Example #1
0
int CmdCustom::execute (std::string& output)
{
  int rc = 0;

  // Load report configuration.
  std::string reportColumns = context.config.get ("report." + _keyword + ".columns");
  std::string reportLabels  = context.config.get ("report." + _keyword + ".labels");
  std::string reportSort    = context.config.get ("report." + _keyword + ".sort");
  std::string reportFilter  = context.config.get ("report." + _keyword + ".filter");

  std::vector <std::string> columns;
  split (columns, reportColumns, ',');
  validateReportColumns (columns);

  std::vector <std::string> labels;
  split (labels, reportLabels, ',');

  if (columns.size () != labels.size () && labels.size () != 0)
    throw format (STRING_CMD_CUSTOM_MISMATCH, _keyword);

  std::map <std::string, std::string> columnLabels;
  if (labels.size ())
    for (unsigned int i = 0; i < columns.size (); ++i)
      columnLabels[columns[i]] = labels[i];

  std::vector <std::string> sortOrder;
  split (sortOrder, reportSort, ',');
  validateSortColumns (sortOrder);

  // Prepend the argument list with those from the report filter.
  std::vector <std::string> filterArgs;
  split (filterArgs, reportFilter, ' ');
  std::vector <std::string>::iterator arg;
  for (arg = filterArgs.begin (); arg != filterArgs.end (); ++ arg)
    context.a3.capture_first (*arg);

  context.a3.categorize ();

  // Load the data.
  handleRecurrence ();
  std::vector <Task> filtered;
  filter (filtered);

  // Sort the tasks.
  std::vector <int> sequence;
  for (unsigned int i = 0; i < filtered.size (); ++i)
    sequence.push_back (i);

  sort_tasks (filtered, sequence, reportSort);

  // Configure the view.
  ViewTask view;
  view.width (context.getWidth ());
  view.leftMargin (context.config.getInteger ("indent.report"));
  view.extraPadding (context.config.getInteger ("row.padding"));
  view.intraPadding (context.config.getInteger ("column.padding"));

  Color label (context.config.get ("color.label"));
  view.colorHeader (label);

  Color alternate (context.config.get ("color.alternate"));
  view.colorOdd (alternate);
  view.intraColorOdd (alternate);

  // Add the columns and labels.
  for (unsigned int i = 0; i < columns.size (); ++i)
  {
    Column* c = Column::factory (columns[i], _keyword);
    if (i < labels.size ())
      c->setLabel (labels[i]);
    view.add (c);
  }

  // How many lines taken up by table header?
  // TODO Consider rc.verbose
  int table_header = 0;
  if (context.verbose ("label"))
  {
    if (context.color () && context.config.getBoolean ("fontunderline"))
      table_header = 1;  // Underlining doesn't use extra line.
    else
      table_header = 2;  // Dashes use an extra line.
  }

  // Report output can be limited by rows or lines.
  int maxrows = 0;
  int maxlines = 0;
  getLimits (_keyword, maxrows, maxlines);

  // Adjust for fluff in the output.
  if (maxlines)
    maxlines -= (context.verbose ("blank") ? 1 : 0)
              + table_header
              + (context.verbose ("footnote") ? context.footnotes.size () : 0)
              + 1;  // "X tasks shown ..."

  // Render.
  std::stringstream out;
  if (filtered.size ())
  {
    view.truncateRows (maxrows);
    view.truncateLines (maxlines);

    out << optionalBlankLine ()
        << view.render (filtered, sequence)
        << optionalBlankLine ();

    if (context.verbose ("affected"))
      out << (filtered.size () == 1
                ? STRING_CMD_CUSTOM_COUNT
                : format (STRING_CMD_CUSTOM_COUNTN, filtered.size ()));

    // TODO Conditional
    if (maxrows && maxrows < (int)filtered.size ())
      out << ", " << format (STRING_CMD_CUSTOM_SHOWN, maxrows);

    // TODO Conditional
    if (maxlines && maxlines < (int)filtered.size ())
      out << ", "
          << format (STRING_CMD_CUSTOM_TRUNCATED, maxlines - table_header);

    if (context.verbose ("affected"))
      out << "\n";
  }
  else
  {
    context.footnote (STRING_FEEDBACK_NO_MATCH);
    rc = 1;
  }

  context.tdb2.commit ();
  output = out.str ();
  return rc;
}
Example #2
0
int CmdCustom::execute (std::string& output)
{
  int rc = 0;

  // Load report configuration.
  std::string reportColumns = context.config.get ("report." + _keyword + ".columns");
  std::string reportLabels  = context.config.get ("report." + _keyword + ".labels");
  std::string reportSort    = context.config.get ("report." + _keyword + ".sort");
  std::string reportFilter  = context.config.get ("report." + _keyword + ".filter");
  if (reportFilter != "")
    reportFilter = "( " + reportFilter + " )";

  std::vector <std::string> columns;
  split (columns, reportColumns, ',');
  validateReportColumns (columns);

  std::vector <std::string> labels;
  split (labels, reportLabels, ',');

  if (columns.size () != labels.size () && labels.size () != 0)
    throw format (STRING_CMD_CUSTOM_MISMATCH, _keyword);

  std::vector <std::string> sortOrder;
  split (sortOrder, reportSort, ',');
  validateSortColumns (sortOrder);

  // Prepend the argument list with those from the report filter.
  context.cli.addRawFilter (reportFilter);

  // Apply filter.
  handleRecurrence ();
  Filter filter;
  std::vector <Task> filtered;
  filter.subset (filtered);

  // Sort the tasks.
  std::vector <int> sequence;
  for (unsigned int i = 0; i < filtered.size (); ++i)
    sequence.push_back (i);

  sort_tasks (filtered, sequence, reportSort);

  // Configure the view.
  ViewTask view;
  view.width (context.getWidth ());
  view.leftMargin (context.config.getInteger ("indent.report"));
  view.extraPadding (context.config.getInteger ("row.padding"));
  view.intraPadding (context.config.getInteger ("column.padding"));

  Color label (context.config.get ("color.label"));
  view.colorHeader (label);

  Color label_sort (context.config.get ("color.label.sort"));
  view.colorSortHeader (label_sort);

  Color alternate (context.config.get ("color.alternate"));
  view.colorOdd (alternate);
  view.intraColorOdd (alternate);

  // Capture columns that are sorted.
  std::vector <std::string> sortColumns;

  // Add the break columns, if any.
  std::vector <std::string>::iterator so;
  for (so = sortOrder.begin (); so != sortOrder.end (); ++so)
  {
    std::string name;
    bool ascending;
    bool breakIndicator;
    context.decomposeSortField (*so, name, ascending, breakIndicator);

    if (breakIndicator)
      view.addBreak (name);

    sortColumns.push_back (name);
  }

  // Add the columns and labels.
  for (unsigned int i = 0; i < columns.size (); ++i)
  {
    Column* c = Column::factory (columns[i], _keyword);
    if (i < labels.size ())
      c->setLabel (labels[i]);

    bool sort = std::find (sortColumns.begin (), sortColumns.end (), c->name ()) != sortColumns.end ()
                  ? true
                  : false;

    view.add (c, sort);
  }

  // How many lines taken up by table header?
  int table_header = 0;
  if (context.verbose ("label"))
  {
    if (context.color () && context.config.getBoolean ("fontunderline"))
      table_header = 1;  // Underlining doesn't use extra line.
    else
      table_header = 2;  // Dashes use an extra line.
  }

  // Report output can be limited by rows or lines.
  int maxrows = 0;
  int maxlines = 0;
  context.getLimits (maxrows, maxlines);

  // Adjust for fluff in the output.
  if (maxlines)
    maxlines -= table_header
              + (context.verbose ("blank") ? 1 : 0)
              + (context.verbose ("footnote") ? context.footnotes.size () : 0)
              + (context.verbose ("affected") ? 1 : 0)
              + context.config.getInteger ("reserved.lines");  // For prompt, etc.

  // Render.
  std::stringstream out;
  if (filtered.size ())
  {
    view.truncateRows (maxrows);
    view.truncateLines (maxlines);

    out << optionalBlankLine ()
        << view.render (filtered, sequence)
        << optionalBlankLine ();

    // Print the number of rendered tasks
    if (context.verbose ("affected"))
    {
      out << (filtered.size () == 1
                ? STRING_CMD_CUSTOM_COUNT
                : format (STRING_CMD_CUSTOM_COUNTN, filtered.size ()));

      if (maxrows && maxrows < (int)filtered.size ())
        out << ", " << format (STRING_CMD_CUSTOM_SHOWN, maxrows);

      if (maxlines && maxlines < (int)filtered.size ())
        out << ", "
            << format (STRING_CMD_CUSTOM_TRUNCATED, maxlines - table_header);

      out << "\n";
    }
  }
  else
  {
    context.footnote (STRING_FEEDBACK_NO_MATCH);
    rc = 1;
  }

  feedback_backlog ();
  output = out.str ();
  return rc;
}
Example #3
0
int CmdCustom::execute (std::string& output)
{
  int rc = 0;

  // Load report configuration.
  std::string reportColumns = context.config.get ("report." + _keyword + ".columns");
  std::string reportLabels  = context.config.get ("report." + _keyword + ".labels");
  std::string reportSort    = context.config.get ("report." + _keyword + ".sort");
  std::string reportFilter  = context.config.get ("report." + _keyword + ".filter");

  std::vector <std::string> columns;
  split (columns, reportColumns, ',');
  validateReportColumns (columns);

  std::vector <std::string> labels;
  split (labels, reportLabels, ',');

  if (columns.size () != labels.size () && labels.size () != 0)
    throw format (STRING_CMD_CUSTOM_MISMATCH, _keyword);

  std::vector <std::string> sortOrder;
  split (sortOrder, reportSort, ',');
  if (sortOrder.size () != 0 &&
      sortOrder[0] != "none")
    validateSortColumns (sortOrder);

  // Add the report filter to any existing filter.
  if (reportFilter != "")
    context.cli2.addFilter (reportFilter);

  // Apply filter.
  handleRecurrence ();
  Filter filter;
  std::vector <Task> filtered;
  filter.subset (filtered);

  std::vector <int> sequence;
  if (sortOrder.size () &&
      sortOrder[0] == "none")
  {
    // Assemble a sequence vector that represents the tasks listed in
    // context.cli2._uuid_ranges, in the order in which they appear. This
    // equates to no sorting, just a specified order.
    sortOrder.clear ();
    for (auto& i : context.cli2._uuid_list)
      for (unsigned int t = 0; t < filtered.size (); ++t)
        if (filtered[t].get ("uuid") == i)
          sequence.push_back (t);
  }
  else
  {
    // There is a sortOrder, so sorting will take place, which means the initial
    // order of sequence is ascending.
    for (unsigned int i = 0; i < filtered.size (); ++i)
      sequence.push_back (i);

    // Sort the tasks.
    if (sortOrder.size ())
      sort_tasks (filtered, sequence, reportSort);
  }

  // Configure the view.
  ViewTask view;
  view.width (context.getWidth ());
  view.leftMargin (context.config.getInteger ("indent.report"));
  view.extraPadding (context.config.getInteger ("row.padding"));
  view.intraPadding (context.config.getInteger ("column.padding"));

  if (context.color ())
  {
    Color label (context.config.get ("color.label"));
    view.colorHeader (label);

    Color label_sort (context.config.get ("color.label.sort"));
    view.colorSortHeader (label_sort);

    // If an alternating row color is specified, notify the table.
    Color alternate (context.config.get ("color.alternate"));
    if (alternate.nontrivial ())
    {
      view.colorOdd (alternate);
      view.intraColorOdd (alternate);
    }
  }

  // Capture columns that are sorted.
  std::vector <std::string> sortColumns;

  // Add the break columns, if any.
  for (auto& so : sortOrder)
  {
    std::string name;
    bool ascending;
    bool breakIndicator;
    context.decomposeSortField (so, name, ascending, breakIndicator);

    if (breakIndicator)
      view.addBreak (name);

    sortColumns.push_back (name);
  }

  // Add the columns and labels.
  for (unsigned int i = 0; i < columns.size (); ++i)
  {
    Column* c = Column::factory (columns[i], _keyword);
    if (i < labels.size ())
      c->setLabel (labels[i]);

    bool sort = std::find (sortColumns.begin (), sortColumns.end (), c->name ()) != sortColumns.end ()
                  ? true
                  : false;

    view.add (c, sort);
  }

  // How many lines taken up by table header?
  int table_header = 0;
  if (context.verbose ("label"))
  {
    if (context.color () && context.config.getBoolean ("fontunderline"))
      table_header = 1;  // Underlining doesn't use extra line.
    else
      table_header = 2;  // Dashes use an extra line.
  }

  // Report output can be limited by rows or lines.
  int maxrows = 0;
  int maxlines = 0;
  context.getLimits (maxrows, maxlines);

  // Adjust for fluff in the output.
  if (maxlines)
    maxlines -= table_header
              + (context.verbose ("blank") ? 1 : 0)
              + (context.verbose ("footnote") ? context.footnotes.size () : 0)
              + (context.verbose ("affected") ? 1 : 0)
              + context.config.getInteger ("reserved.lines");  // For prompt, etc.

  // Render.
  std::stringstream out;
  if (filtered.size ())
  {
    view.truncateRows (maxrows);
    view.truncateLines (maxlines);

    out << optionalBlankLine ()
        << view.render (filtered, sequence)
        << optionalBlankLine ();

    // Print the number of rendered tasks
    if (context.verbose ("affected"))
    {
      out << (filtered.size () == 1
                ? STRING_CMD_CUSTOM_COUNT
                : format (STRING_CMD_CUSTOM_COUNTN, filtered.size ()));

      if (maxrows && maxrows < (int)filtered.size ())
        out << ", " << format (STRING_CMD_CUSTOM_SHOWN, maxrows);

      if (maxlines && maxlines < (int)filtered.size ())
        out << ", "
            << format (STRING_CMD_CUSTOM_TRUNCATED, maxlines - table_header);

      out << "\n";
    }
  }
  else
  {
    context.footnote (STRING_FEEDBACK_NO_MATCH);
    rc = 1;
  }

  feedback_backlog ();
  output = out.str ();
  return rc;
}