def freeze_panes(self, topLeftCell=None): if isinstance(topLeftCell, Cell): topLeftCell = topLeftCell.coordinate if topLeftCell == 'A1': topLeftCell = None if not topLeftCell: self.sheet_view.pane = None return row, column = coordinate_to_tuple(topLeftCell) view = self.sheet_view view.pane = Pane(topLeftCell=topLeftCell, activePane="topRight", state="frozen") view.selection[0].pane = "topRight" if column > 1: view.pane.xSplit = column - 1 if row > 1: view.pane.ySplit = row - 1 view.pane.activePane = 'bottomLeft' view.selection[0].pane = "bottomLeft" if column > 1: view.selection[0].pane = "bottomRight" view.pane.activePane = 'bottomRight' if row > 1 and column > 1: sel = list(view.selection) sel.insert(0, Selection(pane="topRight", activeCell=None, sqref=None)) sel.insert( 1, Selection(pane="bottomLeft", activeCell=None, sqref=None)) view.selection = sel
def translate_formula(self, dest=None, row=None, col=None): """ Convert the formula into A1 notation, or as row and column coordinates The formula is converted into A1 assuming it is assigned to the cell whose address is `dest` (no worksheet name). """ if not any([dest, row, col]): raise TypeError("You must provide coordinates for the target") tokens = self.get_tokens() if not tokens: return "" elif tokens[0].type == Token.LITERAL: return tokens[0].value out = ['='] # per the spec: # A compliant producer or consumer considers a defined name in the # range A1-XFD1048576 to be an error. All other names outside this # range can be defined as names and overrides a cell reference if an # ambiguity exists. (I.18.2.5) if dest: row, col = coordinate_to_tuple(dest) row_delta = row - self.row col_delta = col - self.col for token in tokens: if (token.type == Token.OPERAND and token.subtype == Token.RANGE): out.append( self.translate_range(token.value, row_delta, col_delta)) else: out.append(token.value) return "".join(out)
def collapse_cell_addresses(cells, input_ranges=()): """ Collapse a collection of cell co-ordinates down into an optimal range or collection of ranges. E.g. Cells A1, A2, A3, B1, B2 and B3 should have the data-validation object applied, attempt to collapse down to a single range, A1:B3. Currently only collapsing contiguous vertical ranges (i.e. above example results in A1:A3 B1:B3). """ ranges = list(input_ranges) # convert cell into row, col tuple raw_coords = (coordinate_to_tuple(cell) for cell in cells) # group by column in order grouped_coords = defaultdict(list) for row, col in sorted(raw_coords, key=itemgetter(1)): grouped_coords[col].append(row) # create range string from first and last row in column for col, cells in grouped_coords.items(): col = get_column_letter(col) fmt = "{0}{1}:{2}{3}" if len(cells) == 1: fmt = "{0}{1}" r = fmt.format(col, min(cells), col, max(cells)) ranges.append(r) return " ".join(ranges)
def _get_row(self, element, min_col=1, max_col=None, row_counter=None): """Return cells from a particular row""" col_counter = min_col data_only = getattr(self.parent, 'data_only', False) for cell in safe_iterator(element, CELL_TAG): coordinate = cell.get('r') if coordinate: row, column = coordinate_to_tuple(coordinate) else: row, column = row_counter, col_counter if max_col is not None and column > max_col: break if min_col <= column: if col_counter < column: for col_counter in range(max(col_counter, min_col), column): # pad row with missing cells yield EMPTY_CELL data_type = cell.get('t', 'n') style_id = int(cell.get('s', 0)) value = None formula = cell.findtext(FORMULA_TAG) if formula is not None and not data_only: data_type = 'f' value = "=%s" % formula elif data_type == 'inlineStr': child = cell.find(INLINE_TAG) if child is not None: richtext = Text.from_tree(child) value = richtext.content else: value = cell.findtext(VALUE_TAG) or None yield ReadOnlyCell(self, row, column, value, data_type, style_id) col_counter = column + 1 if max_col is not None: for _ in range(max(min_col, col_counter), max_col + 1): yield EMPTY_CELL
def _check_anchor(obj): """ Check whether an object has an existing Anchor object If not create a OneCellAnchor using the provided coordinate """ anchor = obj.anchor if not isinstance(anchor, _AnchorBase): row, col = coordinate_to_tuple(anchor) anchor = OneCellAnchor() anchor._from.row = row -1 anchor._from.col = col -1 if isinstance(obj, ChartBase): anchor.ext.width = cm_to_EMU(obj.width) anchor.ext.height = cm_to_EMU(obj.height) elif isinstance(obj, Image): anchor.ext.width = pixels_to_EMU(obj.width) anchor.ext.height = pixels_to_EMU(obj.height) return anchor
def __init__(self, formula, origin): # Excel errors out when a workbook has formulae in R1C1 notation, # regardless of the calcPr:refMode setting, so I'm assuming the # formulae stored in the workbook must be in A1 notation. self.row, self.col = coordinate_to_tuple(origin) self.tokenizer = Tokenizer(formula)
def __delitem__(self, key): row, column = coordinate_to_tuple(key) if (row, column) in self._cells: del self._cells[(row, column)]
def parse_cell(self, element): value = element.find(self.VALUE_TAG) if value is not None: value = value.text formula = element.find(self.FORMULA_TAG) data_type = element.get('t', 'n') coordinate = element.get('r') self._col_count += 1 style_id = element.get('s') # assign formula to cell value unless only the data is desired if formula is not None and not self.data_only: data_type = 'f' if formula.text: value = "=" + formula.text else: value = "=" formula_type = formula.get('t') if formula_type: if formula_type != "shared": self.ws.formula_attributes[coordinate] = dict( formula.attrib) else: si = formula.get( 'si') # Shared group index for shared formulas # The spec (18.3.1.40) defines shared formulae in # terms of the following: # # `master`: "The first formula in a group of shared # formulas" # `ref`: "Range of cells which the formula applies # to." It's a required attribute on the master # cell, forbidden otherwise. # `shared cell`: "A cell is shared only when si is # used and t is `shared`." # # Whether to use the cell's given formula or the # master's depends on whether the cell is shared, # whether it's in the ref, and whether it defines its # own formula, as follows: # # Shared? Has formula? | In ref Not in ref # ========= ==============|======== =============== # Yes Yes | master impl. defined # No Yes | own own # Yes No | master impl. defined # No No | ?? N/A # # The ?? is because the spec is silent on this issue, # though my inference is that the cell does not # receive a formula at all. # # For this implementation, we are using the master # formula in the two "impl. defined" cases and no # formula in the "??" case. This choice of # implementation allows us to disregard the `ref` # parameter altogether, and does not require # computing expressions like `C5 in A1:D6`. # Presumably, Excel does not generate spreadsheets # with such contradictions. if si in self.shared_formula_masters: trans = self.shared_formula_masters[si] value = trans.translate_formula(coordinate) else: self.shared_formula_masters[si] = Translator( value, coordinate) style_array = None if style_id is not None: style_id = int(style_id) style_array = self.styles[style_id] if coordinate: row, column = coordinate_to_tuple(coordinate) else: row, column = self._row_count, self._col_count cell = Cell(self.ws, row=row, col_idx=column, style_array=style_array) self.ws._cells[(row, column)] = cell if value is not None: if data_type == 'n': value = _cast_number(value) if is_date_format(cell.number_format): data_type = 'd' value = from_excel(value, self.epoch) elif data_type == 'b': value = bool(int(value)) elif data_type == 's': value = self.shared_strings[int(value)] elif data_type == 'str': data_type = 's' elif data_type == 'd': value = from_ISO8601(value) else: if data_type == 'inlineStr': child = element.find(self.INLINE_STRING) if child is not None: data_type = 's' richtext = Text.from_tree(child) value = richtext.content if self.guess_types or value is None: cell.value = value else: cell._value = value cell.data_type = data_type