Example #1
0
bool CBotFunction::Execute(CBotVar** ppVars, CBotStack* &pj, CBotVar* pInstance)
{
    CBotStack*  pile = pj->AddStack(this, 2);               // one end of stack local to this function
//  if ( pile == EOX ) return true;

    pile->SetBotCall(m_pProg);                              // bases for routines

    if ( pile->GetState() == 0 )
    {
        if ( !m_Param->Execute(ppVars, pile) ) return false;    // define parameters
        pile->IncState();
    }

    if ( pile->GetState() == 1 && !m_MasterClass.IsEmpty() )
    {
        // makes "this" known
        CBotVar* pThis ;
        if ( pInstance == NULL )
        {
            pThis = CBotVar::Create("this", CBotTypResult( CBotTypClass, m_MasterClass ));
            pThis->SetInit(2);
        }
        else
        {
            pThis = CBotVar::Create("this", CBotTypResult( CBotTypPointer, m_MasterClass ));
            pThis->SetPointer(pInstance);
            pThis->SetInit(2);
        }

//      pThis->SetUniqNum(m_nThisIdent);
        pThis->SetUniqNum(-2);
        pile->AddVar(pThis);

        pile->IncState();
    }

    if ( pile->IfStep() ) return false;

    if ( !m_Block->Execute(pile) )
    {
        if ( pile->GetError() < 0 )
            pile->SetError( 0 );
        else
            return false;
    }

    return pj->Return(pile);
}
Example #2
0
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)
}
Example #3
0
int CBotFunction::DoCall(long& nIdent, const char* name, CBotVar* pThis, CBotVar** ppVars, CBotStack* pStack, CBotToken* pToken, CBotClass* pClass)
{
    CBotTypResult   type;
    CBotProgram*    pProgCurrent = pStack->GetBotCall();

    CBotFunction*   pt = FindLocalOrPublic(nIdent, name, ppVars, type, false);

    if ( pt != NULL )
    {
//      DEBUG( "CBotFunction::DoCall" + pt->GetName(), 0, pStack);

        CBotStack*  pStk = pStack->AddStack(pt, 2);
//      if ( pStk == EOX ) return true;

        pStk->SetBotCall(pt->m_pProg);                  // it may have changed module
        CBotStack*  pStk3 = pStk->AddStack(NULL, true); // to set parameters passed

        // preparing parameters on the stack

        if ( pStk->GetState() == 0 )
        {
            // sets the variable "this" on the stack
            CBotVar* pthis = CBotVar::Create("this", CBotTypNullPointer);
            pthis->Copy(pThis, false);
            pthis->SetUniqNum(-2);      // special value
            pStk->AddVar(pthis);

            CBotClass*  pClass = pThis->GetClass()->GetParent();
            if ( pClass )
            {
                // sets the variable "super" on the stack
                CBotVar* psuper = CBotVar::Create("super", CBotTypNullPointer);
                psuper->Copy(pThis, false); // in fact identical to "this"
                psuper->SetUniqNum(-3);     // special value
                pStk->AddVar(psuper);
            }
            // initializes the variables as parameters
            pt->m_Param->Execute(ppVars, pStk3);            // cannot be interrupted
            pStk->IncState();
        }

        if ( pStk->GetState() == 1 )
        {
            if ( pt->m_bSynchro )
            {
                CBotProgram* pProgBase = pStk->GetBotCall(true);
                if ( !pClass->Lock(pProgBase) ) return false;       // expected to power \TODO attend de pouvoir
            }
            pStk->IncState();
        }
        // finally calls the found function

        if ( !pStk3->GetRetVar(                         // puts the result on the stack
            pt->m_Block->Execute(pStk3) ))          // GetRetVar said if it is interrupted
        {
            if ( !pStk3->IsOk() )
            {
                if ( pt->m_bSynchro )
                {
                    pClass->Unlock();                   // release function
                }

                if ( pt->m_pProg != pProgCurrent )
                {
                    pStk3->SetPosError(pToken);         // indicates the error on the procedure call
                }
            }
            return false;   // interrupt !
        }

        if ( pt->m_bSynchro )
        {
            pClass->Unlock();                           // release function
        }

        return pStack->Return( pStk3 );
    }
    return -1;
}