python-xlrd 1.0.0-1 / usr / lib / python2.7 / dist-packages / xlrd / book.py

# Copyright (c) 2005-2012 Stephen John Machin, Lingfo Pty Ltd
# This module is part of the xlrd package, which is released under a
# BSD-style licence.

from __future__ import print_function

from .timemachine import *
from .biffh import *
import struct; unpack = struct.unpack
import sys
import time
from . import sheet
from . import compdoc
from .formula import *
from . import formatting
if sys.version.startswith("IronPython"):
    # print >> sys.stderr, "...importing encodings"
    import encodings

empty_cell = sheet.empty_cell # for exposure to the world ...

DEBUG = 0

USE_FANCY_CD = 1

TOGGLE_GC = 0
import gc
# gc.set_debug(gc.DEBUG_STATS)

try:
    import mmap
    MMAP_AVAILABLE = 1
except ImportError:
    MMAP_AVAILABLE = 0
USE_MMAP = MMAP_AVAILABLE

MY_EOF = 0xF00BAAA # not a 16-bit number

SUPBOOK_UNK, SUPBOOK_INTERNAL, SUPBOOK_EXTERNAL, SUPBOOK_ADDIN, SUPBOOK_DDEOLE = range(5)

SUPPORTED_VERSIONS = (80, 70, 50, 45, 40, 30, 21, 20)

_code_from_builtin_name = {
    "Consolidate_Area": "\x00",
    "Auto_Open":        "\x01",
    "Auto_Close":       "\x02",
    "Extract":          "\x03",
    "Database":         "\x04",
    "Criteria":         "\x05",
    "Print_Area":       "\x06",
    "Print_Titles":     "\x07",
    "Recorder":         "\x08",
    "Data_Form":        "\x09",
    "Auto_Activate":    "\x0A",
    "Auto_Deactivate":  "\x0B",
    "Sheet_Title":      "\x0C",
    "_FilterDatabase":  "\x0D",
    }
builtin_name_from_code = {}
code_from_builtin_name = {}
for _bin, _bic in _code_from_builtin_name.items():
    _bin = UNICODE_LITERAL(_bin)
    _bic = UNICODE_LITERAL(_bic)
    code_from_builtin_name[_bin] = _bic
    builtin_name_from_code[_bic] = _bin
del _bin, _bic, _code_from_builtin_name

def open_workbook_xls(filename=None,
    logfile=sys.stdout, verbosity=0, use_mmap=USE_MMAP,
    file_contents=None,
    encoding_override=None,
    formatting_info=False, on_demand=False, ragged_rows=False,
    ):
    t0 = time.clock()
    if TOGGLE_GC:
        orig_gc_enabled = gc.isenabled()
        if orig_gc_enabled:
            gc.disable()
    bk = Book()
    try:
        bk.biff2_8_load(
            filename=filename, file_contents=file_contents,
            logfile=logfile, verbosity=verbosity, use_mmap=use_mmap,
            encoding_override=encoding_override,
            formatting_info=formatting_info,
            on_demand=on_demand,
            ragged_rows=ragged_rows,
            )
        t1 = time.clock()
        bk.load_time_stage_1 = t1 - t0
        biff_version = bk.getbof(XL_WORKBOOK_GLOBALS)
        if not biff_version:
            raise XLRDError("Can't determine file's BIFF version")
        if biff_version not in SUPPORTED_VERSIONS:
            raise XLRDError(
                "BIFF version %s is not supported"
                % biff_text_from_num[biff_version]
                )
        bk.biff_version = biff_version
        if biff_version <= 40:
            # no workbook globals, only 1 worksheet
            if on_demand:
                fprintf(bk.logfile,
                    "*** WARNING: on_demand is not supported for this Excel version.\n"
                    "*** Setting on_demand to False.\n")
                bk.on_demand = on_demand = False
            bk.fake_globals_get_sheet()
        elif biff_version == 45:
            # worksheet(s) embedded in global stream
            bk.parse_globals()
            if on_demand:
                fprintf(bk.logfile, "*** WARNING: on_demand is not supported for this Excel version.\n"
                                    "*** Setting on_demand to False.\n")
                bk.on_demand = on_demand = False
        else:
            bk.parse_globals()
            bk._sheet_list = [None for sh in bk._sheet_names]
            if not on_demand:
                bk.get_sheets()
        bk.nsheets = len(bk._sheet_list)
        if biff_version == 45 and bk.nsheets > 1:
            fprintf(bk.logfile,
                "*** WARNING: Excel 4.0 workbook (.XLW) file contains %d worksheets.\n"
                "*** Book-level data will be that of the last worksheet.\n",
                bk.nsheets
                )
        if TOGGLE_GC:
            if orig_gc_enabled:
                gc.enable()
        t2 = time.clock()
        bk.load_time_stage_2 = t2 - t1
    except:
        bk.release_resources()
        raise
    # normal exit
    if not on_demand:
        bk.release_resources()
    return bk

##
# For debugging: dump the file's BIFF records in char & hex.
# @param filename The path to the file to be dumped.
# @param outfile An open file, to which the dump is written.
# @param unnumbered If true, omit offsets (for meaningful diffs).

def dump(filename, outfile=sys.stdout, unnumbered=False):
    bk = Book()
    bk.biff2_8_load(filename=filename, logfile=outfile, )
    biff_dump(bk.mem, bk.base, bk.stream_len, 0, outfile, unnumbered)

##
# For debugging and analysis: summarise the file's BIFF records.
# I.e. produce a sorted file of (record_name, count).
# @param filename The path to the file to be summarised.
# @param outfile An open file, to which the summary is written.

def count_records(filename, outfile=sys.stdout):
    bk = Book()
    bk.biff2_8_load(filename=filename, logfile=outfile, )
    biff_count_records(bk.mem, bk.base, bk.stream_len, outfile)

##
# Information relating to a named reference, formula, macro, etc.
# <br />  -- New in version 0.6.0
# <br />  -- <i>Name information is <b>not</b> extracted from files older than
# Excel 5.0 (Book.biff_version < 50)</i>

class Name(BaseObject):

    _repr_these = ['stack']
    book = None # parent

    ##
    # 0 = Visible; 1 = Hidden
    hidden = 0

    ##
    # 0 = Command macro; 1 = Function macro. Relevant only if macro == 1
    func = 0

    ##
    # 0 = Sheet macro; 1 = VisualBasic macro. Relevant only if macro == 1
    vbasic = 0

    ##
    # 0 = Standard name; 1 = Macro name
    macro = 0

    ##
    # 0 = Simple formula; 1 = Complex formula (array formula or user defined)<br />
    # <i>No examples have been sighted.</i>
    complex = 0

    ##
    # 0 = User-defined name; 1 = Built-in name
    # (common examples: Print_Area, Print_Titles; see OOo docs for full list)
    builtin = 0

    ##
    # Function group. Relevant only if macro == 1; see OOo docs for values.
    funcgroup = 0

    ##
    # 0 = Formula definition; 1 = Binary data<br />  <i>No examples have been sighted.</i>
    binary = 0

    ##
    # The index of this object in book.name_obj_list
    name_index = 0

    ##
    # A Unicode string. If builtin, decoded as per OOo docs.
    name = UNICODE_LITERAL("")

    ##
    # An 8-bit string.
    raw_formula = b''

    ##
    # -1: The name is global (visible in all calculation sheets).<br />
    # -2: The name belongs to a macro sheet or VBA sheet.<br />
    # -3: The name is invalid.<br />
    # 0 <= scope < book.nsheets: The name is local to the sheet whose index is scope.
    scope = -1

    ##
    # The result of evaluating the formula, if any.
    # If no formula, or evaluation of the formula encountered problems,
    # the result is None. Otherwise the result is a single instance of the
    # Operand class.
    #
    result = None

    ##
    # This is a convenience method for the frequent use case where the name
    # refers to a single cell.
    # @return An instance of the Cell class.
    # @throws XLRDError The name is not a constant absolute reference
    # to a single cell.
    def cell(self):
        res = self.result
        if res:
            # result should be an instance of the Operand class
            kind = res.kind
            value = res.value
            if kind == oREF and len(value) == 1:
                ref3d = value[0]
                if (0 <= ref3d.shtxlo == ref3d.shtxhi - 1
                and      ref3d.rowxlo == ref3d.rowxhi - 1
                and      ref3d.colxlo == ref3d.colxhi - 1):
                    sh = self.book.sheet_by_index(ref3d.shtxlo)
                    return sh.cell(ref3d.rowxlo, ref3d.colxlo)
        self.dump(self.book.logfile,
            header="=== Dump of Name object ===",
            footer="======= End of dump =======",
            )
        raise XLRDError("Not a constant absolute reference to a single cell")

    ##
    # This is a convenience method for the use case where the name
    # refers to one rectangular area in one worksheet.
    # @param clipped If true (the default), the returned rectangle is clipped
    # to fit in (0, sheet.nrows, 0, sheet.ncols) -- it is guaranteed that
    # 0 <= rowxlo <= rowxhi <= sheet.nrows and that the number of usable rows
    # in the area (which may be zero) is rowxhi - rowxlo; likewise for columns.
    # @return a tuple (sheet_object, rowxlo, rowxhi, colxlo, colxhi).
    # @throws XLRDError The name is not a constant absolute reference
    # to a single area in a single sheet.
    def area2d(self, clipped=True):
        res = self.result
        if res:
            # result should be an instance of the Operand class
            kind = res.kind
            value = res.value
            if kind == oREF and len(value) == 1: # only 1 reference
                ref3d = value[0]
                if 0 <= ref3d.shtxlo == ref3d.shtxhi - 1: # only 1 usable sheet
                    sh = self.book.sheet_by_index(ref3d.shtxlo)
                    if not clipped:
                        return sh, ref3d.rowxlo, ref3d.rowxhi, ref3d.colxlo, ref3d.colxhi
                    rowxlo = min(ref3d.rowxlo, sh.nrows)
                    rowxhi = max(rowxlo, min(ref3d.rowxhi, sh.nrows))
                    colxlo = min(ref3d.colxlo, sh.ncols)
                    colxhi = max(colxlo, min(ref3d.colxhi, sh.ncols))
                    assert 0 <= rowxlo <= rowxhi <= sh.nrows
                    assert 0 <= colxlo <= colxhi <= sh.ncols
                    return sh, rowxlo, rowxhi, colxlo, colxhi
        self.dump(self.book.logfile,
            header="=== Dump of Name object ===",
            footer="======= End of dump =======",
            )
        raise XLRDError("Not a constant absolute reference to a single area in a single sheet")

##
# Contents of a "workbook".
# <p>WARNING: You don't call this class yourself. You use the Book object that
# was returned when you called xlrd.open_workbook("myfile.xls").</p>

class Book(BaseObject):

    ##
    # The number of worksheets present in the workbook file.
    # This information is available even when no sheets have yet been loaded.
    nsheets = 0

    ##
    # Which date system was in force when this file was last saved.<br />
    #    0 => 1900 system (the Excel for Windows default).<br />
    #    1 => 1904 system (the Excel for Macintosh default).<br />
    datemode = 0 # In case it's not specified in the file.

    ##
    # Version of BIFF (Binary Interchange File Format) used to create the file.
    # Latest is 8.0 (represented here as 80), introduced with Excel 97.
    # Earliest supported by this module: 2.0 (represented as 20).
    biff_version = 0

    ##
    # List containing a Name object for each NAME record in the workbook.
    # <br />  -- New in version 0.6.0
    name_obj_list = []

    ##
    # An integer denoting the character set used for strings in this file.
    # For BIFF 8 and later, this will be 1200, meaning Unicode; more precisely, UTF_16_LE.
    # For earlier versions, this is used to derive the appropriate Python encoding
    # to be used to convert to Unicode.
    # Examples: 1252 -> 'cp1252', 10000 -> 'mac_roman'
    codepage = None

    ##
    # The encoding that was derived from the codepage.
    encoding = None

    ##
    # A tuple containing the (telephone system) country code for:<br />
    #    [0]: the user-interface setting when the file was created.<br />
    #    [1]: the regional settings.<br />
    # Example: (1, 61) meaning (USA, Australia).
    # This information may give a clue to the correct encoding for an unknown codepage.
    # For a long list of observed values, refer to the OpenOffice.org documentation for
    # the COUNTRY record.
    countries = (0, 0)

    ##
    # What (if anything) is recorded as the name of the last user to save the file.
    user_name = UNICODE_LITERAL('')

    ##
    # A list of Font class instances, each corresponding to a FONT record.
    # <br /> -- New in version 0.6.1
    font_list = []

    ##
    # A list of XF class instances, each corresponding to an XF record.
    # <br /> -- New in version 0.6.1
    xf_list = []

    ##
    # A list of Format objects, each corresponding to a FORMAT record, in
    # the order that they appear in the input file.
    # It does <i>not</i> contain builtin formats.
    # If you are creating an output file using (for example) pyExcelerator,
    # use this list.
    # The collection to be used for all visual rendering purposes is format_map.
    # <br /> -- New in version 0.6.1
    format_list = []

    ##
    # The mapping from XF.format_key to Format object.
    # <br /> -- New in version 0.6.1
    format_map = {}

    ##
    # This provides access via name to the extended format information for
    # both built-in styles and user-defined styles.<br />
    # It maps <i>name</i> to (<i>built_in</i>, <i>xf_index</i>), where:<br />
    # <i>name</i> is either the name of a user-defined style,
    # or the name of one of the built-in styles. Known built-in names are
    # Normal, RowLevel_1 to RowLevel_7,
    # ColLevel_1 to ColLevel_7, Comma, Currency, Percent, "Comma [0]",
    # "Currency [0]", Hyperlink, and "Followed Hyperlink".<br />
    # <i>built_in</i> 1 = built-in style, 0 = user-defined<br />
    # <i>xf_index</i> is an index into Book.xf_list.<br />
    # References: OOo docs s6.99 (STYLE record); Excel UI Format/Style
    # <br /> -- New in version 0.6.1; since 0.7.4, extracted only if
    # open_workbook(..., formatting_info=True)
    style_name_map = {}

    ##
    # This provides definitions for colour indexes. Please refer to the
    # above section "The Palette; Colour Indexes" for an explanation
    # of how colours are represented in Excel.<br />
    # Colour indexes into the palette map into (red, green, blue) tuples.
    # "Magic" indexes e.g. 0x7FFF map to None.
    # <i>colour_map</i> is what you need if you want to render cells on screen or in a PDF
    # file. If you are writing an output XLS file, use <i>palette_record</i>.
    # <br /> -- New in version 0.6.1. Extracted only if open_workbook(..., formatting_info=True)
    colour_map = {}

    ##
    # If the user has changed any of the colours in the standard palette, the XLS
    # file will contain a PALETTE record with 56 (16 for Excel 4.0 and earlier)
    # RGB values in it, and this list will be e.g. [(r0, b0, g0), ..., (r55, b55, g55)].
    # Otherwise this list will be empty. This is what you need if you are
    # writing an output XLS file. If you want to render cells on screen or in a PDF
    # file, use colour_map.
    # <br /> -- New in version 0.6.1. Extracted only if open_workbook(..., formatting_info=True)
    palette_record = []

    ##
    # Time in seconds to extract the XLS image as a contiguous string (or mmap equivalent).
    load_time_stage_1 = -1.0

    ##
    # Time in seconds to parse the data from the contiguous string (or mmap equivalent).
    load_time_stage_2 = -1.0

    ##
    # @return A list of all sheets in the book.
    # All sheets not already loaded will be loaded.
    def sheets(self):
        for sheetx in xrange(self.nsheets):
            if not self._sheet_list[sheetx]:
                self.get_sheet(sheetx)
        return self._sheet_list[:]

    ##
    # @param sheetx Sheet index in range(nsheets)
    # @return An object of the Sheet class
    def sheet_by_index(self, sheetx):
        return self._sheet_list[sheetx] or self.get_sheet(sheetx)

    ##
    # @param sheet_name Name of sheet required
    # @return An object of the Sheet class
    def sheet_by_name(self, sheet_name):
        try:
            sheetx = self._sheet_names.index(sheet_name)
        except ValueError:
            raise XLRDError('No sheet named <%r>' % sheet_name)
        return self.sheet_by_index(sheetx)

    ##
    # @return A list of the names of all the worksheets in the workbook file.
    # This information is available even when no sheets have yet been loaded.
    def sheet_names(self):
        return self._sheet_names[:]

    ##
    # @param sheet_name_or_index Name or index of sheet enquired upon
    # @return true if sheet is loaded, false otherwise
    # <br />  -- New in version 0.7.1
    def sheet_loaded(self, sheet_name_or_index):
        if isinstance(sheet_name_or_index, int):
            sheetx = sheet_name_or_index
        else:
            try:
                sheetx = self._sheet_names.index(sheet_name_or_index)
            except ValueError:
                raise XLRDError('No sheet named <%r>' % sheet_name_or_index)
        return bool(self._sheet_list[sheetx])

    ##
    # @param sheet_name_or_index Name or index of sheet to be unloaded.
    # <br />  -- New in version 0.7.1
    def unload_sheet(self, sheet_name_or_index):
        if isinstance(sheet_name_or_index, int):
            sheetx = sheet_name_or_index
        else:
            try:
                sheetx = self._sheet_names.index(sheet_name_or_index)
            except ValueError:
                raise XLRDError('No sheet named <%r>' % sheet_name_or_index)
        self._sheet_list[sheetx] = None
        
    ##
    # This method has a dual purpose. You can call it to release
    # memory-consuming objects and (possibly) a memory-mapped file
    # (mmap.mmap object) when you have finished loading sheets in
    # on_demand mode, but still require the Book object to examine the
    # loaded sheets. It is also called automatically (a) when open_workbook
    # raises an exception and (b) if you are using a "with" statement, when 
    # the "with" block is exited. Calling this method multiple times on the 
    # same object has no ill effect.
    def release_resources(self):
        self._resources_released = 1
        if hasattr(self.mem, "close"):
            # must be a mmap.mmap object
            self.mem.close()
        self.mem = None
        if hasattr(self.filestr, "close"):
            self.filestr.close()
        self.filestr = None
        self._sharedstrings = None
        self._rich_text_runlist_map = None
    
    def __enter__(self):
        return self
        
    def __exit__(self, exc_type, exc_value, exc_tb):
        self.release_resources()
        # return false        

    ##
    # A mapping from (lower_case_name, scope) to a single Name object.
    # <br />  -- New in version 0.6.0
    name_and_scope_map = {}

    ##
    # A mapping from lower_case_name to a list of Name objects. The list is
    # sorted in scope order. Typically there will be one item (of global scope)
    # in the list.
    # <br />  -- New in version 0.6.0
    name_map = {}

    def __init__(self):
        self._sheet_list = []
        self._sheet_names = []
        self._sheet_visibility = [] # from BOUNDSHEET record
        self.nsheets = 0
        self._sh_abs_posn = [] # sheet's absolute position in the stream
        self._sharedstrings = []
        self._rich_text_runlist_map = {}
        self.raw_user_name = False
        self._sheethdr_count = 0 # BIFF 4W only
        self.builtinfmtcount = -1 # unknown as yet. BIFF 3, 4S, 4W
        self.initialise_format_info()
        self._all_sheets_count = 0 # includes macro & VBA sheets
        self._supbook_count = 0
        self._supbook_locals_inx = None
        self._supbook_addins_inx = None
        self._all_sheets_map = [] # maps an all_sheets index to a calc-sheets index (or -1)
        self._externsheet_info = []
        self._externsheet_type_b57 = []
        self._extnsht_name_from_num = {}
        self._sheet_num_from_name = {}
        self._extnsht_count = 0
        self._supbook_types = []
        self._resources_released = 0
        self.addin_func_names = []
        self.name_obj_list = []
        self.colour_map = {}
        self.palette_record = []
        self.xf_list = []
        self.style_name_map = {}
        self.mem = b''
        self.filestr = b''

    def biff2_8_load(self, filename=None, file_contents=None,
        logfile=sys.stdout, verbosity=0, use_mmap=USE_MMAP,
        encoding_override=None,
        formatting_info=False,
        on_demand=False,
        ragged_rows=False,
        ):
        # DEBUG = 0
        self.logfile = logfile
        self.verbosity = verbosity
        self.use_mmap = use_mmap and MMAP_AVAILABLE
        self.encoding_override = encoding_override
        self.formatting_info = formatting_info
        self.on_demand = on_demand
        self.ragged_rows = ragged_rows

        if not file_contents:
            with open(filename, "rb") as f:
                f.seek(0, 2) # EOF
                size = f.tell()
                f.seek(0, 0) # BOF
                if size == 0:
                    raise XLRDError("File size is 0 bytes")
                if self.use_mmap:
                    self.filestr = mmap.mmap(f.fileno(), size, access=mmap.ACCESS_READ)
                    self.stream_len = size
                else:
                    self.filestr = f.read()
                    self.stream_len = len(self.filestr)
        else:
            self.filestr = file_contents
            self.stream_len = len(file_contents)

        self.base = 0
        if self.filestr[:8] != compdoc.SIGNATURE:
            # got this one at the antique store
            self.mem = self.filestr
        else:
            cd = compdoc.CompDoc(self.filestr, logfile=self.logfile)
            if USE_FANCY_CD:
                for qname in ['Workbook', 'Book']:
                    self.mem, self.base, self.stream_len = \
                                cd.locate_named_stream(UNICODE_LITERAL(qname))
                    if self.mem: break
                else:
                    raise XLRDError("Can't find workbook in OLE2 compound document")
            else:
                for qname in ['Workbook', 'Book']:
                    self.mem = cd.get_named_stream(UNICODE_LITERAL(qname))
                    if self.mem: break
                else:
                    raise XLRDError("Can't find workbook in OLE2 compound document")
                self.stream_len = len(self.mem)
            del cd
            if self.mem is not self.filestr:
                if hasattr(self.filestr, "close"):
                    self.filestr.close()
                self.filestr = b''
        self._position = self.base
        if DEBUG:
            print("mem: %s, base: %d, len: %d" % (type(self.mem), self.base, self.stream_len), file=self.logfile)

    def initialise_format_info(self):
        # needs to be done once per sheet for BIFF 4W :-(
        self.format_map = {}
        self.format_list = []
        self.xfcount = 0
        self.actualfmtcount = 0 # number of FORMAT records seen so far
        self._xf_index_to_xl_type_map = {0: XL_CELL_NUMBER}
        self._xf_epilogue_done = 0
        self.xf_list = []
        self.font_list = []

    def get2bytes(self):
        pos = self._position
        buff_two = self.mem[pos:pos+2]
        lenbuff = len(buff_two)
        self._position += lenbuff
        if lenbuff < 2:
            return MY_EOF
        lo, hi = buff_two
        return (BYTES_ORD(hi) << 8) | BYTES_ORD(lo)

    def get_record_parts(self):
        pos = self._position
        mem = self.mem
        code, length = unpack('<HH', mem[pos:pos+4])
        pos += 4
        data = mem[pos:pos+length]
        self._position = pos + length
        return (code, length, data)

    def get_record_parts_conditional(self, reqd_record):
        pos = self._position
        mem = self.mem
        code, length = unpack('<HH', mem[pos:pos+4])
        if code != reqd_record:
            return (None, 0, b'')
        pos += 4
        data = mem[pos:pos+length]
        self._position = pos + length
        return (code, length, data)

    def get_sheet(self, sh_number, update_pos=True):
        if self._resources_released:
            raise XLRDError("Can't load sheets after releasing resources.")
        if update_pos:
            self._position = self._sh_abs_posn[sh_number]
        _unused_biff_version = self.getbof(XL_WORKSHEET)
        # assert biff_version == self.biff_version ### FAILS
        # Have an example where book is v7 but sheet reports v8!!!
        # It appears to work OK if the sheet version is ignored.
        # Confirmed by Daniel Rentz: happens when Excel does "save as"
        # creating an old version file; ignore version details on sheet BOF.
        sh = sheet.Sheet(self,
                self._position,
                self._sheet_names[sh_number],
                sh_number,
                )
        sh.read(self)
        self._sheet_list[sh_number] = sh
        return sh

    def get_sheets(self):
        # DEBUG = 0
        if DEBUG: print("GET_SHEETS:", self._sheet_names, self._sh_abs_posn, file=self.logfile)
        for sheetno in xrange(len(self._sheet_names)):
            if DEBUG: print("GET_SHEETS: sheetno =", sheetno, self._sheet_names, self._sh_abs_posn, file=self.logfile)
            self.get_sheet(sheetno)

    def fake_globals_get_sheet(self): # for BIFF 4.0 and earlier
        formatting.initialise_book(self)
        fake_sheet_name = UNICODE_LITERAL('Sheet 1')
        self._sheet_names = [fake_sheet_name]
        self._sh_abs_posn = [0]
        self._sheet_visibility = [0] # one sheet, visible
        self._sheet_list.append(None) # get_sheet updates _sheet_list but needs a None beforehand
        self.get_sheets()

    def handle_boundsheet(self, data):
        # DEBUG = 1
        bv = self.biff_version
        self.derive_encoding()
        if DEBUG:
            fprintf(self.logfile, "BOUNDSHEET: bv=%d data %r\n", bv, data);
        if bv == 45: # BIFF4W
            #### Not documented in OOo docs ...
            # In fact, the *only* data is the name of the sheet.
            sheet_name = unpack_string(data, 0, self.encoding, lenlen=1)
            visibility = 0
            sheet_type = XL_BOUNDSHEET_WORKSHEET # guess, patch later
            if len(self._sh_abs_posn) == 0:
                abs_posn = self._sheetsoffset + self.base
                # Note (a) this won't be used
                # (b) it's the position of the SHEETHDR record
                # (c) add 11 to get to the worksheet BOF record
            else:
                abs_posn = -1 # unknown
        else:
            offset, visibility, sheet_type = unpack('<iBB', data[0:6])
            abs_posn = offset + self.base # because global BOF is always at posn 0 in the stream
            if bv < BIFF_FIRST_UNICODE:
                sheet_name = unpack_string(data, 6, self.encoding, lenlen=1)
            else:
                sheet_name = unpack_unicode(data, 6, lenlen=1)

        if DEBUG or self.verbosity >= 2:
            fprintf(self.logfile,
                "BOUNDSHEET: inx=%d vis=%r sheet_name=%r abs_posn=%d sheet_type=0x%02x\n",
                self._all_sheets_count, visibility, sheet_name, abs_posn, sheet_type)
        self._all_sheets_count += 1
        if sheet_type != XL_BOUNDSHEET_WORKSHEET:
            self._all_sheets_map.append(-1)
            descr = {
                1: 'Macro sheet',
                2: 'Chart',
                6: 'Visual Basic module',
                }.get(sheet_type, 'UNKNOWN')

            if DEBUG or self.verbosity >= 1:
                fprintf(self.logfile,
                    "NOTE *** Ignoring non-worksheet data named %r (type 0x%02x = %s)\n",
                    sheet_name, sheet_type, descr)
        else:
            snum = len(self._sheet_names)
            self._all_sheets_map.append(snum)
            self._sheet_names.append(sheet_name)
            self._sh_abs_posn.append(abs_posn)
            self._sheet_visibility.append(visibility)
            self._sheet_num_from_name[sheet_name] = snum

    def handle_builtinfmtcount(self, data):
        ### N.B. This count appears to be utterly useless.
        # DEBUG = 1
        builtinfmtcount = unpack('<H', data[0:2])[0]
        if DEBUG: fprintf(self.logfile, "BUILTINFMTCOUNT: %r\n", builtinfmtcount)
        self.builtinfmtcount = builtinfmtcount

    def derive_encoding(self):
        if self.encoding_override:
            self.encoding = self.encoding_override
        elif self.codepage is None:
            if self.biff_version < 80:
                fprintf(self.logfile,
                    "*** No CODEPAGE record, no encoding_override: will use 'ascii'\n")
                self.encoding = 'ascii'
            else:
                self.codepage = 1200 # utf16le
                if self.verbosity >= 2:
                    fprintf(self.logfile, "*** No CODEPAGE record; assuming 1200 (utf_16_le)\n")
        else:
            codepage = self.codepage
            if codepage in encoding_from_codepage:
                encoding = encoding_from_codepage[codepage]
            elif 300 <= codepage <= 1999:
                encoding = 'cp' + str(codepage)
            else:
                encoding = 'unknown_codepage_' + str(codepage)
            if DEBUG or (self.verbosity and encoding != self.encoding) :
                fprintf(self.logfile, "CODEPAGE: codepage %r -> encoding %r\n", codepage, encoding)
            self.encoding = encoding
        if self.codepage != 1200: # utf_16_le
            # If we don't have a codec that can decode ASCII into Unicode,
            # we're well & truly stuffed -- let the punter know ASAP.
            try:
                _unused = unicode(b'trial', self.encoding)
            except BaseException as e:
                fprintf(self.logfile,
                    "ERROR *** codepage %r -> encoding %r -> %s: %s\n",
                    self.codepage, self.encoding, type(e).__name__.split(".")[-1], e)
                raise
        if self.raw_user_name:
            strg = unpack_string(self.user_name, 0, self.encoding, lenlen=1)
            strg = strg.rstrip()
            # if DEBUG:
            #     print "CODEPAGE: user name decoded from %r to %r" % (self.user_name, strg)
            self.user_name = strg
            self.raw_user_name = False
        return self.encoding

    def handle_codepage(self, data):
        # DEBUG = 0
        codepage = unpack('<H', data[0:2])[0]
        self.codepage = codepage
        self.derive_encoding()

    def handle_country(self, data):
        countries = unpack('<HH', data[0:4])
        if self.verbosity: print("Countries:", countries, file=self.logfile)
        # Note: in BIFF7 and earlier, country record was put (redundantly?) in each worksheet.
        assert self.countries == (0, 0) or self.countries == countries
        self.countries = countries

    def handle_datemode(self, data):
        datemode = unpack('<H', data[0:2])[0]
        if DEBUG or self.verbosity:
            fprintf(self.logfile, "DATEMODE: datemode %r\n", datemode)
        assert datemode in (0, 1)
        self.datemode = datemode

    def handle_externname(self, data):
        blah = DEBUG or self.verbosity >= 2
        if self.biff_version >= 80:
            option_flags, other_info =unpack("<HI", data[:6])
            pos = 6
            name, pos = unpack_unicode_update_pos(data, pos, lenlen=1)
            extra = data[pos:]
            if self._supbook_types[-1] == SUPBOOK_ADDIN:
                self.addin_func_names.append(name)
            if blah:
                fprintf(self.logfile,
                    "EXTERNNAME: sbktype=%d oflags=0x%04x oinfo=0x%08x name=%r extra=%r\n",
                    self._supbook_types[-1], option_flags, other_info, name, extra)

    def handle_externsheet(self, data):
        self.derive_encoding() # in case CODEPAGE record missing/out of order/wrong
        self._extnsht_count += 1 # for use as a 1-based index
        blah1 = DEBUG or self.verbosity >= 1
        blah2 = DEBUG or self.verbosity >= 2
        if self.biff_version >= 80:
            num_refs = unpack("<H", data[0:2])[0]
            bytes_reqd = num_refs * 6 + 2
            while len(data) < bytes_reqd:
                if blah1:
                    fprintf(
                        self.logfile,
                        "INFO: EXTERNSHEET needs %d bytes, have %d\n",
                        bytes_reqd, len(data),
                        )
                code2, length2, data2 = self.get_record_parts()
                if code2 != XL_CONTINUE:
                    raise XLRDError("Missing CONTINUE after EXTERNSHEET record")
                data += data2
            pos = 2
            for k in xrange(num_refs):
                info = unpack("<HHH", data[pos:pos+6])
                ref_recordx, ref_first_sheetx, ref_last_sheetx = info
                self._externsheet_info.append(info)
                pos += 6
                if blah2:
                    fprintf(
                        self.logfile,
                        "EXTERNSHEET(b8): k = %2d, record = %2d, first_sheet = %5d, last sheet = %5d\n",
                        k, ref_recordx, ref_first_sheetx, ref_last_sheetx,
                        )
        else:
            nc, ty = unpack("<BB", data[:2])
            if blah2:
                print("EXTERNSHEET(b7-):", file=self.logfile)
                hex_char_dump(data, 0, len(data), fout=self.logfile)
                msg = {
                    1: "Encoded URL",
                    2: "Current sheet!!",
                    3: "Specific sheet in own doc't",
                    4: "Nonspecific sheet in own doc't!!",
                    }.get(ty, "Not encoded")
                print("   %3d chars, type is %d (%s)" % (nc, ty, msg), file=self.logfile)
            if ty == 3:
                sheet_name = unicode(data[2:nc+2], self.encoding)
                self._extnsht_name_from_num[self._extnsht_count] = sheet_name
                if blah2: print(self._extnsht_name_from_num, file=self.logfile)
            if not (1 <= ty <= 4):
                ty = 0
            self._externsheet_type_b57.append(ty)

    def handle_filepass(self, data):
        if self.verbosity >= 2:
            logf = self.logfile
            fprintf(logf, "FILEPASS:\n")
            hex_char_dump(data, 0, len(data), base=0, fout=logf)
            if self.biff_version >= 80:
                kind1, = unpack('<H', data[:2])
                if kind1 == 0: # weak XOR encryption
                    key, hash_value = unpack('<HH', data[2:])
                    fprintf(logf,
                        'weak XOR: key=0x%04x hash=0x%04x\n',
                        key, hash_value)
                elif kind1 == 1:
                    kind2, = unpack('<H', data[4:6])
                    if kind2 == 1: # BIFF8 standard encryption
                        caption = "BIFF8 std"
                    elif kind2 == 2:
                        caption = "BIFF8 strong"
                    else:
                        caption = "** UNKNOWN ENCRYPTION METHOD **"
                    fprintf(logf, "%s\n", caption)
        raise XLRDError("Workbook is encrypted")

    def handle_name(self, data):
        blah = DEBUG or self.verbosity >= 2
        bv = self.biff_version
        if bv < 50:
            return
        self.derive_encoding()
        # print
        # hex_char_dump(data, 0, len(data), fout=self.logfile)
        (
        option_flags, kb_shortcut, name_len, fmla_len, extsht_index, sheet_index,
        menu_text_len, description_text_len, help_topic_text_len, status_bar_text_len,
        ) = unpack("<HBBHHH4B", data[0:14])
        nobj = Name()
        nobj.book = self ### CIRCULAR ###
        name_index = len(self.name_obj_list)
        nobj.name_index = name_index
        self.name_obj_list.append(nobj)
        nobj.option_flags = option_flags
        for attr, mask, nshift in (
            ('hidden', 1, 0),
            ('func', 2, 1),
            ('vbasic', 4, 2),
            ('macro', 8, 3),
            ('complex', 0x10, 4),
            ('builtin', 0x20, 5),
            ('funcgroup', 0xFC0, 6),
            ('binary', 0x1000, 12),
            ):
            setattr(nobj, attr, (option_flags & mask) >> nshift)

        macro_flag = " M"[nobj.macro]
        if bv < 80:
            internal_name, pos = unpack_string_update_pos(data, 14, self.encoding, known_len=name_len)
        else:
            internal_name, pos = unpack_unicode_update_pos(data, 14, known_len=name_len)
        nobj.extn_sheet_num = extsht_index
        nobj.excel_sheet_index = sheet_index
        nobj.scope = None # patched up in the names_epilogue() method
        if blah:
            fprintf(
                self.logfile,
                "NAME[%d]:%s oflags=%d, name_len=%d, fmla_len=%d, extsht_index=%d, sheet_index=%d, name=%r\n",
                name_index, macro_flag, option_flags, name_len,
                fmla_len, extsht_index, sheet_index, internal_name)
        name = internal_name
        if nobj.builtin:
            name = builtin_name_from_code.get(name, "??Unknown??")
            if blah: print("    builtin: %s" % name, file=self.logfile)
        nobj.name = name
        nobj.raw_formula = data[pos:]
        nobj.basic_formula_len = fmla_len
        nobj.evaluated = 0
        if blah:
            nobj.dump(
                self.logfile,
                header="--- handle_name: name[%d] ---" % name_index,
                footer="-------------------",
                )

    def names_epilogue(self):
        blah = self.verbosity >= 2
        f = self.logfile
        if blah:
            print("+++++ names_epilogue +++++", file=f)
            print("_all_sheets_map", REPR(self._all_sheets_map), file=f)
            print("_extnsht_name_from_num", REPR(self._extnsht_name_from_num), file=f)
            print("_sheet_num_from_name", REPR(self._sheet_num_from_name), file=f)
        num_names = len(self.name_obj_list)
        for namex in range(num_names):
            nobj = self.name_obj_list[namex]
            # Convert from excel_sheet_index to scope.
            # This is done here because in BIFF7 and earlier, the
            # BOUNDSHEET records (from which _all_sheets_map is derived)
            # come after the NAME records.
            if self.biff_version >= 80:
                sheet_index = nobj.excel_sheet_index
                if sheet_index == 0:
                    intl_sheet_index = -1 # global
                elif 1 <= sheet_index <= len(self._all_sheets_map):
                    intl_sheet_index = self._all_sheets_map[sheet_index-1]
                    if intl_sheet_index == -1: # maps to a macro or VBA sheet
                        intl_sheet_index = -2 # valid sheet reference but not useful
                else:
                    # huh?
                    intl_sheet_index = -3 # invalid
            elif 50 <= self.biff_version <= 70:
                sheet_index = nobj.extn_sheet_num
                if sheet_index == 0:
                    intl_sheet_index = -1 # global
                else:
                    sheet_name = self._extnsht_name_from_num[sheet_index]
                    intl_sheet_index = self._sheet_num_from_name.get(sheet_name, -2)
            nobj.scope = intl_sheet_index

        for namex in range(num_names):
            nobj = self.name_obj_list[namex]
            # Parse the formula ...
            if nobj.macro or nobj.binary: continue
            if nobj.evaluated: continue
            evaluate_name_formula(self, nobj, namex, blah=blah)

        if self.verbosity >= 2:
            print("---------- name object dump ----------", file=f)
            for namex in range(num_names):
                nobj = self.name_obj_list[namex]
                nobj.dump(f, header="--- name[%d] ---" % namex)
            print("--------------------------------------", file=f)
        #
        # Build some dicts for access to the name objects
        #
        name_and_scope_map = {} # (name.lower(), scope): Name_object
        name_map = {}           # name.lower() : list of Name_objects (sorted in scope order)
        for namex in range(num_names):
            nobj = self.name_obj_list[namex]
            name_lcase = nobj.name.lower()
            key = (name_lcase, nobj.scope)
            if key in name_and_scope_map and self.verbosity:
                fprintf(f, 'Duplicate entry %r in name_and_scope_map\n', key)
            name_and_scope_map[key] = nobj
            sort_data = (nobj.scope, namex, nobj)
            # namex (a temp unique ID) ensures the Name objects will not
            # be compared (fatal in py3)
            if name_lcase in name_map:
                name_map[name_lcase].append(sort_data)
            else:
                name_map[name_lcase] = [sort_data]
        for key in name_map.keys():
            alist = name_map[key]
            alist.sort()
            name_map[key] = [x[2] for x in alist]
        self.name_and_scope_map = name_and_scope_map
        self.name_map = name_map

    def handle_obj(self, data):
        # Not doing much handling at all.
        # Worrying about embedded (BOF ... EOF) substreams is done elsewhere.
        # DEBUG = 1
        obj_type, obj_id = unpack('<HI', data[4:10])
        # if DEBUG: print "---> handle_obj type=%d id=0x%08x" % (obj_type, obj_id)

    def handle_supbook(self, data):
        # aka EXTERNALBOOK in OOo docs
        self._supbook_types.append(None)
        blah = DEBUG or self.verbosity >= 2
        if blah:
            print("SUPBOOK:", file=self.logfile)
            hex_char_dump(data, 0, len(data), fout=self.logfile)
        num_sheets = unpack("<H", data[0:2])[0]
        if blah: print("num_sheets = %d" % num_sheets, file=self.logfile)
        sbn = self._supbook_count
        self._supbook_count += 1
        if data[2:4] == b"\x01\x04":
            self._supbook_types[-1] = SUPBOOK_INTERNAL
            self._supbook_locals_inx = self._supbook_count - 1
            if blah:
                print("SUPBOOK[%d]: internal 3D refs; %d sheets" % (sbn, num_sheets), file=self.logfile)
                print("    _all_sheets_map", self._all_sheets_map, file=self.logfile)
            return
        if data[0:4] == b"\x01\x00\x01\x3A":
            self._supbook_types[-1] = SUPBOOK_ADDIN
            self._supbook_addins_inx = self._supbook_count - 1
            if blah: print("SUPBOOK[%d]: add-in functions" % sbn, file=self.logfile)
            return
        url, pos = unpack_unicode_update_pos(data, 2, lenlen=2)
        if num_sheets == 0:
            self._supbook_types[-1] = SUPBOOK_DDEOLE
            if blah: fprintf(self.logfile, "SUPBOOK[%d]: DDE/OLE document = %r\n", sbn, url)
            return
        self._supbook_types[-1] = SUPBOOK_EXTERNAL
        if blah: fprintf(self.logfile, "SUPBOOK[%d]: url = %r\n", sbn, url)
        sheet_names = []
        for x in range(num_sheets):
            try:
                shname, pos = unpack_unicode_update_pos(data, pos, lenlen=2)
            except struct.error:
                # #### FIX ME ####
                # Should implement handling of CONTINUE record(s) ...
                if self.verbosity:
                    print((
                        "*** WARNING: unpack failure in sheet %d of %d in SUPBOOK record for file %r" 
                        % (x, num_sheets, url)
                        ), file=self.logfile)
                break
            sheet_names.append(shname)
            if blah: fprintf(self.logfile, "  sheetx=%d namelen=%d name=%r (next pos=%d)\n", x, len(shname), shname, pos)

    def handle_sheethdr(self, data):
        # This a BIFF 4W special.
        # The SHEETHDR record is followed by a (BOF ... EOF) substream containing
        # a worksheet.
        # DEBUG = 1
        self.derive_encoding()
        sheet_len = unpack('<i', data[:4])[0]
        sheet_name = unpack_string(data, 4, self.encoding, lenlen=1)
        sheetno = self._sheethdr_count
        assert sheet_name == self._sheet_names[sheetno]
        self._sheethdr_count += 1
        BOF_posn = self._position
        posn = BOF_posn - 4 - len(data)
        if DEBUG: fprintf(self.logfile, 'SHEETHDR %d at posn %d: len=%d name=%r\n', sheetno, posn, sheet_len, sheet_name)
        self.initialise_format_info()
        if DEBUG: print('SHEETHDR: xf epilogue flag is %d' % self._xf_epilogue_done, file=self.logfile)
        self._sheet_list.append(None) # get_sheet updates _sheet_list but needs a None beforehand
        self.get_sheet(sheetno, update_pos=False)
        if DEBUG: print('SHEETHDR: posn after get_sheet() =', self._position, file=self.logfile)
        self._position = BOF_posn + sheet_len

    def handle_sheetsoffset(self, data):
        # DEBUG = 0
        posn = unpack('<i', data)[0]
        if DEBUG: print('SHEETSOFFSET:', posn, file=self.logfile)
        self._sheetsoffset = posn

    def handle_sst(self, data):
        # DEBUG = 1
        if DEBUG:
            print("SST Processing", file=self.logfile)
            t0 = time.time()
        nbt = len(data)
        strlist = [data]
        uniquestrings = unpack('<i', data[4:8])[0]
        if DEBUG  or self.verbosity >= 2:
            fprintf(self.logfile, "SST: unique strings: %d\n", uniquestrings)
        while 1:
            code, nb, data = self.get_record_parts_conditional(XL_CONTINUE)
            if code is None:
                break
            nbt += nb
            if DEBUG >= 2:
                fprintf(self.logfile, "CONTINUE: adding %d bytes to SST -> %d\n", nb, nbt)
            strlist.append(data)
        self._sharedstrings, rt_runlist = unpack_SST_table(strlist, uniquestrings)
        if self.formatting_info:
            self._rich_text_runlist_map = rt_runlist        
        if DEBUG:
            t1 = time.time()
            print("SST processing took %.2f seconds" % (t1 - t0, ), file=self.logfile)

    def handle_writeaccess(self, data):
        DEBUG = 0
        if self.biff_version < 80:
            if not self.encoding:
                self.raw_user_name = True
                self.user_name = data
                return
            strg = unpack_string(data, 0, self.encoding, lenlen=1)
        else:
            strg = unpack_unicode(data, 0, lenlen=2)
        if DEBUG: fprintf(self.logfile, "WRITEACCESS: %d bytes; raw=%s %r\n", len(data), self.raw_user_name, strg)
        strg = strg.rstrip()
        self.user_name = strg

    def parse_globals(self):
        # DEBUG = 0
        # no need to position, just start reading (after the BOF)
        formatting.initialise_book(self)
        while 1:
            rc, length, data = self.get_record_parts()
            if DEBUG: print("parse_globals: record code is 0x%04x" % rc, file=self.logfile)
            if rc == XL_SST:
                self.handle_sst(data)
            elif rc == XL_FONT or rc == XL_FONT_B3B4:
                self.handle_font(data)
            elif rc == XL_FORMAT: # XL_FORMAT2 is BIFF <= 3.0, can't appear in globals
                self.handle_format(data)
            elif rc == XL_XF:
                self.handle_xf(data)
            elif rc ==  XL_BOUNDSHEET:
                self.handle_boundsheet(data)
            elif rc == XL_DATEMODE:
                self.handle_datemode(data)
            elif rc == XL_CODEPAGE:
                self.handle_codepage(data)
            elif rc == XL_COUNTRY:
                self.handle_country(data)
            elif rc == XL_EXTERNNAME:
                self.handle_externname(data)
            elif rc == XL_EXTERNSHEET:
                self.handle_externsheet(data)
            elif rc == XL_FILEPASS:
                self.handle_filepass(data)
            elif rc == XL_WRITEACCESS:
                self.handle_writeaccess(data)
            elif rc == XL_SHEETSOFFSET:
                self.handle_sheetsoffset(data)
            elif rc == XL_SHEETHDR:
                self.handle_sheethdr(data)
            elif rc == XL_SUPBOOK:
                self.handle_supbook(data)
            elif rc == XL_NAME:
                self.handle_name(data)
            elif rc == XL_PALETTE:
                self.handle_palette(data)
            elif rc == XL_STYLE:
                self.handle_style(data)
            elif rc & 0xff == 9 and self.verbosity:
                fprintf(self.logfile, "*** Unexpected BOF at posn %d: 0x%04x len=%d data=%r\n",
                    self._position - length - 4, rc, length, data)
            elif rc ==  XL_EOF:
                self.xf_epilogue()
                self.names_epilogue()
                self.palette_epilogue()
                if not self.encoding:
                    self.derive_encoding()
                if self.biff_version == 45:
                    # DEBUG = 0
                    if DEBUG: print("global EOF: position", self._position, file=self.logfile)
                    # if DEBUG:
                    #     pos = self._position - 4
                    #     print repr(self.mem[pos:pos+40])
                return
            else:
                # if DEBUG:
                #     print >> self.logfile, "parse_globals: ignoring record code 0x%04x" % rc
                pass

    def read(self, pos, length):
        data = self.mem[pos:pos+length]
        self._position = pos + len(data)
        return data

    def getbof(self, rqd_stream):
        # DEBUG = 1
        # if DEBUG: print >> self.logfile, "getbof(): position", self._position
        if DEBUG: print("reqd: 0x%04x" % rqd_stream, file=self.logfile)
        def bof_error(msg):
            raise XLRDError('Unsupported format, or corrupt file: ' + msg)
        savpos = self._position
        opcode = self.get2bytes()
        if opcode == MY_EOF:
            bof_error('Expected BOF record; met end of file')
        if opcode not in bofcodes:
            bof_error('Expected BOF record; found %r' % self.mem[savpos:savpos+8])
        length = self.get2bytes()
        if length == MY_EOF:
            bof_error('Incomplete BOF record[1]; met end of file')
        if not (4 <= length <= 20):
            bof_error(
                'Invalid length (%d) for BOF record type 0x%04x'
                % (length, opcode))
        padding = b'\0' * max(0, boflen[opcode] - length)
        data = self.read(self._position, length);
        if DEBUG: fprintf(self.logfile, "\ngetbof(): data=%r\n", data)
        if len(data) < length:
            bof_error('Incomplete BOF record[2]; met end of file')
        data += padding
        version1 = opcode >> 8
        version2, streamtype = unpack('<HH', data[0:4])
        if DEBUG:
            print("getbof(): op=0x%04x version2=0x%04x streamtype=0x%04x" \
                % (opcode, version2, streamtype), file=self.logfile)
        bof_offset = self._position - 4 - length
        if DEBUG:
            print("getbof(): BOF found at offset %d; savpos=%d" \
                % (bof_offset, savpos), file=self.logfile)
        version = build = year = 0
        if version1 == 0x08:
            build, year = unpack('<HH', data[4:8])
            if version2 == 0x0600:
                version = 80
            elif version2 == 0x0500:
                if year < 1994 or build in (2412, 3218, 3321):
                    version = 50
                else:
                    version = 70
            else:
                # dodgy one, created by a 3rd-party tool
                version = {
                    0x0000: 21,
                    0x0007: 21,
                    0x0200: 21,
                    0x0300: 30,
                    0x0400: 40,
                    }.get(version2, 0)
        elif version1 in (0x04, 0x02, 0x00):
            version = {0x04: 40, 0x02: 30, 0x00: 21}[version1]

        if version == 40 and streamtype == XL_WORKBOOK_GLOBALS_4W:
            version = 45 # i.e. 4W

        if DEBUG or self.verbosity >= 2:
            print("BOF: op=0x%04x vers=0x%04x stream=0x%04x buildid=%d buildyr=%d -> BIFF%d" \
                % (opcode, version2, streamtype, build, year, version), file=self.logfile)
        got_globals = streamtype == XL_WORKBOOK_GLOBALS or (
            version == 45 and streamtype == XL_WORKBOOK_GLOBALS_4W)
        if (rqd_stream == XL_WORKBOOK_GLOBALS and got_globals) or streamtype == rqd_stream:
            return version
        if version < 50 and streamtype == XL_WORKSHEET:
            return version
        if version >= 50 and streamtype == 0x0100:
            bof_error("Workspace file -- no spreadsheet data")
        bof_error(
            'BOF not workbook/worksheet: op=0x%04x vers=0x%04x strm=0x%04x build=%d year=%d -> BIFF%d' \
            % (opcode, version2, streamtype, build, year, version)
            )

# === helper functions

def expand_cell_address(inrow, incol):
    # Ref : OOo docs, "4.3.4 Cell Addresses in BIFF8"
    outrow = inrow
    if incol & 0x8000:
        if outrow >= 32768:
            outrow -= 65536
        relrow = 1
    else:
        relrow = 0
    outcol = incol & 0xFF
    if incol & 0x4000:
        if outcol >= 128:
            outcol -= 256
        relcol = 1
    else:
        relcol = 0
    return outrow, outcol, relrow, relcol

def colname(colx, _A2Z="ABCDEFGHIJKLMNOPQRSTUVWXYZ"):
    assert colx >= 0
    name = UNICODE_LITERAL('')
    while 1:
        quot, rem = divmod(colx, 26)
        name = _A2Z[rem] + name
        if not quot:
            return name
        colx = quot - 1

def display_cell_address(rowx, colx, relrow, relcol):
    if relrow:
        rowpart = "(*%s%d)" % ("+-"[rowx < 0], abs(rowx))
    else:
        rowpart = "$%d" % (rowx+1,)
    if relcol:
        colpart = "(*%s%d)" % ("+-"[colx < 0], abs(colx))
    else:
        colpart = "$" + colname(colx)
    return colpart + rowpart

def unpack_SST_table(datatab, nstrings):
    "Return list of strings"
    datainx = 0
    ndatas = len(datatab)
    data = datatab[0]
    datalen = len(data)
    pos = 8
    strings = []
    strappend = strings.append
    richtext_runs = {}
    local_unpack = unpack
    local_min = min
    local_BYTES_ORD = BYTES_ORD
    latin_1 = "latin_1"
    for _unused_i in xrange(nstrings):
        nchars = local_unpack('<H', data[pos:pos+2])[0]
        pos += 2
        options = local_BYTES_ORD(data[pos])
        pos += 1
        rtcount = 0
        phosz = 0
        if options & 0x08: # richtext
            rtcount = local_unpack('<H', data[pos:pos+2])[0]
            pos += 2
        if options & 0x04: # phonetic
            phosz = local_unpack('<i', data[pos:pos+4])[0]
            pos += 4
        accstrg = UNICODE_LITERAL('')
        charsgot = 0
        while 1:
            charsneed = nchars - charsgot
            if options & 0x01:
                # Uncompressed UTF-16
                charsavail = local_min((datalen - pos) >> 1, charsneed)
                rawstrg = data[pos:pos+2*charsavail]
                # if DEBUG: print "SST U16: nchars=%d pos=%d rawstrg=%r" % (nchars, pos, rawstrg)
                try:
                    accstrg += unicode(rawstrg, "utf_16_le")
                except:
                    # print "SST U16: nchars=%d pos=%d rawstrg=%r" % (nchars, pos, rawstrg)
                    # Probable cause: dodgy data e.g. unfinished surrogate pair.
                    # E.g. file unicode2.xls in pyExcelerator's examples has cells containing
                    # unichr(i) for i in range(0x100000)
                    # so this will include 0xD800 etc
                    raise
                pos += 2*charsavail
            else:
                # Note: this is COMPRESSED (not ASCII!) encoding!!!
                charsavail = local_min(datalen - pos, charsneed)
                rawstrg = data[pos:pos+charsavail]
                # if DEBUG: print "SST CMPRSD: nchars=%d pos=%d rawstrg=%r" % (nchars, pos, rawstrg)
                accstrg += unicode(rawstrg, latin_1)
                pos += charsavail
            charsgot += charsavail
            if charsgot == nchars:
                break
            datainx += 1
            data = datatab[datainx]
            datalen = len(data)
            options = local_BYTES_ORD(data[0])
            pos = 1
        
        if rtcount:
            runs = []
            for runindex in xrange(rtcount):
                if pos == datalen:
                    pos = 0
                    datainx += 1
                    data = datatab[datainx]
                    datalen = len(data)
                runs.append(local_unpack("<HH", data[pos:pos+4]))
                pos += 4
            richtext_runs[len(strings)] = runs
                
        pos += phosz # size of the phonetic stuff to skip
        if pos >= datalen:
            # adjust to correct position in next record
            pos = pos - datalen
            datainx += 1
            if datainx < ndatas:
                data = datatab[datainx]
                datalen = len(data)
            else:
                assert _unused_i == nstrings - 1
        strappend(accstrg)
    return strings, richtext_runs