libs/sqplus/squirrel/sqstate.cpp

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2017-01-10 04:08:49 +00:00
/*
see copyright notice in squirrel.h
*/
#include "sqpcheader.h"
#include "sqopcodes.h"
#include "sqvm.h"
#include "sqfuncproto.h"
#include "sqclosure.h"
#include "sqstring.h"
#include "sqtable.h"
#include "sqarray.h"
#include "squserdata.h"
#include "sqclass.h"
SQObjectPtr _null_;
SQObjectPtr _true_(true);
SQObjectPtr _false_(false);
SQObjectPtr _one_((SQInteger)1);
SQObjectPtr _minusone_((SQInteger)-1);
SQSharedState::SQSharedState()
{
_compilererrorhandler = NULL;
_printfunc = NULL;
_debuginfo = false;
_notifyallexceptions = false;
}
#define newsysstring(s) { \
_systemstrings->push_back(SQString::Create(this,s)); \
}
#define newmetamethod(s) { \
_metamethods->push_back(SQString::Create(this,s)); \
_table(_metamethodsmap)->NewSlot(_metamethods->back(),(SQInteger)(_metamethods->size()-1)); \
}
bool CompileTypemask(SQIntVec &res,const SQChar *typemask)
{
SQInteger i = 0;
SQInteger mask = 0;
while(typemask[i] != 0) {
switch(typemask[i]){
case 'o': mask |= _RT_NULL; break;
case 'i': mask |= _RT_INTEGER; break;
case 'f': mask |= _RT_FLOAT; break;
case 'n': mask |= (_RT_FLOAT | _RT_INTEGER); break;
case 's': mask |= _RT_STRING; break;
case 't': mask |= _RT_TABLE; break;
case 'a': mask |= _RT_ARRAY; break;
case 'u': mask |= _RT_USERDATA; break;
case 'c': mask |= (_RT_CLOSURE | _RT_NATIVECLOSURE); break;
case 'b': mask |= _RT_BOOL; break;
case 'g': mask |= _RT_GENERATOR; break;
case 'p': mask |= _RT_USERPOINTER; break;
case 'v': mask |= _RT_THREAD; break;
case 'x': mask |= _RT_INSTANCE; break;
case 'y': mask |= _RT_CLASS; break;
case 'r': mask |= _RT_WEAKREF; break;
case '.': mask = -1; res.push_back(mask); i++; mask = 0; continue;
case ' ': i++; continue; //ignores spaces
default:
return false;
}
i++;
if(typemask[i] == '|') {
i++;
if(typemask[i] == 0)
return false;
continue;
}
res.push_back(mask);
mask = 0;
}
return true;
}
SQTable *CreateDefaultDelegate(SQSharedState *ss,SQRegFunction *funcz)
{
SQInteger i=0;
SQTable *t=SQTable::Create(ss,0);
while(funcz[i].name!=0){
SQNativeClosure *nc = SQNativeClosure::Create(ss,funcz[i].f);
nc->_nparamscheck = funcz[i].nparamscheck;
nc->_name = SQString::Create(ss,funcz[i].name);
if(funcz[i].typemask && !CompileTypemask(nc->_typecheck,funcz[i].typemask))
return NULL;
t->NewSlot(SQString::Create(ss,funcz[i].name),nc);
i++;
}
return t;
}
void SQSharedState::Init()
{
_scratchpad=NULL;
_scratchpadsize=0;
#ifndef NO_GARBAGE_COLLECTOR
_gc_chain=NULL;
#endif
sq_new(_stringtable,StringTable);
sq_new(_metamethods,SQObjectPtrVec);
sq_new(_systemstrings,SQObjectPtrVec);
sq_new(_types,SQObjectPtrVec);
_metamethodsmap = SQTable::Create(this,MT_LAST-1);
//adding type strings to avoid memory trashing
//types names
newsysstring(_SC("null"));
newsysstring(_SC("table"));
newsysstring(_SC("array"));
newsysstring(_SC("closure"));
newsysstring(_SC("string"));
newsysstring(_SC("userdata"));
newsysstring(_SC("integer"));
newsysstring(_SC("float"));
newsysstring(_SC("userpointer"));
newsysstring(_SC("function"));
newsysstring(_SC("generator"));
newsysstring(_SC("thread"));
newsysstring(_SC("class"));
newsysstring(_SC("instance"));
newsysstring(_SC("bool"));
//meta methods
newmetamethod(MM_ADD);
newmetamethod(MM_SUB);
newmetamethod(MM_MUL);
newmetamethod(MM_DIV);
newmetamethod(MM_UNM);
newmetamethod(MM_MODULO);
newmetamethod(MM_SET);
newmetamethod(MM_GET);
newmetamethod(MM_TYPEOF);
newmetamethod(MM_NEXTI);
newmetamethod(MM_CMP);
newmetamethod(MM_CALL);
newmetamethod(MM_CLONED);
newmetamethod(MM_NEWSLOT);
newmetamethod(MM_DELSLOT);
newmetamethod(MM_TOSTRING);
newmetamethod(MM_NEWMEMBER);
newmetamethod(MM_INHERITED);
_constructoridx = SQString::Create(this,_SC("constructor"));
_registry = SQTable::Create(this,0);
_table_default_delegate=CreateDefaultDelegate(this,_table_default_delegate_funcz);
_array_default_delegate=CreateDefaultDelegate(this,_array_default_delegate_funcz);
_string_default_delegate=CreateDefaultDelegate(this,_string_default_delegate_funcz);
_number_default_delegate=CreateDefaultDelegate(this,_number_default_delegate_funcz);
_closure_default_delegate=CreateDefaultDelegate(this,_closure_default_delegate_funcz);
_generator_default_delegate=CreateDefaultDelegate(this,_generator_default_delegate_funcz);
_thread_default_delegate=CreateDefaultDelegate(this,_thread_default_delegate_funcz);
_class_default_delegate=CreateDefaultDelegate(this,_class_default_delegate_funcz);
_instance_default_delegate=CreateDefaultDelegate(this,_instance_default_delegate_funcz);
_weakref_default_delegate=CreateDefaultDelegate(this,_weakref_default_delegate_funcz);
}
SQSharedState::~SQSharedState()
{
_constructoridx = _null_;
_refs_table.Finalize();
_table(_registry)->Finalize();
_table(_metamethodsmap)->Finalize();
// _refs_table = _null_;
_registry = _null_;
_metamethodsmap = _null_;
while(!_systemstrings->empty()){
_systemstrings->back()=_null_;
_systemstrings->pop_back();
}
_thread(_root_vm)->Finalize();
_root_vm = _null_;
_table_default_delegate=_null_;
_array_default_delegate=_null_;
_string_default_delegate=_null_;
_number_default_delegate=_null_;
_closure_default_delegate=_null_;
_generator_default_delegate=_null_;
_thread_default_delegate=_null_;
_class_default_delegate=_null_;
_instance_default_delegate=_null_;
_weakref_default_delegate=_null_;
#ifndef NO_GARBAGE_COLLECTOR
SQCollectable *t=_gc_chain;
SQCollectable *nx=NULL;
while(t){
t->_uiRef++;
t->Finalize();
nx=t->_next;
if(--t->_uiRef==0)
t->Release();
t=nx;
}
assert(_gc_chain==NULL); //just to proove a theory
while(_gc_chain){
_gc_chain->_uiRef++;
_gc_chain->Release();
}
#endif
sq_delete(_types,SQObjectPtrVec);
sq_delete(_systemstrings,SQObjectPtrVec);
sq_delete(_metamethods,SQObjectPtrVec);
sq_delete(_stringtable,StringTable);
if(_scratchpad)SQ_FREE(_scratchpad,_scratchpadsize);
}
SQInteger SQSharedState::GetMetaMethodIdxByName(const SQObjectPtr &name)
{
if(type(name) != OT_STRING)
return -1;
SQObjectPtr ret;
if(_table(_metamethodsmap)->Get(name,ret)) {
return _integer(ret);
}
return -1;
}
#ifndef NO_GARBAGE_COLLECTOR
void SQSharedState::MarkObject(SQObjectPtr &o,SQCollectable **chain)
{
switch(type(o)){
case OT_TABLE:_table(o)->Mark(chain);break;
case OT_ARRAY:_array(o)->Mark(chain);break;
case OT_USERDATA:_userdata(o)->Mark(chain);break;
case OT_CLOSURE:_closure(o)->Mark(chain);break;
case OT_NATIVECLOSURE:_nativeclosure(o)->Mark(chain);break;
case OT_GENERATOR:_generator(o)->Mark(chain);break;
case OT_THREAD:_thread(o)->Mark(chain);break;
case OT_CLASS:_class(o)->Mark(chain);break;
case OT_INSTANCE:_instance(o)->Mark(chain);break;
default: break; //shutup compiler
}
}
SQInteger SQSharedState::CollectGarbage(SQVM *vm)
{
SQInteger n=0;
SQCollectable *tchain=NULL;
SQVM *vms=_thread(_root_vm);
vms->Mark(&tchain);
SQInteger x = _table(_thread(_root_vm)->_roottable)->CountUsed();
_refs_table.Mark(&tchain);
MarkObject(_registry,&tchain);
MarkObject(_metamethodsmap,&tchain);
MarkObject(_table_default_delegate,&tchain);
MarkObject(_array_default_delegate,&tchain);
MarkObject(_string_default_delegate,&tchain);
MarkObject(_number_default_delegate,&tchain);
MarkObject(_generator_default_delegate,&tchain);
MarkObject(_thread_default_delegate,&tchain);
MarkObject(_closure_default_delegate,&tchain);
MarkObject(_class_default_delegate,&tchain);
MarkObject(_instance_default_delegate,&tchain);
MarkObject(_weakref_default_delegate,&tchain);
SQCollectable *t=_gc_chain;
SQCollectable *nx=NULL;
while(t){
t->_uiRef++;
t->Finalize();
nx=t->_next;
if(--t->_uiRef==0)
t->Release();
t=nx;
n++;
}
t=tchain;
while(t){
t->UnMark();
t=t->_next;
}
_gc_chain=tchain;
SQInteger z = _table(_thread(_root_vm)->_roottable)->CountUsed();
assert(z == x);
return n;
}
#endif
#ifndef NO_GARBAGE_COLLECTOR
void SQCollectable::AddToChain(SQCollectable **chain,SQCollectable *c)
{
c->_prev=NULL;
c->_next=*chain;
if(*chain) (*chain)->_prev=c;
*chain=c;
}
void SQCollectable::RemoveFromChain(SQCollectable **chain,SQCollectable *c)
{
if(c->_prev) c->_prev->_next=c->_next;
else *chain=c->_next;
if(c->_next)
c->_next->_prev=c->_prev;
c->_next=NULL;
c->_prev=NULL;
}
#endif
SQChar* SQSharedState::GetScratchPad(SQInteger size)
{
SQInteger newsize;
if(size>0){
if(_scratchpadsize<size){
newsize=size+(size>>1);
_scratchpad=(SQChar *)SQ_REALLOC(_scratchpad,_scratchpadsize,newsize);
_scratchpadsize=newsize;
}else if(_scratchpadsize>=(size<<5)){
newsize=_scratchpadsize>>1;
_scratchpad=(SQChar *)SQ_REALLOC(_scratchpad,_scratchpadsize,newsize);
_scratchpadsize=newsize;
}
}
return _scratchpad;
}
RefTable::RefTable()
{
AllocNodes(4);
}
void RefTable::Finalize()
{
RefNode *nodes = _nodes;
for(SQUnsignedInteger n = 0; n < _numofslots; n++) {
nodes->obj = _null_;
nodes++;
}
}
RefTable::~RefTable()
{
SQ_FREE(_buckets,(_numofslots * sizeof(RefNode *)) + (_numofslots * sizeof(RefNode)));
}
#ifndef NO_GARBAGE_COLLECTOR
void RefTable::Mark(SQCollectable **chain)
{
RefNode *nodes = (RefNode *)_nodes;
for(SQUnsignedInteger n = 0; n < _numofslots; n++) {
if(type(nodes->obj) != OT_NULL) {
SQSharedState::MarkObject(nodes->obj,chain);
}
nodes++;
}
}
#endif
void RefTable::AddRef(SQObject &obj)
{
SQHash mainpos;
RefNode *prev;
RefNode *ref = Get(obj,mainpos,&prev,true);
ref->refs++;
}
SQBool RefTable::Release(SQObject &obj)
{
SQHash mainpos;
RefNode *prev;
RefNode *ref = Get(obj,mainpos,&prev,false);
if(ref) {
if(--ref->refs == 0) {
SQObjectPtr o = ref->obj;
if(prev) {
prev->next = ref->next;
}
else {
_buckets[mainpos] = ref->next;
}
ref->next = _freelist;
_freelist = ref;
_slotused--;
ref->obj = _null_;
//<<FIXME>>test for shrink?
return SQTrue;
}
}
else {
assert(0);
}
return SQFalse;
}
void RefTable::Resize(SQUnsignedInteger size)
{
RefNode **oldbucks = _buckets;
RefNode *t = _nodes;
SQUnsignedInteger oldnumofslots = _numofslots;
AllocNodes(size);
//rehash
SQUnsignedInteger nfound = 0;
for(SQUnsignedInteger n = 0; n < oldnumofslots; n++) {
if(type(t->obj) != OT_NULL) {
//add back;
assert(t->refs != 0);
RefNode *nn = Add(::HashObj(t->obj)&(_numofslots-1),t->obj);
nn->refs = t->refs;
t->obj = _null_;
nfound++;
}
t++;
}
assert(nfound == oldnumofslots);
SQ_FREE(oldbucks,(oldnumofslots * sizeof(RefNode *)) + (oldnumofslots * sizeof(RefNode)));
}
RefTable::RefNode *RefTable::Add(SQHash mainpos,SQObject &obj)
{
RefNode *t = _buckets[mainpos];
RefNode *newnode = _freelist;
newnode->obj = obj;
_buckets[mainpos] = newnode;
_freelist = _freelist->next;
newnode->next = t;
assert(newnode->refs == 0);
_slotused++;
return newnode;
}
RefTable::RefNode *RefTable::Get(SQObject &obj,SQHash &mainpos,RefNode **prev,bool add)
{
RefNode *ref;
mainpos = ::HashObj(obj)&(_numofslots-1);
*prev = NULL;
for (ref = _buckets[mainpos]; ref; ) {
if(_rawval(ref->obj) == _rawval(obj) && type(ref->obj) == type(obj))
break;
*prev = ref;
ref = ref->next;
}
if(ref == NULL && add) {
if(_numofslots == _slotused) {
assert(_freelist == 0);
Resize(_numofslots*2);
mainpos = ::HashObj(obj)&(_numofslots-1);
}
ref = Add(mainpos,obj);
}
return ref;
}
void RefTable::AllocNodes(SQUnsignedInteger size)
{
RefNode **bucks;
RefNode *nodes;
bucks = (RefNode **)SQ_MALLOC((size * sizeof(RefNode *)) + (size * sizeof(RefNode)));
nodes = (RefNode *)&bucks[size];
RefNode *temp = nodes;
SQUnsignedInteger n;
for(n = 0; n < size - 1; n++) {
bucks[n] = NULL;
temp->refs = 0;
new (&temp->obj) SQObjectPtr;
temp->next = temp+1;
temp++;
}
bucks[n] = NULL;
temp->refs = 0;
new (&temp->obj) SQObjectPtr;
temp->next = NULL;
_freelist = nodes;
_nodes = nodes;
_buckets = bucks;
_slotused = 0;
_numofslots = size;
}
//////////////////////////////////////////////////////////////////////////
//StringTable
/*
* The following code is based on Lua 4.0 (Copyright 1994-2002 Tecgraf, PUC-Rio.)
* http://www.lua.org/copyright.html#4
* http://www.lua.org/source/4.0.1/src_lstring.c.html
*/
StringTable::StringTable()
{
AllocNodes(4);
_slotused = 0;
}
StringTable::~StringTable()
{
SQ_FREE(_strings,sizeof(SQString*)*_numofslots);
_strings=NULL;
}
void StringTable::AllocNodes(SQInteger size)
{
_numofslots=size;
//_slotused=0;
_strings=(SQString**)SQ_MALLOC(sizeof(SQString*)*_numofslots);
memset(_strings,0,sizeof(SQString*)*_numofslots);
}
SQString *StringTable::Add(const SQChar *news,SQInteger len)
{
if(len<0)
len = (SQInteger)scstrlen(news);
SQHash h = ::_hashstr(news,len)&(_numofslots-1);
SQString *s;
for (s = _strings[h]; s; s = s->_next){
if(s->_len == len && (!memcmp(news,s->_val,rsl(len))))
return s; //found
}
SQString *t=(SQString *)SQ_MALLOC(rsl(len)+sizeof(SQString));
new (t) SQString;
memcpy(t->_val,news,rsl(len));
t->_val[len] = _SC('\0');
t->_len = len;
t->_hash = ::_hashstr(news,len);
t->_next = _strings[h];
_strings[h] = t;
_slotused++;
if (_slotused > _numofslots) /* too crowded? */
Resize(_numofslots*2);
return t;
}
void StringTable::Resize(SQInteger size)
{
SQInteger oldsize=_numofslots;
SQString **oldtable=_strings;
AllocNodes(size);
for (SQInteger i=0; i<oldsize; i++){
SQString *p = oldtable[i];
while(p){
SQString *next = p->_next;
SQHash h = p->_hash&(_numofslots-1);
p->_next = _strings[h];
_strings[h] = p;
p = next;
}
}
SQ_FREE(oldtable,oldsize*sizeof(SQString*));
}
void StringTable::Remove(SQString *bs)
{
SQString *s;
SQString *prev=NULL;
SQHash h = bs->_hash&(_numofslots - 1);
for (s = _strings[h]; s; ){
if(s == bs){
if(prev)
prev->_next = s->_next;
else
_strings[h] = s->_next;
_slotused--;
SQInteger slen = s->_len;
s->~SQString();
SQ_FREE(s,sizeof(SQString) + rsl(slen));
return;
}
prev = s;
s = s->_next;
}
assert(0);//if this fail something is wrong
}