#Copyright ReportLab Europe Ltd. 2000-2004 #see license.txt for license details #history http://www.reportlab.co.uk/cgi-bin/viewcvs.cgi/public/reportlab/trunk/reportlab/lib/sequencer.py __version__=''' $Id: sequencer.py 2423 2004-08-24 11:36:22Z rgbecker $ ''' """This module defines a single public class, Sequencer, which aids in numbering and formatting lists.""" # # roman numbers conversion thanks to # # fredrik lundh, november 1996 (based on a C hack from 1984) # # fredrik@pythonware.com # http://www.pythonware.com _RN_TEMPLATES = [ 0, 01, 011, 0111, 012, 02, 021, 0211, 02111, 013 ] _RN_LETTERS = "IVXLCDM" from string import lower def _format_I(value): if value < 0 or value > 3999: raise ValueError, "illegal value" str = "" base = -1 while value: value, index = divmod(value, 10) tmp = _RN_TEMPLATES[index] while tmp: tmp, index = divmod(tmp, 8) str = _RN_LETTERS[index+base] + str base = base + 2 return str def _format_i(num): return lower(_format_I(num)) def _format_123(num): """The simplest formatter""" return str(num) def _format_ABC(num): """Uppercase. Wraps around at 26.""" n = (num -1) % 26 return chr(n+65) def _format_abc(num): """Lowercase. Wraps around at 26.""" n = (num -1) % 26 return chr(n+97) class _Counter: """Private class used by Sequencer. Each counter knows its format, and the IDs of anything it resets, as well as its value. Starts at zero and increments just before you get the new value, so that it is still 'Chapter 5' and not 'Chapter 6' when you print 'Figure 5.1'""" def __init__(self): self._base = 0 self._value = self._base self._formatter = _format_123 self._resets = [] def setFormatter(self, formatFunc): self._formatter = formatFunc def reset(self, value=None): if value: self._value = value else: self._value = self._base def next(self): self._value = self._value + 1 v = self._value for counter in self._resets: counter.reset() return v def _this(self): return self._value def nextf(self): """Returns next value formatted""" return self._formatter(self.next()) def thisf(self): return self._formatter(self._this()) def chain(self, otherCounter): if not otherCounter in self._resets: self._resets.append(otherCounter) class Sequencer: """Something to make it easy to number paragraphs, sections, images and anything else. The features include registering new string formats for sequences, and 'chains' whereby some counters are reset when their parents. It keeps track of a number of 'counters', which are created on request: Usage: >>> seq = layout.Sequencer() >>> seq.next('Bullets') 1 >>> seq.next('Bullets') 2 >>> seq.next('Bullets') 3 >>> seq.reset('Bullets') >>> seq.next('Bullets') 1 >>> seq.next('Figures') 1 >>> """ def __init__(self): self._counters = {} #map key to current number self._defaultCounter = None self._formatters = { # the formats it knows initially '1':_format_123, 'A':_format_ABC, 'a':_format_abc, 'I':_format_I, 'i':_format_i, } def _getCounter(self, counter=None): """Creates one if not present""" try: return self._counters[counter] except KeyError: cnt = _Counter() self._counters[counter] = cnt return cnt def _this(self, counter=None): """Retrieves counter value but does not increment. For new counters, sets base value to 1.""" if not counter: counter = self._defaultCounter return self._getCounter(counter)._this() def next(self, counter=None): """Retrieves the numeric value for the given counter, then increments it by one. New counters start at one.""" if not counter: counter = self._defaultCounter return self._getCounter(counter).next() def thisf(self, counter=None): if not counter: counter = self._defaultCounter return self._getCounter(counter).thisf() def nextf(self, counter=None): """Retrieves the numeric value for the given counter, then increments it by one. New counters start at one.""" if not counter: counter = self._defaultCounter return self._getCounter(counter).nextf() def setDefaultCounter(self, default=None): """Changes the key used for the default""" self._defaultCounter = default def registerFormat(self, format, func): """Registers a new formatting function. The funtion must take a number as argument and return a string; fmt is a short menmonic string used to access it.""" self._formatters[format] = func def setFormat(self, counter, format): """Specifies that the given counter should use the given format henceforth.""" func = self._formatters[format] self._getCounter(counter).setFormatter(func) def reset(self, counter=None, base=0): if not counter: counter = self._defaultCounter self._getCounter(counter)._value = base def chain(self, parent, child): p = self._getCounter(parent) c = self._getCounter(child) p.chain(c) def __getitem__(self, key): """Allows compact notation to support the format function. s['key'] gets current value, s['key+'] increments.""" if key[-1:] == '+': counter = key[:-1] return self.nextf(counter) else: return self.thisf(key) def format(self, template): """The crowning jewels - formats multi-level lists.""" return template % self def dump(self): """Write current state to stdout for diagnostics""" counters = self._counters.items() counters.sort() print 'Sequencer dump:' for (key, counter) in counters: print ' %s: value = %d, base = %d, format example = %s' % ( key, counter._this(), counter._base, counter.thisf()) """Your story builder needs to set this to""" _sequencer = None def getSequencer(): global _sequencer if _sequencer is None: _sequencer = Sequencer() return _sequencer def setSequencer(seq): global _sequencer s = _sequencer _sequencer = seq return s def test(): s = Sequencer() print 'Counting using default sequence: %d %d %d' % (s.next(),s.next(), s.next()) print 'Counting Figures: Figure %d, Figure %d, Figure %d' % ( s.next('figure'), s.next('figure'), s.next('figure')) print 'Back to default again: %d' % s.next() s.setDefaultCounter('list1') print 'Set default to list1: %d %d %d' % (s.next(),s.next(), s.next()) s.setDefaultCounter() print 'Set default to None again: %d %d %d' % (s.next(),s.next(), s.next()) print print 'Creating Appendix counter with format A, B, C...' s.setFormat('Appendix', 'A') print ' Appendix %s, Appendix %s, Appendix %s' % ( s.nextf('Appendix'), s.nextf('Appendix'),s.nextf('Appendix')) def format_french(num): return ('un','deux','trois','quatre','cinq')[(num-1)%5] print print 'Defining a custom format with french words:' s.registerFormat('french', format_french) s.setFormat('FrenchList', 'french') print ' ', for i in range(1,6): print s.nextf('FrenchList'), print print 'Chaining H1 and H2 - H2 goes back to one when H1 increases' s.chain('H1','H2') print ' H1 = %d' % s.next('H1') print ' H2 = %d' % s.next('H2') print ' H2 = %d' % s.next('H2') print ' H2 = %d' % s.next('H2') print ' H1 = %d' % s.next('H1') print ' H2 = %d' % s.next('H2') print ' H2 = %d' % s.next('H2') print ' H2 = %d' % s.next('H2') print print 'GetItem notation - append a plus to increment' print ' seq["Appendix"] = %s' % s["Appendix"] print ' seq["Appendix+"] = %s' % s["Appendix+"] print ' seq["Appendix+"] = %s' % s["Appendix+"] print ' seq["Appendix"] = %s' % s["Appendix"] print print 'Finally, string format notation for nested lists. Cool!' print 'The expression ("Figure %(Chapter)s.%(Figure+)s" % seq) gives:' print ' Figure %(Chapter)s.%(Figure+)s' % s print ' Figure %(Chapter)s.%(Figure+)s' % s print ' Figure %(Chapter)s.%(Figure+)s' % s if __name__=='__main__': test()