ProxyVars)::px_messlist[1].m_fun = (method)pxbnd_object::px_method;
FLEXT_TEMPINST(ProxyVars)::px_messlist[1].m_type[0] = A_GIMME;
FLEXT_TEMPINST(ProxyVars)::px_messlist[1].m_type[1] = 0;
FLEXT_TEMPINST(ProxyVars)::px_messlist[2].m_sym = 0;
#else
#pragma warning("Not implemented!")
#endif
}
}
FLEXT_TEMPIMPL(FLEXT_CLASSDEF(flext_base))::BindItem::BindItem(bool (*f)(flext_base *,t_symbol *s,int,t_atom *,void *data),pxbnd_object *p):
Item(NULL),fun(f),px(p)
{}
FLEXT_TEMPIMPL(FLEXT_CLASSDEF(flext_base))::BindItem::~BindItem()
{
if(px) {
FLEXT_ASSERT(!fun); // check if already unbound
object_free(&px->obj);
}
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_base))::BindItem::Unbind(const t_symbol *tag)
{
if(px) {
FLEXT_ASSERT(fun);
#if FLEXT_SYS == FLEXT_SYS_PD
pd_unbind(&px->obj.ob_pd,const_cast<t_symbol *>(tag));
#elif FLEXT_SYS == FLEXT_SYS_MAX
if(tag->s_thing == (t_object *)px)
const_cast<t_symbol *>(tag)->s_thing = NULL;
else
error("flext - Binding to symbol %s not found",tag->s_name);
#else
# pragma warning("Not implemented")
#endif
fun = NULL;
}
}
#if FLEXT_SYS == FLEXT_SYS_PD
//! Bind object to a symbol
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::Bind(const t_symbol *sym) { pd_bind(&thisHdr()->ob_pd,const_cast<t_symbol *>(sym)); return true; }
//! Unbind object from a symbol
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::Unbind(const t_symbol *sym) { pd_unbind(&thisHdr()->ob_pd,const_cast<t_symbol *>(sym)); return true; }
#elif FLEXT_SYS == FLEXT_SYS_MAX
//! Bind object to a symbol
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::Bind(const t_symbol *sym) { if(sym->s_thing) return false; else { const_cast<t_symbol *>(sym)->s_thing = (t_object *)thisHdr(); return true; } }
//! Unbind object from a symbol
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::Unbind(const t_symbol *sym) { if(sym->s_thing != (t_object *)thisHdr()) return false; else { const_cast<t_symbol *>(sym)->s_thing = NULL; return true; } }
#endif
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::BindMethod(const t_symbol *sym,bool (*fun)(flext_base *,t_symbol *s,int argc,t_atom *argv,void *data),void *data)
{
if(!bindhead)
bindhead = new ItemCont;
else {
// Search for symbol
for(Item *it = bindhead->FindList(sym); it; it = it->nxt) {
BindItem *item = (BindItem *)it;
// go through all items with matching tag
if(item->fun == fun) {
// function already registered -> bail out!
post("%s - Symbol already bound with this method",thisName());
return false;
}
}
}
SetupBindProxy();
#if FLEXT_SYS == FLEXT_SYS_PD
pxbnd_object *px = (pxbnd_object *)object_new(pxbnd_class);
#elif FLEXT_SYS == FLEXT_SYS_MAX
pxbnd_object *px = (pxbnd_object *)newobject(FLEXT_TEMPINST(ProxyVars)::px_messlist);
#else
#pragma warning("Not implemented!")
#endif
if(px) {
BindItem *mi = new BindItem(fun,px);
bindhead->Add(mi,sym);
px->init(this,mi,data);
#if FLEXT_SYS == FLEXT_SYS_PD
pd_bind(&px->obj.ob_pd,const_cast<t_symbol *>(sym));
#elif FLEXT_SYS == FLEXT_SYS_MAX
#if 1 // old code
if(!sym->s_thing)
const_cast<t_symbol *>(sym)->s_thing = (t_object *)px;
else
error("%s - Symbol is already bound",thisName());
#else
void *binding = object_register(gensym("flext"),const_cast<t_symbol *>(sym),(t_object *)px);
#endif
#else
# pragma warning("Not implemented")
#endif
}
else
error("%s - Symbol proxy could not be created",thisName());
return true;
}
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::UnbindMethod(const t_symbol *sym,bool (*fun)(flext_base *,t_symbol *s,int argc,t_atom *argv,void *data),void **data)
{
bool ok = false;
if(bindhead && bindhead->Contained(0)) {
ItemSet &set = bindhead->GetInlet();
/*
ItemSet::iterator it1,it2;
if(sym) {
// specific tag
it1 = it2 = set.find(sym); it2++;
}
else {
// any tag
it1 = set.begin(),it2 = set.end();
}
BindItem *it = NULL;
for(ItemSet::iterator si = it1; si != it2 && !it; ++si) {
for(Item *i = si.data(); i; i = i->nxt) {
BindItem *item = (BindItem *)i;
if(!fun || item->fun == fun)
{
it = item;
if(!sym) sym = si.key();
break;
}
}
}
*/
BindItem *item = NULL;
if(sym) {
// symbol is given
Item *it = set.find(sym);
if(fun) {
// check if function matches
for(; it && static_cast<BindItem *>(it)->fun != fun; it = it->nxt) {}
}
item = static_cast<BindItem *>(it);
}
else {
// take any entry that matches
for(FLEXT_TEMP_TYPENAME ItemSet::iterator si(set); si && !item; ++si) {
for(Item *i = si.data(); i; i = i->nxt) {
BindItem *bit = (BindItem *)i;
if(!fun || bit->fun == fun) {
item = bit;
if(!sym) sym = si.key();
break;
}
}
}
}
if(item) {
if(data) *data = item->px->data;
ok = bindhead->Remove(item,sym,0,false);
if(ok) {
item->Unbind(sym);
delete item;
}
}
}
return ok;
}
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::GetBoundMethod(const t_symbol *sym,bool (*fun)(flext_base *,t_symbol *s,int argc,t_atom *argv,void *data),void *&data)
{
if(bindhead) {
// Search for symbol
for(Item *it = bindhead->FindList(sym); it; it = it->nxt) {
BindItem *item = (BindItem *)it;
// go through all items with matching tag
if(item->fun == fun) {
data = item->px->data;
return true;
}
}
}
return false;
}
FLEXT_TEMPIMPL(bool FLEXT_CLASSDEF(flext_base))::UnbindAll()
{
if(bindhead && bindhead->Contained(0)) {
ItemSet &set = bindhead->GetInlet();
// for(ItemSet::iterator si = set.begin(); si != set.end(); ++si) {
for(FLEXT_TEMP_TYPENAME ItemSet::iterator si(set); si; ++si) {
Item *lst = si.data();
while(lst) {
Item *nxt = lst->nxt;
BindItem *it = (BindItem *)lst;
it->Unbind(si.key());
delete it;
lst = nxt;
}
}
set.clear();
}
return true;
}
FLEXT_TEMPIMPL(void FLEXT_CLASSDEF(flext_base))::pxbnd_object::px_method(pxbnd_object *c,const t_symbol *s,int argc,t_atom *argv)
{
c->item->fun(c->base,(t_symbol *)s,argc,(t_atom *)argv,c->data);
}
#include "flpopns.h"
#endif // __FLEXT_BIND_CPP
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