/usr/lib/python2.7/dist-packages/openpyxl/reader/worksheet.py is in python-openpyxl 2.3.0-3.
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# Copyright (c) 2010-2015 openpyxl
"""Reader for a single worksheet."""
from io import BytesIO
from warnings import warn
# compatibility imports
from openpyxl.xml.functions import iterparse
# package imports
from openpyxl.cell import Cell
from openpyxl.cell.read_only import _cast_number
from openpyxl.worksheet import Worksheet, ColumnDimension, RowDimension
from openpyxl.worksheet.page import PageMargins, PrintOptions, PrintPageSetup
from openpyxl.worksheet.protection import SheetProtection
from openpyxl.worksheet.views import SheetView
from openpyxl.worksheet.datavalidation import DataValidation
from openpyxl.xml.constants import (
SHEET_MAIN_NS,
REL_NS,
EXT_TYPES
)
from openpyxl.xml.functions import safe_iterator
from openpyxl.styles import Color
from openpyxl.formatting import ConditionalFormatting, Rule
from openpyxl.formula.translate import Translator
from openpyxl.worksheet.properties import WorksheetProperties
from openpyxl.utils import (
coordinate_from_string,
get_column_letter,
column_index_from_string,
coordinate_to_tuple,
)
from openpyxl.descriptors.excel import ExtensionList, Extension
def _get_xml_iter(xml_source):
"""
Possible inputs: strings, bytes, members of zipfile, temporary file
Always return a file like object
"""
if not hasattr(xml_source, 'read'):
try:
xml_source = xml_source.encode("utf-8")
except (AttributeError, UnicodeDecodeError):
pass
return BytesIO(xml_source)
else:
try:
xml_source.seek(0)
except:
pass
return xml_source
class WorkSheetParser(object):
COL_TAG = '{%s}col' % SHEET_MAIN_NS
ROW_TAG = '{%s}row' % SHEET_MAIN_NS
CELL_TAG = '{%s}c' % SHEET_MAIN_NS
VALUE_TAG = '{%s}v' % SHEET_MAIN_NS
FORMULA_TAG = '{%s}f' % SHEET_MAIN_NS
MERGE_TAG = '{%s}mergeCell' % SHEET_MAIN_NS
INLINE_STRING = "{%s}is/{%s}t" % (SHEET_MAIN_NS, SHEET_MAIN_NS)
INLINE_RICHTEXT = "{%s}is/{%s}r/{%s}t" % (SHEET_MAIN_NS, SHEET_MAIN_NS, SHEET_MAIN_NS)
def __init__(self, wb, title, xml_source, shared_strings):
self.ws = wb.create_sheet(title=title)
self.source = xml_source
self.shared_strings = shared_strings
self.guess_types = wb._guess_types
self.data_only = wb.data_only
self.styles = self.ws.parent._cell_styles
self.differential_styles = wb._differential_styles
self.keep_vba = wb.vba_archive is not None
self.shared_formula_masters = {} # {si_str: Translator()}
def parse(self):
dispatcher = {
'{%s}mergeCells' % SHEET_MAIN_NS: self.parse_merge,
'{%s}col' % SHEET_MAIN_NS: self.parse_column_dimensions,
'{%s}row' % SHEET_MAIN_NS: self.parse_row_dimensions,
'{%s}printOptions' % SHEET_MAIN_NS: self.parse_print_options,
'{%s}pageMargins' % SHEET_MAIN_NS: self.parse_margins,
'{%s}pageSetup' % SHEET_MAIN_NS: self.parse_page_setup,
'{%s}headerFooter' % SHEET_MAIN_NS: self.parse_header_footer,
'{%s}conditionalFormatting' % SHEET_MAIN_NS: self.parser_conditional_formatting,
'{%s}autoFilter' % SHEET_MAIN_NS: self.parse_auto_filter,
'{%s}sheetProtection' % SHEET_MAIN_NS: self.parse_sheet_protection,
'{%s}dataValidations' % SHEET_MAIN_NS: self.parse_data_validation,
'{%s}sheetPr' % SHEET_MAIN_NS: self.parse_properties,
'{%s}legacyDrawing' % SHEET_MAIN_NS: self.parse_legacy_drawing,
'{%s}sheetViews' % SHEET_MAIN_NS: self.parse_sheet_views,
'{%s}extLst' % SHEET_MAIN_NS: self.parse_extensions,
}
tags = dispatcher.keys()
stream = _get_xml_iter(self.source)
it = iterparse(stream, tag=tags)
for _, element in it:
tag_name = element.tag
if tag_name in dispatcher:
dispatcher[tag_name](element)
element.clear()
self.ws._current_row = self.ws.max_row
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')
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]
row, column = coordinate_to_tuple(coordinate)
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)
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'
else:
if data_type == 'inlineStr':
data_type = 's'
child = element.find(self.INLINE_STRING)
if child is None:
child = element.find(self.INLINE_RICHTEXT)
if child is not None:
value = child.text
if self.guess_types or value is None:
cell.value = value
else:
cell._value=value
cell.data_type=data_type
def parse_merge(self, element):
for mergeCell in safe_iterator(element, ('{%s}mergeCell' % SHEET_MAIN_NS)):
self.ws.merge_cells(mergeCell.get('ref'))
def parse_column_dimensions(self, col):
attrs = dict(col.attrib)
column = get_column_letter(int(attrs['min']))
attrs['index'] = column
if 'style' in attrs:
attrs['style'] = self.styles[int(attrs['style'])]
dim = ColumnDimension(self.ws, **attrs)
self.ws.column_dimensions[column] = dim
def parse_row_dimensions(self, row):
attrs = dict(row.attrib)
keys = set(attrs)
for key in keys:
if key == "s":
attrs['s'] = self.styles[int(attrs['s'])]
elif key.startswith('{'):
del attrs[key]
keys = set(attrs)
if keys != set(['r', 'spans']) and keys != set(['r']):
# don't create dimension objects unless they have relevant information
dim = RowDimension(self.ws, **attrs)
self.ws.row_dimensions[dim.index] = dim
for cell in safe_iterator(row, self.CELL_TAG):
self.parse_cell(cell)
def parse_print_options(self, element):
self.ws.print_options = PrintOptions.from_tree(element)
def parse_margins(self, element):
self.page_margins = PageMargins.from_tree(element)
def parse_page_setup(self, element):
self.ws.page_setup = PrintPageSetup.from_tree(element)
def parse_header_footer(self, element):
oddHeader = element.find('{%s}oddHeader' % SHEET_MAIN_NS)
if oddHeader is not None and oddHeader.text is not None:
self.ws.header_footer.setHeader(oddHeader.text)
oddFooter = element.find('{%s}oddFooter' % SHEET_MAIN_NS)
if oddFooter is not None and oddFooter.text is not None:
self.ws.header_footer.setFooter(oddFooter.text)
def parser_conditional_formatting(self, element):
range_string = element.get('sqref')
cfRules = element.findall('{%s}cfRule' % SHEET_MAIN_NS)
self.ws.conditional_formatting.cf_rules[range_string] = []
for node in cfRules:
rule = Rule.from_tree(node)
if rule.dxfId is not None:
rule.dxf = self.differential_styles[rule.dxfId]
self.ws.conditional_formatting.cf_rules[range_string].append(rule)
def parse_auto_filter(self, element):
self.ws.auto_filter.ref = element.get("ref")
for fc in safe_iterator(element, '{%s}filterColumn' % SHEET_MAIN_NS):
filters = fc.find('{%s}filters' % SHEET_MAIN_NS)
if filters is None:
continue
vals = [f.get("val") for f in safe_iterator(filters, '{%s}filter' % SHEET_MAIN_NS)]
blank = filters.get("blank")
self.ws.auto_filter.add_filter_column(fc.get("colId"), vals, blank=blank)
for sc in safe_iterator(element, '{%s}sortCondition' % SHEET_MAIN_NS):
self.ws.auto_filter.add_sort_condition(sc.get("ref"), sc.get("descending"))
def parse_sheet_protection(self, element):
self.ws.protection = SheetProtection.from_tree(element)
password = element.get("password")
if password is not None:
self.ws.protection.set_password(password, True)
def parse_data_validation(self, element):
for node in safe_iterator(element, "{%s}dataValidation" % SHEET_MAIN_NS):
dv = DataValidation.from_tree(node)
self.ws._data_validations.append(dv)
def parse_properties(self, element):
self.ws.sheet_properties = WorksheetProperties.from_tree(element)
def parse_legacy_drawing(self, element):
if self.keep_vba:
# Create an id that will not clash with any other ids that will
# be generated.
self.ws.vba_controls = 'vbaControlId'
def parse_sheet_views(self, element):
for el in element.findall("{%s}sheetView" % SHEET_MAIN_NS):
# according to the specification the last view wins
pass
self.ws.sheet_view = SheetView.from_tree(el)
def parse_extensions(self, element):
extLst = ExtensionList.from_tree(element)
for e in extLst.ext:
ext_type = EXT_TYPES.get(e.uri.upper(), "Unknown")
msg = "{0} extension is not supported and will be removed".format(ext_type)
warn(msg)
def fast_parse(xml_source, parent, sheet_title, shared_strings):
parser = WorkSheetParser(parent, sheet_title, xml_source, shared_strings)
parser.parse()
return parser.ws
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