""" Copyright 2008, 2009 Free Software Foundation, Inc. This file is part of GNU Radio GNU Radio Companion is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. GNU Radio Companion is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA """ from . import odict from Element import Element def _get_keys(lst): return [elem.get_key() for elem in lst] def _get_elem(lst, key): try: return lst[_get_keys(lst).index(key)] except ValueError: raise ValueError, 'Key "%s" not found in %s.'%(key, _get_keys(lst)) class Option(Element): def __init__(self, param, n): Element.__init__(self, param) self._name = n.find('name') self._key = n.find('key') self._opts = dict() opts = n.findall('opt') #test against opts when non enum try: assert self.get_parent().is_enum() or not opts except AssertionError: raise Exception, 'Options for non-enum types cannot have sub-options' #extract opts for opt in opts: #separate the key:value try: key, value = opt.split(':') except: raise Exception, 'Error separating "%s" into key:value'%opt #test against repeated keys try: assert not self._opts.has_key(key) except AssertionError: raise Exception, 'Key "%s" already exists in option'%key #store the option self._opts[key] = value def __str__(self): return 'Option %s(%s)'%(self.get_name(), self.get_key()) def get_name(self): return self._name def get_key(self): return self._key ############################################## # Access Opts ############################################## def get_opt_keys(self): return self._opts.keys() def get_opt(self, key): return self._opts[key] def get_opts(self): return self._opts.values() class Param(Element): def __init__(self, block, n): """ Make a new param from nested data. @param block the parent element @param n the nested odict """ #grab the data self._name = n.find('name') self._key = n.find('key') value = n.find('value') or '' self._type = n.find('type') self._hide = n.find('hide') or '' #build the param Element.__init__(self, block) #create the Option objects from the n data self._options = list() for option in map(lambda o: Option(param=self, n=o), n.findall('option')): key = option.get_key() #test against repeated keys try: assert key not in self.get_option_keys() except AssertionError: raise Exception, 'Key "%s" already exists in options'%key #store the option self.get_options().append(option) #test the enum options if self.is_enum(): #test against options with identical keys try: assert len(set(self.get_option_keys())) == len(self.get_options()) except AssertionError: raise Exception, 'Options keys "%s" are not unique.'%self.get_option_keys() #test against inconsistent keys in options opt_keys = self.get_options()[0].get_opt_keys() for option in self.get_options(): try: assert set(opt_keys) == set(option.get_opt_keys()) except AssertionError: raise Exception, 'Opt keys "%s" are not identical across all options.'%opt_keys #if a value is specified, it must be in the options keys self._value = value or self.get_option_keys()[0] try: assert self.get_value() in self.get_option_keys() except AssertionError: raise Exception, 'The value "%s" is not in the possible values of "%s".'%(self.get_value(), self.get_option_keys()) else: self._value = value or '' def validate(self): """ Validate the param. The value must be evaluated and type must a possible type. """ Element.validate(self) try: assert self.get_type() in self.get_types() except AssertionError: self.add_error_message('Type "%s" is not a possible type.'%self.get_type()) def get_evaluated(self): raise NotImplementedError def to_code(self): """ Convert the value to code. @throw NotImplementedError """ raise NotImplementedError def get_types(self): """ Get a list of all possible param types. @throw NotImplementedError """ raise NotImplementedError def get_color(self): return '#FFFFFF' def __str__(self): return 'Param - %s(%s)'%(self.get_name(), self.get_key()) def is_param(self): return True def get_name(self): return self._name def get_key(self): return self._key def get_hide(self): return self.get_parent().resolve_dependencies(self._hide).strip() def get_value(self): value = self._value if self.is_enum() and value not in self.get_option_keys(): value = self.get_option_keys()[0] self.set_value(value) return value def set_value(self, value): self._value = str(value) #must be a string def get_type(self): return self.get_parent().resolve_dependencies(self._type) def is_enum(self): return self._type == 'enum' def __repr__(self): """ Get the repr (nice string format) for this param. Just return the value (special case enum). Derived classes can handle complex formatting. @return the string representation """ if self.is_enum(): return self.get_option(self.get_value()).get_name() return self.get_value() ############################################## # Access Options ############################################## def get_option_keys(self): return _get_keys(self.get_options()) def get_option(self, key): return _get_elem(self.get_options(), key) def get_options(self): return self._options ############################################## # Access Opts ############################################## def get_opt_keys(self): return self.get_option(self.get_value()).get_opt_keys() def get_opt(self, key): return self.get_option(self.get_value()).get_opt(key) def get_opts(self): return self.get_option(self.get_value()).get_opts() ############################################## ## Import/Export Methods ############################################## def export_data(self): """ Export this param's key/value. @return a nested data odict """ n = odict() n['key'] = self.get_key() n['value'] = self.get_value() return n