def __init__(self, input):
self.stack = ParseStack()
if isinstance(input, basestring):
input = StringIO(input)
self.tokens = MatchScanner(lexicon, input)
class Parser(object):
def __init__(self, input):
self.stack = ParseStack()
if isinstance(input, basestring):
input = StringIO(input)
self.tokens = MatchScanner(lexicon, input)
def parse(self):
'Parse the start/root symbol of the grammar'
self.start()
return self.result
@property
def result(self):
'''Result of parsing whatever function, i.e. the top of the stack.
For testing, I want to be able to call any parsing sub-function and
get the result. I would just get stack.top, but I want a function to
handle conditionally calling .get() on builders.
'''
it = self.stack.top
if isinstance(it, Builder):
return it.get()
return it
# All parser functions return True when successful, False when they fail
# They do their work on the stack, occasionally leaving things there for
# following functions to pick up.
def start(self):
"Parses the root map"
self.stack.start_map()
self.kvpairs()
def kvpair(self):
if not self.namedecl(): # leaves name on the stack
return False
name = self.stack.pop().get()
self.stack.start_kvpair()
self.stack.put(name)
self.tokens.expect(assign, 'expected = after name declaration')
if not self.expression(): # puts it on the stack
raise SyntaxError('expected expression after =, %s' % str(self.tokens.position()))
self.stack.finish_item()
return True
def namedecl(self):
text = self.tokens.text
if self.tokens.match(ident):
self.stack.start_namedecl()
self.stack.put(text)
return True
if self.tokens.match(at):
self.stack.start_namedecl()
if self.expression():
return True
raise SyntaxError('expected expression after @')
else:
return False
def nameref(self):
text = self.tokens.text
if self.tokens.match(ident):
self.stack.push(fern.ast.NameRef(text))
self.fcall_tail()
self.stack.finish_item()
return True
return False
def item(self):
text = self.tokens.text
if self.tokens.match(number):
self.stack.put(int(text))
return True
elif self.tokens.match(string):
self.stack.put(text[1:-1])
return True
elif (self.list() or
self.map() or
self.nameref() or
self.bool() or
self.function()):
return True
else:
return False
def expression(self):
return self.item() or self.cond_item() or self.let_item()
def function(self):
if not self.tokens.match('function'):
return False
self.stack.start_function()
self.tokens.expect('(', 'Expected `(\' after `function\'')
while True:
if self.namedecl(): # leaves name on stack
self.stack.put(self.stack.pop().get())
else:
break
self.tokens.expect(')', 'Expected `)\' after function parameter list')
self.stack.top.start_content()
if not self.item():
raise SyntaxError('Expected item after function parameters')
self.tokens.expect('end', 'Expected `end\' after function body')
self.stack.finish_item()
return True
def fcall_tail(self):
# call with a (potential) function object already on the stack, i.e.
# a literal function or a NameRef
# leaves FCallBuilder on stack.
if not self.tokens.match('('):
return False
# grab function off stack and start an fcall with it
func = self.stack.pop()
#if hasattr(func, 'get'): func = func.get() # if it's a builder
self.stack.start_fcall()
self.stack.put(func)
self.items()
self.tokens.expect(')', 'Expected `)\' after function call params')
return True
def map(self):
if not self.tokens.match(map_start):
return False
self.stack.start_map()
self.kvpairs()
if not self.tokens.match(map_end):
raise SyntaxError('expected } or kvpair in map')
self.stack.finish_item()
return True
def list(self):
if not self.tokens.match(list_start):
return False
self.stack.start_list()
self.items()
if not self.tokens.match(list_end):
raise SyntaxError('expected ] or expression in list')
self.stack.finish_item()
return True
def bool(self):
if self.tokens.match('true'):
self.stack.put(True)
return True
if self.tokens.match('false'):
self.stack.put(False)
return True
return False
def cond_impl(self, item_fun):
"item_fun is called to parse cond values, a bound method on self"
# first if
if not self.tokens.match('if'):
return False
self.stack.start_conditional()
if not self.expression():
raise SyntaxError('expected expression after if')
self.tokens.expect('then', 'Expected `then` after if condition')
item_fun()
# 0-n elifs
while self.tokens.match('elif'):
if not self.expression():
raise SyntaxError('expected expression after elif')
self.tokens.expect('then', 'Expected `then` after elif condition')
item_fun()
# else
if self.tokens.match('else'):
self.stack.top.else_coming() # notify CondBuilder conditions are finished
item_fun()
# end of conditional
self.tokens.expect('end', 'Expected `end` after conditional(s)')
self.stack.finish_item()
return True
def cond_kvpairs(self):
"Conditional with type kvpair stream"
return self.cond_impl(self.kvpair_stream)
def cond_item(self):
"conditional for single item"
return self.cond_impl(self.expression)
def cond_itemstream(self):
"Conditional for multiple items"
return self.cond_impl(self.itemstream)
def let_impl(self, fun):
if not self.tokens.match('let'):
return False
self.stack.start_let()
self.kvpairs()
if not self.tokens.match('in'):
raise SyntaxError('expected `in` after let kvpairs %s' % self.tokens.position())
self.stack.top.start_content()
fun()
if not self.tokens.match('end'):
raise SyntaxError('expected `end` after let content %s' % self.tokens.position())
self.stack.finish_item()
return True
def let_item(self):
return self.let_impl(self.item)
def let_itemstream(self):
return self.let_impl(self.items)
def let_kvpairs(self):
return self.let_impl(self.kvpairs)
def items(self):
'Puts a series of items in the current top object, does not create new stack frame'
while not self.tokens.match(None): # while not EOF
if self.item():
continue
if self.cond_itemstream():
continue
if self.let_itemstream():
continue
break
def kvpairs(self):
"puts a series of kvpairs in current top object"
while not self.tokens.match(None): # while not EOF
if self.kvpair():
continue
if self.cond_kvpairs():
continue
if self.let_kvpairs():
continue
break
def itemstream(self):
'''Actually creates an ItemStream on the stack, as opposed
to just putting the items in whatever is already on the top'''
self.stack.start_itemstream()
self.items()
self.stack.finish_item()
def kvpair_stream(self):
self.stack.start_itemstream()
self.kvpairs()
self.stack.finish_item()
