void CBotInstrCall::RestoreState(CBotStack* &pj, bool bMain)
{
if ( !bMain ) return;
CBotStack* pile = pj->RestoreStack(this);
if ( pile == NULL ) return;
// CBotStack* pile1 = pile;
int i = 0;
CBotVar* ppVars[1000];
CBotInstr* p = m_Parameters;
// evaluate parameters
// and place the values on the stack
// for allow of interruption at any time
if ( p != NULL) while ( true )
{
pile = pile->RestoreStack(); // place on the stack for the results
if ( pile == NULL ) return;
if ( pile->GetState() == 0 )
{
p->RestoreState(pile, bMain); // interrupt here!
return;
}
ppVars[i++] = pile->GetVar(); // constructs the list of parameters
p = p->GetNext();
if ( p == NULL) break;
}
ppVars[i] = NULL;
CBotStack* pile2 = pile->RestoreStack();
if ( pile2 == NULL ) return;
pile2->RestoreCall(m_nFuncIdent, GetToken(), ppVars);
}
bool CBotInstrCall::Execute(CBotStack* &pj)
{
CBotVar* ppVars[1000];
CBotStack* pile = pj->AddStack(this);
if ( pile->StackOver() ) return pj->Return( pile );
// CBotStack* pile1 = pile;
int i = 0;
CBotInstr* p = m_Parameters;
// evaluates parameters
// and places the values on the stack
// for allow of interruption at any time
if ( p != NULL) while ( true )
{
pile = pile->AddStack(); // place on the stack for the results
if ( pile->GetState() == 0 )
{
if (!p->Execute(pile)) return false; // interrupted here?
pile->SetState(1); // mark as special for reknowed parameters \TODO marque spéciale pour reconnaîre parameters
}
ppVars[i++] = pile->GetVar();
p = p->GetNext();
if ( p == NULL) break;
}
ppVars[i] = NULL;
CBotStack* pile2 = pile->AddStack();
if ( pile2->IfStep() ) return false;
if ( !pile2->ExecuteCall(m_nFuncIdent, GetToken(), ppVars, m_typRes)) return false; // interrupt
return pj->Return(pile2); // release the entire stack
}
bool CBotInstrCall::Execute(CBotStack* &pj)
{
CBotVar* ppVars[1000];
CBotStack* pile = pj->AddStack(this);
if ( pile->StackOver() ) return pj->Return( pile );
CBotStack* pile3 = nullptr;
if (m_exprRetVar != nullptr) // func().member
{
pile3 = pile->AddStack2();
if (pile3->GetState() == 1) // function call is done?
{
if (!m_exprRetVar->Execute(pile3)) return false;
return pj->Return(pile3);
}
}
// CBotStack* pile1 = pile;
int i = 0;
CBotInstr* p = m_parameters;
// evaluates parameters
// and places the values on the stack
// for allow of interruption at any time
if ( p != nullptr) while ( true )
{
pile = pile->AddStack(); // place on the stack for the results
if ( pile->GetState() == 0 )
{
if (!p->Execute(pile)) return false; // interrupted here?
pile->SetState(1); // set state to remember that parameters were executed
}
ppVars[i++] = pile->GetVar();
p = p->GetNext();
if ( p == nullptr) break;
}
ppVars[i] = nullptr;
CBotStack* pile2 = pile->AddStack();
if ( pile2->IfStep() ) return false;
if ( !pile2->ExecuteCall(m_nFuncIdent, GetToken(), ppVars, m_typRes)) return false; // interrupt
if (m_exprRetVar != nullptr) // func().member
{
pile3->SetCopyVar( pile2->GetVar() ); // copy the result
pile2->SetVar(nullptr);
pile3->SetState(1); // set call is done
return false; // go back to the top ^^^
}
return pj->Return(pile2); // release the entire stack
}
void CBotInstrCall::RestoreState(CBotStack* &pj, bool bMain)
{
if ( !bMain ) return;
CBotStack* pile = pj->RestoreStack(this);
if ( pile == nullptr ) return;
if (m_exprRetVar != nullptr) // func().member
{
CBotStack* pile3 = pile->AddStack2();
if (pile3->GetState() == 1) // function call is done?
{
m_exprRetVar->RestoreState(pile3, bMain);
return;
}
}
// CBotStack* pile1 = pile;
int i = 0;
CBotVar* ppVars[1000];
CBotInstr* p = m_parameters;
// evaluate parameters
// and place the values on the stack
// for allow of interruption at any time
if ( p != nullptr) while ( true )
{
pile = pile->RestoreStack(); // place on the stack for the results
if ( pile == nullptr ) return;
if ( pile->GetState() == 0 )
{
p->RestoreState(pile, bMain); // interrupt here!
return;
}
ppVars[i++] = pile->GetVar(); // constructs the list of parameters
p = p->GetNext();
if ( p == nullptr) break;
}
ppVars[i] = nullptr;
CBotStack* pile2 = pile->RestoreStack();
if ( pile2 == nullptr ) return;
pile2->RestoreCall(m_nFuncIdent, GetToken(), ppVars);
}
bool CBotClassInst::Execute(CBotStack* &pj)
{
CBotVar* pThis = NULL;
CBotStack* pile = pj->AddStack(this);//essential for SetState()
// if ( pile == EOX ) return true;
CBotToken* pt = &m_token;
CBotClass* pClass = CBotClass::Find(pt);
bool bIntrincic = pClass->IsIntrinsic();
// creates the variable of type pointer to the object
if ( pile->GetState()==0)
{
CBotString name = m_var->m_token.GetString();
if ( bIntrincic )
{
pThis = CBotVar::Create(name, CBotTypResult( CBotTypIntrinsic, pClass ));
}
else
{
pThis = CBotVar::Create(name, CBotTypResult( CBotTypPointer, pClass ));
}
pThis->SetUniqNum((static_cast<CBotLeftExprVar*>(m_var))->m_nIdent); // its attribute as unique number
pile->AddVar(pThis); // place on the stack
pile->IncState();
}
if ( pThis == NULL ) pThis = pile->FindVar((static_cast<CBotLeftExprVar*>(m_var))->m_nIdent);
if ( pile->GetState()<3)
{
// ss there an assignment or parameters (contructor)
// CBotVarClass* pInstance = NULL;
if ( m_expr != NULL )
{
// evaluates the expression for the assignment
if (!m_expr->Execute(pile)) return false;
if ( bIntrincic )
{
CBotVar* pv = pile->GetVar();
if ( pv == NULL || pv->GetPointer() == NULL )
{
pile->SetError(TX_NULLPT, &m_token);
return pj->Return(pile);
}
pThis->Copy(pile->GetVar(), false);
}
else
{
CBotVarClass* pInstance;
pInstance = (static_cast<CBotVarPointer*>(pile->GetVar()))->GetPointer(); // value for the assignment
pThis->SetPointer(pInstance);
}
pThis->SetInit(true);
}
else if ( m_hasParams )
{
// evaluates the constructor of an instance
if ( !bIntrincic && pile->GetState() == 1)
{
CBotToken* pt = &m_token;
CBotClass* pClass = CBotClass::Find(pt);
// creates an instance of the requested class
CBotVarClass* pInstance;
pInstance = static_cast<CBotVarClass*>(CBotVar::Create("", pClass));
pThis->SetPointer(pInstance);
delete pInstance;
pile->IncState();
}
CBotVar* ppVars[1000];
CBotStack* pile2 = pile;
int i = 0;
CBotInstr* p = m_Parameters;
// evaluates the parameters
// and places the values on the stack
// to (can) be interrupted (broken) at any time
if ( p != NULL) while ( true )
{
pile2 = pile2->AddStack(); // place on the stack for the results
if ( pile2->GetState() == 0 )
{
if (!p->Execute(pile2)) return false; // interrupted here?
pile2->SetState(1);
}
ppVars[i++] = pile2->GetVar();
p = p->GetNext();
if ( p == NULL) break;
}
ppVars[i] = NULL;
// creates a variable for the result
CBotVar* pResult = NULL; // constructor still void
if ( !pClass->ExecuteMethode(m_nMethodeIdent, pClass->GetName(),
pThis, ppVars,
pResult, pile2, GetToken())) return false; // interrupt
pThis->SetInit(true);
pThis->ConstructorSet(); // indicates that the constructor has been called
pile->Return(pile2); // releases a piece of stack
// pInstance = pThis->GetPointer();
}
// if ( !bIntrincic ) pThis->SetPointer(pInstance); // a pointer to the instance
pile->SetState(3); // finished this part
}
if ( pile->IfStep() ) return false;
if ( m_next2b != NULL &&
!m_next2b->Execute(pile)) return false; // other (s) definition (s)
return pj->Return( pile ); // transmits below (further)
}
bool CBotDefArray::Execute(CBotStack* &pj)
{
CBotStack* pile1 = pj->AddStack(this);
CBotStack* pile = pile1;
if (pile1->GetState() == 0)
{
// seek the maximum dimension of the table
CBotInstr* p = GetNext3b(); // the different formulas
int nb = 0;
while (p != nullptr)
{
pile = pile->AddStack(); // little room to work
nb++;
if (pile->GetState() == 0)
{
if (!p->Execute(pile)) return false; // size calculation //interrupted?
pile->IncState();
}
p = p->GetNext3b();
}
p = GetNext3b();
pile = pile1; // returns to the stack
int n = 0;
int max[100];
while (p != nullptr)
{
pile = pile->AddStack();
CBotVar* v = pile->GetVar(); // result
max[n] = v->GetValInt(); // value
if (max[n]>MAXARRAYSIZE)
{
pile->SetError(CBotErrOutArray, &m_token);
return pj->Return (pile);
}
n++;
p = p->GetNext3b();
}
while (n<100) max[n++] = 0;
m_typevar.SetArray(max); // store the limitations
// create simply a nullptr pointer
CBotVar* var = CBotVar::Create(*(m_var->GetToken()), m_typevar);
var->SetPointer(nullptr);
var->SetUniqNum((static_cast<CBotLeftExprVar*>(m_var))->m_nIdent);
pj->AddVar(var);
#if STACKMEM
pile1->AddStack()->Delete();
#else
delete pile1->AddStack(); // need more indices
#endif
pile1->IncState();
}
if (pile1->GetState() == 1)
{
if (m_listass != nullptr) // there is the assignment for this table
{
CBotVar* pVar = pj->FindVar((static_cast<CBotLeftExprVar*>(m_var))->m_nIdent, false);
if (!m_listass->Execute(pile1, pVar)) return false;
}
pile1->IncState();
}
if (pile1->IfStep()) return false;
if ( m_next2b &&
!m_next2b->Execute(pile1 )) return false;
return pj->Return(pile1);
}
bool CBotClass::CompileDefItem(CBotToken* &p, CBotCStack* pStack, bool bSecond)
{
bool bStatic = false;
int mProtect = PR_PUBLIC;
bool bSynchro = false;
while (IsOfType(p, ID_SEP)) ;
CBotTypResult type( -1 );
if ( IsOfType(p, ID_SYNCHO) ) bSynchro = true;
CBotToken* pBase = p;
if ( IsOfType(p, ID_STATIC) ) bStatic = true;
if ( IsOfType(p, ID_PUBLIC) ) mProtect = PR_PUBLIC;
if ( IsOfType(p, ID_PRIVATE) ) mProtect = PR_PRIVATE;
if ( IsOfType(p, ID_PROTECTED) ) mProtect = PR_PROTECT;
if ( IsOfType(p, ID_STATIC) ) bStatic = true;
// CBotClass* pClass = NULL;
type = TypeParam(p, pStack); // type of the result
if ( type.Eq(-1) )
{
pStack->SetError(TX_NOTYP, p);
return false;
}
while (pStack->IsOk())
{
CBotToken* pp = p;
IsOfType(p, ID_NOT); // skips ~ eventual (destructor)
if (IsOfType(p, TokenTypVar))
{
CBotInstr* limites = NULL;
while ( IsOfType( p, ID_OPBRK ) ) // a table?
{
CBotInstr* i = NULL;
if ( p->GetType() != ID_CLBRK )
i = CBotExpression::Compile( p, pStack ); // expression for the value
else
i = new CBotEmpty(); // special if not a formula
type = CBotTypResult(CBotTypArrayPointer, type);
if (!pStack->IsOk() || !IsOfType( p, ID_CLBRK ) )
{
pStack->SetError(TX_CLBRK, p->GetStart());
return false;
}
/* CBotVar* pv = pStack->GetVar();
if ( pv->GetType()>= CBotTypBoolean )
{
pStack->SetError(TX_BADTYPE, p->GetStart());
return false;
}*/
if (limites == NULL) limites = i;
else limites->AddNext3(i);
}
if ( p->GetType() == ID_OPENPAR )
{
if ( !bSecond )
{
p = pBase;
CBotFunction* f =
CBotFunction::Compile1(p, pStack, this);
if ( f == NULL ) return false;
if (m_pMethod == NULL) m_pMethod = f;
else m_pMethod->AddNext(f);
}
else
{
// return a method precompiled in pass 1
CBotFunction* pf = m_pMethod;
CBotFunction* prev = NULL;
while ( pf != NULL )
{
if (pf->GetName() == pp->GetString()) break;
prev = pf;
pf = pf->Next();
}
bool bConstructor = (pp->GetString() == GetName());
CBotCStack* pile = pStack->TokenStack(NULL, true);
// make "this" known
CBotToken TokenThis(CBotString("this"), CBotString());
CBotVar* pThis = CBotVar::Create(&TokenThis, CBotTypResult( CBotTypClass, this ) );
pThis->SetUniqNum(-2);
pile->AddVar(pThis);
if ( m_pParent )
{
// makes "super" known
CBotToken TokenSuper(CBotString("super"), CBotString());
CBotVar* pThis = CBotVar::Create(&TokenSuper, CBotTypResult( CBotTypClass, m_pParent ) );
pThis->SetUniqNum(-3);
pile->AddVar(pThis);
}
// int num = 1;
CBotClass* my = this;
while (my != NULL)
{
// places a copy of variables of a class (this) on a stack
CBotVar* pv = my->m_pVar;
while (pv != NULL)
{
CBotVar* pcopy = CBotVar::Create(pv);
pcopy->SetInit(!bConstructor || pv->IsStatic());
pcopy->SetUniqNum(pv->GetUniqNum());
pile->AddVar(pcopy);
pv = pv->GetNext();
}
my = my->m_pParent;
}
// compiles a method
p = pBase;
CBotFunction* f =
CBotFunction::Compile(p, pile, NULL/*, false*/);
if ( f != NULL )
{
f->m_pProg = pStack->GetBotCall();
f->m_bSynchro = bSynchro;
// replaces the element in the chain
f->m_next = pf->m_next;
pf->m_next = NULL;
delete pf;
if (prev == NULL) m_pMethod = f;
else prev->m_next = f;
}
pStack->Return(NULL, pile);
}
return pStack->IsOk();
}
// definition of an element
if (type.Eq(0))
{
pStack->SetError(TX_ENDOF, p);
return false;
}
CBotInstr* i = NULL;
if ( IsOfType(p, ID_ASS ) )
{
if ( type.Eq(CBotTypArrayPointer) )
{
i = CBotListArray::Compile(p, pStack, type.GetTypElem());
}
else
{
// it has an assignmet to calculate
i = CBotTwoOpExpr::Compile(p, pStack);
}
if ( !pStack->IsOk() ) return false;
}
if ( !bSecond )
{
CBotVar* pv = CBotVar::Create(pp->GetString(), type);
pv -> SetStatic( bStatic );
pv -> SetPrivate( mProtect );
AddItem( pv );
pv->m_InitExpr = i;
pv->m_LimExpr = limites;
if ( pv->IsStatic() && pv->m_InitExpr != NULL )
{
CBotStack* pile = CBotStack::FirstStack(); // independent stack
while(pile->IsOk() && !pv->m_InitExpr->Execute(pile)); // evaluates the expression without timer
pv->SetVal( pile->GetVar() ) ;
pile->Delete();
}
}
else
delete i;
if ( IsOfType(p, ID_COMMA) ) continue;
if ( IsOfType(p, ID_SEP) ) break;
}
pStack->SetError(TX_ENDOF, p);
}
return pStack->IsOk();
}