Exemplo n.º 1
0
// extensible object test, BuildingSurface:Detailed
void IddFile_BuildingSurfaceDetailed(const IddFile& iddFile)
{
  string objectName("BuildingSurface:Detailed");
  OptionalIddObject object = iddFile.getObject(objectName);
  ASSERT_TRUE(object);
  EXPECT_TRUE(iequals(object->name(), objectName));
  ASSERT_TRUE(object->nonextensibleFields().size() > 0);
  EXPECT_EQ(object->nonextensibleFields().size(), static_cast<unsigned int>(10));
  EXPECT_FALSE(object->properties().format.empty());
  EXPECT_TRUE(iequals("vertices", object->properties().format));

  EXPECT_TRUE(object->properties().extensible);
  EXPECT_TRUE(object->properties().numExtensible);
  ASSERT_EQ(static_cast<unsigned int>(3), object->properties().numExtensible);

  EXPECT_FALSE(object->getField("Vertex 1 X-coordinate"));
  EXPECT_FALSE(object->getField("Vertex 1 X-coordinate"));

  ASSERT_TRUE(object->extensibleGroup().size() > 0);
  string fieldName("Vertex X-coordinate");
  EXPECT_TRUE(iequals(fieldName, object->extensibleGroup().front().name() ));
  OptionalIddField field = object->getField(fieldName);
  ASSERT_TRUE(field);
  EXPECT_TRUE(iequals(fieldName, field->name()));
  EXPECT_TRUE(field->properties().beginExtensible);

  fieldName = "Vertex Z-coordinate";
  EXPECT_TRUE(iequals(fieldName, object->extensibleGroup().back().name() ));
  field = object->getField(fieldName);
  ASSERT_TRUE(field);
  EXPECT_TRUE(iequals(fieldName, field->name()));
  EXPECT_FALSE(field->properties().beginExtensible);
}
Exemplo n.º 2
0
// case insensitive test
void IddFile_bUiLdInG(const IddFile& iddFile)
{
  string objectName("bUiLdInG");
  OptionalIddObject object = iddFile.getObject(objectName);
  ASSERT_TRUE(object);
  EXPECT_TRUE(iequals(object->name(), objectName));
  EXPECT_EQ(static_cast<unsigned int>(8),object->nonextensibleFields().size());
  EXPECT_TRUE(object->properties().unique);
  EXPECT_TRUE(object->properties().required);

  string fieldName("TeRrAiN");
  OptionalIddField field = object->getField(fieldName);
  ASSERT_TRUE(field);
  EXPECT_TRUE(iequals(field->name(), fieldName));
  EXPECT_EQ(field->keys().size(), static_cast<unsigned int>(5) );
  EXPECT_TRUE(field->properties().stringDefault);
  EXPECT_EQ(*(field->properties().stringDefault), "Suburbs");
  EXPECT_FALSE(field->properties().numericDefault);

  string keyName("SuBuRbS");
  OptionalIddKey key = field->getKey(keyName);
  ASSERT_TRUE(key);
  EXPECT_FALSE(equals(key->name(), keyName));
  EXPECT_TRUE(iequals(key->name(), keyName));
}
Exemplo n.º 3
0
// test single object, no fields
void IddFile_LeadInput(const IddFile& iddFile)
{
  string objectName("Lead Input");
  OptionalIddObject object = iddFile.getObject(objectName);
  ASSERT_TRUE(object);
  EXPECT_EQ(object->name(), objectName);
  EXPECT_TRUE(object->nonextensibleFields().empty() );
}
Exemplo n.º 4
0
// test single object, one alpha field, no keys
void IddFile_Version(const IddFile& iddFile)
{
  string objectName("Version");
  OptionalIddObject object = iddFile.getObject(objectName);
  ASSERT_TRUE(object);
  EXPECT_EQ(object->name(), objectName);
  EXPECT_EQ(static_cast<unsigned int>(1),object->nonextensibleFields().size());

  string fieldName("Version Identifier");
  OptionalIddField field = object->getField(fieldName);
  ASSERT_TRUE(field);
  EXPECT_EQ(field->name(), fieldName);
  EXPECT_TRUE(field->keys().empty());
}
Exemplo n.º 5
0
bool ImfFile::m_load(std::istream& is) {

  // keep track of line number in the Idf
  int lineNum = 0;

  // number of object in the Idf, 1 is first object
  int objectNum = 0;

  // temp string to read file
  std::string line;

  // this will contain matches to regular expressions
  boost::smatch matches;

  // keep running comment
  std::string comment;

  // keep track of the current section
  std::string section = "";

  // get CommentOnly IddObject
  OptionalIddObject commentOnlyIddObject;
  commentOnlyIddObject = IddFactory::instance().getObject(IddObjectType::CommentOnly);
  OS_ASSERT(commentOnlyIddObject);

  // Use a boost filter to make sure that no matter what line endings come in,
  // they are converted to what is expected by the current os
  boost::iostreams::filtering_istream filt;

//#ifdef _POSIX_VERSION
  filt.push(boost::iostreams::newline_filter(boost::iostreams::newline::posix));
//#else
//  filt.push(boost::iostreams::newline_filter(boost::iostreams::newline::dos));
//#endif
  filt.push(is);

  // read the rest of the file line by line
  // todo, do this by regex
  while (getline(filt, line)) {
    ++lineNum;

    if (boost::regex_match(line, idfRegex::commentOnlyLine())){
      // continue comment
      comment += (line + idfRegex::newLinestring());
      continue;

    }
    else if (boost::regex_match(line, commentRegex::whitespaceOnlyLine())){

      // end comment
      boost::trim(comment);

      if (!comment.empty()){
        // make a comment only object to hold the comment
        OptionalIdfObject commentOnlyObject;
        commentOnlyObject = IdfObject::load(commentOnlyIddObject->name() + ";" + comment,
                                            *commentOnlyIddObject);
        OS_ASSERT(commentOnlyObject);

        // put it in the object list
        m_sectionMap[section].push_back(*commentOnlyObject);
      }

      //clear out comment
      comment = "";

      continue;

    }
    else if (boost::regex_search(line, matches, idfRegex::imfSection())){

      // end comment
      boost::trim(comment);

      if (!comment.empty()){
        // make a comment only object to hold the comment
        OptionalIddObject commentOnlyIddObject = IddFactory::instance().getObject(IddObjectType::CommentOnly);
        OS_ASSERT(commentOnlyIddObject);

        OptionalIdfObject commentOnlyObject;
        commentOnlyObject = IdfObject::load(commentOnlyIddObject->name() + ";" + comment,
                                            *commentOnlyIddObject);
        OS_ASSERT(commentOnlyObject);

        // put it in the object list
        m_sectionMap[section].push_back(*commentOnlyObject);
      }

      //clear out comment
      comment = "";

      // get the new imf section
      section = std::string(matches[1].first, matches[1].second); boost::trim(section);

    }
    else if (boost::regex_search(line, matches, idfRegex::imfSectionEnd())) {
      // end comment
      boost::trim(comment);

      if (!comment.empty()){
        // make a comment only object to hold the comment
        OptionalIdfObject commentOnlyObject;
        commentOnlyObject = IdfObject::load(commentOnlyIddObject->name() + ";" + comment,
                                            *commentOnlyIddObject);
        OS_ASSERT(commentOnlyObject);

        // put it in the object list
        m_sectionMap[section].push_back(*commentOnlyObject);
      }

      //clear out comment
      comment = "";
    }
    else { // IdfObject

      bool foundEndLine(false);

      // a valid Idf object to parse
      ++objectNum;

      // peek at the object type and name for indexing in map
      std::string objectType;
      std::string objectName;
      //bool objectHasName(false);

      if (boost::regex_search(line, matches, idfRegex::objectTypeAndName())){
        objectType = std::string(matches[1].first, matches[1].second); boost::trim(objectType);
        objectName = std::string(matches[2].first, matches[2].second); boost::trim(objectType);
      }
      else if (boost::regex_search(line, matches, idfRegex::line())){
        // doesn't match name, just type
        objectType = std::string(matches[1].first, matches[1].second); boost::trim(objectType);
      }
      else{
        // can't figure out the object's type
        LOG(Warn, "Unrecognizable object type '" + line + "'. Defaulting to 'Catchall'.");
        objectType = "Catchall";
      }

      // get the corresponding idd object entry
      OptionalIddObject iddObject = m_iddFileAndFactoryWrapper.getObject(objectType);
      if (!iddObject){
        LOG(Warn, "Cannot find object type '" + objectType + "' in Idd. Placing data in Catchall object.");
        iddObject = IddObject();
        objectType = "Catchall";
      }

      // put the text for this object in a new string with a newline
      std::string text(line + idfRegex::newLinestring());

        // check if this line also matches closing line object
      if (boost::regex_match(line, idfRegex::objectEnd())){
        foundEndLine = true;
      }

      // continue reading until we have seen the entire object
      // last line will be thrown away, requires empty line between objects in Idf
      while((!foundEndLine) && (std::getline(filt, line))){
        ++lineNum;

        // add line to text, include newline separator
        text += (line + idfRegex::newLinestring());

        // check if we have found the last field
        if (boost::regex_match(line, idfRegex::objectEnd())){
            foundEndLine = true;
        }
      }

      // construct the object
      OptionalIdfObject object = IdfObject::load(text,*iddObject);
      if (!object) {
        LOG(Error,"Unable to construct IdfObject from text: " << std::endl << text 
            << std::endl << "Throwing this object out and parsing the remainder of the file.");
        continue;
      }

      // put it in the object list
      m_sectionMap[section].push_back(*object);
    }
  }

  return true;

}