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856 lines
23 KiB
Python
Executable File
856 lines
23 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Copyright 2008, Google Inc.
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# * Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# * Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following disclaimer
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# in the documentation and/or other materials provided with the
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# distribution.
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# * Neither the name of Google Inc. nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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"""pump v0.2.0 - Pretty Useful for Meta Programming.
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A tool for preprocessor meta programming. Useful for generating
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repetitive boilerplate code. Especially useful for writing C++
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classes, functions, macros, and templates that need to work with
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various number of arguments.
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USAGE:
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pump.py SOURCE_FILE
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EXAMPLES:
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pump.py foo.cc.pump
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Converts foo.cc.pump to foo.cc.
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GRAMMAR:
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CODE ::= ATOMIC_CODE*
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ATOMIC_CODE ::= $var ID = EXPRESSION
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| $var ID = [[ CODE ]]
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| $range ID EXPRESSION..EXPRESSION
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| $for ID SEPARATOR [[ CODE ]]
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| $($)
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| $ID
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| $(EXPRESSION)
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| $if EXPRESSION [[ CODE ]] ELSE_BRANCH
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| [[ CODE ]]
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| RAW_CODE
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SEPARATOR ::= RAW_CODE | EMPTY
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ELSE_BRANCH ::= $else [[ CODE ]]
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| $elif EXPRESSION [[ CODE ]] ELSE_BRANCH
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| EMPTY
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EXPRESSION has Python syntax.
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"""
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__author__ = 'wan@google.com (Zhanyong Wan)'
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import os
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import re
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import sys
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TOKEN_TABLE = [
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(re.compile(r'\$var\s+'), '$var'),
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(re.compile(r'\$elif\s+'), '$elif'),
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(re.compile(r'\$else\s+'), '$else'),
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(re.compile(r'\$for\s+'), '$for'),
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(re.compile(r'\$if\s+'), '$if'),
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(re.compile(r'\$range\s+'), '$range'),
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(re.compile(r'\$[_A-Za-z]\w*'), '$id'),
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(re.compile(r'\$\(\$\)'), '$($)'),
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(re.compile(r'\$'), '$'),
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(re.compile(r'\[\[\n?'), '[['),
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(re.compile(r'\]\]\n?'), ']]'),
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]
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class Cursor:
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"""Represents a position (line and column) in a text file."""
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def __init__(self, line=-1, column=-1):
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self.line = line
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self.column = column
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def __eq__(self, rhs):
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return self.line == rhs.line and self.column == rhs.column
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def __ne__(self, rhs):
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return not self == rhs
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def __lt__(self, rhs):
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return self.line < rhs.line or (
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self.line == rhs.line and self.column < rhs.column)
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def __le__(self, rhs):
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return self < rhs or self == rhs
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def __gt__(self, rhs):
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return rhs < self
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def __ge__(self, rhs):
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return rhs <= self
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def __str__(self):
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if self == Eof():
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return 'EOF'
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else:
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return '%s(%s)' % (self.line + 1, self.column)
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def __add__(self, offset):
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return Cursor(self.line, self.column + offset)
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def __sub__(self, offset):
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return Cursor(self.line, self.column - offset)
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def Clone(self):
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"""Returns a copy of self."""
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return Cursor(self.line, self.column)
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# Special cursor to indicate the end-of-file.
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def Eof():
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"""Returns the special cursor to denote the end-of-file."""
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return Cursor(-1, -1)
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class Token:
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"""Represents a token in a Pump source file."""
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def __init__(self, start=None, end=None, value=None, token_type=None):
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if start is None:
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self.start = Eof()
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else:
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self.start = start
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if end is None:
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self.end = Eof()
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else:
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self.end = end
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self.value = value
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self.token_type = token_type
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def __str__(self):
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return 'Token @%s: \'%s\' type=%s' % (
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self.start, self.value, self.token_type)
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def Clone(self):
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"""Returns a copy of self."""
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return Token(self.start.Clone(), self.end.Clone(), self.value,
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self.token_type)
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def StartsWith(lines, pos, string):
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"""Returns True iff the given position in lines starts with 'string'."""
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return lines[pos.line][pos.column:].startswith(string)
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def FindFirstInLine(line, token_table):
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best_match_start = -1
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for (regex, token_type) in token_table:
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m = regex.search(line)
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if m:
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# We found regex in lines
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if best_match_start < 0 or m.start() < best_match_start:
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best_match_start = m.start()
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best_match_length = m.end() - m.start()
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best_match_token_type = token_type
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if best_match_start < 0:
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return None
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return (best_match_start, best_match_length, best_match_token_type)
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def FindFirst(lines, token_table, cursor):
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"""Finds the first occurrence of any string in strings in lines."""
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start = cursor.Clone()
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cur_line_number = cursor.line
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for line in lines[start.line:]:
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if cur_line_number == start.line:
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line = line[start.column:]
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m = FindFirstInLine(line, token_table)
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if m:
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# We found a regex in line.
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(start_column, length, token_type) = m
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if cur_line_number == start.line:
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start_column += start.column
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found_start = Cursor(cur_line_number, start_column)
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found_end = found_start + length
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return MakeToken(lines, found_start, found_end, token_type)
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cur_line_number += 1
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# We failed to find str in lines
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return None
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def SubString(lines, start, end):
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"""Returns a substring in lines."""
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if end == Eof():
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end = Cursor(len(lines) - 1, len(lines[-1]))
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if start >= end:
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return ''
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if start.line == end.line:
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return lines[start.line][start.column:end.column]
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result_lines = ([lines[start.line][start.column:]] +
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lines[start.line + 1:end.line] +
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[lines[end.line][:end.column]])
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return ''.join(result_lines)
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def StripMetaComments(str):
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"""Strip meta comments from each line in the given string."""
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# First, completely remove lines containing nothing but a meta
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# comment, including the trailing \n.
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str = re.sub(r'^\s*\$\$.*\n', '', str)
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# Then, remove meta comments from contentful lines.
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return re.sub(r'\s*\$\$.*', '', str)
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def MakeToken(lines, start, end, token_type):
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"""Creates a new instance of Token."""
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return Token(start, end, SubString(lines, start, end), token_type)
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def ParseToken(lines, pos, regex, token_type):
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line = lines[pos.line][pos.column:]
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m = regex.search(line)
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if m and not m.start():
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return MakeToken(lines, pos, pos + m.end(), token_type)
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else:
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print 'ERROR: %s expected at %s.' % (token_type, pos)
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sys.exit(1)
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ID_REGEX = re.compile(r'[_A-Za-z]\w*')
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EQ_REGEX = re.compile(r'=')
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REST_OF_LINE_REGEX = re.compile(r'.*?(?=$|\$\$)')
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OPTIONAL_WHITE_SPACES_REGEX = re.compile(r'\s*')
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WHITE_SPACE_REGEX = re.compile(r'\s')
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DOT_DOT_REGEX = re.compile(r'\.\.')
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def Skip(lines, pos, regex):
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line = lines[pos.line][pos.column:]
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m = re.search(regex, line)
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if m and not m.start():
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return pos + m.end()
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else:
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return pos
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def SkipUntil(lines, pos, regex, token_type):
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line = lines[pos.line][pos.column:]
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m = re.search(regex, line)
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if m:
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return pos + m.start()
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else:
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print ('ERROR: %s expected on line %s after column %s.' %
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(token_type, pos.line + 1, pos.column))
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sys.exit(1)
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def ParseExpTokenInParens(lines, pos):
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def ParseInParens(pos):
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pos = Skip(lines, pos, OPTIONAL_WHITE_SPACES_REGEX)
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pos = Skip(lines, pos, r'\(')
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pos = Parse(pos)
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pos = Skip(lines, pos, r'\)')
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return pos
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def Parse(pos):
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pos = SkipUntil(lines, pos, r'\(|\)', ')')
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if SubString(lines, pos, pos + 1) == '(':
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pos = Parse(pos + 1)
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pos = Skip(lines, pos, r'\)')
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return Parse(pos)
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else:
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return pos
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start = pos.Clone()
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pos = ParseInParens(pos)
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return MakeToken(lines, start, pos, 'exp')
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def RStripNewLineFromToken(token):
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if token.value.endswith('\n'):
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return Token(token.start, token.end, token.value[:-1], token.token_type)
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else:
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return token
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def TokenizeLines(lines, pos):
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while True:
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found = FindFirst(lines, TOKEN_TABLE, pos)
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if not found:
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yield MakeToken(lines, pos, Eof(), 'code')
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return
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if found.start == pos:
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prev_token = None
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prev_token_rstripped = None
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else:
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prev_token = MakeToken(lines, pos, found.start, 'code')
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prev_token_rstripped = RStripNewLineFromToken(prev_token)
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if found.token_type == '$var':
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if prev_token_rstripped:
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yield prev_token_rstripped
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yield found
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id_token = ParseToken(lines, found.end, ID_REGEX, 'id')
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yield id_token
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pos = Skip(lines, id_token.end, OPTIONAL_WHITE_SPACES_REGEX)
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eq_token = ParseToken(lines, pos, EQ_REGEX, '=')
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yield eq_token
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pos = Skip(lines, eq_token.end, r'\s*')
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if SubString(lines, pos, pos + 2) != '[[':
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exp_token = ParseToken(lines, pos, REST_OF_LINE_REGEX, 'exp')
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yield exp_token
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pos = Cursor(exp_token.end.line + 1, 0)
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elif found.token_type == '$for':
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if prev_token_rstripped:
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yield prev_token_rstripped
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yield found
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id_token = ParseToken(lines, found.end, ID_REGEX, 'id')
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yield id_token
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pos = Skip(lines, id_token.end, WHITE_SPACE_REGEX)
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elif found.token_type == '$range':
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if prev_token_rstripped:
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yield prev_token_rstripped
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yield found
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id_token = ParseToken(lines, found.end, ID_REGEX, 'id')
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yield id_token
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pos = Skip(lines, id_token.end, OPTIONAL_WHITE_SPACES_REGEX)
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dots_pos = SkipUntil(lines, pos, DOT_DOT_REGEX, '..')
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yield MakeToken(lines, pos, dots_pos, 'exp')
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yield MakeToken(lines, dots_pos, dots_pos + 2, '..')
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pos = dots_pos + 2
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new_pos = Cursor(pos.line + 1, 0)
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yield MakeToken(lines, pos, new_pos, 'exp')
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pos = new_pos
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elif found.token_type == '$':
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if prev_token:
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yield prev_token
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yield found
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exp_token = ParseExpTokenInParens(lines, found.end)
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yield exp_token
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pos = exp_token.end
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elif (found.token_type == ']]' or found.token_type == '$if' or
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found.token_type == '$elif' or found.token_type == '$else'):
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if prev_token_rstripped:
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yield prev_token_rstripped
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yield found
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pos = found.end
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else:
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if prev_token:
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yield prev_token
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yield found
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pos = found.end
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def Tokenize(s):
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"""A generator that yields the tokens in the given string."""
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if s != '':
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lines = s.splitlines(True)
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for token in TokenizeLines(lines, Cursor(0, 0)):
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yield token
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class CodeNode:
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def __init__(self, atomic_code_list=None):
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self.atomic_code = atomic_code_list
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class VarNode:
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def __init__(self, identifier=None, atomic_code=None):
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self.identifier = identifier
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self.atomic_code = atomic_code
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class RangeNode:
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def __init__(self, identifier=None, exp1=None, exp2=None):
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self.identifier = identifier
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self.exp1 = exp1
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self.exp2 = exp2
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class ForNode:
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def __init__(self, identifier=None, sep=None, code=None):
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self.identifier = identifier
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self.sep = sep
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self.code = code
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class ElseNode:
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def __init__(self, else_branch=None):
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self.else_branch = else_branch
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class IfNode:
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def __init__(self, exp=None, then_branch=None, else_branch=None):
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self.exp = exp
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self.then_branch = then_branch
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self.else_branch = else_branch
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class RawCodeNode:
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def __init__(self, token=None):
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self.raw_code = token
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class LiteralDollarNode:
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def __init__(self, token):
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self.token = token
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class ExpNode:
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def __init__(self, token, python_exp):
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self.token = token
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self.python_exp = python_exp
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def PopFront(a_list):
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head = a_list[0]
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a_list[:1] = []
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return head
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def PushFront(a_list, elem):
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a_list[:0] = [elem]
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def PopToken(a_list, token_type=None):
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token = PopFront(a_list)
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if token_type is not None and token.token_type != token_type:
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print 'ERROR: %s expected at %s' % (token_type, token.start)
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print 'ERROR: %s found instead' % (token,)
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sys.exit(1)
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return token
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def PeekToken(a_list):
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if not a_list:
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return None
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return a_list[0]
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def ParseExpNode(token):
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python_exp = re.sub(r'([_A-Za-z]\w*)', r'self.GetValue("\1")', token.value)
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return ExpNode(token, python_exp)
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def ParseElseNode(tokens):
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def Pop(token_type=None):
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return PopToken(tokens, token_type)
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next = PeekToken(tokens)
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if not next:
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return None
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if next.token_type == '$else':
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Pop('$else')
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Pop('[[')
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code_node = ParseCodeNode(tokens)
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Pop(']]')
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return code_node
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elif next.token_type == '$elif':
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Pop('$elif')
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exp = Pop('code')
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Pop('[[')
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code_node = ParseCodeNode(tokens)
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Pop(']]')
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inner_else_node = ParseElseNode(tokens)
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return CodeNode([IfNode(ParseExpNode(exp), code_node, inner_else_node)])
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elif not next.value.strip():
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Pop('code')
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return ParseElseNode(tokens)
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else:
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return None
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def ParseAtomicCodeNode(tokens):
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def Pop(token_type=None):
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return PopToken(tokens, token_type)
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head = PopFront(tokens)
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t = head.token_type
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if t == 'code':
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return RawCodeNode(head)
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elif t == '$var':
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id_token = Pop('id')
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Pop('=')
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next = PeekToken(tokens)
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if next.token_type == 'exp':
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exp_token = Pop()
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return VarNode(id_token, ParseExpNode(exp_token))
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Pop('[[')
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code_node = ParseCodeNode(tokens)
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Pop(']]')
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return VarNode(id_token, code_node)
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elif t == '$for':
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id_token = Pop('id')
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next_token = PeekToken(tokens)
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if next_token.token_type == 'code':
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sep_token = next_token
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Pop('code')
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else:
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sep_token = None
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Pop('[[')
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code_node = ParseCodeNode(tokens)
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Pop(']]')
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return ForNode(id_token, sep_token, code_node)
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elif t == '$if':
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exp_token = Pop('code')
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Pop('[[')
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|
code_node = ParseCodeNode(tokens)
|
|
Pop(']]')
|
|
else_node = ParseElseNode(tokens)
|
|
return IfNode(ParseExpNode(exp_token), code_node, else_node)
|
|
elif t == '$range':
|
|
id_token = Pop('id')
|
|
exp1_token = Pop('exp')
|
|
Pop('..')
|
|
exp2_token = Pop('exp')
|
|
return RangeNode(id_token, ParseExpNode(exp1_token),
|
|
ParseExpNode(exp2_token))
|
|
elif t == '$id':
|
|
return ParseExpNode(Token(head.start + 1, head.end, head.value[1:], 'id'))
|
|
elif t == '$($)':
|
|
return LiteralDollarNode(head)
|
|
elif t == '$':
|
|
exp_token = Pop('exp')
|
|
return ParseExpNode(exp_token)
|
|
elif t == '[[':
|
|
code_node = ParseCodeNode(tokens)
|
|
Pop(']]')
|
|
return code_node
|
|
else:
|
|
PushFront(tokens, head)
|
|
return None
|
|
|
|
|
|
def ParseCodeNode(tokens):
|
|
atomic_code_list = []
|
|
while True:
|
|
if not tokens:
|
|
break
|
|
atomic_code_node = ParseAtomicCodeNode(tokens)
|
|
if atomic_code_node:
|
|
atomic_code_list.append(atomic_code_node)
|
|
else:
|
|
break
|
|
return CodeNode(atomic_code_list)
|
|
|
|
|
|
def ParseToAST(pump_src_text):
|
|
"""Convert the given Pump source text into an AST."""
|
|
tokens = list(Tokenize(pump_src_text))
|
|
code_node = ParseCodeNode(tokens)
|
|
return code_node
|
|
|
|
|
|
class Env:
|
|
def __init__(self):
|
|
self.variables = []
|
|
self.ranges = []
|
|
|
|
def Clone(self):
|
|
clone = Env()
|
|
clone.variables = self.variables[:]
|
|
clone.ranges = self.ranges[:]
|
|
return clone
|
|
|
|
def PushVariable(self, var, value):
|
|
# If value looks like an int, store it as an int.
|
|
try:
|
|
int_value = int(value)
|
|
if ('%s' % int_value) == value:
|
|
value = int_value
|
|
except Exception:
|
|
pass
|
|
self.variables[:0] = [(var, value)]
|
|
|
|
def PopVariable(self):
|
|
self.variables[:1] = []
|
|
|
|
def PushRange(self, var, lower, upper):
|
|
self.ranges[:0] = [(var, lower, upper)]
|
|
|
|
def PopRange(self):
|
|
self.ranges[:1] = []
|
|
|
|
def GetValue(self, identifier):
|
|
for (var, value) in self.variables:
|
|
if identifier == var:
|
|
return value
|
|
|
|
print 'ERROR: meta variable %s is undefined.' % (identifier,)
|
|
sys.exit(1)
|
|
|
|
def EvalExp(self, exp):
|
|
try:
|
|
result = eval(exp.python_exp)
|
|
except Exception, e:
|
|
print 'ERROR: caught exception %s: %s' % (e.__class__.__name__, e)
|
|
print ('ERROR: failed to evaluate meta expression %s at %s' %
|
|
(exp.python_exp, exp.token.start))
|
|
sys.exit(1)
|
|
return result
|
|
|
|
def GetRange(self, identifier):
|
|
for (var, lower, upper) in self.ranges:
|
|
if identifier == var:
|
|
return (lower, upper)
|
|
|
|
print 'ERROR: range %s is undefined.' % (identifier,)
|
|
sys.exit(1)
|
|
|
|
|
|
class Output:
|
|
def __init__(self):
|
|
self.string = ''
|
|
|
|
def GetLastLine(self):
|
|
index = self.string.rfind('\n')
|
|
if index < 0:
|
|
return ''
|
|
|
|
return self.string[index + 1:]
|
|
|
|
def Append(self, s):
|
|
self.string += s
|
|
|
|
|
|
def RunAtomicCode(env, node, output):
|
|
if isinstance(node, VarNode):
|
|
identifier = node.identifier.value.strip()
|
|
result = Output()
|
|
RunAtomicCode(env.Clone(), node.atomic_code, result)
|
|
value = result.string
|
|
env.PushVariable(identifier, value)
|
|
elif isinstance(node, RangeNode):
|
|
identifier = node.identifier.value.strip()
|
|
lower = int(env.EvalExp(node.exp1))
|
|
upper = int(env.EvalExp(node.exp2))
|
|
env.PushRange(identifier, lower, upper)
|
|
elif isinstance(node, ForNode):
|
|
identifier = node.identifier.value.strip()
|
|
if node.sep is None:
|
|
sep = ''
|
|
else:
|
|
sep = node.sep.value
|
|
(lower, upper) = env.GetRange(identifier)
|
|
for i in range(lower, upper + 1):
|
|
new_env = env.Clone()
|
|
new_env.PushVariable(identifier, i)
|
|
RunCode(new_env, node.code, output)
|
|
if i != upper:
|
|
output.Append(sep)
|
|
elif isinstance(node, RawCodeNode):
|
|
output.Append(node.raw_code.value)
|
|
elif isinstance(node, IfNode):
|
|
cond = env.EvalExp(node.exp)
|
|
if cond:
|
|
RunCode(env.Clone(), node.then_branch, output)
|
|
elif node.else_branch is not None:
|
|
RunCode(env.Clone(), node.else_branch, output)
|
|
elif isinstance(node, ExpNode):
|
|
value = env.EvalExp(node)
|
|
output.Append('%s' % (value,))
|
|
elif isinstance(node, LiteralDollarNode):
|
|
output.Append('$')
|
|
elif isinstance(node, CodeNode):
|
|
RunCode(env.Clone(), node, output)
|
|
else:
|
|
print 'BAD'
|
|
print node
|
|
sys.exit(1)
|
|
|
|
|
|
def RunCode(env, code_node, output):
|
|
for atomic_code in code_node.atomic_code:
|
|
RunAtomicCode(env, atomic_code, output)
|
|
|
|
|
|
def IsSingleLineComment(cur_line):
|
|
return '//' in cur_line
|
|
|
|
|
|
def IsInPreprocessorDirective(prev_lines, cur_line):
|
|
if cur_line.lstrip().startswith('#'):
|
|
return True
|
|
return prev_lines and prev_lines[-1].endswith('\\')
|
|
|
|
|
|
def WrapComment(line, output):
|
|
loc = line.find('//')
|
|
before_comment = line[:loc].rstrip()
|
|
if before_comment == '':
|
|
indent = loc
|
|
else:
|
|
output.append(before_comment)
|
|
indent = len(before_comment) - len(before_comment.lstrip())
|
|
prefix = indent*' ' + '// '
|
|
max_len = 80 - len(prefix)
|
|
comment = line[loc + 2:].strip()
|
|
segs = [seg for seg in re.split(r'(\w+\W*)', comment) if seg != '']
|
|
cur_line = ''
|
|
for seg in segs:
|
|
if len((cur_line + seg).rstrip()) < max_len:
|
|
cur_line += seg
|
|
else:
|
|
if cur_line.strip() != '':
|
|
output.append(prefix + cur_line.rstrip())
|
|
cur_line = seg.lstrip()
|
|
if cur_line.strip() != '':
|
|
output.append(prefix + cur_line.strip())
|
|
|
|
|
|
def WrapCode(line, line_concat, output):
|
|
indent = len(line) - len(line.lstrip())
|
|
prefix = indent*' ' # Prefix of the current line
|
|
max_len = 80 - indent - len(line_concat) # Maximum length of the current line
|
|
new_prefix = prefix + 4*' ' # Prefix of a continuation line
|
|
new_max_len = max_len - 4 # Maximum length of a continuation line
|
|
# Prefers to wrap a line after a ',' or ';'.
|
|
segs = [seg for seg in re.split(r'([^,;]+[,;]?)', line.strip()) if seg != '']
|
|
cur_line = '' # The current line without leading spaces.
|
|
for seg in segs:
|
|
# If the line is still too long, wrap at a space.
|
|
while cur_line == '' and len(seg.strip()) > max_len:
|
|
seg = seg.lstrip()
|
|
split_at = seg.rfind(' ', 0, max_len)
|
|
output.append(prefix + seg[:split_at].strip() + line_concat)
|
|
seg = seg[split_at + 1:]
|
|
prefix = new_prefix
|
|
max_len = new_max_len
|
|
|
|
if len((cur_line + seg).rstrip()) < max_len:
|
|
cur_line = (cur_line + seg).lstrip()
|
|
else:
|
|
output.append(prefix + cur_line.rstrip() + line_concat)
|
|
prefix = new_prefix
|
|
max_len = new_max_len
|
|
cur_line = seg.lstrip()
|
|
if cur_line.strip() != '':
|
|
output.append(prefix + cur_line.strip())
|
|
|
|
|
|
def WrapPreprocessorDirective(line, output):
|
|
WrapCode(line, ' \\', output)
|
|
|
|
|
|
def WrapPlainCode(line, output):
|
|
WrapCode(line, '', output)
|
|
|
|
|
|
def IsMultiLineIWYUPragma(line):
|
|
return re.search(r'/\* IWYU pragma: ', line)
|
|
|
|
|
|
def IsHeaderGuardIncludeOrOneLineIWYUPragma(line):
|
|
return (re.match(r'^#(ifndef|define|endif\s*//)\s*[\w_]+\s*$', line) or
|
|
re.match(r'^#include\s', line) or
|
|
# Don't break IWYU pragmas, either; that causes iwyu.py problems.
|
|
re.search(r'// IWYU pragma: ', line))
|
|
|
|
|
|
def WrapLongLine(line, output):
|
|
line = line.rstrip()
|
|
if len(line) <= 80:
|
|
output.append(line)
|
|
elif IsSingleLineComment(line):
|
|
if IsHeaderGuardIncludeOrOneLineIWYUPragma(line):
|
|
# The style guide made an exception to allow long header guard lines,
|
|
# includes and IWYU pragmas.
|
|
output.append(line)
|
|
else:
|
|
WrapComment(line, output)
|
|
elif IsInPreprocessorDirective(output, line):
|
|
if IsHeaderGuardIncludeOrOneLineIWYUPragma(line):
|
|
# The style guide made an exception to allow long header guard lines,
|
|
# includes and IWYU pragmas.
|
|
output.append(line)
|
|
else:
|
|
WrapPreprocessorDirective(line, output)
|
|
elif IsMultiLineIWYUPragma(line):
|
|
output.append(line)
|
|
else:
|
|
WrapPlainCode(line, output)
|
|
|
|
|
|
def BeautifyCode(string):
|
|
lines = string.splitlines()
|
|
output = []
|
|
for line in lines:
|
|
WrapLongLine(line, output)
|
|
output2 = [line.rstrip() for line in output]
|
|
return '\n'.join(output2) + '\n'
|
|
|
|
|
|
def ConvertFromPumpSource(src_text):
|
|
"""Return the text generated from the given Pump source text."""
|
|
ast = ParseToAST(StripMetaComments(src_text))
|
|
output = Output()
|
|
RunCode(Env(), ast, output)
|
|
return BeautifyCode(output.string)
|
|
|
|
|
|
def main(argv):
|
|
if len(argv) == 1:
|
|
print __doc__
|
|
sys.exit(1)
|
|
|
|
file_path = argv[-1]
|
|
output_str = ConvertFromPumpSource(file(file_path, 'r').read())
|
|
if file_path.endswith('.pump'):
|
|
output_file_path = file_path[:-5]
|
|
else:
|
|
output_file_path = '-'
|
|
if output_file_path == '-':
|
|
print output_str,
|
|
else:
|
|
output_file = file(output_file_path, 'w')
|
|
output_file.write('// This file was GENERATED by command:\n')
|
|
output_file.write('// %s %s\n' %
|
|
(os.path.basename(__file__), os.path.basename(file_path)))
|
|
output_file.write('// DO NOT EDIT BY HAND!!!\n\n')
|
|
output_file.write(output_str)
|
|
output_file.close()
|
|
|
|
|
|
if __name__ == '__main__':
|
|
main(sys.argv)
|