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Diffstat (limited to 'util/sconfig/yapps2.py')
| -rw-r--r-- | util/sconfig/yapps2.py | 779 |
1 files changed, 779 insertions, 0 deletions
diff --git a/util/sconfig/yapps2.py b/util/sconfig/yapps2.py new file mode 100644 index 0000000000..71bfa05ca6 --- /dev/null +++ b/util/sconfig/yapps2.py @@ -0,0 +1,779 @@ +# Yapps 2.0 - yet another python parser system +# Amit J Patel, January 1999 +# See http://theory.stanford.edu/~amitp/Yapps/ for documentation and updates + +# v2.0.1 changes (October 2001): +# * The exceptions inherit the standard Exception class (thanks Rich Salz) +# * The scanner can use either a different set of regular expressions +# per instance, or allows the subclass to define class fields with +# the patterns. This improves performance when many Scanner objects +# are being created, because the regular expressions don't have to +# be recompiled each time. (thanks Amaury Forgeot d'Arc) +# v2.0.2 changes (April 2002) +# * Fixed a bug in generating the 'else' clause when the comment was too +# long. v2.0.1 was missing a newline. (thanks Steven Engelhardt) +# v2.0.3 changes (August 2002) +# * Fixed a bug with inline tokens using the r"" syntax. + +from string import * +from yappsrt import * +import re + +INDENT = " "*4 + +class Generator: + def __init__(self, name, options, tokens, rules): + self.change_count = 0 + self.name = name + self.options = options + self.preparser = '' + self.postparser = None + + self.tokens = {} # Map from tokens to regexps + self.ignore = [] # List of token names to ignore in parsing + self.terminals = [] # List of token names (to maintain ordering) + for n,t in tokens: + if n == '#ignore': + n = t + self.ignore.append(n) + if n in self.tokens.keys() and self.tokens[n] != t: + print 'Warning: token', n, 'multiply defined.' + self.tokens[n] = t + self.terminals.append(n) + + self.rules = {} # Map from rule names to parser nodes + self.params = {} # Map from rule names to parameters + self.goals = [] # List of rule names (to maintain ordering) + for n,p,r in rules: + self.params[n] = p + self.rules[n] = r + self.goals.append(n) + + import sys + self.output = sys.stdout + + def __getitem__(self, name): + # Get options + return self.options.get(name, 0) + + def non_ignored_tokens(self): + return filter(lambda x, i=self.ignore: x not in i, self.terminals) + + def changed(self): + self.change_count = 1+self.change_count + + def subset(self, a, b): + "See if all elements of a are inside b" + for x in a: + if x not in b: return 0 + return 1 + + def equal_set(self, a, b): + "See if a and b have the same elements" + if len(a) != len(b): return 0 + if a == b: return 1 + return self.subset(a, b) and self.subset(b, a) + + def add_to(self, parent, additions): + "Modify parent to include all elements in additions" + for x in additions: + if x not in parent: + parent.append(x) + self.changed() + + def equate(self, a, b): + self.add_to(a, b) + self.add_to(b, a) + + def write(self, *args): + for a in args: + self.output.write(a) + + def in_test(self, x, full, b): + if not b: return '0' + if len(b)==1: return '%s == %s' % (x, `b[0]`) + if full and len(b) > len(full)/2: + # Reverse the sense of the test. + not_b = filter(lambda x, b=b: x not in b, full) + return self.not_in_test(x, full, not_b) + return '%s in %s' % (x, `b`) + + def not_in_test(self, x, full, b): + if not b: return '1' + if len(b)==1: return '%s != %s' % (x, `b[0]`) + return '%s not in %s' % (x, `b`) + + def peek_call(self, a): + a_set = (`a`[1:-1]) + if self.equal_set(a, self.non_ignored_tokens()): a_set = '' + if self['context-insensitive-scanner']: a_set = '' + return 'self._peek(%s)' % a_set + + def peek_test(self, a, b): + if self.subset(a, b): return '1' + if self['context-insensitive-scanner']: a = self.non_ignored_tokens() + return self.in_test(self.peek_call(a), a, b) + + def not_peek_test(self, a, b): + if self.subset(a, b): return '0' + return self.not_in_test(self.peek_call(a), a, b) + + def calculate(self): + while 1: + for r in self.goals: + self.rules[r].setup(self, r) + if self.change_count == 0: break + self.change_count = 0 + + while 1: + for r in self.goals: + self.rules[r].update(self) + if self.change_count == 0: break + self.change_count = 0 + + def dump_information(self): + self.calculate() + for r in self.goals: + print ' _____' + '_'*len(r) + print ('___/Rule '+r+'\\' + '_'*80)[:79] + queue = [self.rules[r]] + while queue: + top = queue[0] + del queue[0] + + print `top` + top.first.sort() + top.follow.sort() + eps = [] + if top.accepts_epsilon: eps = ['(null)'] + print ' FIRST:', join(top.first+eps, ', ') + print ' FOLLOW:', join(top.follow, ', ') + for x in top.get_children(): queue.append(x) + + def generate_output(self): + self.calculate() + self.write(self.preparser) + self.write("from string import *\n") + self.write("import re\n") + self.write("from yappsrt import *\n") + self.write("\n") + self.write("class ", self.name, "Scanner(Scanner):\n") + self.write(" patterns = [\n") + for p in self.terminals: + self.write(" (%s, re.compile(%s)),\n" % ( + `p`, `self.tokens[p]`)) + self.write(" ]\n") + self.write(" def __init__(self, str):\n") + self.write(" Scanner.__init__(self,None,%s,str)\n" % + `self.ignore`) + self.write("\n") + + self.write("class ", self.name, "(Parser):\n") + for r in self.goals: + self.write(INDENT, "def ", r, "(self") + if self.params[r]: self.write(", ", self.params[r]) + self.write("):\n") + self.rules[r].output(self, INDENT+INDENT) + self.write("\n") + + self.write("\n") + self.write("def parse(rule, text):\n") + self.write(" P = ", self.name, "(", self.name, "Scanner(text))\n") + self.write(" return wrap_error_reporter(P, rule)\n") + self.write("\n") + if self.postparser is not None: + self.write(self.postparser) + else: + self.write("if __name__=='__main__':\n") + self.write(INDENT, "from sys import argv, stdin\n") + self.write(INDENT, "if len(argv) >= 2:\n") + self.write(INDENT*2, "if len(argv) >= 3:\n") + self.write(INDENT*3, "f = open(argv[2],'r')\n") + self.write(INDENT*2, "else:\n") + self.write(INDENT*3, "f = stdin\n") + self.write(INDENT*2, "print parse(argv[1], f.read())\n") + self.write(INDENT, "else: print 'Args: <rule> [<filename>]'\n") + +###################################################################### +class Node: + def __init__(self): + self.first = [] + self.follow = [] + self.accepts_epsilon = 0 + self.rule = '?' + + def setup(self, gen, rule): + # Setup will change accepts_epsilon, + # sometimes from 0 to 1 but never 1 to 0. + # It will take a finite number of steps to set things up + self.rule = rule + + def used(self, vars): + "Return two lists: one of vars used, and the other of vars assigned" + return vars, [] + + def get_children(self): + "Return a list of sub-nodes" + return [] + + def __repr__(self): + return str(self) + + def update(self, gen): + if self.accepts_epsilon: + gen.add_to(self.first, self.follow) + + def output(self, gen, indent): + "Write out code to _gen_ with _indent_:string indentation" + gen.write(indent, "assert 0 # Invalid parser node\n") + +class Terminal(Node): + def __init__(self, token): + Node.__init__(self) + self.token = token + self.accepts_epsilon = 0 + + def __str__(self): + return self.token + + def update(self, gen): + Node.update(self, gen) + if self.first != [self.token]: + self.first = [self.token] + gen.changed() + + def output(self, gen, indent): + gen.write(indent) + if re.match('[a-zA-Z_]+$', self.token): + gen.write(self.token, " = ") + gen.write("self._scan(%s)\n" % `self.token`) + +class Eval(Node): + def __init__(self, expr): + Node.__init__(self) + self.expr = expr + + def setup(self, gen, rule): + Node.setup(self, gen, rule) + if not self.accepts_epsilon: + self.accepts_epsilon = 1 + gen.changed() + + def __str__(self): + return '{{ %s }}' % strip(self.expr) + + def output(self, gen, indent): + gen.write(indent, strip(self.expr), '\n') + +class NonTerminal(Node): + def __init__(self, name, args): + Node.__init__(self) + self.name = name + self.args = args + + def setup(self, gen, rule): + Node.setup(self, gen, rule) + try: + self.target = gen.rules[self.name] + if self.accepts_epsilon != self.target.accepts_epsilon: + self.accepts_epsilon = self.target.accepts_epsilon + gen.changed() + except KeyError: # Oops, it's nonexistent + print 'Error: no rule <%s>' % self.name + self.target = self + + def __str__(self): + return '<%s>' % self.name + + def update(self, gen): + Node.update(self, gen) + gen.equate(self.first, self.target.first) + gen.equate(self.follow, self.target.follow) + + def output(self, gen, indent): + gen.write(indent) + gen.write(self.name, " = ") + gen.write("self.", self.name, "(", self.args, ")\n") + +class Sequence(Node): + def __init__(self, *children): + Node.__init__(self) + self.children = children + + def setup(self, gen, rule): + Node.setup(self, gen, rule) + for c in self.children: c.setup(gen, rule) + + if not self.accepts_epsilon: + # If it's not already accepting epsilon, it might now do so. + for c in self.children: + # any non-epsilon means all is non-epsilon + if not c.accepts_epsilon: break + else: + self.accepts_epsilon = 1 + gen.changed() + + def get_children(self): + return self.children + + def __str__(self): + return '( %s )' % join(map(lambda x: str(x), self.children)) + + def update(self, gen): + Node.update(self, gen) + for g in self.children: + g.update(gen) + + empty = 1 + for g_i in range(len(self.children)): + g = self.children[g_i] + + if empty: gen.add_to(self.first, g.first) + if not g.accepts_epsilon: empty = 0 + + if g_i == len(self.children)-1: + next = self.follow + else: + next = self.children[1+g_i].first + gen.add_to(g.follow, next) + + if self.children: + gen.add_to(self.follow, self.children[-1].follow) + + def output(self, gen, indent): + if self.children: + for c in self.children: + c.output(gen, indent) + else: + # Placeholder for empty sequences, just in case + gen.write(indent, 'pass\n') + +class Choice(Node): + def __init__(self, *children): + Node.__init__(self) + self.children = children + + def setup(self, gen, rule): + Node.setup(self, gen, rule) + for c in self.children: c.setup(gen, rule) + + if not self.accepts_epsilon: + for c in self.children: + if c.accepts_epsilon: + self.accepts_epsilon = 1 + gen.changed() + + def get_children(self): + return self.children + + def __str__(self): + return '( %s )' % join(map(lambda x: str(x), self.children), ' | ') + + def update(self, gen): + Node.update(self, gen) + for g in self.children: + g.update(gen) + + for g in self.children: + gen.add_to(self.first, g.first) + gen.add_to(self.follow, g.follow) + for g in self.children: + gen.add_to(g.follow, self.follow) + if self.accepts_epsilon: + gen.add_to(self.first, self.follow) + + def output(self, gen, indent): + test = "if" + gen.write(indent, "_token_ = ", gen.peek_call(self.first), "\n") + tokens_seen = [] + tokens_unseen = self.first[:] + if gen['context-insensitive-scanner']: + # Context insensitive scanners can return ANY token, + # not only the ones in first. + tokens_unseen = gen.non_ignored_tokens() + for c in self.children: + testset = c.first[:] + removed = [] + for x in testset: + if x in tokens_seen: + testset.remove(x) + removed.append(x) + if x in tokens_unseen: tokens_unseen.remove(x) + tokens_seen = tokens_seen + testset + if removed: + if not testset: + print 'Error in rule', self.rule+':', c, 'never matches.' + else: + print 'Warning:', self + print ' * These tokens are being ignored:', join(removed, ', ') + print ' due to previous choices using them.' + + if testset: + if not tokens_unseen: # context sensitive scanners only! + if test=='if': + # if it's the first AND last test, then + # we can simply put the code without an if/else + c.output(gen, indent) + else: + gen.write(indent, "else: ") + t = gen.in_test('', [], testset) + if len(t) < 70-len(indent): + gen.write("#", t) + gen.write("\n") + c.output(gen, indent+INDENT) + else: + gen.write(indent, test, " ", + gen.in_test('_token_', tokens_unseen, testset), + ":\n") + c.output(gen, indent+INDENT) + test = "elif" + + if gen['context-insensitive-scanner'] and tokens_unseen: + gen.write(indent, "else:\n") + gen.write(indent, INDENT, "raise SyntaxError(self._pos, ") + gen.write("'Could not match ", self.rule, "')\n") + +class Wrapper(Node): + def __init__(self, child): + Node.__init__(self) + self.child = child + + def setup(self, gen, rule): + Node.setup(self, gen, rule) + self.child.setup(gen, rule) + + def get_children(self): + return [self.child] + + def update(self, gen): + Node.update(self, gen) + self.child.update(gen) + gen.add_to(self.first, self.child.first) + gen.equate(self.follow, self.child.follow) + +class Option(Wrapper): + def setup(self, gen, rule): + Wrapper.setup(self, gen, rule) + if not self.accepts_epsilon: + self.accepts_epsilon = 1 + gen.changed() + + def __str__(self): + return '[ %s ]' % str(self.child) + + def output(self, gen, indent): + if self.child.accepts_epsilon: + print 'Warning in rule', self.rule+': contents may be empty.' + gen.write(indent, "if %s:\n" % + gen.peek_test(self.first, self.child.first)) + self.child.output(gen, indent+INDENT) + +class Plus(Wrapper): + def setup(self, gen, rule): + Wrapper.setup(self, gen, rule) + if self.accepts_epsilon != self.child.accepts_epsilon: + self.accepts_epsilon = self.child.accepts_epsilon + gen.changed() + + def __str__(self): + return '%s+' % str(self.child) + + def update(self, gen): + Wrapper.update(self, gen) + gen.add_to(self.follow, self.first) + + def output(self, gen, indent): + if self.child.accepts_epsilon: + print 'Warning in rule', self.rule+':' + print ' * The repeated pattern could be empty. The resulting' + print ' parser may not work properly.' + gen.write(indent, "while 1:\n") + self.child.output(gen, indent+INDENT) + union = self.first[:] + gen.add_to(union, self.follow) + gen.write(indent+INDENT, "if %s: break\n" % + gen.not_peek_test(union, self.child.first)) + +class Star(Plus): + def setup(self, gen, rule): + Wrapper.setup(self, gen, rule) + if not self.accepts_epsilon: + self.accepts_epsilon = 1 + gen.changed() + + def __str__(self): + return '%s*' % str(self.child) + + def output(self, gen, indent): + if self.child.accepts_epsilon: + print 'Warning in rule', self.rule+':' + print ' * The repeated pattern could be empty. The resulting' + print ' parser probably will not work properly.' + gen.write(indent, "while %s:\n" % + gen.peek_test(self.follow, self.child.first)) + self.child.output(gen, indent+INDENT) + +###################################################################### +# The remainder of this file is from parsedesc.{g,py} + +def append(lst, x): + "Imperative append" + lst.append(x) + return lst + +def add_inline_token(tokens, str): + tokens.insert( 0, (str, eval(str, {}, {})) ) + return Terminal(str) + +def cleanup_choice(lst): + if len(lst) == 0: return Sequence([]) + if len(lst) == 1: return lst[0] + return apply(Choice, tuple(lst)) + +def cleanup_sequence(lst): + if len(lst) == 1: return lst[0] + return apply(Sequence, tuple(lst)) + +def cleanup_rep(node, rep): + if rep == 'star': return Star(node) + elif rep == 'plus': return Plus(node) + else: return node + +def resolve_name(tokens, id, args): + if id in map(lambda x: x[0], tokens): + # It's a token + if args: + print 'Warning: ignoring parameters on TOKEN %s<<%s>>' % (id, args) + return Terminal(id) + else: + # It's a name, so assume it's a nonterminal + return NonTerminal(id, args) + + +from string import * +import re +from yappsrt import * + +class ParserDescriptionScanner(Scanner): + def __init__(self, str): + Scanner.__init__(self,[ + ('"rule"', 'rule'), + ('"ignore"', 'ignore'), + ('"token"', 'token'), + ('"option"', 'option'), + ('":"', ':'), + ('"parser"', 'parser'), + ('[ \011\015\012]+', '[ \011\015\012]+'), + ('#.*?\015?\012', '#.*?\015?\012'), + ('END', '$'), + ('ATTR', '<<.+?>>'), + ('STMT', '{{.+?}}'), + ('ID', '[a-zA-Z_][a-zA-Z_0-9]*'), + ('STR', '[rR]?\'([^\\n\'\\\\]|\\\\.)*\'|[rR]?"([^\\n"\\\\]|\\\\.)*"'), + ('LP', '\\('), + ('RP', '\\)'), + ('LB', '\\['), + ('RB', '\\]'), + ('OR', '[|]'), + ('STAR', '[*]'), + ('PLUS', '[+]'), + ], ['[ \011\015\012]+', '#.*?\015?\012'], str) + +class ParserDescription(Parser): + def Parser(self): + self._scan('"parser"') + ID = self._scan('ID') + self._scan('":"') + Options = self.Options() + Tokens = self.Tokens() + Rules = self.Rules(Tokens) + END = self._scan('END') + return Generator(ID,Options,Tokens,Rules) + + def Options(self): + opt = {} + while self._peek('"option"', '"token"', '"ignore"', 'END', '"rule"') == '"option"': + self._scan('"option"') + self._scan('":"') + Str = self.Str() + opt[Str] = 1 + return opt + + def Tokens(self): + tok = [] + while self._peek('"token"', '"ignore"', 'END', '"rule"') in ['"token"', '"ignore"']: + _token_ = self._peek('"token"', '"ignore"') + if _token_ == '"token"': + self._scan('"token"') + ID = self._scan('ID') + self._scan('":"') + Str = self.Str() + tok.append( (ID,Str) ) + else: # == '"ignore"' + self._scan('"ignore"') + self._scan('":"') + Str = self.Str() + tok.append( ('#ignore',Str) ) + return tok + + def Rules(self, tokens): + rul = [] + while self._peek('"rule"', 'END') == '"rule"': + self._scan('"rule"') + ID = self._scan('ID') + OptParam = self.OptParam() + self._scan('":"') + ClauseA = self.ClauseA(tokens) + rul.append( (ID,OptParam,ClauseA) ) + return rul + + def ClauseA(self, tokens): + ClauseB = self.ClauseB(tokens) + v = [ClauseB] + while self._peek('OR', 'RP', 'RB', '"rule"', 'END') == 'OR': + OR = self._scan('OR') + ClauseB = self.ClauseB(tokens) + v.append(ClauseB) + return cleanup_choice(v) + + def ClauseB(self, tokens): + v = [] + while self._peek('STR', 'ID', 'LP', 'LB', 'STMT', 'OR', 'RP', 'RB', '"rule"', 'END') in ['STR', 'ID', 'LP', 'LB', 'STMT']: + ClauseC = self.ClauseC(tokens) + v.append(ClauseC) + return cleanup_sequence(v) + + def ClauseC(self, tokens): + ClauseD = self.ClauseD(tokens) + _token_ = self._peek('PLUS', 'STAR', 'STR', 'ID', 'LP', 'LB', 'STMT', 'OR', 'RP', 'RB', '"rule"', 'END') + if _token_ == 'PLUS': + PLUS = self._scan('PLUS') + return Plus(ClauseD) + elif _token_ == 'STAR': + STAR = self._scan('STAR') + return Star(ClauseD) + else: + return ClauseD + + def ClauseD(self, tokens): + _token_ = self._peek('STR', 'ID', 'LP', 'LB', 'STMT') + if _token_ == 'STR': + STR = self._scan('STR') + t = (STR, eval(STR,{},{})) + if t not in tokens: tokens.insert( 0, t ) + return Terminal(STR) + elif _token_ == 'ID': + ID = self._scan('ID') + OptParam = self.OptParam() + return resolve_name(tokens, ID, OptParam) + elif _token_ == 'LP': + LP = self._scan('LP') + ClauseA = self.ClauseA(tokens) + RP = self._scan('RP') + return ClauseA + elif _token_ == 'LB': + LB = self._scan('LB') + ClauseA = self.ClauseA(tokens) + RB = self._scan('RB') + return Option(ClauseA) + else: # == 'STMT' + STMT = self._scan('STMT') + return Eval(STMT[2:-2]) + + def OptParam(self): + if self._peek('ATTR', '":"', 'PLUS', 'STAR', 'STR', 'ID', 'LP', 'LB', 'STMT', 'OR', 'RP', 'RB', '"rule"', 'END') == 'ATTR': + ATTR = self._scan('ATTR') + return ATTR[2:-2] + return '' + + def Str(self): + STR = self._scan('STR') + return eval(STR,{},{}) + + + + + +# This replaces the default main routine + +yapps_options = [ + ('context-insensitive-scanner', 'context-insensitive-scanner', + 'Scan all tokens (see docs)') + ] + +def generate(inputfilename, outputfilename='', dump=0, **flags): + """Generate a grammar, given an input filename (X.g) + and an output filename (defaulting to X.py).""" + + if not outputfilename: + if inputfilename[-2:]=='.g': outputfilename = inputfilename[:-2]+'.py' + else: raise "Invalid Filename", outputfilename + + print 'Input Grammar:', inputfilename + print 'Output File:', outputfilename + + DIVIDER = '\n%%\n' # This pattern separates the pre/post parsers + preparser, postparser = None, None # Code before and after the parser desc + + # Read the entire file + s = open(inputfilename,'r').read() + + # See if there's a separation between the pre-parser and parser + f = find(s, DIVIDER) + if f >= 0: preparser, s = s[:f]+'\n\n', s[f+len(DIVIDER):] + + # See if there's a separation between the parser and post-parser + f = find(s, DIVIDER) + if f >= 0: s, postparser = s[:f], '\n\n'+s[f+len(DIVIDER):] + + # Create the parser and scanner + p = ParserDescription(ParserDescriptionScanner(s)) + if not p: return + + # Now parse the file + t = wrap_error_reporter(p, 'Parser') + if not t: return # Error + if preparser is not None: t.preparser = preparser + if postparser is not None: t.postparser = postparser + + # Check the options + for f in t.options.keys(): + for opt,_,_ in yapps_options: + if f == opt: break + else: + print 'Warning: unrecognized option', f + # Add command line options to the set + for f in flags.keys(): t.options[f] = flags[f] + + # Generate the output + if dump: + t.dump_information() + else: + t.output = open(outputfilename, 'w') + t.generate_output() + +if __name__=='__main__': + import sys, getopt + optlist, args = getopt.getopt(sys.argv[1:], 'f:', ['dump']) + if not args or len(args) > 2: + print 'Usage:' + print ' python', sys.argv[0], '[flags] input.g [output.py]' + print 'Flags:' + print (' --dump' + ' '*40)[:35] + 'Dump out grammar information' + for flag, _, doc in yapps_options: + print (' -f' + flag + ' '*40)[:35] + doc + else: + # Read in the options and create a list of flags + flags = {} + for opt in optlist: + for flag, name, _ in yapps_options: + if opt == ('-f', flag): + flags[name] = 1 + break + else: + if opt == ('--dump', ''): + flags['dump'] = 1 + else: + print 'Warning - unrecognized option: ', opt[0], opt[1] + + apply(generate, tuple(args), flags) |