From 94d2fc1815a919734353c942f224db1de4b4fcb8 Mon Sep 17 00:00:00 2001 From: Tom Willemsen Date: Mon, 7 Mar 2011 09:04:49 +0100 Subject: Django, org * Added nxhtml, mostly for django support. * Changed some org settings. --- emacs.d/nxhtml/tests/in/bug529133-statemachine.py | 1491 +++++++++++++++++++++ 1 file changed, 1491 insertions(+) create mode 100644 emacs.d/nxhtml/tests/in/bug529133-statemachine.py (limited to 'emacs.d/nxhtml/tests/in/bug529133-statemachine.py') diff --git a/emacs.d/nxhtml/tests/in/bug529133-statemachine.py b/emacs.d/nxhtml/tests/in/bug529133-statemachine.py new file mode 100644 index 0000000..26ba642 --- /dev/null +++ b/emacs.d/nxhtml/tests/in/bug529133-statemachine.py @@ -0,0 +1,1491 @@ +# $Id: statemachine.py 6188 2009-10-28 14:08:17Z milde $ +# Author: David Goodger +# Copyright: This module has been placed in the public domain. + +""" +A finite state machine specialized for regular-expression-based text filters, +this module defines the following classes: + +- `StateMachine`, a state machine +- `State`, a state superclass +- `StateMachineWS`, a whitespace-sensitive version of `StateMachine` +- `StateWS`, a state superclass for use with `StateMachineWS` +- `SearchStateMachine`, uses `re.search()` instead of `re.match()` +- `SearchStateMachineWS`, uses `re.search()` instead of `re.match()` +- `ViewList`, extends standard Python lists. +- `StringList`, string-specific ViewList. + +Exception classes: + +- `StateMachineError` +- `UnknownStateError` +- `DuplicateStateError` +- `UnknownTransitionError` +- `DuplicateTransitionError` +- `TransitionPatternNotFound` +- `TransitionMethodNotFound` +- `UnexpectedIndentationError` +- `TransitionCorrection`: Raised to switch to another transition. +- `StateCorrection`: Raised to switch to another state & transition. + +Functions: + +- `string2lines()`: split a multi-line string into a list of one-line strings + + +How To Use This Module +====================== +(See the individual classes, methods, and attributes for details.) + +1. Import it: ``import statemachine`` or ``from statemachine import ...``. + You will also need to ``import re``. + +2. Derive a subclass of `State` (or `StateWS`) for each state in your state + machine:: + + class MyState(statemachine.State): + + Within the state's class definition: + + a) Include a pattern for each transition, in `State.patterns`:: + + patterns = {'atransition': r'pattern', ...} + + b) Include a list of initial transitions to be set up automatically, in + `State.initial_transitions`:: + + initial_transitions = ['atransition', ...] + + c) Define a method for each transition, with the same name as the + transition pattern:: + + def atransition(self, match, context, next_state): + # do something + result = [...] # a list + return context, next_state, result + # context, next_state may be altered + + Transition methods may raise an `EOFError` to cut processing short. + + d) You may wish to override the `State.bof()` and/or `State.eof()` implicit + transition methods, which handle the beginning- and end-of-file. + + e) In order to handle nested processing, you may wish to override the + attributes `State.nested_sm` and/or `State.nested_sm_kwargs`. + + If you are using `StateWS` as a base class, in order to handle nested + indented blocks, you may wish to: + + - override the attributes `StateWS.indent_sm`, + `StateWS.indent_sm_kwargs`, `StateWS.known_indent_sm`, and/or + `StateWS.known_indent_sm_kwargs`; + - override the `StateWS.blank()` method; and/or + - override or extend the `StateWS.indent()`, `StateWS.known_indent()`, + and/or `StateWS.firstknown_indent()` methods. + +3. Create a state machine object:: + + sm = StateMachine(state_classes=[MyState, ...], + initial_state='MyState') + +4. Obtain the input text, which needs to be converted into a tab-free list of + one-line strings. For example, to read text from a file called + 'inputfile':: + + input_string = open('inputfile').read() + input_lines = statemachine.string2lines(input_string) + +5. Run the state machine on the input text and collect the results, a list:: + + results = sm.run(input_lines) + +6. Remove any lingering circular references:: + + sm.unlink() +""" + +__docformat__ = 'restructuredtext' + +import sys +import re +import types +import unicodedata + + +class StateMachine: + + """ + A finite state machine for text filters using regular expressions. + + The input is provided in the form of a list of one-line strings (no + newlines). States are subclasses of the `State` class. Transitions consist + of regular expression patterns and transition methods, and are defined in + each state. + + The state machine is started with the `run()` method, which returns the + results of processing in a list. + """ + + def __init__(self, state_classes, initial_state, debug=0): + """ + Initialize a `StateMachine` object; add state objects. + + Parameters: + + - `state_classes`: a list of `State` (sub)classes. + - `initial_state`: a string, the class name of the initial state. + - `debug`: a boolean; produce verbose output if true (nonzero). + """ + + self.input_lines = None + """`StringList` of input lines (without newlines). + Filled by `self.run()`.""" + + self.input_offset = 0 + """Offset of `self.input_lines` from the beginning of the file.""" + + self.line = None + """Current input line.""" + + self.line_offset = -1 + """Current input line offset from beginning of `self.input_lines`.""" + + self.debug = debug + """Debugging mode on/off.""" + + self.initial_state = initial_state + """The name of the initial state (key to `self.states`).""" + + self.current_state = initial_state + """The name of the current state (key to `self.states`).""" + + self.states = {} + """Mapping of {state_name: State_object}.""" + + self.add_states(state_classes) + + self.observers = [] + """List of bound methods or functions to call whenever the current + line changes. Observers are called with one argument, ``self``. + Cleared at the end of `run()`.""" + + def unlink(self): + """Remove circular references to objects no longer required.""" + for state in self.states.values(): + state.unlink() + self.states = None + + def run(self, input_lines, input_offset=0, context=None, + input_source=None, initial_state=None): + """ + Run the state machine on `input_lines`. Return results (a list). + + Reset `self.line_offset` and `self.current_state`. Run the + beginning-of-file transition. Input one line at a time and check for a + matching transition. If a match is found, call the transition method + and possibly change the state. Store the context returned by the + transition method to be passed on to the next transition matched. + Accumulate the results returned by the transition methods in a list. + Run the end-of-file transition. Finally, return the accumulated + results. + + Parameters: + + - `input_lines`: a list of strings without newlines, or `StringList`. + - `input_offset`: the line offset of `input_lines` from the beginning + of the file. + - `context`: application-specific storage. + - `input_source`: name or path of source of `input_lines`. + - `initial_state`: name of initial state. + """ + self.runtime_init() + if isinstance(input_lines, StringList): + self.input_lines = input_lines + else: + self.input_lines = StringList(input_lines, source=input_source) + self.input_offset = input_offset + self.line_offset = -1 + self.current_state = initial_state or self.initial_state + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.run: input_lines (line_offset=%s):\n| %s' + % (self.line_offset, '\n| '.join(self.input_lines))) + transitions = None + results = [] + state = self.get_state() + try: + if self.debug: + print >>sys.stderr, ('\nStateMachine.run: bof transition') + context, result = state.bof(context) + results.extend(result) + while 1: + try: + try: + self.next_line() + if self.debug: + source, offset = self.input_lines.info( + self.line_offset) + print >>sys.stderr, ( + '\nStateMachine.run: line (source=%r, ' + 'offset=%r):\n| %s' + % (source, offset, self.line)) + context, next_state, result = self.check_line( + context, state, transitions) + except EOFError: + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.run: %s.eof transition' + % state.__class__.__name__) + result = state.eof(context) + results.extend(result) + break + else: + results.extend(result) + except TransitionCorrection, exception: + self.previous_line() # back up for another try + transitions = (exception.args[0],) + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.run: TransitionCorrection to ' + 'state "%s", transition %s.' + % (state.__class__.__name__, transitions[0])) + continue + except StateCorrection, exception: + self.previous_line() # back up for another try + next_state = exception.args[0] + if len(exception.args) == 1: + transitions = None + else: + transitions = (exception.args[1],) + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.run: StateCorrection to state ' + '"%s", transition %s.' + % (next_state, transitions[0])) + else: + transitions = None + state = self.get_state(next_state) + except: + if self.debug: + self.error() + raise + self.observers = [] + return results + + def get_state(self, next_state=None): + """ + Return current state object; set it first if `next_state` given. + + Parameter `next_state`: a string, the name of the next state. + + Exception: `UnknownStateError` raised if `next_state` unknown. + """ + if next_state: + if self.debug and next_state != self.current_state: + print >>sys.stderr, \ + ('\nStateMachine.get_state: Changing state from ' + '"%s" to "%s" (input line %s).' + % (self.current_state, next_state, + self.abs_line_number())) + self.current_state = next_state + try: + return self.states[self.current_state] + except KeyError: + raise UnknownStateError(self.current_state) + + def next_line(self, n=1): + """Load `self.line` with the `n`'th next line and return it.""" + try: + try: + self.line_offset += n + self.line = self.input_lines[self.line_offset] + except IndexError: + self.line = None + raise EOFError + return self.line + finally: + self.notify_observers() + + def is_next_line_blank(self): + """Return 1 if the next line is blank or non-existant.""" + try: + return not self.input_lines[self.line_offset + 1].strip() + except IndexError: + return 1 + + def at_eof(self): + """Return 1 if the input is at or past end-of-file.""" + return self.line_offset >= len(self.input_lines) - 1 + + def at_bof(self): + """Return 1 if the input is at or before beginning-of-file.""" + return self.line_offset <= 0 + + def previous_line(self, n=1): + """Load `self.line` with the `n`'th previous line and return it.""" + self.line_offset -= n + if self.line_offset < 0: + self.line = None + else: + self.line = self.input_lines[self.line_offset] + self.notify_observers() + return self.line + + def goto_line(self, line_offset): + """Jump to absolute line offset `line_offset`, load and return it.""" + try: + try: + self.line_offset = line_offset - self.input_offset + self.line = self.input_lines[self.line_offset] + except IndexError: + self.line = None + raise EOFError + return self.line + finally: + self.notify_observers() + + def get_source(self, line_offset): + """Return source of line at absolute line offset `line_offset`.""" + return self.input_lines.source(line_offset - self.input_offset) + + def get_source_spot(self, line_offset=None): + """Return dict with source position of current or given line""" + if line_offset is None: + line_offset = self.line_offset + else: + line_offset -= self.input_offset + (source, offset) = self.input_lines.info(line_offset) + return {'source': source, 'line': offset + 1} + + def abs_line_offset(self): + """Return line offset of current line, from beginning of file.""" + return self.line_offset + self.input_offset + + def abs_line_number(self): + """Return line number of current line (counting from 1).""" + return self.line_offset + self.input_offset + 1 + + def insert_input(self, input_lines, source): + self.input_lines.insert(self.line_offset + 1, '', + source='internal padding after ' + source) + self.input_lines.insert(self.line_offset + 1, '', + source='internal padding before '+ source) + self.input_lines.insert(self.line_offset + 2, + StringList(input_lines, source)) + + def get_text_block(self, flush_left=0): + """ + Return a contiguous block of text. + + If `flush_left` is true, raise `UnexpectedIndentationError` if an + indented line is encountered before the text block ends (with a blank + line). + """ + try: + block = self.input_lines.get_text_block(self.line_offset, + flush_left) + self.next_line(len(block) - 1) + return block + except UnexpectedIndentationError, error: + block, source, lineno = error.args + self.next_line(len(block) - 1) # advance to last line of block + raise + + def check_line(self, context, state, transitions=None): + """ + Examine one line of input for a transition match & execute its method. + + Parameters: + + - `context`: application-dependent storage. + - `state`: a `State` object, the current state. + - `transitions`: an optional ordered list of transition names to try, + instead of ``state.transition_order``. + + Return the values returned by the transition method: + + - context: possibly modified from the parameter `context`; + - next state name (`State` subclass name); + - the result output of the transition, a list. + + When there is no match, ``state.no_match()`` is called and its return + value is returned. + """ + if transitions is None: + transitions = state.transition_order + state_correction = None + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.check_line: state="%s", transitions=%r.' + % (state.__class__.__name__, transitions)) + for name in transitions: + pattern, method, next_state = state.transitions[name] + match = pattern.match(self.line) + if match: + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.check_line: Matched transition ' + '"%s" in state "%s".' + % (name, state.__class__.__name__)) + return method(match, context, next_state) + else: + if self.debug: + print >>sys.stderr, ( + '\nStateMachine.check_line: No match in state "%s".' + % state.__class__.__name__) + return state.no_match(context, transitions) + + def add_state(self, state_class): + """ + Initialize & add a `state_class` (`State` subclass) object. + + Exception: `DuplicateStateError` raised if `state_class` was already + added. + """ + statename = state_class.__name__ + if statename in self.states: + raise DuplicateStateError(statename) + self.states[statename] = state_class(self, self.debug) + + def add_states(self, state_classes): + """ + Add `state_classes` (a list of `State` subclasses). + """ + for state_class in state_classes: + self.add_state(state_class) + + def runtime_init(self): + """ + Initialize `self.states`. + """ + for state in self.states.values(): + state.runtime_init() + + def error(self): + """Report error details.""" + type, value, module, line, function = _exception_data() + print >>sys.stderr, '%s: %s' % (type, value) + print >>sys.stderr, 'input line %s' % (self.abs_line_number()) + print >>sys.stderr, ('module %s, line %s, function %s' + % (module, line, function)) + + def attach_observer(self, observer): + """ + The `observer` parameter is a function or bound method which takes two + arguments, the source and offset of the current line. + """ + self.observers.append(observer) + + def detach_observer(self, observer): + self.observers.remove(observer) + + def notify_observers(self): + for observer in self.observers: + try: + info = self.input_lines.info(self.line_offset) + except IndexError: + info = (None, None) + observer(*info) + + +class State: + + """ + State superclass. Contains a list of transitions, and transition methods. + + Transition methods all have the same signature. They take 3 parameters: + + - An `re` match object. ``match.string`` contains the matched input line, + ``match.start()`` gives the start index of the match, and + ``match.end()`` gives the end index. + - A context object, whose meaning is application-defined (initial value + ``None``). It can be used to store any information required by the state + machine, and the retured context is passed on to the next transition + method unchanged. + - The name of the next state, a string, taken from the transitions list; + normally it is returned unchanged, but it may be altered by the + transition method if necessary. + + Transition methods all return a 3-tuple: + + - A context object, as (potentially) modified by the transition method. + - The next state name (a return value of ``None`` means no state change). + - The processing result, a list, which is accumulated by the state + machine. + + Transition methods may raise an `EOFError` to cut processing short. + + There are two implicit transitions, and corresponding transition methods + are defined: `bof()` handles the beginning-of-file, and `eof()` handles + the end-of-file. These methods have non-standard signatures and return + values. `bof()` returns the initial context and results, and may be used + to return a header string, or do any other processing needed. `eof()` + should handle any remaining context and wrap things up; it returns the + final processing result. + + Typical applications need only subclass `State` (or a subclass), set the + `patterns` and `initial_transitions` class attributes, and provide + corresponding transition methods. The default object initialization will + take care of constructing the list of transitions. + """ + + patterns = None + """ + {Name: pattern} mapping, used by `make_transition()`. Each pattern may + be a string or a compiled `re` pattern. Override in subclasses. + """ + + initial_transitions = None + """ + A list of transitions to initialize when a `State` is instantiated. + Each entry is either a transition name string, or a (transition name, next + state name) pair. See `make_transitions()`. Override in subclasses. + """ + + nested_sm = None + """ + The `StateMachine` class for handling nested processing. + + If left as ``None``, `nested_sm` defaults to the class of the state's + controlling state machine. Override it in subclasses to avoid the default. + """ + + nested_sm_kwargs = None + """ + Keyword arguments dictionary, passed to the `nested_sm` constructor. + + Two keys must have entries in the dictionary: + + - Key 'state_classes' must be set to a list of `State` classes. + - Key 'initial_state' must be set to the name of the initial state class. + + If `nested_sm_kwargs` is left as ``None``, 'state_classes' defaults to the + class of the current state, and 'initial_state' defaults to the name of + the class of the current state. Override in subclasses to avoid the + defaults. + """ + + def __init__(self, state_machine, debug=0): + """ + Initialize a `State` object; make & add initial transitions. + + Parameters: + + - `statemachine`: the controlling `StateMachine` object. + - `debug`: a boolean; produce verbose output if true (nonzero). + """ + + self.transition_order = [] + """A list of transition names in search order.""" + + self.transitions = {} + """ + A mapping of transition names to 3-tuples containing + (compiled_pattern, transition_method, next_state_name). Initialized as + an instance attribute dynamically (instead of as a class attribute) + because it may make forward references to patterns and methods in this + or other classes. + """ + + self.add_initial_transitions() + + self.state_machine = state_machine + """A reference to the controlling `StateMachine` object.""" + + self.debug = debug + """Debugging mode on/off.""" + + if self.nested_sm is None: + self.nested_sm = self.state_machine.__class__ + if self.nested_sm_kwargs is None: + self.nested_sm_kwargs = {'state_classes': [self.__class__], + 'initial_state': self.__class__.__name__} + + def runtime_init(self): + """ + Initialize this `State` before running the state machine; called from + `self.state_machine.run()`. + """ + pass + + def unlink(self): + """Remove circular references to objects no longer required.""" + self.state_machine = None + + def add_initial_transitions(self): + """Make and add transitions listed in `self.initial_transitions`.""" + if self.initial_transitions: + names, transitions = self.make_transitions( + self.initial_transitions) + self.add_transitions(names, transitions) + + def add_transitions(self, names, transitions): + """ + Add a list of transitions to the start of the transition list. + + Parameters: + + - `names`: a list of transition names. + - `transitions`: a mapping of names to transition tuples. + + Exceptions: `DuplicateTransitionError`, `UnknownTransitionError`. + """ + for name in names: + if name in self.transitions: + raise DuplicateTransitionError(name) + if name not in transitions: + raise UnknownTransitionError(name) + self.transition_order[:0] = names + self.transitions.update(transitions) + + def add_transition(self, name, transition): + """ + Add a transition to the start of the transition list. + + Parameter `transition`: a ready-made transition 3-tuple. + + Exception: `DuplicateTransitionError`. + """ + if name in self.transitions: + raise DuplicateTransitionError(name) + self.transition_order[:0] = [name] + self.transitions[name] = transition + + def remove_transition(self, name): + """ + Remove a transition by `name`. + + Exception: `UnknownTransitionError`. + """ + try: + del self.transitions[name] + self.transition_order.remove(name) + except: + raise UnknownTransitionError(name) + + def make_transition(self, name, next_state=None): + """ + Make & return a transition tuple based on `name`. + + This is a convenience function to simplify transition creation. + + Parameters: + + - `name`: a string, the name of the transition pattern & method. This + `State` object must have a method called '`name`', and a dictionary + `self.patterns` containing a key '`name`'. + - `next_state`: a string, the name of the next `State` object for this + transition. A value of ``None`` (or absent) implies no state change + (i.e., continue with the same state). + + Exceptions: `TransitionPatternNotFound`, `TransitionMethodNotFound`. + """ + if next_state is None: + next_state = self.__class__.__name__ + try: + pattern = self.patterns[name] + if not hasattr(pattern, 'match'): + pattern = re.compile(pattern) + except KeyError: + raise TransitionPatternNotFound( + '%s.patterns[%r]' % (self.__class__.__name__, name)) + try: + method = getattr(self, name) + except AttributeError: + raise TransitionMethodNotFound( + '%s.%s' % (self.__class__.__name__, name)) + return (pattern, method, next_state) + + def make_transitions(self, name_list): + """ + Return a list of transition names and a transition mapping. + + Parameter `name_list`: a list, where each entry is either a transition + name string, or a 1- or 2-tuple (transition name, optional next state + name). + """ + stringtype = type('') + names = [] + transitions = {} + for namestate in name_list: + if type(namestate) is stringtype: + transitions[namestate] = self.make_transition(namestate) + names.append(namestate) + else: + transitions[namestate[0]] = self.make_transition(*namestate) + names.append(namestate[0]) + return names, transitions + + def no_match(self, context, transitions): + """ + Called when there is no match from `StateMachine.check_line()`. + + Return the same values returned by transition methods: + + - context: unchanged; + - next state name: ``None``; + - empty result list. + + Override in subclasses to catch this event. + """ + return context, None, [] + + def bof(self, context): + """ + Handle beginning-of-file. Return unchanged `context`, empty result. + + Override in subclasses. + + Parameter `context`: application-defined storage. + """ + return context, [] + + def eof(self, context): + """ + Handle end-of-file. Return empty result. + + Override in subclasses. + + Parameter `context`: application-defined storage. + """ + return [] + + def nop(self, match, context, next_state): + """ + A "do nothing" transition method. + + Return unchanged `context` & `next_state`, empty result. Useful for + simple state changes (actionless transitions). + """ + return context, next_state, [] + + +class StateMachineWS(StateMachine): + + """ + `StateMachine` subclass specialized for whitespace recognition. + + There are three methods provided for extracting indented text blocks: + + - `get_indented()`: use when the indent is unknown. + - `get_known_indented()`: use when the indent is known for all lines. + - `get_first_known_indented()`: use when only the first line's indent is + known. + """ + + def get_indented(self, until_blank=0, strip_indent=1): + """ + Return a block of indented lines of text, and info. + + Extract an indented block where the indent is unknown for all lines. + + :Parameters: + - `until_blank`: Stop collecting at the first blank line if true + (1). + - `strip_indent`: Strip common leading indent if true (1, + default). + + :Return: + - the indented block (a list of lines of text), + - its indent, + - its first line offset from BOF, and + - whether or not it finished with a blank line. + """ + offset = self.abs_line_offset() + indented, indent, blank_finish = self.input_lines.get_indented( + self.line_offset, until_blank, strip_indent) + if indented: + self.next_line(len(indented) - 1) # advance to last indented line + while indented and not indented[0].strip(): + indented.trim_start() + offset += 1 + return indented, indent, offset, blank_finish + + def get_known_indented(self, indent, until_blank=0, strip_indent=1): + """ + Return an indented block and info. + + Extract an indented block where the indent is known for all lines. + Starting with the current line, extract the entire text block with at + least `indent` indentation (which must be whitespace, except for the + first line). + + :Parameters: + - `indent`: The number of indent columns/characters. + - `until_blank`: Stop collecting at the first blank line if true + (1). + - `strip_indent`: Strip `indent` characters of indentation if true + (1, default). + + :Return: + - the indented block, + - its first line offset from BOF, and + - whether or not it finished with a blank line. + """ + offset = self.abs_line_offset() + indented, indent, blank_finish = self.input_lines.get_indented( + self.line_offset, until_blank, strip_indent, + block_indent=indent) + self.next_line(len(indented) - 1) # advance to last indented line + while indented and not indented[0].strip(): + indented.trim_start() + offset += 1 + return indented, offset, blank_finish + + def get_first_known_indented(self, indent, until_blank=0, strip_indent=1, + strip_top=1): + """ + Return an indented block and info. + + Extract an indented block where the indent is known for the first line + and unknown for all other lines. + + :Parameters: + - `indent`: The first line's indent (# of columns/characters). + - `until_blank`: Stop collecting at the first blank line if true + (1). + - `strip_indent`: Strip `indent` characters of indentation if true + (1, default). + - `strip_top`: Strip blank lines from the beginning of the block. + + :Return: + - the indented block, + - its indent, + - its first line offset from BOF, and + - whether or not it finished with a blank line. + """ + offset = self.abs_line_offset() + indented, indent, blank_finish = self.input_lines.get_indented( + self.line_offset, until_blank, strip_indent, + first_indent=indent) + self.next_line(len(indented) - 1) # advance to last indented line + if strip_top: + while indented and not indented[0].strip(): + indented.trim_start() + offset += 1 + return indented, indent, offset, blank_finish + + +class StateWS(State): + + """ + State superclass specialized for whitespace (blank lines & indents). + + Use this class with `StateMachineWS`. The transitions 'blank' (for blank + lines) and 'indent' (for indented text blocks) are added automatically, + before any other transitions. The transition method `blank()` handles + blank lines and `indent()` handles nested indented blocks. Indented + blocks trigger a new state machine to be created by `indent()` and run. + The class of the state machine to be created is in `indent_sm`, and the + constructor keyword arguments are in the dictionary `indent_sm_kwargs`. + + The methods `known_indent()` and `firstknown_indent()` are provided for + indented blocks where the indent (all lines' and first line's only, + respectively) is known to the transition method, along with the attributes + `known_indent_sm` and `known_indent_sm_kwargs`. Neither transition method + is triggered automatically. + """ + + indent_sm = None + """ + The `StateMachine` class handling indented text blocks. + + If left as ``None``, `indent_sm` defaults to the value of + `State.nested_sm`. Override it in subclasses to avoid the default. + """ + + indent_sm_kwargs = None + """ + Keyword arguments dictionary, passed to the `indent_sm` constructor. + + If left as ``None``, `indent_sm_kwargs` defaults to the value of + `State.nested_sm_kwargs`. Override it in subclasses to avoid the default. + """ + + known_indent_sm = None + """ + The `StateMachine` class handling known-indented text blocks. + + If left as ``None``, `known_indent_sm` defaults to the value of + `indent_sm`. Override it in subclasses to avoid the default. + """ + + known_indent_sm_kwargs = None + """ + Keyword arguments dictionary, passed to the `known_indent_sm` constructor. + + If left as ``None``, `known_indent_sm_kwargs` defaults to the value of + `indent_sm_kwargs`. Override it in subclasses to avoid the default. + """ + + ws_patterns = {'blank': ' *$', + 'indent': ' +'} + """Patterns for default whitespace transitions. May be overridden in + subclasses.""" + + ws_initial_transitions = ('blank', 'indent') + """Default initial whitespace transitions, added before those listed in + `State.initial_transitions`. May be overridden in subclasses.""" + + def __init__(self, state_machine, debug=0): + """ + Initialize a `StateSM` object; extends `State.__init__()`. + + Check for indent state machine attributes, set defaults if not set. + """ + State.__init__(self, state_machine, debug) + if self.indent_sm is None: + self.indent_sm = self.nested_sm + if self.indent_sm_kwargs is None: + self.indent_sm_kwargs = self.nested_sm_kwargs + if self.known_indent_sm is None: + self.known_indent_sm = self.indent_sm + if self.known_indent_sm_kwargs is None: + self.known_indent_sm_kwargs = self.indent_sm_kwargs + + def add_initial_transitions(self): + """ + Add whitespace-specific transitions before those defined in subclass. + + Extends `State.add_initial_transitions()`. + """ + State.add_initial_transitions(self) + if self.patterns is None: + self.patterns = {} + self.patterns.update(self.ws_patterns) + names, transitions = self.make_transitions( + self.ws_initial_transitions) + self.add_transitions(names, transitions) + + def blank(self, match, context, next_state): + """Handle blank lines. Does nothing. Override in subclasses.""" + return self.nop(match, context, next_state) + + def indent(self, match, context, next_state): + """ + Handle an indented text block. Extend or override in subclasses. + + Recursively run the registered state machine for indented blocks + (`self.indent_sm`). + """ + indented, indent, line_offset, blank_finish = \ + self.state_machine.get_indented() + sm = self.indent_sm(debug=self.debug, **self.indent_sm_kwargs) + results = sm.run(indented, input_offset=line_offset) + return context, next_state, results + + def known_indent(self, match, context, next_state): + """ + Handle a known-indent text block. Extend or override in subclasses. + + Recursively run the registered state machine for known-indent indented + blocks (`self.known_indent_sm`). The indent is the length of the + match, ``match.end()``. + """ + indented, line_offset, blank_finish = \ + self.state_machine.get_known_indented(match.end()) + sm = self.known_indent_sm(debug=self.debug, + **self.known_indent_sm_kwargs) + results = sm.run(indented, input_offset=line_offset) + return context, next_state, results + + def first_known_indent(self, match, context, next_state): + """ + Handle an indented text block (first line's indent known). + + Extend or override in subclasses. + + Recursively run the registered state machine for known-indent indented + blocks (`self.known_indent_sm`). The indent is the length of the + match, ``match.end()``. + """ + indented, line_offset, blank_finish = \ + self.state_machine.get_first_known_indented(match.end()) + sm = self.known_indent_sm(debug=self.debug, + **self.known_indent_sm_kwargs) + results = sm.run(indented, input_offset=line_offset) + return context, next_state, results + + +class _SearchOverride: + + """ + Mix-in class to override `StateMachine` regular expression behavior. + + Changes regular expression matching, from the default `re.match()` + (succeeds only if the pattern matches at the start of `self.line`) to + `re.search()` (succeeds if the pattern matches anywhere in `self.line`). + When subclassing a `StateMachine`, list this class **first** in the + inheritance list of the class definition. + """ + + def match(self, pattern): + """ + Return the result of a regular expression search. + + Overrides `StateMachine.match()`. + + Parameter `pattern`: `re` compiled regular expression. + """ + return pattern.search(self.line) + + +class SearchStateMachine(_SearchOverride, StateMachine): + """`StateMachine` which uses `re.search()` instead of `re.match()`.""" + pass + + +class SearchStateMachineWS(_SearchOverride, StateMachineWS): + """`StateMachineWS` which uses `re.search()` instead of `re.match()`.""" + pass + + +class ViewList: + + """ + List with extended functionality: slices of ViewList objects are child + lists, linked to their parents. Changes made to a child list also affect + the parent list. A child list is effectively a "view" (in the SQL sense) + of the parent list. Changes to parent lists, however, do *not* affect + active child lists. If a parent list is changed, any active child lists + should be recreated. + + The start and end of the slice can be trimmed using the `trim_start()` and + `trim_end()` methods, without affecting the parent list. The link between + child and parent lists can be broken by calling `disconnect()` on the + child list. + + Also, ViewList objects keep track of the source & offset of each item. + This information is accessible via the `source()`, `offset()`, and + `info()` methods. + """ + + def __init__(self, initlist=None, source=None, items=None, + parent=None, parent_offset=None): + self.data = [] + """The actual list of data, flattened from various sources.""" + + self.items = [] + """A list of (source, offset) pairs, same length as `self.data`: the + source of each line and the offset of each line from the beginning of + its source.""" + + self.parent = parent + """The parent list.""" + + self.parent_offset = parent_offset + """Offset of this list from the beginning of the parent list.""" + + if isinstance(initlist, ViewList): + self.data = initlist.data[:] + self.items = initlist.items[:] + elif initlist is not None: + self.data = list(initlist) + if items: + self.items = items + else: + self.items = [(source, i) for i in range(len(initlist))] + assert len(self.data) == len(self.items), 'data mismatch' + + def __str__(self): + return str(self.data) + + def __repr__(self): + return '%s(%s, items=%s)' % (self.__class__.__name__, + self.data, self.items) + + def __lt__(self, other): return self.data < self.__cast(other) + def __le__(self, other): return self.data <= self.__cast(other) + def __eq__(self, other): return self.data == self.__cast(other) + def __ne__(self, other): return self.data != self.__cast(other) + def __gt__(self, other): return self.data > self.__cast(other) + def __ge__(self, other): return self.data >= self.__cast(other) + def __cmp__(self, other): return cmp(self.data, self.__cast(other)) + + def __cast(self, other): + if isinstance(other, ViewList): + return other.data + else: + return other + + def __contains__(self, item): return item in self.data + def __len__(self): return len(self.data) + + # The __getitem__()/__setitem__() methods check whether the index + # is a slice first, since indexing a native list with a slice object + # just works. + + def __getitem__(self, i): + if isinstance(i, types.SliceType): + assert i.step in (None, 1), 'cannot handle slice with stride' + return self.__class__(self.data[i.start:i.stop], + items=self.items[i.start:i.stop], + parent=self, parent_offset=i.start or 0) + else: + return self.data[i] + + def __setitem__(self, i, item): + if isinstance(i, types.SliceType): + assert i.step in (None, 1), 'cannot handle slice with stride' + if not isinstance(item, ViewList): + raise TypeError('assigning non-ViewList to ViewList slice') + self.data[i.start:i.stop] = item.data + self.items[i.start:i.stop] = item.items + assert len(self.data) == len(self.items), 'data mismatch' + if self.parent: + self.parent[(i.start or 0) + self.parent_offset + : (i.stop or len(self)) + self.parent_offset] = item + else: + self.data[i] = item + if self.parent: + self.parent[i + self.parent_offset] = item + + def __delitem__(self, i): + try: + del self.data[i] + del self.items[i] + if self.parent: + del self.parent[i + self.parent_offset] + except TypeError: + assert i.step is None, 'cannot handle slice with stride' + del self.data[i.start:i.stop] + del self.items[i.start:i.stop] + if self.parent: + del self.parent[(i.start or 0) + self.parent_offset + : (i.stop or len(self)) + self.parent_offset] + + def __add__(self, other): + if isinstance(other, ViewList): + return self.__class__(self.data + other.data, + items=(self.items + other.items)) + else: + raise TypeError('adding non-ViewList to a ViewList') + + def __radd__(self, other): + if isinstance(other, ViewList): + return self.__class__(other.data + self.data, + items=(other.items + self.items)) + else: + raise TypeError('adding ViewList to a non-ViewList') + + def __iadd__(self, other): + if isinstance(other, ViewList): + self.data += other.data + else: + raise TypeError('argument to += must be a ViewList') + return self + + def __mul__(self, n): + return self.__class__(self.data * n, items=(self.items * n)) + + __rmul__ = __mul__ + + def __imul__(self, n): + self.data *= n + self.items *= n + return self + + def extend(self, other): + if not isinstance(other, ViewList): + raise TypeError('extending a ViewList with a non-ViewList') + if self.parent: + self.parent.insert(len(self.data) + self.parent_offset, other) + self.data.extend(other.data) + self.items.extend(other.items) + + def append(self, item, source=None, offset=0): + if source is None: + self.extend(item) + else: + if self.parent: + self.parent.insert(len(self.data) + self.parent_offset, item, + source, offset) + self.data.append(item) + self.items.append((source, offset)) + + def insert(self, i, item, source=None, offset=0): + if source is None: + if not isinstance(item, ViewList): + raise TypeError('inserting non-ViewList with no source given') + self.data[i:i] = item.data + self.items[i:i] = item.items + if self.parent: + index = (len(self.data) + i) % len(self.data) + self.parent.insert(index + self.parent_offset, item) + else: + self.data.insert(i, item) + self.items.insert(i, (source, offset)) + if self.parent: + index = (len(self.data) + i) % len(self.data) + self.parent.insert(index + self.parent_offset, item, + source, offset) + + def pop(self, i=-1): + if self.parent: + index = (len(self.data) + i) % len(self.data) + self.parent.pop(index + self.parent_offset) + self.items.pop(i) + return self.data.pop(i) + + def trim_start(self, n=1): + """ + Remove items from the start of the list, without touching the parent. + """ + if n > len(self.data): + raise IndexError("Size of trim too large; can't trim %s items " + "from a list of size %s." % (n, len(self.data))) + elif n < 0: + raise IndexError('Trim size must be >= 0.') + del self.data[:n] + del self.items[:n] + if self.parent: + self.parent_offset += n + + def trim_end(self, n=1): + """ + Remove items from the end of the list, without touching the parent. + """ + if n > len(self.data): + raise IndexError("Size of trim too large; can't trim %s items " + "from a list of size %s." % (n, len(self.data))) + elif n < 0: + raise IndexError('Trim size must be >= 0.') + del self.data[-n:] + del self.items[-n:] + + def remove(self, item): + index = self.index(item) + del self[index] + + def count(self, item): return self.data.count(item) + def index(self, item): return self.data.index(item) + + def reverse(self): + self.data.reverse() + self.items.reverse() + self.parent = None + + def sort(self, *args): + tmp = zip(self.data, self.items) + tmp.sort(*args) + self.data = [entry[0] for entry in tmp] + self.items = [entry[1] for entry in tmp] + self.parent = None + + def info(self, i): + """Return source & offset for index `i`.""" + try: + return self.items[i] + except IndexError: + if i == len(self.data): # Just past the end + return self.items[i - 1][0], None + else: + raise + + def source(self, i): + """Return source for index `i`.""" + return self.info(i)[0] + + def offset(self, i): + """Return offset for index `i`.""" + return self.info(i)[1] + + def disconnect(self): + """Break link between this list and parent list.""" + self.parent = None + + +class StringList(ViewList): + + """A `ViewList` with string-specific methods.""" + + def trim_left(self, length, start=0, end=sys.maxint): + """ + Trim `length` characters off the beginning of each item, in-place, + from index `start` to `end`. No whitespace-checking is done on the + trimmed text. Does not affect slice parent. + """ + self.data[start:end] = [line[length:] + for line in self.data[start:end]] + + def get_text_block(self, start, flush_left=0): + """ + Return a contiguous block of text. + + If `flush_left` is true, raise `UnexpectedIndentationError` if an + indented line is encountered before the text block ends (with a blank + line). + """ + end = start + last = len(self.data) + while end < last: + line = self.data[end] + if not line.strip(): + break + if flush_left and (line[0] == ' '): + source, offset = self.info(end) + raise UnexpectedIndentationError(self[start:end], source, + offset + 1) + end += 1 + return self[start:end] + + def get_indented(self, start=0, until_blank=0, strip_indent=1, + block_indent=None, first_indent=None): + """ + Extract and return a StringList of indented lines of text. + + Collect all lines with indentation, determine the minimum indentation, + remove the minimum indentation from all indented lines (unless + `strip_indent` is false), and return them. All lines up to but not + including the first unindented line will be returned. + + :Parameters: + - `start`: The index of the first line to examine. + - `until_blank`: Stop collecting at the first blank line if true. + - `strip_indent`: Strip common leading indent if true (default). + - `block_indent`: The indent of the entire block, if known. + - `first_indent`: The indent of the first line, if known. + + :Return: + - a StringList of indented lines with mininum indent removed; + - the amount of the indent; + - a boolean: did the indented block finish with a blank line or EOF? + """ + indent = block_indent # start with None if unknown + end = start + if block_indent is not None and first_indent is None: + first_indent = block_indent + if first_indent is not None: + end += 1 + last = len(self.data) + while end < last: + line = self.data[end] + if line and (line[0] != ' ' + or (block_indent is not None + and line[:block_indent].strip())): + # Line not indented or insufficiently indented. + # Block finished properly iff the last indented line blank: + blank_finish = ((end > start) + and not self.data[end - 1].strip()) + break + stripped = line.lstrip() + if not stripped: # blank line + if until_blank: + blank_finish = 1 + break + elif block_indent is None: + line_indent = len(line) - len(stripped) + if indent is None: + indent = line_indent + else: + indent = min(indent, line_indent) + end += 1 + else: + blank_finish = 1 # block ends at end of lines + block = self[start:end] + if first_indent is not None and block: + block.data[0] = block.data[0][first_indent:] + if indent and strip_indent: + block.trim_left(indent, start=(first_indent is not None)) + return block, indent or 0, blank_finish + + def get_2D_block(self, top, left, bottom, right, strip_indent=1): + block = self[top:bottom] + indent = right + for i in range(len(block.data)): + block.data[i] = line = block.data[i][left:right].rstrip() + if line: + indent = min(indent, len(line) - len(line.lstrip())) + if strip_indent and 0 < indent < right: + block.data = [line[indent:] for line in block.data] + return block + + def pad_double_width(self, pad_char): + """ + Pad all double-width characters in self by appending `pad_char` to each. + For East Asian language support. + """ + if hasattr(unicodedata, 'east_asian_width'): + east_asian_width = unicodedata.east_asian_width + else: + return # new in Python 2.4 + for i in range(len(self.data)): + line = self.data[i] + if isinstance(line, unicode): + new = [] + for char in line: + new.append(char) + if east_asian_width(char) in 'WF': # 'W'ide & 'F'ull-width + new.append(pad_char) + self.data[i] = ''.join(new) + + def replace(self, old, new): + """Replace all occurrences of substring `old` with `new`.""" + for i in range(len(self.data)): + self.data[i] = self.data[i].replace(old, new) + + +class StateMachineError(Exception): pass +class UnknownStateError(StateMachineError): pass +class DuplicateStateError(StateMachineError): pass +class UnknownTransitionError(StateMachineError): pass +class DuplicateTransitionError(StateMachineError): pass +class TransitionPatternNotFound(StateMachineError): pass +class TransitionMethodNotFound(StateMachineError): pass +class UnexpectedIndentationError(StateMachineError): pass + + +class TransitionCorrection(Exception): + + """ + Raise from within a transition method to switch to another transition. + + Raise with one argument, the new transition name. + """ + + +class StateCorrection(Exception): + + """ + Raise from within a transition method to switch to another state. + + Raise with one or two arguments: new state name, and an optional new + transition name. + """ + + +def string2lines(astring, tab_width=8, convert_whitespace=0, + whitespace=re.compile('[\v\f]')): + """ + Return a list of one-line strings with tabs expanded, no newlines, and + trailing whitespace stripped. + + Each tab is expanded with between 1 and `tab_width` spaces, so that the + next character's index becomes a multiple of `tab_width` (8 by default). + + Parameters: + + - `astring`: a multi-line string. + - `tab_width`: the number of columns between tab stops. + - `convert_whitespace`: convert form feeds and vertical tabs to spaces? + """ + if convert_whitespace: + astring = whitespace.sub(' ', astring) + return [s.expandtabs(tab_width).rstrip() for s in astring.splitlines()] + +def _exception_data(): + """ + Return exception information: + + - the exception's class name; + - the exception object; + - the name of the file containing the offending code; + - the line number of the offending code; + - the function name of the offending code. + """ + type, value, traceback = sys.exc_info() + while traceback.tb_next: + traceback = traceback.tb_next + code = traceback.tb_frame.f_code + return (type.__name__, value, code.co_filename, traceback.tb_lineno, + code.co_name) -- cgit v1.2.3-54-g00ecf