import railroad import pyparsing from pkg_resources import resource_filename from typing import ( List, Optional, NamedTuple, Generic, TypeVar, Dict, Callable, Set, Iterable, ) from jinja2 import Template from io import StringIO import inspect with open(resource_filename(__name__, "template.jinja2"), encoding="utf-8") as fp: template = Template(fp.read()) # Note: ideally this would be a dataclass, but we're supporting Python 3.5+ so we can't do this yet NamedDiagram = NamedTuple( "NamedDiagram", [("name", str), ("diagram", Optional[railroad.DiagramItem]), ("index", int)], ) """ A simple structure for associating a name with a railroad diagram """ T = TypeVar("T") class EachItem(railroad.Group): """ Custom railroad item to compose a: - Group containing a - OneOrMore containing a - Choice of the elements in the Each with the group label indicating that all must be matched """ all_label = "[ALL]" def __init__(self, *items): choice_item = railroad.Choice(len(items) - 1, *items) one_or_more_item = railroad.OneOrMore(item=choice_item) super().__init__(one_or_more_item, label=self.all_label) class AnnotatedItem(railroad.Group): """ Simple subclass of Group that creates an annotation label """ def __init__(self, label: str, item): super().__init__(item=item, label="[{}]".format(label)) class EditablePartial(Generic[T]): """ Acts like a functools.partial, but can be edited. In other words, it represents a type that hasn't yet been constructed. """ # We need this here because the railroad constructors actually transform the data, so can't be called until the # entire tree is assembled def __init__(self, func: Callable[..., T], args: list, kwargs: dict): self.func = func self.args = args self.kwargs = kwargs @classmethod def from_call(cls, func: Callable[..., T], *args, **kwargs) -> "EditablePartial[T]": """ If you call this function in the same way that you would call the constructor, it will store the arguments as you expect. For example EditablePartial.from_call(Fraction, 1, 3)() == Fraction(1, 3) """ return EditablePartial(func=func, args=list(args), kwargs=kwargs) @property def name(self): return self.kwargs["name"] def __call__(self) -> T: """ Evaluate the partial and return the result """ args = self.args.copy() kwargs = self.kwargs.copy() # This is a helpful hack to allow you to specify varargs parameters (e.g. *args) as keyword args (e.g. # args=['list', 'of', 'things']) arg_spec = inspect.getfullargspec(self.func) if arg_spec.varargs in self.kwargs: args += kwargs.pop(arg_spec.varargs) return self.func(*args, **kwargs) def railroad_to_html(diagrams: List[NamedDiagram], **kwargs) -> str: """ Given a list of NamedDiagram, produce a single HTML string that visualises those diagrams :params kwargs: kwargs to be passed in to the template """ data = [] for diagram in diagrams: io = StringIO() diagram.diagram.writeSvg(io.write) title = diagram.name if diagram.index == 0: title += " (root)" data.append({"title": title, "text": "", "svg": io.getvalue()}) return template.render(diagrams=data, **kwargs) def resolve_partial(partial: "EditablePartial[T]") -> T: """ Recursively resolves a collection of Partials into whatever type they are """ if isinstance(partial, EditablePartial): partial.args = resolve_partial(partial.args) partial.kwargs = resolve_partial(partial.kwargs) return partial() elif isinstance(partial, list): return [resolve_partial(x) for x in partial] elif isinstance(partial, dict): return {key: resolve_partial(x) for key, x in partial.items()} else: return partial def to_railroad( element: pyparsing.ParserElement, diagram_kwargs: Optional[dict] = None, vertical: int = 3, show_results_names: bool = False, ) -> List[NamedDiagram]: """ Convert a pyparsing element tree into a list of diagrams. This is the recommended entrypoint to diagram creation if you want to access the Railroad tree before it is converted to HTML :param element: base element of the parser being diagrammed :param diagram_kwargs: kwargs to pass to the Diagram() constructor :param vertical: (optional) - int - limit at which number of alternatives should be shown vertically instead of horizontally :param show_results_names - bool to indicate whether results name annotations should be included in the diagram """ # Convert the whole tree underneath the root lookup = ConverterState(diagram_kwargs=diagram_kwargs or {}) _to_diagram_element( element, lookup=lookup, parent=None, vertical=vertical, show_results_names=show_results_names, ) root_id = id(element) # Convert the root if it hasn't been already if root_id in lookup: if not element.customName: lookup[root_id].name = "" lookup[root_id].mark_for_extraction(root_id, lookup, force=True) # Now that we're finished, we can convert from intermediate structures into Railroad elements diags = list(lookup.diagrams.values()) if len(diags) > 1: # collapse out duplicate diags with the same name seen = set() deduped_diags = [] for d in diags: # don't extract SkipTo elements, they are uninformative as subdiagrams if d.name == "...": continue if d.name is not None and d.name not in seen: seen.add(d.name) deduped_diags.append(d) resolved = [resolve_partial(partial) for partial in deduped_diags] else: # special case - if just one diagram, always display it, even if # it has no name resolved = [resolve_partial(partial) for partial in diags] return sorted(resolved, key=lambda diag: diag.index) def _should_vertical( specification: int, exprs: Iterable[pyparsing.ParserElement] ) -> bool: """ Returns true if we should return a vertical list of elements """ if specification is None: return False else: return len(_visible_exprs(exprs)) >= specification class ElementState: """ State recorded for an individual pyparsing Element """ # Note: this should be a dataclass, but we have to support Python 3.5 def __init__( self, element: pyparsing.ParserElement, converted: EditablePartial, parent: EditablePartial, number: int, name: str = None, parent_index: Optional[int] = None, ): #: The pyparsing element that this represents self.element: pyparsing.ParserElement = element #: The name of the element self.name: str = name #: The output Railroad element in an unconverted state self.converted: EditablePartial = converted #: The parent Railroad element, which we store so that we can extract this if it's duplicated self.parent: EditablePartial = parent #: The order in which we found this element, used for sorting diagrams if this is extracted into a diagram self.number: int = number #: The index of this inside its parent self.parent_index: Optional[int] = parent_index #: If true, we should extract this out into a subdiagram self.extract: bool = False #: If true, all of this element's children have been filled out self.complete: bool = False def mark_for_extraction( self, el_id: int, state: "ConverterState", name: str = None, force: bool = False ): """ Called when this instance has been seen twice, and thus should eventually be extracted into a sub-diagram :param el_id: id of the element :param state: element/diagram state tracker :param name: name to use for this element's text :param force: If true, force extraction now, regardless of the state of this. Only useful for extracting the root element when we know we're finished """ self.extract = True # Set the name if not self.name: if name: # Allow forcing a custom name self.name = name elif self.element.customName: self.name = self.element.customName else: self.name = "" # Just because this is marked for extraction doesn't mean we can do it yet. We may have to wait for children # to be added # Also, if this is just a string literal etc, don't bother extracting it if force or (self.complete and _worth_extracting(self.element)): state.extract_into_diagram(el_id) class ConverterState: """ Stores some state that persists between recursions into the element tree """ def __init__(self, diagram_kwargs: Optional[dict] = None): #: A dictionary mapping ParserElements to state relating to them self._element_diagram_states: Dict[int, ElementState] = {} #: A dictionary mapping ParserElement IDs to subdiagrams generated from them self.diagrams: Dict[int, EditablePartial[NamedDiagram]] = {} #: The index of the next unnamed element self.unnamed_index: int = 1 #: The index of the next element. This is used for sorting self.index: int = 0 #: Shared kwargs that are used to customize the construction of diagrams self.diagram_kwargs: dict = diagram_kwargs or {} self.extracted_diagram_names: Set[str] = set() def __setitem__(self, key: int, value: ElementState): self._element_diagram_states[key] = value def __getitem__(self, key: int) -> ElementState: return self._element_diagram_states[key] def __delitem__(self, key: int): del self._element_diagram_states[key] def __contains__(self, key: int): return key in self._element_diagram_states def generate_unnamed(self) -> int: """ Generate a number used in the name of an otherwise unnamed diagram """ self.unnamed_index += 1 return self.unnamed_index def generate_index(self) -> int: """ Generate a number used to index a diagram """ self.index += 1 return self.index def extract_into_diagram(self, el_id: int): """ Used when we encounter the same token twice in the same tree. When this happens, we replace all instances of that token with a terminal, and create a new subdiagram for the token """ position = self[el_id] # Replace the original definition of this element with a regular block if position.parent: ret = EditablePartial.from_call(railroad.NonTerminal, text=position.name) if "item" in position.parent.kwargs: position.parent.kwargs["item"] = ret elif "items" in position.parent.kwargs: position.parent.kwargs["items"][position.parent_index] = ret # If the element we're extracting is a group, skip to its content but keep the title if position.converted.func == railroad.Group: content = position.converted.kwargs["item"] else: content = position.converted self.diagrams[el_id] = EditablePartial.from_call( NamedDiagram, name=position.name, diagram=EditablePartial.from_call( railroad.Diagram, content, **self.diagram_kwargs ), index=position.number, ) del self[el_id] def _worth_extracting(element: pyparsing.ParserElement) -> bool: """ Returns true if this element is worth having its own sub-diagram. Simply, if any of its children themselves have children, then its complex enough to extract """ children = element.recurse() return any(child.recurse() for child in children) def _apply_diagram_item_enhancements(fn): """ decorator to ensure enhancements to a diagram item (such as results name annotations) get applied on return from _to_diagram_element (we do this since there are several returns in _to_diagram_element) """ def _inner( element: pyparsing.ParserElement, parent: Optional[EditablePartial], lookup: ConverterState = None, vertical: int = None, index: int = 0, name_hint: str = None, show_results_names: bool = False, ) -> Optional[EditablePartial]: ret = fn( element, parent, lookup, vertical, index, name_hint, show_results_names, ) # apply annotation for results name, if present if show_results_names and ret is not None: element_results_name = element.resultsName if element_results_name: # add "*" to indicate if this is a "list all results" name element_results_name += "" if element.modalResults else "*" ret = EditablePartial.from_call( railroad.Group, item=ret, label=element_results_name ) return ret return _inner def _visible_exprs(exprs: Iterable[pyparsing.ParserElement]): non_diagramming_exprs = ( pyparsing.ParseElementEnhance, pyparsing.PositionToken, pyparsing.And._ErrorStop, ) return [ e for e in exprs if not (e.customName or e.resultsName or isinstance(e, non_diagramming_exprs)) ] @_apply_diagram_item_enhancements def _to_diagram_element( element: pyparsing.ParserElement, parent: Optional[EditablePartial], lookup: ConverterState = None, vertical: int = None, index: int = 0, name_hint: str = None, show_results_names: bool = False, ) -> Optional[EditablePartial]: """ Recursively converts a PyParsing Element to a railroad Element :param lookup: The shared converter state that keeps track of useful things :param index: The index of this element within the parent :param parent: The parent of this element in the output tree :param vertical: Controls at what point we make a list of elements vertical. If this is an integer (the default), it sets the threshold of the number of items before we go vertical. If True, always go vertical, if False, never do so :param name_hint: If provided, this will override the generated name :param show_results_names: bool flag indicating whether to add annotations for results names :returns: The converted version of the input element, but as a Partial that hasn't yet been constructed """ exprs = element.recurse() name = name_hint or element.customName or element.__class__.__name__ # Python's id() is used to provide a unique identifier for elements el_id = id(element) element_results_name = element.resultsName # Here we basically bypass processing certain wrapper elements if they contribute nothing to the diagram if not element.customName: if isinstance( element, ( pyparsing.TokenConverter, # pyparsing.Forward, pyparsing.Located, ), ): # However, if this element has a useful custom name, and its child does not, we can pass it on to the child if exprs: if not exprs[0].customName: propagated_name = name else: propagated_name = None return _to_diagram_element( element.expr, parent=parent, lookup=lookup, vertical=vertical, index=index, name_hint=propagated_name, show_results_names=show_results_names, ) # If the element isn't worth extracting, we always treat it as the first time we say it if _worth_extracting(element): if el_id in lookup: # If we've seen this element exactly once before, we are only just now finding out that it's a duplicate, # so we have to extract it into a new diagram. looked_up = lookup[el_id] looked_up.mark_for_extraction(el_id, lookup, name=name_hint) ret = EditablePartial.from_call(railroad.NonTerminal, text=looked_up.name) return ret elif el_id in lookup.diagrams: # If we have seen the element at least twice before, and have already extracted it into a subdiagram, we # just put in a marker element that refers to the sub-diagram ret = EditablePartial.from_call( railroad.NonTerminal, text=lookup.diagrams[el_id].kwargs["name"] ) return ret # Recursively convert child elements # Here we find the most relevant Railroad element for matching pyparsing Element # We use ``items=[]`` here to hold the place for where the child elements will go once created if isinstance(element, pyparsing.And): # detect And's created with ``expr*N`` notation - for these use a OneOrMore with a repeat # (all will have the same name, and resultsName) if not exprs: return None if len(set((e.name, e.resultsName) for e in exprs)) == 1: ret = EditablePartial.from_call( railroad.OneOrMore, item="", repeat=str(len(exprs)) ) elif _should_vertical(vertical, exprs): ret = EditablePartial.from_call(railroad.Stack, items=[]) else: ret = EditablePartial.from_call(railroad.Sequence, items=[]) elif isinstance(element, (pyparsing.Or, pyparsing.MatchFirst)): if not exprs: return None if _should_vertical(vertical, exprs): ret = EditablePartial.from_call(railroad.Choice, 0, items=[]) else: ret = EditablePartial.from_call(railroad.HorizontalChoice, items=[]) elif isinstance(element, pyparsing.Each): if not exprs: return None ret = EditablePartial.from_call(EachItem, items=[]) elif isinstance(element, pyparsing.NotAny): ret = EditablePartial.from_call(AnnotatedItem, label="NOT", item="") elif isinstance(element, pyparsing.FollowedBy): ret = EditablePartial.from_call(AnnotatedItem, label="LOOKAHEAD", item="") elif isinstance(element, pyparsing.PrecededBy): ret = EditablePartial.from_call(AnnotatedItem, label="LOOKBEHIND", item="") elif isinstance(element, pyparsing.Opt): ret = EditablePartial.from_call(railroad.Optional, item="") elif isinstance(element, pyparsing.OneOrMore): ret = EditablePartial.from_call(railroad.OneOrMore, item="") elif isinstance(element, pyparsing.ZeroOrMore): ret = EditablePartial.from_call(railroad.ZeroOrMore, item="") elif isinstance(element, pyparsing.Group): ret = EditablePartial.from_call( railroad.Group, item=None, label=element_results_name ) elif isinstance(element, pyparsing.Empty) and not element.customName: # Skip unnamed "Empty" elements ret = None elif len(exprs) > 1: ret = EditablePartial.from_call(railroad.Sequence, items=[]) elif len(exprs) > 0 and not element_results_name: ret = EditablePartial.from_call(railroad.Group, item="", label=name) else: terminal = EditablePartial.from_call(railroad.Terminal, element.defaultName) ret = terminal if ret is None: return # Indicate this element's position in the tree so we can extract it if necessary lookup[el_id] = ElementState( element=element, converted=ret, parent=parent, parent_index=index, number=lookup.generate_index(), ) if element.customName: lookup[el_id].mark_for_extraction(el_id, lookup, element.customName) i = 0 for expr in exprs: # Add a placeholder index in case we have to extract the child before we even add it to the parent if "items" in ret.kwargs: ret.kwargs["items"].insert(i, None) item = _to_diagram_element( expr, parent=ret, lookup=lookup, vertical=vertical, index=i, show_results_names=show_results_names, ) # Some elements don't need to be shown in the diagram if item is not None: if "item" in ret.kwargs: ret.kwargs["item"] = item elif "items" in ret.kwargs: # If we've already extracted the child, don't touch this index, since it's occupied by a nonterminal ret.kwargs["items"][i] = item i += 1 elif "items" in ret.kwargs: # If we're supposed to skip this element, remove it from the parent del ret.kwargs["items"][i] # If all this items children are none, skip this item if ret and ( ("items" in ret.kwargs and len(ret.kwargs["items"]) == 0) or ("item" in ret.kwargs and ret.kwargs["item"] is None) ): ret = EditablePartial.from_call(railroad.Terminal, name) # Mark this element as "complete", ie it has all of its children if el_id in lookup: lookup[el_id].complete = True if el_id in lookup and lookup[el_id].extract and lookup[el_id].complete: lookup.extract_into_diagram(el_id) if ret is not None: ret = EditablePartial.from_call( railroad.NonTerminal, text=lookup.diagrams[el_id].kwargs["name"] ) return ret