# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2006 Donald N. Allingham, A. Roitman # Copyright (C) 2007-2009 B. Malengier # Copyright (C) 2008 Lukasz Rymarczyk # Copyright (C) 2008 Raphael Ackermann # Copyright (C) 2008 Brian G. Matherly # Copyright (C) 2010 Jakim Friant # Copyright (C) 2012 Doug Blank # Copyright (C) 2012-2013 Paul Franklin # # This program 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. # # This program 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # $Id$ """ Module responsible for handling the command line arguments for Gramps. """ #------------------------------------------------------------------------- # # Standard python modules # #------------------------------------------------------------------------- from __future__ import print_function import os import sys #------------------------------------------------------------------------- # # gramps modules # #------------------------------------------------------------------------- from gramps.gen.recentfiles import recent_files from gramps.gen.utils.file import (rm_tempdir, get_empty_tempdir, get_unicode_path_from_env_var) from gramps.gen.db import DbBsddb from .clidbman import CLIDbManager, NAME_FILE, find_locker_name from gramps.gen.plug import BasePluginManager from gramps.gen.plug.report import CATEGORY_BOOK, CATEGORY_CODE, BookList from .plug import cl_report, cl_book from gramps.gen.const import GRAMPS_LOCALE as glocale _ = glocale.translation.gettext #------------------------------------------------------------------------- # # private functions # #------------------------------------------------------------------------- def _split_options(options_str): """ Split the options for the action. Rules: * Entries in the list of options are separated by commas without spaces between entries * List values must be inclosed in brackets ("[" and "]") * Entries within a list value are separated by commas * Text values (as a value or as entries in a list) do not have to be enclosed in quotes unless they include commas or quotation marks. * Text containing double quotes must be contained in single quotes * Text containing single quotes must be contained in double quotes * Text cannot include both single and double quotes Examples: Multiple options specified:: report -p 'name=ancestor_chart,father_disp=["$n born $b"]' Using text with commas and quotes:: title="This is some text with ,s and 's" title='This is some text with ,s and "s' Using a list of text:: textlist=[row1,row2,"row3 with ' and ,"] """ name = "" value = "" parsing_value = False in_quotes = False in_list = False quote_type = "" options_str_dict = {} for char in options_str: if not parsing_value: # Parsing the name of the option if char == "=": #print char, "This value ends the name" parsing_value = True else: #print char, "This value is part of the name" name += char else: # Parsing the value of the option if value == "" and char == '[': #print char, "This character begins a list" in_list = True value += char elif in_list == True and char == ']': #print char, "This character ends the list" in_list = False value += char elif not in_quotes and ( char == '"' or char == "'"): #print char, "This character starts a quoted string" in_quotes = True quote_type = char value += char elif in_quotes and char == quote_type: #print char, "This character ends a quoted string" in_quotes = False value += char elif not in_quotes and not in_list and char == ",": #print char, "This character ends the value of the option" options_str_dict[name] = value name = "" value = "" parsing_value = False in_quotes = False in_list = False else: #print char, "This character is part of the value" value += char if parsing_value and not in_quotes and not in_list: # Add the last option options_str_dict[name] = value return options_str_dict #------------------------------------------------------------------------- # ArgHandler #------------------------------------------------------------------------- class ArgHandler(object): """ This class is responsible for the non GUI handling of commands. The handler is passed a parser object, sanitizes it, and can execute the actions requested working on a :class:`.DbState`. """ def __init__(self, dbstate, parser, sessionmanager, errorfunc=None, gui=False): self.dbstate = dbstate self.sm = sessionmanager self.errorfunc = errorfunc self.gui = gui self.user = sessionmanager.user if self.gui: self.actions = [] self.list = False self.list_more = False self.open_gui = None else: self.actions = parser.actions self.list = parser.list self.list_more = parser.list_more self.list_table = parser.list_table self.open_gui = parser.open_gui self.imp_db_path = None self.dbman = CLIDbManager(self.dbstate) self.force_unlock = parser.force_unlock self.cl = 0 self.imports = [] self.exports = [] self.open = self.__handle_open_option(parser.open, parser.create) self.sanitize_args(parser.imports, parser.exports) def __error(self, msg1, msg2=None): """ Output an error. Uses errorfunc if given, otherwise a simple print. """ if self.errorfunc: self.errorfunc(msg1) else: print(msg1, file=sys.stderr) if msg2 is not None: print(msg2, file=sys.stderr) #------------------------------------------------------------------------- # Argument parser: sorts out given arguments #------------------------------------------------------------------------- def sanitize_args(self, importlist, exportlist): """ Check the lists with open, exports, imports, and actions options. """ for (value, family_tree_format) in importlist: self.__handle_import_option(value, family_tree_format) for (value, family_tree_format) in exportlist: self.__handle_export_option(value, family_tree_format) def __handle_open_option(self, value, create): """ Handle the "-O" or "--open" and "-C" or "--create" options. Only Family trees or a dir with a family tree can be opened. If create is True, then create the tree if it doesn't exist. """ if value is None: return None value = get_unicode_path_from_env_var(value) db_path = self.__deduce_db_path(value) if db_path: # We have a potential database path. # Check if it is good. if not self.check_db(db_path, self.force_unlock): sys.exit(0) if create: self.__error( _("Error: Family Tree '%s' already exists.\n" "The '-C' option cannot be used.") % value) sys.exit(0) return db_path elif create: # create the tree here, and continue db_path, title = self.dbman.create_new_db_cli(title=value) return db_path else: self.__error( _('Error: Input Family Tree "%s" does not exist.\n' "If GEDCOM, Gramps-xml or grdb, use the -i option " "to import into a Family Tree instead.") % value) sys.exit(0) def __handle_import_option(self, value, family_tree_format): """ Handle the "-i" or "--import" option. Only Files supported by a plugin can be imported, so not Family Trees. """ # Need to convert path/filename to unicode before opening # For non latin characters in Windows path/file/user names value = get_unicode_path_from_env_var(value) fname = value fullpath = os.path.abspath(os.path.expanduser(fname)) if fname != '-' and not os.path.exists(fullpath): self.__error(_('Error: Import file %s not found.') % fname) sys.exit(0) if family_tree_format is None: # Guess the file format based on the file extension. # This will get the lower case extension without a period, # or an empty string. family_tree_format = os.path.splitext(fname)[-1][1:].lower() pmgr = BasePluginManager.get_instance() plugin_found = False for plugin in pmgr.get_import_plugins(): if family_tree_format == plugin.get_extension(): plugin_found = True if plugin_found: self.imports.append((fname, family_tree_format)) else: self.__error(_('Error: Unrecognized type: "%(format)s" for ' 'import file: %(filename)s') % {'format' : family_tree_format, 'filename' : fname}) sys.exit(0) def __handle_export_option(self, value, family_tree_format): """ Handle the "-e" or "--export" option. .. note:: this can only happen in the CLI version. """ if self.gui: return # Need to convert path/filename to unicode before opening # For non latin characters in Windows path/file/user names value = get_unicode_path_from_env_var(value) fname = value if fname == '-': fullpath = '-' else: fullpath = os.path.abspath(os.path.expanduser(fname)) if os.path.exists(fullpath): message = _("WARNING: Output file already exists!\n" "WARNING: It will be overwritten:\n %s" ) % fullpath accepted = self.user.prompt(_('OK to overwrite?'), message, _('yes'), _('no')) if accepted: self.__error(_("Will overwrite the existing file: %s") % fullpath) else: sys.exit(0) if family_tree_format is None: # Guess the file format based on the file extension. # This will get the lower case extension without a period, # or an empty string. family_tree_format = os.path.splitext(fname)[-1][1:].lower() pmgr = BasePluginManager.get_instance() plugin_found = False for plugin in pmgr.get_export_plugins(): if family_tree_format == plugin.get_extension(): plugin_found = True if plugin_found: self.exports.append((fullpath, family_tree_format)) else: self.__error(_("ERROR: Unrecognized format for export file %s") % fname) sys.exit(0) def __deduce_db_path(self, db_name_or_path): """ Attempt to find a database path for the given parameter. :returns: The path to a Gramps DB or None if a database can not be deduced. """ # First, check if this is the name of a family tree db_path = self.dbman.get_family_tree_path(db_name_or_path) if db_path is None: # This is not a known database name. # Check if the user provided a db path instead. fullpath = os.path.abspath(os.path.expanduser(db_name_or_path)) if os.path.isdir(fullpath): # The user provided a directory. Check if it is a valid tree. name_file_path = os.path.join(fullpath, NAME_FILE) if os.path.isfile(name_file_path): db_path = fullpath return db_path #------------------------------------------------------------------------- # Overall argument handler: # sorts out the sequence and details of operations #------------------------------------------------------------------------- def handle_args_gui(self): """ Method to handle the arguments that can be given for a GUI session. :returns: the filename of the family tree that should be opened if user just passed a famtree or a filename. 1. no options: a family tree can be given, if so, this name is tested and returned. If a filename, it is imported in a new db and name of new db returned 2. an open and/or import option can have been given, if so, this is handled, and None is returned """ if self.open_gui: # First check if a Gramps database was provided # (either a database path or a database name) db_path = self.__deduce_db_path(self.open_gui) if not db_path: # Apparently it is not a database. See if it is a file that # can be imported. db_path, title = self.dbman.import_new_db(self.open_gui, self.user) if db_path: # Test if not locked or problematic if not self.check_db(db_path, self.force_unlock): sys.exit(0) # Add the file to the recent items title = self.dbstate.db.get_dbname() if not title: title = db_path recent_files(db_path, title) self.open = db_path self.__open_action() else: sys.exit(0) return db_path # if not open_gui, parse any command line args. We can only have one # open argument, and perhaps some import arguments self.__open_action() self.__import_action() return None def handle_args_cli(self, cleanup=True): """ Depending on the given arguments, import or open data, launch session, write files, and/or perform actions. :param: climan: the manager of a CLI session :type: :class:`.CLIManager` object """ if self.list: print(_('List of known Family Trees in your database path\n')) for name, dirname in sorted(self.dbman.family_tree_list(), key=lambda pair: pair[0].lower()): print(_("%(full_DB_path)s with name \"%(f_t_name)s\"") % {'full_DB_path' : dirname, 'f_t_name' : name}) sys.exit(0) if self.list_more: print(_('Gramps Family Trees:')) summary_list = self.dbman.family_tree_summary() for summary in sorted(summary_list, key=lambda sum: sum[_("Family Tree")].lower()): print(_("Family Tree \"%s\":") % summary[_("Family Tree")]) for item in sorted(summary): if item != "Family Tree": print(" %s: %s" % (item, summary[item])) sys.exit(0) if self.list_table: print(_('Gramps Family Trees:')) summary_list = self.dbman.family_tree_summary() print(_("Family Tree"), end="") for key in sorted(summary_list[0]): if key != "Family Tree": print("\t ", end="") print(key, end="") print() for summary in sorted(summary_list, key=lambda sum: sum[_("Family Tree")].lower()): print('"%s"' % summary[_("Family Tree")], end="") for item in sorted(summary): if item != _("Family Tree"): print("\t ", end="") print('"%s"' % summary[item], end="") print() sys.exit(0) self.__open_action() self.__import_action() for (action, op_string) in self.actions: print(_("Performing action: %s.") % action, file=sys.stderr) if op_string: print(_("Using options string: %s") % op_string, file=sys.stderr) self.cl_action(action, op_string) for expt in self.exports: print(_("Exporting: file %(filename)s, format %(format)s.") % {'filename' : expt[0], 'format' : expt[1]}, file=sys.stderr) self.cl_export(expt[0], expt[1]) if cleanup: self.cleanup() print(_("Exiting."), file=sys.stderr) sys.exit(0) def cleanup(self): print(_("Cleaning up."), file=sys.stderr) # remove files in import db subdir after use self.dbstate.db.close() if self.imp_db_path: rm_tempdir(self.imp_db_path) def __import_action(self): """ Take action for all given import files. .. note:: Family trees are not supported. If a family tree is open, the import happens on top of it. If not open, a new family tree is created, and the import done. If this is CLI, the created tree is deleted at the end (as some action will have happened that is now finished), if this is GUI, it is opened. """ if self.imports: self.cl = bool(self.exports or self.actions or self.cl) if not self.open: # Create empty dir for imported database(s) if self.gui: self.imp_db_path, title = self.dbman.create_new_db_cli() else: self.imp_db_path = get_empty_tempdir("import_dbdir") newdb = DbBsddb() newdb.write_version(self.imp_db_path) try: self.sm.open_activate(self.imp_db_path) msg = _("Created empty Family Tree successfully") print(msg, file=sys.stderr) except: print(_("Error opening the file."), file=sys.stderr) print(_("Exiting..."), file=sys.stderr) sys.exit(0) for imp in self.imports: msg = _("Importing: file %(filename)s, format %(format)s.") % \ {'filename' : imp[0], 'format' : imp[1]} print(msg, file=sys.stderr) self.cl_import(imp[0], imp[1]) def __open_action(self): """ Take action on a family tree dir to open. It will be opened in the session manager """ if self.open: # Family Tree to open was given. Open it # Then go on and process the rest of the command line arguments. self.cl = bool(self.exports or self.actions) # we load this file for use try: self.sm.open_activate(self.open) print(_("Opened successfully!"), file=sys.stderr) except: print(_("Error opening the file."), file=sys.stderr) print(_("Exiting..."), file=sys.stderr) sys.exit(0) def check_db(self, dbpath, force_unlock = False): """ Test a given family tree path if it can be opened. """ # Test if not locked or problematic if force_unlock: self.dbman.break_lock(dbpath) if self.dbman.is_locked(dbpath): self.__error((_("Database is locked, cannot open it!") + '\n' + _(" Info: %s")) % find_locker_name(dbpath)) return False if self.dbman.needs_recovery(dbpath): self.__error( _("Database needs recovery, cannot open it!")) return False return True #------------------------------------------------------------------------- # # Import handler # #------------------------------------------------------------------------- def cl_import(self, filename, family_tree_format): """ Command-line import routine. Try to import filename using the family_tree_format. """ pmgr = BasePluginManager.get_instance() for plugin in pmgr.get_import_plugins(): if family_tree_format == plugin.get_extension(): import_function = plugin.get_import_function() import_function(self.dbstate.db, filename, self.user) if not self.cl: if self.imp_db_path: return self.sm.open_activate(self.imp_db_path) else: return self.sm.open_activate(self.open) #------------------------------------------------------------------------- # # Export handler # #------------------------------------------------------------------------- def cl_export(self, filename, family_tree_format): """ Command-line export routine. Try to write into filename using the family_tree_format. """ pmgr = BasePluginManager.get_instance() for plugin in pmgr.get_export_plugins(): if family_tree_format == plugin.get_extension(): export_function = plugin.get_export_function() export_function(self.dbstate.db, filename, self.user) #------------------------------------------------------------------------- # # Action handler # #------------------------------------------------------------------------- def cl_action(self, action, options_str): """ Command-line action routine. Try to perform specified action. """ pmgr = BasePluginManager.get_instance() if action == "report": try: options_str_dict = _split_options(options_str) except: options_str_dict = {} print(_("Ignoring invalid options string."), file=sys.stderr) name = options_str_dict.pop('name', None) _cl_list = pmgr.get_reg_reports(gui=False) if name: for pdata in _cl_list: if name == pdata.id: mod = pmgr.load_plugin(pdata) if not mod: #import of plugin failed return category = pdata.category report_class = eval('mod.' + pdata.reportclass) options_class = eval('mod.' + pdata.optionclass) if category in (CATEGORY_BOOK, CATEGORY_CODE): options_class(self.dbstate.db, name, category, options_str_dict) else: cl_report(self.dbstate.db, name, category, report_class, options_class, options_str_dict) return # name exists, but is not in the list of valid report names msg = _("Unknown report name.") else: msg = _("Report name not given. " "Please use one of %(donottranslate)s=reportname") % \ {'donottranslate' : '[-p|--options] name'} print(_("%s\n Available names are:") % msg, file=sys.stderr) for pdata in sorted(_cl_list, key= lambda pdata: pdata.id.lower()): # Print cli report name ([item[0]), GUI report name (item[4]) if len(pdata.id) <= 25: print(" %s%s- %s" % ( pdata.id, " " * (26 - len(pdata.id)), pdata.name), file=sys.stderr) else: print(" %s\t- %s" % (pdata.id, pdata.name), file=sys.stderr) elif action == "tool": from gramps.gui.plug import tool try: options_str_dict = dict( [ tuple(chunk.split('=')) for chunk in options_str.split(',') ] ) except: options_str_dict = {} print(_("Ignoring invalid options string."), file=sys.stderr) name = options_str_dict.pop('name', None) _cli_tool_list = pmgr.get_reg_tools(gui=False) if name: for pdata in _cli_tool_list: if name == pdata.id: mod = pmgr.load_plugin(pdata) if not mod: #import of plugin failed return category = pdata.category tool_class = eval('mod.' + pdata.toolclass) options_class = eval('mod.' + pdata.optionclass) tool.cli_tool( dbstate=self.dbstate, name=name, category=category, tool_class=tool_class, options_class=options_class, options_str_dict=options_str_dict, user=self.user) return msg = _("Unknown tool name.") else: msg = _("Tool name not given. " "Please use one of %(donottranslate)s=toolname.") % \ {'donottranslate' : '[-p|--options] name'} print(_("%s\n Available names are:") % msg, file=sys.stderr) for pdata in sorted(_cli_tool_list, key=lambda pdata: pdata.id.lower()): # Print cli report name ([item[0]), GUI report name (item[4]) if len(pdata.id) <= 25: print(" %s%s- %s" % ( pdata.id, " " * (26 - len(pdata.id)), pdata.name), file=sys.stderr) else: print(" %s\t- %s" % (pdata.id, pdata.name), file=sys.stderr) elif action == "book": try: options_str_dict = _split_options(options_str) except: options_str_dict = {} print(_("Ignoring invalid options string."), file=sys.stderr) name = options_str_dict.pop('name', None) book_list = BookList('books.xml', self.dbstate.db) if name: if name in book_list.get_book_names(): cl_book(self.dbstate.db, name, book_list.get_book(name), options_str_dict) return msg = _("Unknown book name.") else: msg = _("Book name not given. " "Please use one of %(donottranslate)s=bookname.") % \ {'donottranslate' : '[-p|--options] name'} print(_("%s\n Available names are:") % msg, file=sys.stderr) for name in sorted(book_list.get_book_names()): print(" %s" % name, file=sys.stderr) else: print(_("Unknown action: %s.") % action, file=sys.stderr) sys.exit(0)