X-Git-Url: https://git.madduck.net/etc/vim.git/blobdiff_plain/3f68af9813542a5e277b7a51b316644241c372d7..dc71922c768e543c9c3bbb1db5ea6d7fa801a814:/.vim/bundle/black/src/blib2to3/pgen2/conv.py?ds=inline diff --git a/.vim/bundle/black/src/blib2to3/pgen2/conv.py b/.vim/bundle/black/src/blib2to3/pgen2/conv.py new file mode 100644 index 0000000..7816521 --- /dev/null +++ b/.vim/bundle/black/src/blib2to3/pgen2/conv.py @@ -0,0 +1,256 @@ +# Copyright 2004-2005 Elemental Security, Inc. All Rights Reserved. +# Licensed to PSF under a Contributor Agreement. + +# mypy: ignore-errors + +"""Convert graminit.[ch] spit out by pgen to Python code. + +Pgen is the Python parser generator. It is useful to quickly create a +parser from a grammar file in Python's grammar notation. But I don't +want my parsers to be written in C (yet), so I'm translating the +parsing tables to Python data structures and writing a Python parse +engine. + +Note that the token numbers are constants determined by the standard +Python tokenizer. The standard token module defines these numbers and +their names (the names are not used much). The token numbers are +hardcoded into the Python tokenizer and into pgen. A Python +implementation of the Python tokenizer is also available, in the +standard tokenize module. + +On the other hand, symbol numbers (representing the grammar's +non-terminals) are assigned by pgen based on the actual grammar +input. + +Note: this module is pretty much obsolete; the pgen module generates +equivalent grammar tables directly from the Grammar.txt input file +without having to invoke the Python pgen C program. + +""" + +# Python imports +import regex as re + +# Local imports +from pgen2 import grammar, token + + +class Converter(grammar.Grammar): + """Grammar subclass that reads classic pgen output files. + + The run() method reads the tables as produced by the pgen parser + generator, typically contained in two C files, graminit.h and + graminit.c. The other methods are for internal use only. + + See the base class for more documentation. + + """ + + def run(self, graminit_h, graminit_c): + """Load the grammar tables from the text files written by pgen.""" + self.parse_graminit_h(graminit_h) + self.parse_graminit_c(graminit_c) + self.finish_off() + + def parse_graminit_h(self, filename): + """Parse the .h file written by pgen. (Internal) + + This file is a sequence of #define statements defining the + nonterminals of the grammar as numbers. We build two tables + mapping the numbers to names and back. + + """ + try: + f = open(filename) + except OSError as err: + print("Can't open %s: %s" % (filename, err)) + return False + self.symbol2number = {} + self.number2symbol = {} + lineno = 0 + for line in f: + lineno += 1 + mo = re.match(r"^#define\s+(\w+)\s+(\d+)$", line) + if not mo and line.strip(): + print("%s(%s): can't parse %s" % (filename, lineno, line.strip())) + else: + symbol, number = mo.groups() + number = int(number) + assert symbol not in self.symbol2number + assert number not in self.number2symbol + self.symbol2number[symbol] = number + self.number2symbol[number] = symbol + return True + + def parse_graminit_c(self, filename): + """Parse the .c file written by pgen. (Internal) + + The file looks as follows. The first two lines are always this: + + #include "pgenheaders.h" + #include "grammar.h" + + After that come four blocks: + + 1) one or more state definitions + 2) a table defining dfas + 3) a table defining labels + 4) a struct defining the grammar + + A state definition has the following form: + - one or more arc arrays, each of the form: + static arc arcs__[] = { + {, }, + ... + }; + - followed by a state array, of the form: + static state states_[] = { + {, arcs__}, + ... + }; + + """ + try: + f = open(filename) + except OSError as err: + print("Can't open %s: %s" % (filename, err)) + return False + # The code below essentially uses f's iterator-ness! + lineno = 0 + + # Expect the two #include lines + lineno, line = lineno + 1, next(f) + assert line == '#include "pgenheaders.h"\n', (lineno, line) + lineno, line = lineno + 1, next(f) + assert line == '#include "grammar.h"\n', (lineno, line) + + # Parse the state definitions + lineno, line = lineno + 1, next(f) + allarcs = {} + states = [] + while line.startswith("static arc "): + while line.startswith("static arc "): + mo = re.match(r"static arc arcs_(\d+)_(\d+)\[(\d+)\] = {$", line) + assert mo, (lineno, line) + n, m, k = list(map(int, mo.groups())) + arcs = [] + for _ in range(k): + lineno, line = lineno + 1, next(f) + mo = re.match(r"\s+{(\d+), (\d+)},$", line) + assert mo, (lineno, line) + i, j = list(map(int, mo.groups())) + arcs.append((i, j)) + lineno, line = lineno + 1, next(f) + assert line == "};\n", (lineno, line) + allarcs[(n, m)] = arcs + lineno, line = lineno + 1, next(f) + mo = re.match(r"static state states_(\d+)\[(\d+)\] = {$", line) + assert mo, (lineno, line) + s, t = list(map(int, mo.groups())) + assert s == len(states), (lineno, line) + state = [] + for _ in range(t): + lineno, line = lineno + 1, next(f) + mo = re.match(r"\s+{(\d+), arcs_(\d+)_(\d+)},$", line) + assert mo, (lineno, line) + k, n, m = list(map(int, mo.groups())) + arcs = allarcs[n, m] + assert k == len(arcs), (lineno, line) + state.append(arcs) + states.append(state) + lineno, line = lineno + 1, next(f) + assert line == "};\n", (lineno, line) + lineno, line = lineno + 1, next(f) + self.states = states + + # Parse the dfas + dfas = {} + mo = re.match(r"static dfa dfas\[(\d+)\] = {$", line) + assert mo, (lineno, line) + ndfas = int(mo.group(1)) + for i in range(ndfas): + lineno, line = lineno + 1, next(f) + mo = re.match(r'\s+{(\d+), "(\w+)", (\d+), (\d+), states_(\d+),$', line) + assert mo, (lineno, line) + symbol = mo.group(2) + number, x, y, z = list(map(int, mo.group(1, 3, 4, 5))) + assert self.symbol2number[symbol] == number, (lineno, line) + assert self.number2symbol[number] == symbol, (lineno, line) + assert x == 0, (lineno, line) + state = states[z] + assert y == len(state), (lineno, line) + lineno, line = lineno + 1, next(f) + mo = re.match(r'\s+("(?:\\\d\d\d)*")},$', line) + assert mo, (lineno, line) + first = {} + rawbitset = eval(mo.group(1)) + for i, c in enumerate(rawbitset): + byte = ord(c) + for j in range(8): + if byte & (1 << j): + first[i * 8 + j] = 1 + dfas[number] = (state, first) + lineno, line = lineno + 1, next(f) + assert line == "};\n", (lineno, line) + self.dfas = dfas + + # Parse the labels + labels = [] + lineno, line = lineno + 1, next(f) + mo = re.match(r"static label labels\[(\d+)\] = {$", line) + assert mo, (lineno, line) + nlabels = int(mo.group(1)) + for i in range(nlabels): + lineno, line = lineno + 1, next(f) + mo = re.match(r'\s+{(\d+), (0|"\w+")},$', line) + assert mo, (lineno, line) + x, y = mo.groups() + x = int(x) + if y == "0": + y = None + else: + y = eval(y) + labels.append((x, y)) + lineno, line = lineno + 1, next(f) + assert line == "};\n", (lineno, line) + self.labels = labels + + # Parse the grammar struct + lineno, line = lineno + 1, next(f) + assert line == "grammar _PyParser_Grammar = {\n", (lineno, line) + lineno, line = lineno + 1, next(f) + mo = re.match(r"\s+(\d+),$", line) + assert mo, (lineno, line) + ndfas = int(mo.group(1)) + assert ndfas == len(self.dfas) + lineno, line = lineno + 1, next(f) + assert line == "\tdfas,\n", (lineno, line) + lineno, line = lineno + 1, next(f) + mo = re.match(r"\s+{(\d+), labels},$", line) + assert mo, (lineno, line) + nlabels = int(mo.group(1)) + assert nlabels == len(self.labels), (lineno, line) + lineno, line = lineno + 1, next(f) + mo = re.match(r"\s+(\d+)$", line) + assert mo, (lineno, line) + start = int(mo.group(1)) + assert start in self.number2symbol, (lineno, line) + self.start = start + lineno, line = lineno + 1, next(f) + assert line == "};\n", (lineno, line) + try: + lineno, line = lineno + 1, next(f) + except StopIteration: + pass + else: + assert 0, (lineno, line) + + def finish_off(self): + """Create additional useful structures. (Internal).""" + self.keywords = {} # map from keyword strings to arc labels + self.tokens = {} # map from numeric token values to arc labels + for ilabel, (type, value) in enumerate(self.labels): + if type == token.NAME and value is not None: + self.keywords[value] = ilabel + elif value is None: + self.tokens[type] = ilabel