Ejemplo n.º 1
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def write_worksheet_sheetviews(doc, worksheet):
    start_tag(doc, 'sheetViews')
    start_tag(doc, 'sheetView', {'workbookViewId': '0'})
    selectionAttrs = {}
    topLeftCell = worksheet.freeze_panes
    if topLeftCell:
        colName, row = coordinate_from_string(topLeftCell)
        column = column_index_from_string(colName)
        pane = 'topRight'
        paneAttrs = {}
        if column > 1:
            paneAttrs['xSplit'] = str(column - 1)
        if row > 1:
            paneAttrs['ySplit'] = str(row - 1)
            pane = 'bottomLeft'
            if column > 1:
                pane = 'bottomRight'
        paneAttrs.update(dict(topLeftCell=topLeftCell,
                              activePane=pane,
                              state='frozen'))
        tag(doc, 'pane', paneAttrs)
        selectionAttrs['pane'] = pane
        if row > 1 and column > 1:
            tag(doc, 'selection', {'pane': 'topRight'})
            tag(doc, 'selection', {'pane': 'bottomLeft'})

    selectionAttrs.update({'activeCell': worksheet.active_cell,
                           'sqref': worksheet.selected_cell})

    tag(doc, 'selection', selectionAttrs)
    end_tag(doc, 'sheetView')
    end_tag(doc, 'sheetViews')
Ejemplo n.º 2
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def get_range_boundaries(range_string, row_offset=0, column_offset=1):

    if ':' in range_string:
        min_range, max_range = range_string.split(':')
        min_col, min_row = coordinate_from_string(min_range)
        max_col, max_row = coordinate_from_string(max_range)

        min_col = column_index_from_string(min_col)
        max_col = column_index_from_string(max_col) + 1

    else:
        min_col, min_row = coordinate_from_string(range_string)
        min_col = column_index_from_string(min_col)
        max_col = min_col + column_offset
        max_row = min_row + row_offset

    return (min_col, min_row, max_col, max_row)
Ejemplo n.º 3
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    def get_highest_column(self):
        """Get the largest value for column currently stored.

        :rtype: int
        """
        if self.column_dimensions:
            return max([
                column_index_from_string(column_index)
                for column_index in self.column_dimensions
            ])
        else:
            return 1
Ejemplo n.º 4
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    def unmerge_cells(self,
                      range_string=None,
                      start_row=None,
                      start_column=None,
                      end_row=None,
                      end_column=None):
        """ Remove merge on a cell range.  Range is a cell range (e.g. A1:E1) """
        if not range_string:
            if start_row is None or start_column is None or end_row is None or end_column is None:
                msg = "You have to provide a value either for "\
                      "'coordinate' or for 'start_row', 'start_column', 'end_row' *and* 'end_column'"
                raise InsufficientCoordinatesException(msg)
            else:
                range_string = '%s%s:%s%s' % (
                    get_column_letter(start_column + 1), start_row + 1,
                    get_column_letter(end_column + 1), end_row + 1)
        elif len(range_string.split(':')) != 2:
            msg = "Range must be a cell range (e.g. A1:E1)"
            raise InsufficientCoordinatesException(msg)
        else:
            range_string = range_string.replace('$', '')

        if range_string in self._merged_cells:
            self._merged_cells.remove(range_string)
            min_col, min_row = coordinate_from_string(
                range_string.split(':')[0])
            max_col, max_row = coordinate_from_string(
                range_string.split(':')[1])
            min_col = column_index_from_string(min_col)
            max_col = column_index_from_string(max_col)
            # Mark cell as unmerged
            for col in xrange(min_col, max_col + 1):
                for row in xrange(min_row, max_row + 1):
                    if not (row == min_row and col == min_col):
                        self._get_cell(
                            '%s%s' %
                            (get_column_letter(col), row)).merged = False
        else:
            msg = 'Cell range %s not known as merged.' % range_string
            raise InsufficientCoordinatesException(msg)
Ejemplo n.º 5
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    def merge_cells(self,
                    range_string=None,
                    start_row=None,
                    start_column=None,
                    end_row=None,
                    end_column=None):
        """ Set merge on a cell range.  Range is a cell range (e.g. A1:E1) """
        if not range_string:
            if start_row is None or start_column is None or end_row is None or end_column is None:
                msg = "You have to provide a value either for "\
                      "'coordinate' or for 'start_row', 'start_column', 'end_row' *and* 'end_column'"
                raise InsufficientCoordinatesException(msg)
            else:
                range_string = '%s%s:%s%s' % (
                    get_column_letter(start_column + 1), start_row + 1,
                    get_column_letter(end_column + 1), end_row + 1)
        elif len(range_string.split(':')) != 2:
            msg = "Range must be a cell range (e.g. A1:E1)"
            raise InsufficientCoordinatesException(msg)
        else:
            range_string = range_string.replace('$', '')

        # Make sure top_left cell exists - is this necessary?
        min_col, min_row = coordinate_from_string(range_string.split(':')[0])
        max_col, max_row = coordinate_from_string(range_string.split(':')[1])
        min_col = column_index_from_string(min_col)
        max_col = column_index_from_string(max_col)
        # Blank out the rest of the cells in the range
        for col in xrange(min_col, max_col + 1):
            for row in xrange(min_row, max_row + 1):
                if not (row == min_row and col == min_col):
                    # PHPExcel adds cell and specifically blanks it out if it doesn't exist
                    self._get_cell('%s%s' %
                                   (get_column_letter(col), row)).value = None
                    self._get_cell('%s%s' %
                                   (get_column_letter(col), row)).merged = True

        if range_string not in self._merged_cells:
            self._merged_cells.append(range_string)
Ejemplo n.º 6
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 def anchor(self, cell, anchortype="absolute"):
     """ anchors the image to the given cell
         optional parameter anchortype supports 'absolute' or 'oneCell'"""
     self.drawing.anchortype = anchortype
     if anchortype == "absolute":
         self.drawing.left, self.drawing.top = cell.anchor
         return ((cell.column, cell.row),
                 cell.parent.point_pos(
                     self.drawing.top + self.drawing.height,
                     self.drawing.left + self.drawing.width))
     elif anchortype == "oneCell":
         self.drawing.anchorcol = column_index_from_string(cell.column) - 1
         self.drawing.anchorrow = cell.row - 1
         return ((self.drawing.anchorcol, self.drawing.anchorrow), None)
     else:
         raise ValueError("unknown anchortype %s" % anchortype)
Ejemplo n.º 7
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def test_column_index(column, idx):
    assert column_index_from_string(column) == idx
Ejemplo n.º 8
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def test_bad_column_index(column):
    with pytest.raises(ValueError):
        column_index_from_string(column)
Ejemplo n.º 9
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    def range(self, range_string, row=0, column=0):
        """Returns a 2D array of cells, with optional row and column offsets.

        :param range_string: cell range string or `named range` name
        :type range_string: string

        :param row: number of rows to offset
        :type row: int

        :param column: number of columns to offset
        :type column: int

        :rtype: tuples of tuples of :class:`legacy_legacy_openpyxl.cell.Cell`

        """
        if ':' in range_string:
            # R1C1 range
            result = []
            min_range, max_range = range_string.split(':')
            min_col, min_row = coordinate_from_string(min_range)
            max_col, max_row = coordinate_from_string(max_range)
            if column:
                min_col = get_column_letter(
                    column_index_from_string(min_col) + column)
                max_col = get_column_letter(
                    column_index_from_string(max_col) + column)
            min_col = column_index_from_string(min_col)
            max_col = column_index_from_string(max_col)
            cache_cols = {}
            for col in xrange(min_col, max_col + 1):
                cache_cols[col] = get_column_letter(col)
            rows = xrange(min_row + row, max_row + row + 1)
            cols = xrange(min_col, max_col + 1)
            for row in rows:
                new_row = []
                for col in cols:
                    new_row.append(self.cell('%s%s' % (cache_cols[col], row)))
                result.append(tuple(new_row))
            return tuple(result)
        else:
            try:
                return self.cell(coordinate=range_string,
                                 row=row,
                                 column=column)
            except CellCoordinatesException:
                pass

            # named range
            named_range = self._parent.get_named_range(range_string)
            if named_range is None:
                msg = '%s is not a valid range name' % range_string
                raise NamedRangeException(msg)
            if isinstance(named_range, NamedRangeContainingValue):
                msg = '%s refers to a value, not a range' % range_string
                raise NamedRangeException(msg)

            result = []
            for destination in named_range.destinations:

                worksheet, cells_range = destination

                if worksheet is not self:
                    msg = 'Range %s is not defined on worksheet %s' % \
                            (cells_range, self.title)
                    raise NamedRangeException(msg)

                content = self.range(cells_range)

                if isinstance(content, tuple):
                    for cells in content:
                        result.extend(cells)
                else:
                    result.append(content)

            if len(result) == 1:
                return result[0]
            else:
                return tuple(result)
Ejemplo n.º 10
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 def get_highest_column(self):
     return column_index_from_string(self.max_col)
Ejemplo n.º 11
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def row_sort(cell):
    """Translate column names for sorting."""
    return column_index_from_string(cell.column)