bool
ASTPiecewiseFunctionNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  ASTBase * child = NULL;

  unsigned int numPiece = getNumPiece();
  unsigned int numChildrenAdded = 0;
  
  // read in piece
  // these are functions as they will be created as ASTQualifierNodes

  while(numChildrenAdded < numPiece)
  {
    child = new ASTFunction();
    read = child->read(stream, reqd_prefix);

    if (read == true && addChild(child, true) == LIBSBML_OPERATION_SUCCESS)
    {
      numChildrenAdded++;
    }
    else
    {
      read = false;
      break;
    }
  }

  // if there were no piece statements mark read true so we can continue
  if (numPiece == 0)
  {
    read = true;
  }


  if (read == true && getHasOtherwise() == true)
  {
    child = new ASTFunction();
    read = child->read(stream, reqd_prefix);
    
    if (read == true && addChild(child, true) == LIBSBML_OPERATION_SUCCESS)
    {
      numChildrenAdded++;
    }
    else
    {
      read = false;
    }
  }
  return read;
}
Exemplo n.º 2
0
bool
ASTUnaryFunctionNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  ASTBase * child = NULL;
  const XMLToken element = stream.peek ();

  ASTBase::checkPrefix(stream, reqd_prefix, element);

  const char*      name = element.getName().c_str();

  setType(getTypeFromName(name));
  ASTBase::read(stream, reqd_prefix);

  unsigned int numChildrenAdded = 0;

  if (getExpectedNumChildren() > 0)
  {
    while (stream.isGood() && numChildrenAdded < getExpectedNumChildren())
    {
      stream.skipText();

      name = stream.peek().getName().c_str();

      if (representsNumber(ASTBase::getTypeFromName(name)) == true)
      {
        child = new ASTNumber();
      }
      else 
      {
        child = new ASTFunction();
      }

      read = child->read(stream, reqd_prefix);

      stream.skipText();

      if (read == true && addChild(child) == LIBSBML_OPERATION_SUCCESS)
      {
        numChildrenAdded++;
      }
      else
      {
        delete child;
        child = NULL;
        read = false;
        break;
      }
    }
  }
  else
  {
    stream.skipPastEnd(element);
    read = true;
  }

  return read;
}
bool 
ASTSemanticsNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  ASTBase * child = NULL;
  const XMLToken element = stream.peek ();

  ASTBase::checkPrefix(stream, reqd_prefix, element);

  const char*      name;// = element.getName().c_str();
  if (stream.isGood())// && stream.peek().isEndFor(element) == false)
  {
    stream.skipText();

    name = stream.peek().getName().c_str();

    if (representsNumber(ASTBase::getTypeFromName(name)) == true)
    {
      child = new ASTNumber();
    }
    else 
    {
      child = new ASTFunction();
    }

    read = child->read(stream, reqd_prefix);

    stream.skipText();

    if (read == false || addChild(child) != LIBSBML_OPERATION_SUCCESS)
    {
      delete child;
      child = NULL;
      read = false;
    }
  }

  unsigned int i = 0;
  while ( i < getNumAnnotations())
  {
    if (stream.peek().getName() == "annotation"
      || stream.peek().getName() == "annotation-xml")
    {
      XMLNode semanticAnnotation = XMLNode(stream);
      addSemanticsAnnotation(semanticAnnotation.clone());
      i++;
    }
    else
    {
      stream.next();
    }
  }

  return true;
}
bool
ASTNaryFunctionNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  ASTBase * child = NULL;
  const XMLToken element = stream.peek ();

  ASTBase::checkPrefix(stream, reqd_prefix, element);

  const char*      name = element.getName().c_str();

  int type = getTypeFromName(name);
  setType(type);
  ASTBase::read(stream, reqd_prefix);

  unsigned int numChildrenAdded = 0;

  if (getExpectedNumChildren() > 0)
  {
    while (stream.isGood() && numChildrenAdded < getExpectedNumChildren())
    {
      stream.skipText();

      name = stream.peek().getName().c_str();

      if (representsNumber(ASTBase::getTypeFromName(name)) == true)
      {
        child = new ASTNumber();
      }
      else 
      {
        child = new ASTFunction();
      }

      read = child->read(stream, reqd_prefix);

      stream.skipText();

      if (read == true && addChild(child) == LIBSBML_OPERATION_SUCCESS)
      {
        numChildrenAdded++;
      }
      else
      {
        delete child;
        child = NULL;
        read = false;
        break;
      }
    }
  }
  else
  {
    stream.skipPastEnd(element);
    read = true;
  }

  if (read == true && type == AST_FUNCTION_ROOT 
    && getExpectedNumChildren() == 1 
    && ASTFunctionBase::getChild(0)->getType() != AST_QUALIFIER_DEGREE)
  {
    /* HACK TO REPLICATE OLD BEHAVIOUR */
    /* we need to add the qualifier child for the degree 2 */
    ASTFunction * degree = new ASTFunction(AST_QUALIFIER_DEGREE);
    ASTNumber * int2 = new ASTNumber(AST_INTEGER);
    int2->setInteger(2);
    degree->addChild(int2->deepCopy());
    this->prependChild(degree->deepCopy());
    delete int2;
    delete degree;

  }

  //if (read == false)
  //{
  //  stream.skipPastEnd(element);
  //}

  return read;
}
bool
ASTCSymbolDelayNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  XMLToken element = stream.peek ();
  const string&  nameE = element.getName();

  if (nameE != "csymbol")
  {
#if 0
    cout << "HELP\n";
#endif
    return read;
  }

  ASTBase::read(stream, reqd_prefix);

  const string nameDelay = trim( stream.next().getCharacters() );
    
  setName((nameDelay));
  ASTBase::setType(AST_FUNCTION_DELAY);

  stream.skipPastEnd(element);
  
  const char * name;
  ASTBase * child = NULL;

  unsigned int numChildrenAdded = 0;
  // catch if we do not have two children
  if (getExpectedNumChildren() > 0)
  {
    while (stream.isGood() && numChildrenAdded < getExpectedNumChildren())
    {
      stream.skipText();

      name = stream.peek().getName().c_str();

      if (representsNumber(ASTBase::getTypeFromName(name)) == true)
      {
        child = new ASTNumber();
      }
      else 
      {
        child = new ASTFunction();
      }

      read = child->read(stream, reqd_prefix);

      stream.skipText();

      if (read == true && addChild(child) == LIBSBML_OPERATION_SUCCESS)
      {
        numChildrenAdded++;
      }
      else
      {
        read = false;
        break;
      }
    }
  }
  else
  {
    stream.skipPastEnd(element);
    read = true;
  }

  return read;
}
bool
ASTLambdaFunctionNode::read(XMLInputStream& stream, const std::string& reqd_prefix)
{
  bool read = false;
  ASTBase * child = NULL;
  const char*      name;

  unsigned int numBvars = getNumBvars();
  unsigned int numChildrenAdded = 0;
 
  // read in bvars
  // these are functions as they will be created as ASTQualifierNodes
  while(numChildrenAdded < numBvars)
  {
    child = new ASTFunction();
    read = child->read(stream, reqd_prefix);

    if (read == true && addChild(child, true) == LIBSBML_OPERATION_SUCCESS)
    {
      numChildrenAdded++;
    }
    else
    {
      delete child;
      child = NULL;
      read = false;
      break;
    }
  }

  // if we had no bvars to read mark read as true so we will continue
  if (numBvars == 0)
  {
    read = true;
  }

  while (read == true && stream.isGood() 
                      && numChildrenAdded < getExpectedNumChildren())
  {
    stream.skipText();

    name = stream.peek().getName().c_str();

    if (representsNumber(ASTBase::getTypeFromName(name)) == true)
    {
      child = new ASTNumber();
    }
    else 
    {
      child = new ASTFunction();
    }

    /* read = */ child->read(stream, reqd_prefix);

    stream.skipText();

    if (addChild(child) == LIBSBML_OPERATION_SUCCESS)
    {
      numChildrenAdded++;
      read = true;
    }
    else
    {
      delete child;
      child = NULL;
      read = false;
      break;
    }
  }

  return read;
}