Example #1
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
 Supplier supplier;

  ACE_DEBUG ((LM_DEBUG,
              "\n\tMarket Status Supplier Daemon\n\n"));

  if (supplier.init (argc, argv) == -1)
    return -1;
  else
    return supplier.run ();
}
Example #2
0
DECLARE_EXPORT void ItemSupplier::validate(Action action)
{
  // Catch null supplier and item pointers
  Supplier *sup = getSupplier();
  Item *it = getItem();
  Location *loc = getLocation();
  if (!sup || !it)
  {
    // Invalid ItemSupplier model
    if (!sup && !it)
      throw DataException("Missing supplier and item on a itemsupplier");
    else if (!sup)
      throw DataException("Missing supplier on a itemsupplier on item '"
          + it->getName() + "'");
    else if (!it)
      throw DataException("Missing item on a itemsupplier on supplier '"
          + sup->getName() + "'");
  }

  // Check if a ItemSupplier with 1) identical supplier, 2) identical item
  // 3) identical location, and 4) overlapping effectivity dates already exists
  Supplier::itemlist::const_iterator i = sup->getItems().begin();
  for (; i != sup->getItems().end(); ++i)
    if (i->getItem() == it
        && i->getEffective().overlap(getEffective())
        && i->getLocation() == loc
        && &*i != this)
      break;

  // Apply the appropriate action
  switch (action)
  {
    case ADD:
      if (i != sup->getItems().end())
      {
        throw DataException("ItemSupplier of '" + sup->getName() + "' and '"
            + it->getName() + "' already exists");
      }
      break;
    case CHANGE:
      throw DataException("Can't update a itemsupplier");
    case ADD_CHANGE:
      // ADD is handled in the code after the switch statement
      if (i == sup->getItems().end()) break;
      throw DataException("Can't update a itemsupplier");
    case REMOVE:
      // This ItemSupplier was only used temporarily during the reading process
      delete this;
      if (i == sup->getItems().end())
        // Nothing to delete
        throw DataException("Can't remove nonexistent itemsupplier of '"
            + sup->getName() + "' and '" + it->getName() + "'");
      delete &*i;
      return;
  }
}
Example #3
0
int
ACE_TMAIN(int argc, ACE_TCHAR *argv[])
{
  Supplier supp;

  if (supp.init (argc, argv) == -1)
    return 1;

  supp.run ();

  supp.shutdown ();

  return 0;
}
Example #4
0
extern "C" PyObject* OperationItemSupplier::createOrder(
  PyObject *self, PyObject *args, PyObject *kwdict
  )
{
  // Parse the Python arguments
  PyObject* pylocation = NULL;
  unsigned long id = 0;
  const char* ref = NULL;
  PyObject* pyitem = NULL;
  PyObject* pysupplier = NULL;
  double qty = 0;
  PyObject* pystart = NULL;
  PyObject* pyend = NULL;
  const char* status = NULL;
  const char* source = NULL;
  static const char *kwlist[] = {
    "location", "id", "reference", "item", "supplier", "quantity", "start",
    "end", "status", "source", NULL
    };
  int ok = PyArg_ParseTupleAndKeywords(
    args, kwdict, "|OkzOOdOOzz:createOrder", const_cast<char**>(kwlist),
    &pylocation, &id, &ref, &pyitem, &pysupplier, &qty, &pystart,
    &pyend, &status, &source
    );
  if (!ok)
    return NULL;
  Date start = pystart ? PythonData(pystart).getDate() : Date::infinitePast;
  Date end = pyend ? PythonData(pyend).getDate() : Date::infinitePast;

  // Validate all arguments
  if (!pylocation || !pyitem)
  {
    PyErr_SetString(PythonDataException, "item and location arguments are mandatory");
    return NULL;
  }
  PythonData location_tmp(pylocation);
  if (!location_tmp.check(Location::metadata))
  {
    PyErr_SetString(PythonDataException, "location argument must be of type location");
    return NULL;
  }
  PythonData item_tmp(pyitem);
  if (!item_tmp.check(Item::metadata))
  {
    PyErr_SetString(PythonDataException, "item argument must be of type item");
    return NULL;
  }
  PythonData supplier_tmp(pysupplier);
  if (pysupplier && !supplier_tmp.check(Supplier::metadata))
  {
    PyErr_SetString(PythonDataException, "supplier argument must be of type supplier");
    return NULL;
  }
  Item *item = static_cast<Item*>(item_tmp.getObject());
  Location *location = static_cast<Location*>(location_tmp.getObject());
  Supplier *supplier = pysupplier ? static_cast<Supplier*>(supplier_tmp.getObject()) : NULL;

  // Find or create the destination buffer.
  Buffer* destbuffer = NULL;
  Item::bufferIterator buf_iter(item);
  while (Buffer* tmpbuf = buf_iter.next())
  {
    if (tmpbuf->getLocation() == location)
    {
      if (destbuffer)
      {
        stringstream o;
        o << "Multiple buffers found for item '" << item << "'' and location'" << location << "'";
        throw DataException(o.str());
      }
      destbuffer = tmpbuf;
    }
  }
  if (!destbuffer)
  {
    // Create the destination buffer
    destbuffer = new BufferDefault();
    stringstream o;
    o << item << " @ " << location;
    destbuffer->setName(o.str());
    destbuffer->setItem(item);
    destbuffer->setLocation(location);
  }

  // Build the producing operation for this buffer.
  destbuffer->getProducingOperation();

  // Look for a matching operation replenishing this buffer.
  Operation *oper = NULL;
  for (Buffer::flowlist::const_iterator flowiter = destbuffer->getFlows().begin();
    flowiter != destbuffer->getFlows().end() && !oper; ++flowiter)
  {
    if (flowiter->getOperation()->getType() != *OperationItemSupplier::metadata)
      continue;
    OperationItemSupplier* opitemsupplier = static_cast<OperationItemSupplier*>(flowiter->getOperation());
    if (supplier)
    {
      if (supplier->isMemberOf(opitemsupplier->getItemSupplier()->getSupplier()))
        oper = opitemsupplier;
    }
    else
      oper = opitemsupplier;
  }

  // No matching operation is found.
  if (!oper)
  {
    // We'll create one now, but that requires that we have a supplier defined.
    if (!supplier)
      throw DataException("Supplier is needed on this purchase order");
    // Note: We know that we need to create a new one. An existing one would
    // have created an operation on the buffer already.
    ItemSupplier *itemsupplier = new ItemSupplier();
    itemsupplier->setSupplier(supplier);
    itemsupplier->setItem(item);
    itemsupplier->setLocation(location);
    oper = new OperationItemSupplier(itemsupplier, destbuffer);
    new ProblemInvalidData(oper, "Purchase orders on unauthorized supplier", "operation",
      Date::infinitePast, Date::infiniteFuture, 1);
  }

  // Finally, create the operationplan
  OperationPlan *opplan = oper->createOperationPlan(qty, start, end);
  if (id)
    opplan->setRawIdentifier(id);  // We can use this fast method because we call activate later
  if (status)
    opplan->setStatus(status);
  // Reset quantity after the status update to assure that
  // also non-valid quantities are getting accepted.
  opplan->setQuantity(qty);
  if (ref)
    opplan->setReference(ref);
  opplan->activate();

  // Return result
  Py_INCREF(opplan);
  return opplan;
}
Example #5
0
extern "C" PyObject* OperationItemSupplier::createOrder(
  PyObject *self, PyObject *args, PyObject *kwdict
  )
{
  // Parse the Python arguments
  PyObject* pylocation = NULL;
  unsigned long id = 0;
  const char* ref = NULL;
  PyObject* pyitem = NULL;
  PyObject* pysupplier = NULL;
  double qty = 0;
  PyObject* pystart = NULL;
  PyObject* pyend = NULL;
  const char* status = NULL;
  const char* source = NULL;
  static const char *kwlist[] = {
    "location", "id", "reference", "item", "supplier", "quantity", "start",
    "end", "status", "source", NULL
    };
  int ok = PyArg_ParseTupleAndKeywords(
    args, kwdict, "|OkzOOdOOzz:createOrder", const_cast<char**>(kwlist),
    &pylocation, &id, &ref, &pyitem, &pysupplier, &qty, &pystart,
    &pyend, &status, &source
    );
  if (!ok)
    return NULL;
  Date start = pystart ? PythonData(pystart).getDate() : Date::infinitePast;
  Date end = pyend ? PythonData(pyend).getDate() : Date::infinitePast;

  // Validate all arguments
  if (!pylocation || !pyitem)
  {
    PyErr_SetString(PythonDataException, "item and location arguments are mandatory");
    return NULL;
  }
  PythonData location_tmp(pylocation);
  if (!location_tmp.check(Location::metadata))
  {
    PyErr_SetString(PythonDataException, "location argument must be of type location");
    return NULL;
  }
  PythonData item_tmp(pyitem);
  if (!item_tmp.check(Item::metadata))
  {
    PyErr_SetString(PythonDataException, "item argument must be of type item");
    return NULL;
  }
  PythonData supplier_tmp(pysupplier);
  if (pysupplier && !supplier_tmp.check(Supplier::metadata))
  {
    PyErr_SetString(PythonDataException, "supplier argument must be of type supplier");
    return NULL;
  }
  Item *item = static_cast<Item*>(item_tmp.getObject());
  Location *location = static_cast<Location*>(location_tmp.getObject());
  Supplier *supplier = pysupplier ? static_cast<Supplier*>(supplier_tmp.getObject()) : NULL;

  // Find or create the destination buffer.
  Buffer* destbuffer = NULL;
  for (Buffer::iterator bufiter = Buffer::begin(); bufiter != Buffer::end(); ++bufiter)
  {
    if (bufiter->getLocation() == location && bufiter->getItem() == item)
    {
      if (destbuffer)
      {
        stringstream o;
        o << "Multiple buffers found for item '" << item << "'' and location'" << location << "'";
        throw DataException(o.str());
      }
      destbuffer = &*bufiter;
    }
  }
  if (!destbuffer)
  {
    // Create the destination buffer
    destbuffer = new BufferDefault();
    stringstream o;
    o << item << " @ " << location;
    destbuffer->setName(o.str());
    destbuffer->setItem(item);
    destbuffer->setLocation(location);
  }

  // Look for a matching matching supplying operation on this buffer.
  // Here we also trigger the creation of its producing operation, which
  // contains the logic to build possible transfer operations.
  Operation *oper = NULL;
  Operation* prodOper = destbuffer->getProducingOperation();
  if (prodOper && prodOper->getType() == *OperationItemSupplier::metadata)
  {
    if (supplier)
    {
      if (supplier->isMemberOf(static_cast<OperationItemSupplier*>(prodOper)->getItemSupplier()->getSupplier()))
        oper = prodOper;
    }
    else
      oper = prodOper;
  }
  else if (prodOper && prodOper->getType() == *OperationAlternate::metadata)
  {
    SubOperation::iterator soperiter = prodOper->getSubOperationIterator();
    while (SubOperation *soper = soperiter.next())
    {
      if (soper->getType() == *OperationItemSupplier::metadata)
      {
        if (supplier)
        {
          if (supplier->isMemberOf(static_cast<OperationItemSupplier*>(prodOper)->getItemSupplier()->getSupplier()))
          {
            oper = soper->getOperation();
            break;
          }
        }
        else
        {
          oper = prodOper;
          break;
        }
      }
    }
  }

  // No matching operation is found.
  if (!oper)
  {
    // We'll create one now, but that requires that we have a supplier defined.
    if (!supplier)
      throw DataException("Supplier is needed on this purchase order");
    // Note: We know that we need to create a new one. An existing one would
    // have created an operation on the buffer already.
    ItemSupplier *itemsupplier = new ItemSupplier();
    itemsupplier->setSupplier(supplier);
    itemsupplier->setItem(item);
    itemsupplier->setLocation(location);
    oper = new OperationItemSupplier(itemsupplier, destbuffer);
    new ProblemInvalidData(oper, "Purchase orders on unauthorized supplier", "operation",
      Date::infinitePast, Date::infiniteFuture, 1);
  }

  // Finally, create the operationplan
  OperationPlan *opplan = oper->createOperationPlan(qty, start, end);
  if (status)
    opplan->setStatus(status);
  if (ref)
    opplan->setReference(ref);

  // Return result
  Py_INCREF(opplan);
  return opplan;
}