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[chromium-blink-merge.git] / third_party / pexpect / FSM.py
blobc9085dcfcc78594953915d2919de2dde3451439b
1 #!/usr/bin/env python
3 """This module implements a Finite State Machine (FSM). In addition to state
4 this FSM also maintains a user defined "memory". So this FSM can be used as a
5 Push-down Automata (PDA) since a PDA is a FSM + memory.
7 The following describes how the FSM works, but you will probably also need to
8 see the example function to understand how the FSM is used in practice.
10 You define an FSM by building tables of transitions. For a given input symbol
11 the process() method uses these tables to decide what action to call and what
12 the next state will be. The FSM has a table of transitions that associate:
14 (input_symbol, current_state) --> (action, next_state)
16 Where "action" is a function you define. The symbols and states can be any
17 objects. You use the add_transition() and add_transition_list() methods to add
18 to the transition table. The FSM also has a table of transitions that
19 associate:
21 (current_state) --> (action, next_state)
23 You use the add_transition_any() method to add to this transition table. The
24 FSM also has one default transition that is not associated with any specific
25 input_symbol or state. You use the set_default_transition() method to set the
26 default transition.
28 When an action function is called it is passed a reference to the FSM. The
29 action function may then access attributes of the FSM such as input_symbol,
30 current_state, or "memory". The "memory" attribute can be any object that you
31 want to pass along to the action functions. It is not used by the FSM itself.
32 For parsing you would typically pass a list to be used as a stack.
34 The processing sequence is as follows. The process() method is given an
35 input_symbol to process. The FSM will search the table of transitions that
36 associate:
38 (input_symbol, current_state) --> (action, next_state)
40 If the pair (input_symbol, current_state) is found then process() will call the
41 associated action function and then set the current state to the next_state.
43 If the FSM cannot find a match for (input_symbol, current_state) it will then
44 search the table of transitions that associate:
46 (current_state) --> (action, next_state)
48 If the current_state is found then the process() method will call the
49 associated action function and then set the current state to the next_state.
50 Notice that this table lacks an input_symbol. It lets you define transitions
51 for a current_state and ANY input_symbol. Hence, it is called the "any" table.
52 Remember, it is always checked after first searching the table for a specific
53 (input_symbol, current_state).
55 For the case where the FSM did not match either of the previous two cases the
56 FSM will try to use the default transition. If the default transition is
57 defined then the process() method will call the associated action function and
58 then set the current state to the next_state. This lets you define a default
59 transition as a catch-all case. You can think of it as an exception handler.
60 There can be only one default transition.
62 Finally, if none of the previous cases are defined for an input_symbol and
63 current_state then the FSM will raise an exception. This may be desirable, but
64 you can always prevent this just by defining a default transition.
66 Noah Spurrier 20020822
68 PEXPECT LICENSE
70 This license is approved by the OSI and FSF as GPL-compatible.
71 http://opensource.org/licenses/isc-license.txt
73 Copyright (c) 2012, Noah Spurrier <noah@noah.org>
74 PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
75 PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
76 COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
77 THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
78 WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
79 MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
80 ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
81 WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
82 ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
83 OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
85 """
87 class ExceptionFSM(Exception):
89 """This is the FSM Exception class."""
91 def __init__(self, value):
92 self.value = value
94 def __str__(self):
95 return `self.value`
97 class FSM:
99 """This is a Finite State Machine (FSM).
102 def __init__(self, initial_state, memory=None):
104 """This creates the FSM. You set the initial state here. The "memory"
105 attribute is any object that you want to pass along to the action
106 functions. It is not used by the FSM. For parsing you would typically
107 pass a list to be used as a stack. """
109 # Map (input_symbol, current_state) --> (action, next_state).
110 self.state_transitions = {}
111 # Map (current_state) --> (action, next_state).
112 self.state_transitions_any = {}
113 self.default_transition = None
115 self.input_symbol = None
116 self.initial_state = initial_state
117 self.current_state = self.initial_state
118 self.next_state = None
119 self.action = None
120 self.memory = memory
122 def reset (self):
124 """This sets the current_state to the initial_state and sets
125 input_symbol to None. The initial state was set by the constructor
126 __init__(). """
128 self.current_state = self.initial_state
129 self.input_symbol = None
131 def add_transition (self, input_symbol, state, action=None, next_state=None):
133 """This adds a transition that associates:
135 (input_symbol, current_state) --> (action, next_state)
137 The action may be set to None in which case the process() method will
138 ignore the action and only set the next_state. The next_state may be
139 set to None in which case the current state will be unchanged.
141 You can also set transitions for a list of symbols by using
142 add_transition_list(). """
144 if next_state is None:
145 next_state = state
146 self.state_transitions[(input_symbol, state)] = (action, next_state)
148 def add_transition_list (self, list_input_symbols, state, action=None, next_state=None):
150 """This adds the same transition for a list of input symbols.
151 You can pass a list or a string. Note that it is handy to use
152 string.digits, string.whitespace, string.letters, etc. to add
153 transitions that match character classes.
155 The action may be set to None in which case the process() method will
156 ignore the action and only set the next_state. The next_state may be
157 set to None in which case the current state will be unchanged. """
159 if next_state is None:
160 next_state = state
161 for input_symbol in list_input_symbols:
162 self.add_transition (input_symbol, state, action, next_state)
164 def add_transition_any (self, state, action=None, next_state=None):
166 """This adds a transition that associates:
168 (current_state) --> (action, next_state)
170 That is, any input symbol will match the current state.
171 The process() method checks the "any" state associations after it first
172 checks for an exact match of (input_symbol, current_state).
174 The action may be set to None in which case the process() method will
175 ignore the action and only set the next_state. The next_state may be
176 set to None in which case the current state will be unchanged. """
178 if next_state is None:
179 next_state = state
180 self.state_transitions_any [state] = (action, next_state)
182 def set_default_transition (self, action, next_state):
184 """This sets the default transition. This defines an action and
185 next_state if the FSM cannot find the input symbol and the current
186 state in the transition list and if the FSM cannot find the
187 current_state in the transition_any list. This is useful as a final
188 fall-through state for catching errors and undefined states.
190 The default transition can be removed by setting the attribute
191 default_transition to None. """
193 self.default_transition = (action, next_state)
195 def get_transition (self, input_symbol, state):
197 """This returns (action, next state) given an input_symbol and state.
198 This does not modify the FSM state, so calling this method has no side
199 effects. Normally you do not call this method directly. It is called by
200 process().
202 The sequence of steps to check for a defined transition goes from the
203 most specific to the least specific.
205 1. Check state_transitions[] that match exactly the tuple,
206 (input_symbol, state)
208 2. Check state_transitions_any[] that match (state)
209 In other words, match a specific state and ANY input_symbol.
211 3. Check if the default_transition is defined.
212 This catches any input_symbol and any state.
213 This is a handler for errors, undefined states, or defaults.
215 4. No transition was defined. If we get here then raise an exception.
218 if self.state_transitions.has_key((input_symbol, state)):
219 return self.state_transitions[(input_symbol, state)]
220 elif self.state_transitions_any.has_key (state):
221 return self.state_transitions_any[state]
222 elif self.default_transition is not None:
223 return self.default_transition
224 else:
225 raise ExceptionFSM ('Transition is undefined: (%s, %s).' %
226 (str(input_symbol), str(state)) )
228 def process (self, input_symbol):
230 """This is the main method that you call to process input. This may
231 cause the FSM to change state and call an action. This method calls
232 get_transition() to find the action and next_state associated with the
233 input_symbol and current_state. If the action is None then the action
234 is not called and only the current state is changed. This method
235 processes one complete input symbol. You can process a list of symbols
236 (or a string) by calling process_list(). """
238 self.input_symbol = input_symbol
239 (self.action, self.next_state) = self.get_transition (self.input_symbol, self.current_state)
240 if self.action is not None:
241 self.action (self)
242 self.current_state = self.next_state
243 self.next_state = None
245 def process_list (self, input_symbols):
247 """This takes a list and sends each element to process(). The list may
248 be a string or any iterable object. """
250 for s in input_symbols:
251 self.process (s)
253 ##############################################################################
254 # The following is an example that demonstrates the use of the FSM class to
255 # process an RPN expression. Run this module from the command line. You will
256 # get a prompt > for input. Enter an RPN Expression. Numbers may be integers.
257 # Operators are * / + - Use the = sign to evaluate and print the expression.
258 # For example:
260 # 167 3 2 2 * * * 1 - =
262 # will print:
264 # 2003
265 ##############################################################################
267 import sys, os, traceback, optparse, time, string
270 # These define the actions.
271 # Note that "memory" is a list being used as a stack.
274 def BeginBuildNumber (fsm):
275 fsm.memory.append (fsm.input_symbol)
277 def BuildNumber (fsm):
278 s = fsm.memory.pop ()
279 s = s + fsm.input_symbol
280 fsm.memory.append (s)
282 def EndBuildNumber (fsm):
283 s = fsm.memory.pop ()
284 fsm.memory.append (int(s))
286 def DoOperator (fsm):
287 ar = fsm.memory.pop()
288 al = fsm.memory.pop()
289 if fsm.input_symbol == '+':
290 fsm.memory.append (al + ar)
291 elif fsm.input_symbol == '-':
292 fsm.memory.append (al - ar)
293 elif fsm.input_symbol == '*':
294 fsm.memory.append (al * ar)
295 elif fsm.input_symbol == '/':
296 fsm.memory.append (al / ar)
298 def DoEqual (fsm):
299 print str(fsm.memory.pop())
301 def Error (fsm):
302 print 'That does not compute.'
303 print str(fsm.input_symbol)
305 def main():
307 """This is where the example starts and the FSM state transitions are
308 defined. Note that states are strings (such as 'INIT'). This is not
309 necessary, but it makes the example easier to read. """
311 f = FSM ('INIT', []) # "memory" will be used as a stack.
312 f.set_default_transition (Error, 'INIT')
313 f.add_transition_any ('INIT', None, 'INIT')
314 f.add_transition ('=', 'INIT', DoEqual, 'INIT')
315 f.add_transition_list (string.digits, 'INIT', BeginBuildNumber, 'BUILDING_NUMBER')
316 f.add_transition_list (string.digits, 'BUILDING_NUMBER', BuildNumber, 'BUILDING_NUMBER')
317 f.add_transition_list (string.whitespace, 'BUILDING_NUMBER', EndBuildNumber, 'INIT')
318 f.add_transition_list ('+-*/', 'INIT', DoOperator, 'INIT')
320 print
321 print 'Enter an RPN Expression.'
322 print 'Numbers may be integers. Operators are * / + -'
323 print 'Use the = sign to evaluate and print the expression.'
324 print 'For example: '
325 print ' 167 3 2 2 * * * 1 - ='
326 inputstr = raw_input ('> ')
327 f.process_list(inputstr)
329 if __name__ == '__main__':
330 try:
331 start_time = time.time()
332 parser = optparse.OptionParser(formatter=optparse.TitledHelpFormatter(), usage=globals()['__doc__'], version='$Id: FSM.py 533 2012-10-20 02:19:33Z noah $')
333 parser.add_option ('-v', '--verbose', action='store_true', default=False, help='verbose output')
334 (options, args) = parser.parse_args()
335 if options.verbose: print time.asctime()
336 main()
337 if options.verbose: print time.asctime()
338 if options.verbose: print 'TOTAL TIME IN MINUTES:',
339 if options.verbose: print (time.time() - start_time) / 60.0
340 sys.exit(0)
341 except KeyboardInterrupt, e: # Ctrl-C
342 raise e
343 except SystemExit, e: # sys.exit()
344 raise e
345 except Exception, e:
346 print 'ERROR, UNEXPECTED EXCEPTION'
347 print str(e)
348 traceback.print_exc()
349 os._exit(1)