740 lines
28 KiB
Python
740 lines
28 KiB
Python
# -*- coding: utf-8 -*-
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"""
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jinja2.lexer
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~~~~~~~~~~~~
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This module implements a Jinja / Python combination lexer. The
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`Lexer` class provided by this module is used to do some preprocessing
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for Jinja.
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On the one hand it filters out invalid operators like the bitshift
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operators we don't allow in templates. On the other hand it separates
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template code and python code in expressions.
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:copyright: (c) 2017 by the Jinja Team.
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:license: BSD, see LICENSE for more details.
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"""
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import re
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from collections import deque
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from operator import itemgetter
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from jinja2._compat import implements_iterator, intern, iteritems, text_type
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from jinja2.exceptions import TemplateSyntaxError
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from jinja2.utils import LRUCache
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# cache for the lexers. Exists in order to be able to have multiple
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# environments with the same lexer
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_lexer_cache = LRUCache(50)
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# static regular expressions
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whitespace_re = re.compile(r'\s+', re.U)
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string_re = re.compile(r"('([^'\\]*(?:\\.[^'\\]*)*)'"
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r'|"([^"\\]*(?:\\.[^"\\]*)*)")', re.S)
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integer_re = re.compile(r'\d+')
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try:
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# check if this Python supports Unicode identifiers
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compile('föö', '<unknown>', 'eval')
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except SyntaxError:
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# no Unicode support, use ASCII identifiers
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name_re = re.compile(r'[a-zA-Z_][a-zA-Z0-9_]*')
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check_ident = False
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else:
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# Unicode support, build a pattern to match valid characters, and set flag
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# to use str.isidentifier to validate during lexing
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from jinja2 import _identifier
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name_re = re.compile(r'[\w{0}]+'.format(_identifier.pattern))
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check_ident = True
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# remove the pattern from memory after building the regex
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import sys
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del sys.modules['jinja2._identifier']
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import jinja2
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del jinja2._identifier
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del _identifier
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float_re = re.compile(r'(?<!\.)\d+\.\d+')
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newline_re = re.compile(r'(\r\n|\r|\n)')
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# internal the tokens and keep references to them
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TOKEN_ADD = intern('add')
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TOKEN_ASSIGN = intern('assign')
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TOKEN_COLON = intern('colon')
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TOKEN_COMMA = intern('comma')
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TOKEN_DIV = intern('div')
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TOKEN_DOT = intern('dot')
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TOKEN_EQ = intern('eq')
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TOKEN_FLOORDIV = intern('floordiv')
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TOKEN_GT = intern('gt')
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TOKEN_GTEQ = intern('gteq')
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TOKEN_LBRACE = intern('lbrace')
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TOKEN_LBRACKET = intern('lbracket')
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TOKEN_LPAREN = intern('lparen')
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TOKEN_LT = intern('lt')
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TOKEN_LTEQ = intern('lteq')
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TOKEN_MOD = intern('mod')
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TOKEN_MUL = intern('mul')
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TOKEN_NE = intern('ne')
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TOKEN_PIPE = intern('pipe')
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TOKEN_POW = intern('pow')
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TOKEN_RBRACE = intern('rbrace')
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TOKEN_RBRACKET = intern('rbracket')
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TOKEN_RPAREN = intern('rparen')
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TOKEN_SEMICOLON = intern('semicolon')
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TOKEN_SUB = intern('sub')
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TOKEN_TILDE = intern('tilde')
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TOKEN_WHITESPACE = intern('whitespace')
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TOKEN_FLOAT = intern('float')
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TOKEN_INTEGER = intern('integer')
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TOKEN_NAME = intern('name')
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TOKEN_STRING = intern('string')
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TOKEN_OPERATOR = intern('operator')
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TOKEN_BLOCK_BEGIN = intern('block_begin')
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TOKEN_BLOCK_END = intern('block_end')
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TOKEN_VARIABLE_BEGIN = intern('variable_begin')
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TOKEN_VARIABLE_END = intern('variable_end')
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TOKEN_RAW_BEGIN = intern('raw_begin')
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TOKEN_RAW_END = intern('raw_end')
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TOKEN_COMMENT_BEGIN = intern('comment_begin')
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TOKEN_COMMENT_END = intern('comment_end')
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TOKEN_COMMENT = intern('comment')
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TOKEN_LINESTATEMENT_BEGIN = intern('linestatement_begin')
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TOKEN_LINESTATEMENT_END = intern('linestatement_end')
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TOKEN_LINECOMMENT_BEGIN = intern('linecomment_begin')
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TOKEN_LINECOMMENT_END = intern('linecomment_end')
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TOKEN_LINECOMMENT = intern('linecomment')
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TOKEN_DATA = intern('data')
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TOKEN_INITIAL = intern('initial')
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TOKEN_EOF = intern('eof')
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# bind operators to token types
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operators = {
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'+': TOKEN_ADD,
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'-': TOKEN_SUB,
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'/': TOKEN_DIV,
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'//': TOKEN_FLOORDIV,
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'*': TOKEN_MUL,
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'%': TOKEN_MOD,
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'**': TOKEN_POW,
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'~': TOKEN_TILDE,
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'[': TOKEN_LBRACKET,
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']': TOKEN_RBRACKET,
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'(': TOKEN_LPAREN,
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')': TOKEN_RPAREN,
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'{': TOKEN_LBRACE,
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'}': TOKEN_RBRACE,
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'==': TOKEN_EQ,
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'!=': TOKEN_NE,
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'>': TOKEN_GT,
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'>=': TOKEN_GTEQ,
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'<': TOKEN_LT,
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'<=': TOKEN_LTEQ,
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'=': TOKEN_ASSIGN,
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'.': TOKEN_DOT,
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':': TOKEN_COLON,
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'|': TOKEN_PIPE,
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',': TOKEN_COMMA,
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';': TOKEN_SEMICOLON
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}
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reverse_operators = dict([(v, k) for k, v in iteritems(operators)])
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assert len(operators) == len(reverse_operators), 'operators dropped'
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operator_re = re.compile('(%s)' % '|'.join(re.escape(x) for x in
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sorted(operators, key=lambda x: -len(x))))
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ignored_tokens = frozenset([TOKEN_COMMENT_BEGIN, TOKEN_COMMENT,
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TOKEN_COMMENT_END, TOKEN_WHITESPACE,
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TOKEN_LINECOMMENT_BEGIN, TOKEN_LINECOMMENT_END,
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TOKEN_LINECOMMENT])
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ignore_if_empty = frozenset([TOKEN_WHITESPACE, TOKEN_DATA,
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TOKEN_COMMENT, TOKEN_LINECOMMENT])
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def _describe_token_type(token_type):
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if token_type in reverse_operators:
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return reverse_operators[token_type]
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return {
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TOKEN_COMMENT_BEGIN: 'begin of comment',
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TOKEN_COMMENT_END: 'end of comment',
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TOKEN_COMMENT: 'comment',
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TOKEN_LINECOMMENT: 'comment',
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TOKEN_BLOCK_BEGIN: 'begin of statement block',
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TOKEN_BLOCK_END: 'end of statement block',
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TOKEN_VARIABLE_BEGIN: 'begin of print statement',
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TOKEN_VARIABLE_END: 'end of print statement',
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TOKEN_LINESTATEMENT_BEGIN: 'begin of line statement',
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TOKEN_LINESTATEMENT_END: 'end of line statement',
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TOKEN_DATA: 'template data / text',
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TOKEN_EOF: 'end of template'
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}.get(token_type, token_type)
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def describe_token(token):
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"""Returns a description of the token."""
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if token.type == 'name':
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return token.value
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return _describe_token_type(token.type)
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def describe_token_expr(expr):
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"""Like `describe_token` but for token expressions."""
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if ':' in expr:
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type, value = expr.split(':', 1)
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if type == 'name':
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return value
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else:
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type = expr
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return _describe_token_type(type)
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def count_newlines(value):
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"""Count the number of newline characters in the string. This is
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useful for extensions that filter a stream.
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"""
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return len(newline_re.findall(value))
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def compile_rules(environment):
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"""Compiles all the rules from the environment into a list of rules."""
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e = re.escape
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rules = [
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(len(environment.comment_start_string), 'comment',
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e(environment.comment_start_string)),
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(len(environment.block_start_string), 'block',
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e(environment.block_start_string)),
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(len(environment.variable_start_string), 'variable',
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e(environment.variable_start_string))
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]
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if environment.line_statement_prefix is not None:
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rules.append((len(environment.line_statement_prefix), 'linestatement',
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r'^[ \t\v]*' + e(environment.line_statement_prefix)))
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if environment.line_comment_prefix is not None:
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rules.append((len(environment.line_comment_prefix), 'linecomment',
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r'(?:^|(?<=\S))[^\S\r\n]*' +
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e(environment.line_comment_prefix)))
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return [x[1:] for x in sorted(rules, reverse=True)]
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class Failure(object):
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"""Class that raises a `TemplateSyntaxError` if called.
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Used by the `Lexer` to specify known errors.
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"""
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def __init__(self, message, cls=TemplateSyntaxError):
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self.message = message
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self.error_class = cls
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def __call__(self, lineno, filename):
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raise self.error_class(self.message, lineno, filename)
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class Token(tuple):
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"""Token class."""
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__slots__ = ()
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lineno, type, value = (property(itemgetter(x)) for x in range(3))
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def __new__(cls, lineno, type, value):
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return tuple.__new__(cls, (lineno, intern(str(type)), value))
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def __str__(self):
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if self.type in reverse_operators:
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return reverse_operators[self.type]
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elif self.type == 'name':
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return self.value
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return self.type
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def test(self, expr):
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"""Test a token against a token expression. This can either be a
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token type or ``'token_type:token_value'``. This can only test
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against string values and types.
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"""
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# here we do a regular string equality check as test_any is usually
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# passed an iterable of not interned strings.
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if self.type == expr:
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return True
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elif ':' in expr:
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return expr.split(':', 1) == [self.type, self.value]
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return False
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def test_any(self, *iterable):
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"""Test against multiple token expressions."""
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for expr in iterable:
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if self.test(expr):
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return True
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return False
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def __repr__(self):
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return 'Token(%r, %r, %r)' % (
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self.lineno,
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self.type,
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self.value
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)
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@implements_iterator
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class TokenStreamIterator(object):
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"""The iterator for tokenstreams. Iterate over the stream
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until the eof token is reached.
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"""
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def __init__(self, stream):
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self.stream = stream
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def __iter__(self):
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return self
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def __next__(self):
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token = self.stream.current
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if token.type is TOKEN_EOF:
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self.stream.close()
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raise StopIteration()
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next(self.stream)
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return token
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@implements_iterator
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class TokenStream(object):
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"""A token stream is an iterable that yields :class:`Token`\\s. The
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parser however does not iterate over it but calls :meth:`next` to go
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one token ahead. The current active token is stored as :attr:`current`.
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"""
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def __init__(self, generator, name, filename):
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self._iter = iter(generator)
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self._pushed = deque()
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self.name = name
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self.filename = filename
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self.closed = False
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self.current = Token(1, TOKEN_INITIAL, '')
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next(self)
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def __iter__(self):
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return TokenStreamIterator(self)
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def __bool__(self):
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return bool(self._pushed) or self.current.type is not TOKEN_EOF
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__nonzero__ = __bool__ # py2
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eos = property(lambda x: not x, doc="Are we at the end of the stream?")
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def push(self, token):
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"""Push a token back to the stream."""
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self._pushed.append(token)
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def look(self):
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"""Look at the next token."""
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old_token = next(self)
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result = self.current
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self.push(result)
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self.current = old_token
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return result
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def skip(self, n=1):
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"""Got n tokens ahead."""
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for x in range(n):
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next(self)
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def next_if(self, expr):
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"""Perform the token test and return the token if it matched.
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Otherwise the return value is `None`.
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"""
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if self.current.test(expr):
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return next(self)
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def skip_if(self, expr):
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"""Like :meth:`next_if` but only returns `True` or `False`."""
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return self.next_if(expr) is not None
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def __next__(self):
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"""Go one token ahead and return the old one.
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Use the built-in :func:`next` instead of calling this directly.
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"""
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rv = self.current
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if self._pushed:
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self.current = self._pushed.popleft()
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elif self.current.type is not TOKEN_EOF:
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try:
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self.current = next(self._iter)
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except StopIteration:
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self.close()
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return rv
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def close(self):
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"""Close the stream."""
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self.current = Token(self.current.lineno, TOKEN_EOF, '')
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self._iter = None
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self.closed = True
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def expect(self, expr):
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"""Expect a given token type and return it. This accepts the same
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argument as :meth:`jinja2.lexer.Token.test`.
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"""
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if not self.current.test(expr):
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expr = describe_token_expr(expr)
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if self.current.type is TOKEN_EOF:
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raise TemplateSyntaxError('unexpected end of template, '
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'expected %r.' % expr,
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self.current.lineno,
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self.name, self.filename)
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raise TemplateSyntaxError("expected token %r, got %r" %
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(expr, describe_token(self.current)),
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self.current.lineno,
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self.name, self.filename)
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try:
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return self.current
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finally:
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next(self)
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def get_lexer(environment):
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"""Return a lexer which is probably cached."""
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key = (environment.block_start_string,
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environment.block_end_string,
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environment.variable_start_string,
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environment.variable_end_string,
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environment.comment_start_string,
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environment.comment_end_string,
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environment.line_statement_prefix,
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environment.line_comment_prefix,
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environment.trim_blocks,
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environment.lstrip_blocks,
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environment.newline_sequence,
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environment.keep_trailing_newline)
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lexer = _lexer_cache.get(key)
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if lexer is None:
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lexer = Lexer(environment)
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_lexer_cache[key] = lexer
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return lexer
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class Lexer(object):
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"""Class that implements a lexer for a given environment. Automatically
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created by the environment class, usually you don't have to do that.
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Note that the lexer is not automatically bound to an environment.
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Multiple environments can share the same lexer.
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"""
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def __init__(self, environment):
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# shortcuts
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c = lambda x: re.compile(x, re.M | re.S)
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e = re.escape
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# lexing rules for tags
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tag_rules = [
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(whitespace_re, TOKEN_WHITESPACE, None),
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(float_re, TOKEN_FLOAT, None),
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(integer_re, TOKEN_INTEGER, None),
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(name_re, TOKEN_NAME, None),
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(string_re, TOKEN_STRING, None),
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(operator_re, TOKEN_OPERATOR, None)
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]
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# assemble the root lexing rule. because "|" is ungreedy
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# we have to sort by length so that the lexer continues working
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# as expected when we have parsing rules like <% for block and
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# <%= for variables. (if someone wants asp like syntax)
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# variables are just part of the rules if variable processing
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# is required.
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root_tag_rules = compile_rules(environment)
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# block suffix if trimming is enabled
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block_suffix_re = environment.trim_blocks and '\\n?' or ''
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# strip leading spaces if lstrip_blocks is enabled
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prefix_re = {}
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if environment.lstrip_blocks:
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# use '{%+' to manually disable lstrip_blocks behavior
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no_lstrip_re = e('+')
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# detect overlap between block and variable or comment strings
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block_diff = c(r'^%s(.*)' % e(environment.block_start_string))
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# make sure we don't mistake a block for a variable or a comment
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m = block_diff.match(environment.comment_start_string)
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no_lstrip_re += m and r'|%s' % e(m.group(1)) or ''
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m = block_diff.match(environment.variable_start_string)
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no_lstrip_re += m and r'|%s' % e(m.group(1)) or ''
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# detect overlap between comment and variable strings
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comment_diff = c(r'^%s(.*)' % e(environment.comment_start_string))
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m = comment_diff.match(environment.variable_start_string)
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no_variable_re = m and r'(?!%s)' % e(m.group(1)) or ''
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lstrip_re = r'^[ \t]*'
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block_prefix_re = r'%s%s(?!%s)|%s\+?' % (
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lstrip_re,
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e(environment.block_start_string),
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no_lstrip_re,
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e(environment.block_start_string),
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)
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comment_prefix_re = r'%s%s%s|%s\+?' % (
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lstrip_re,
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e(environment.comment_start_string),
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no_variable_re,
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e(environment.comment_start_string),
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)
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prefix_re['block'] = block_prefix_re
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prefix_re['comment'] = comment_prefix_re
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else:
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block_prefix_re = '%s' % e(environment.block_start_string)
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self.newline_sequence = environment.newline_sequence
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self.keep_trailing_newline = environment.keep_trailing_newline
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# global lexing rules
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self.rules = {
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'root': [
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# directives
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(c('(.*?)(?:%s)' % '|'.join(
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[r'(?P<raw_begin>(?:\s*%s\-|%s)\s*raw\s*(?:\-%s\s*|%s))' % (
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e(environment.block_start_string),
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block_prefix_re,
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e(environment.block_end_string),
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e(environment.block_end_string)
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)] + [
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r'(?P<%s_begin>\s*%s\-|%s)' % (n, r, prefix_re.get(n,r))
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for n, r in root_tag_rules
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])), (TOKEN_DATA, '#bygroup'), '#bygroup'),
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# data
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|
(c('.+'), TOKEN_DATA, None)
|
|
],
|
|
# comments
|
|
TOKEN_COMMENT_BEGIN: [
|
|
(c(r'(.*?)((?:\-%s\s*|%s)%s)' % (
|
|
e(environment.comment_end_string),
|
|
e(environment.comment_end_string),
|
|
block_suffix_re
|
|
)), (TOKEN_COMMENT, TOKEN_COMMENT_END), '#pop'),
|
|
(c('(.)'), (Failure('Missing end of comment tag'),), None)
|
|
],
|
|
# blocks
|
|
TOKEN_BLOCK_BEGIN: [
|
|
(c(r'(?:\-%s\s*|%s)%s' % (
|
|
e(environment.block_end_string),
|
|
e(environment.block_end_string),
|
|
block_suffix_re
|
|
)), TOKEN_BLOCK_END, '#pop'),
|
|
] + tag_rules,
|
|
# variables
|
|
TOKEN_VARIABLE_BEGIN: [
|
|
(c(r'\-%s\s*|%s' % (
|
|
e(environment.variable_end_string),
|
|
e(environment.variable_end_string)
|
|
)), TOKEN_VARIABLE_END, '#pop')
|
|
] + tag_rules,
|
|
# raw block
|
|
TOKEN_RAW_BEGIN: [
|
|
(c(r'(.*?)((?:\s*%s\-|%s)\s*endraw\s*(?:\-%s\s*|%s%s))' % (
|
|
e(environment.block_start_string),
|
|
block_prefix_re,
|
|
e(environment.block_end_string),
|
|
e(environment.block_end_string),
|
|
block_suffix_re
|
|
)), (TOKEN_DATA, TOKEN_RAW_END), '#pop'),
|
|
(c('(.)'), (Failure('Missing end of raw directive'),), None)
|
|
],
|
|
# line statements
|
|
TOKEN_LINESTATEMENT_BEGIN: [
|
|
(c(r'\s*(\n|$)'), TOKEN_LINESTATEMENT_END, '#pop')
|
|
] + tag_rules,
|
|
# line comments
|
|
TOKEN_LINECOMMENT_BEGIN: [
|
|
(c(r'(.*?)()(?=\n|$)'), (TOKEN_LINECOMMENT,
|
|
TOKEN_LINECOMMENT_END), '#pop')
|
|
]
|
|
}
|
|
|
|
def _normalize_newlines(self, value):
|
|
"""Called for strings and template data to normalize it to unicode."""
|
|
return newline_re.sub(self.newline_sequence, value)
|
|
|
|
def tokenize(self, source, name=None, filename=None, state=None):
|
|
"""Calls tokeniter + tokenize and wraps it in a token stream.
|
|
"""
|
|
stream = self.tokeniter(source, name, filename, state)
|
|
return TokenStream(self.wrap(stream, name, filename), name, filename)
|
|
|
|
def wrap(self, stream, name=None, filename=None):
|
|
"""This is called with the stream as returned by `tokenize` and wraps
|
|
every token in a :class:`Token` and converts the value.
|
|
"""
|
|
for lineno, token, value in stream:
|
|
if token in ignored_tokens:
|
|
continue
|
|
elif token == 'linestatement_begin':
|
|
token = 'block_begin'
|
|
elif token == 'linestatement_end':
|
|
token = 'block_end'
|
|
# we are not interested in those tokens in the parser
|
|
elif token in ('raw_begin', 'raw_end'):
|
|
continue
|
|
elif token == 'data':
|
|
value = self._normalize_newlines(value)
|
|
elif token == 'keyword':
|
|
token = value
|
|
elif token == 'name':
|
|
value = str(value)
|
|
if check_ident and not value.isidentifier():
|
|
raise TemplateSyntaxError(
|
|
'Invalid character in identifier',
|
|
lineno, name, filename)
|
|
elif token == 'string':
|
|
# try to unescape string
|
|
try:
|
|
value = self._normalize_newlines(value[1:-1]) \
|
|
.encode('ascii', 'backslashreplace') \
|
|
.decode('unicode-escape')
|
|
except Exception as e:
|
|
msg = str(e).split(':')[-1].strip()
|
|
raise TemplateSyntaxError(msg, lineno, name, filename)
|
|
elif token == 'integer':
|
|
value = int(value)
|
|
elif token == 'float':
|
|
value = float(value)
|
|
elif token == 'operator':
|
|
token = operators[value]
|
|
yield Token(lineno, token, value)
|
|
|
|
def tokeniter(self, source, name, filename=None, state=None):
|
|
"""This method tokenizes the text and returns the tokens in a
|
|
generator. Use this method if you just want to tokenize a template.
|
|
"""
|
|
source = text_type(source)
|
|
lines = source.splitlines()
|
|
if self.keep_trailing_newline and source:
|
|
for newline in ('\r\n', '\r', '\n'):
|
|
if source.endswith(newline):
|
|
lines.append('')
|
|
break
|
|
source = '\n'.join(lines)
|
|
pos = 0
|
|
lineno = 1
|
|
stack = ['root']
|
|
if state is not None and state != 'root':
|
|
assert state in ('variable', 'block'), 'invalid state'
|
|
stack.append(state + '_begin')
|
|
else:
|
|
state = 'root'
|
|
statetokens = self.rules[stack[-1]]
|
|
source_length = len(source)
|
|
|
|
balancing_stack = []
|
|
|
|
while 1:
|
|
# tokenizer loop
|
|
for regex, tokens, new_state in statetokens:
|
|
m = regex.match(source, pos)
|
|
# if no match we try again with the next rule
|
|
if m is None:
|
|
continue
|
|
|
|
# we only match blocks and variables if braces / parentheses
|
|
# are balanced. continue parsing with the lower rule which
|
|
# is the operator rule. do this only if the end tags look
|
|
# like operators
|
|
if balancing_stack and \
|
|
tokens in ('variable_end', 'block_end',
|
|
'linestatement_end'):
|
|
continue
|
|
|
|
# tuples support more options
|
|
if isinstance(tokens, tuple):
|
|
for idx, token in enumerate(tokens):
|
|
# failure group
|
|
if token.__class__ is Failure:
|
|
raise token(lineno, filename)
|
|
# bygroup is a bit more complex, in that case we
|
|
# yield for the current token the first named
|
|
# group that matched
|
|
elif token == '#bygroup':
|
|
for key, value in iteritems(m.groupdict()):
|
|
if value is not None:
|
|
yield lineno, key, value
|
|
lineno += value.count('\n')
|
|
break
|
|
else:
|
|
raise RuntimeError('%r wanted to resolve '
|
|
'the token dynamically'
|
|
' but no group matched'
|
|
% regex)
|
|
# normal group
|
|
else:
|
|
data = m.group(idx + 1)
|
|
if data or token not in ignore_if_empty:
|
|
yield lineno, token, data
|
|
lineno += data.count('\n')
|
|
|
|
# strings as token just are yielded as it.
|
|
else:
|
|
data = m.group()
|
|
# update brace/parentheses balance
|
|
if tokens == 'operator':
|
|
if data == '{':
|
|
balancing_stack.append('}')
|
|
elif data == '(':
|
|
balancing_stack.append(')')
|
|
elif data == '[':
|
|
balancing_stack.append(']')
|
|
elif data in ('}', ')', ']'):
|
|
if not balancing_stack:
|
|
raise TemplateSyntaxError('unexpected \'%s\'' %
|
|
data, lineno, name,
|
|
filename)
|
|
expected_op = balancing_stack.pop()
|
|
if expected_op != data:
|
|
raise TemplateSyntaxError('unexpected \'%s\', '
|
|
'expected \'%s\'' %
|
|
(data, expected_op),
|
|
lineno, name,
|
|
filename)
|
|
# yield items
|
|
if data or tokens not in ignore_if_empty:
|
|
yield lineno, tokens, data
|
|
lineno += data.count('\n')
|
|
|
|
# fetch new position into new variable so that we can check
|
|
# if there is a internal parsing error which would result
|
|
# in an infinite loop
|
|
pos2 = m.end()
|
|
|
|
# handle state changes
|
|
if new_state is not None:
|
|
# remove the uppermost state
|
|
if new_state == '#pop':
|
|
stack.pop()
|
|
# resolve the new state by group checking
|
|
elif new_state == '#bygroup':
|
|
for key, value in iteritems(m.groupdict()):
|
|
if value is not None:
|
|
stack.append(key)
|
|
break
|
|
else:
|
|
raise RuntimeError('%r wanted to resolve the '
|
|
'new state dynamically but'
|
|
' no group matched' %
|
|
regex)
|
|
# direct state name given
|
|
else:
|
|
stack.append(new_state)
|
|
statetokens = self.rules[stack[-1]]
|
|
# we are still at the same position and no stack change.
|
|
# this means a loop without break condition, avoid that and
|
|
# raise error
|
|
elif pos2 == pos:
|
|
raise RuntimeError('%r yielded empty string without '
|
|
'stack change' % regex)
|
|
# publish new function and start again
|
|
pos = pos2
|
|
break
|
|
# if loop terminated without break we haven't found a single match
|
|
# either we are at the end of the file or we have a problem
|
|
else:
|
|
# end of text
|
|
if pos >= source_length:
|
|
return
|
|
# something went wrong
|
|
raise TemplateSyntaxError('unexpected char %r at %d' %
|
|
(source[pos], pos), lineno,
|
|
name, filename)
|