#!/usr/bin/env python # # Copyright 2009 Facebook # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """A simple template system that compiles templates to Python code. Basic usage looks like:: t = template.Template("{{ myvalue }}") print t.generate(myvalue="XXX") `Loader` is a class that loads templates from a root directory and caches the compiled templates:: loader = template.Loader("/home/btaylor") print loader.load("test.html").generate(myvalue="XXX") We compile all templates to raw Python. Error-reporting is currently... uh, interesting. Syntax for the templates:: ### base.html {% block title %}Default title{% end %} ### bold.html {% extends "base.html" %} {% block title %}A bolder title{% end %} {% block student %}
  • {{ escape(student.name) }}
  • {% end %} Unlike most other template systems, we do not put any restrictions on the expressions you can include in your statements. ``if`` and ``for`` blocks get translated exactly into Python, so you can do complex expressions like:: {% for student in [p for p in people if p.student and p.age > 23] %}
  • {{ escape(student.name) }}
  • {% end %} Translating directly to Python means you can apply functions to expressions easily, like the ``escape()`` function in the examples above. You can pass functions in to your template just like any other variable (In a `.RequestHandler`, override `.RequestHandler.get_template_namespace`):: ### Python code def add(x, y): return x + y template.execute(add=add) ### The template {{ add(1, 2) }} We provide the functions `escape() <.xhtml_escape>`, `.url_escape()`, `.json_encode()`, and `.squeeze()` to all templates by default. Typical applications do not create `Template` or `Loader` instances by hand, but instead use the `~.RequestHandler.render` and `~.RequestHandler.render_string` methods of `tornado.web.RequestHandler`, which load templates automatically based on the ``template_path`` `.Application` setting. Variable names beginning with ``_tt_`` are reserved by the template system and should not be used by application code. Syntax Reference ---------------- Template expressions are surrounded by double curly braces: ``{{ ... }}``. The contents may be any python expression, which will be escaped according to the current autoescape setting and inserted into the output. Other template directives use ``{% %}``. These tags may be escaped as ``{{!`` and ``{%!`` if you need to include a literal ``{{`` or ``{%`` in the output. To comment out a section so that it is omitted from the output, surround it with ``{# ... #}``. ``{% apply *function* %}...{% end %}`` Applies a function to the output of all template code between ``apply`` and ``end``:: {% apply linkify %}{{name}} said: {{message}}{% end %} Note that as an implementation detail apply blocks are implemented as nested functions and thus may interact strangely with variables set via ``{% set %}``, or the use of ``{% break %}`` or ``{% continue %}`` within loops. ``{% autoescape *function* %}`` Sets the autoescape mode for the current file. This does not affect other files, even those referenced by ``{% include %}``. Note that autoescaping can also be configured globally, at the `.Application` or `Loader`.:: {% autoescape xhtml_escape %} {% autoescape None %} ``{% block *name* %}...{% end %}`` Indicates a named, replaceable block for use with ``{% extends %}``. Blocks in the parent template will be replaced with the contents of the same-named block in a child template.:: {% block title %}Default title{% end %} {% extends "base.html" %} {% block title %}My page title{% end %} ``{% comment ... %}`` A comment which will be removed from the template output. Note that there is no ``{% end %}`` tag; the comment goes from the word ``comment`` to the closing ``%}`` tag. ``{% extends *filename* %}`` Inherit from another template. Templates that use ``extends`` should contain one or more ``block`` tags to replace content from the parent template. Anything in the child template not contained in a ``block`` tag will be ignored. For an example, see the ``{% block %}`` tag. ``{% for *var* in *expr* %}...{% end %}`` Same as the python ``for`` statement. ``{% break %}`` and ``{% continue %}`` may be used inside the loop. ``{% from *x* import *y* %}`` Same as the python ``import`` statement. ``{% if *condition* %}...{% elif *condition* %}...{% else %}...{% end %}`` Conditional statement - outputs the first section whose condition is true. (The ``elif`` and ``else`` sections are optional) ``{% import *module* %}`` Same as the python ``import`` statement. ``{% include *filename* %}`` Includes another template file. The included file can see all the local variables as if it were copied directly to the point of the ``include`` directive (the ``{% autoescape %}`` directive is an exception). Alternately, ``{% module Template(filename, **kwargs) %}`` may be used to include another template with an isolated namespace. ``{% module *expr* %}`` Renders a `~tornado.web.UIModule`. The output of the ``UIModule`` is not escaped:: {% module Template("foo.html", arg=42) %} ``UIModules`` are a feature of the `tornado.web.RequestHandler` class (and specifically its ``render`` method) and will not work when the template system is used on its own in other contexts. ``{% raw *expr* %}`` Outputs the result of the given expression without autoescaping. ``{% set *x* = *y* %}`` Sets a local variable. ``{% try %}...{% except %}...{% else %}...{% finally %}...{% end %}`` Same as the python ``try`` statement. ``{% while *condition* %}... {% end %}`` Same as the python ``while`` statement. ``{% break %}`` and ``{% continue %}`` may be used inside the loop. ``{% whitespace *mode* %}`` Sets the whitespace mode for the remainder of the current file (or until the next ``{% whitespace %}`` directive). See `filter_whitespace` for available options. New in Tornado 4.3. """ from __future__ import absolute_import, division, print_function, with_statement import datetime import linecache import os.path import posixpath import re import threading from tornado import escape from tornado.log import app_log from tornado.util import ObjectDict, exec_in, unicode_type try: from cStringIO import StringIO # py2 except ImportError: from io import StringIO # py3 _DEFAULT_AUTOESCAPE = "xhtml_escape" _UNSET = object() def filter_whitespace(mode, text): """Transform whitespace in ``text`` according to ``mode``. Available modes are: * ``all``: Return all whitespace unmodified. * ``single``: Collapse consecutive whitespace with a single whitespace character, preserving newlines. * ``oneline``: Collapse all runs of whitespace into a single space character, removing all newlines in the process. .. versionadded:: 4.3 """ if mode == 'all': return text elif mode == 'single': text = re.sub(r"([\t ]+)", " ", text) text = re.sub(r"(\s*\n\s*)", "\n", text) return text elif mode == 'oneline': return re.sub(r"(\s+)", " ", text) else: raise Exception("invalid whitespace mode %s" % mode) class Template(object): """A compiled template. We compile into Python from the given template_string. You can generate the template from variables with generate(). """ # note that the constructor's signature is not extracted with # autodoc because _UNSET looks like garbage. When changing # this signature update website/sphinx/template.rst too. def __init__(self, template_string, name="", loader=None, compress_whitespace=_UNSET, autoescape=_UNSET, whitespace=None): """Construct a Template. :arg str template_string: the contents of the template file. :arg str name: the filename from which the template was loaded (used for error message). :arg tornado.template.BaseLoader loader: the `~tornado.template.BaseLoader` responsible for this template, used to resolve ``{% include %}`` and ``{% extend %}`` directives. :arg bool compress_whitespace: Deprecated since Tornado 4.3. Equivalent to ``whitespace="single"`` if true and ``whitespace="all"`` if false. :arg str autoescape: The name of a function in the template namespace, or ``None`` to disable escaping by default. :arg str whitespace: A string specifying treatment of whitespace; see `filter_whitespace` for options. .. versionchanged:: 4.3 Added ``whitespace`` parameter; deprecated ``compress_whitespace``. """ self.name = escape.native_str(name) if compress_whitespace is not _UNSET: # Convert deprecated compress_whitespace (bool) to whitespace (str). if whitespace is not None: raise Exception("cannot set both whitespace and compress_whitespace") whitespace = "single" if compress_whitespace else "all" if whitespace is None: if loader and loader.whitespace: whitespace = loader.whitespace else: # Whitespace defaults by filename. if name.endswith(".html") or name.endswith(".js"): whitespace = "single" else: whitespace = "all" # Validate the whitespace setting. filter_whitespace(whitespace, '') if autoescape is not _UNSET: self.autoescape = autoescape elif loader: self.autoescape = loader.autoescape else: self.autoescape = _DEFAULT_AUTOESCAPE self.namespace = loader.namespace if loader else {} reader = _TemplateReader(name, escape.native_str(template_string), whitespace) self.file = _File(self, _parse(reader, self)) self.code = self._generate_python(loader) self.loader = loader try: # Under python2.5, the fake filename used here must match # the module name used in __name__ below. # The dont_inherit flag prevents template.py's future imports # from being applied to the generated code. self.compiled = compile( escape.to_unicode(self.code), "%s.generated.py" % self.name.replace('.', '_'), "exec", dont_inherit=True) except Exception: formatted_code = _format_code(self.code).rstrip() app_log.error("%s code:\n%s", self.name, formatted_code) raise def generate(self, **kwargs): """Generate this template with the given arguments.""" namespace = { "escape": escape.xhtml_escape, "xhtml_escape": escape.xhtml_escape, "url_escape": escape.url_escape, "json_encode": escape.json_encode, "squeeze": escape.squeeze, "linkify": escape.linkify, "datetime": datetime, "_tt_utf8": escape.utf8, # for internal use "_tt_string_types": (unicode_type, bytes), # __name__ and __loader__ allow the traceback mechanism to find # the generated source code. "__name__": self.name.replace('.', '_'), "__loader__": ObjectDict(get_source=lambda name: self.code), } namespace.update(self.namespace) namespace.update(kwargs) exec_in(self.compiled, namespace) execute = namespace["_tt_execute"] # Clear the traceback module's cache of source data now that # we've generated a new template (mainly for this module's # unittests, where different tests reuse the same name). linecache.clearcache() return execute() def _generate_python(self, loader): buffer = StringIO() try: # named_blocks maps from names to _NamedBlock objects named_blocks = {} ancestors = self._get_ancestors(loader) ancestors.reverse() for ancestor in ancestors: ancestor.find_named_blocks(loader, named_blocks) writer = _CodeWriter(buffer, named_blocks, loader, ancestors[0].template) ancestors[0].generate(writer) return buffer.getvalue() finally: buffer.close() def _get_ancestors(self, loader): ancestors = [self.file] for chunk in self.file.body.chunks: if isinstance(chunk, _ExtendsBlock): if not loader: raise ParseError("{% extends %} block found, but no " "template loader") template = loader.load(chunk.name, self.name) ancestors.extend(template._get_ancestors(loader)) return ancestors class BaseLoader(object): """Base class for template loaders. You must use a template loader to use template constructs like ``{% extends %}`` and ``{% include %}``. The loader caches all templates after they are loaded the first time. """ def __init__(self, autoescape=_DEFAULT_AUTOESCAPE, namespace=None, whitespace=None): """Construct a template loader. :arg str autoescape: The name of a function in the template namespace, such as "xhtml_escape", or ``None`` to disable autoescaping by default. :arg dict namespace: A dictionary to be added to the default template namespace, or ``None``. :arg str whitespace: A string specifying default behavior for whitespace in templates; see `filter_whitespace` for options. Default is "single" for files ending in ".html" and ".js" and "all" for other files. .. versionchanged:: 4.3 Added ``whitespace`` parameter. """ self.autoescape = autoescape self.namespace = namespace or {} self.whitespace = whitespace self.templates = {} # self.lock protects self.templates. It's a reentrant lock # because templates may load other templates via `include` or # `extends`. Note that thanks to the GIL this code would be safe # even without the lock, but could lead to wasted work as multiple # threads tried to compile the same template simultaneously. self.lock = threading.RLock() def reset(self): """Resets the cache of compiled templates.""" with self.lock: self.templates = {} def resolve_path(self, name, parent_path=None): """Converts a possibly-relative path to absolute (used internally).""" raise NotImplementedError() def load(self, name, parent_path=None): """Loads a template.""" name = self.resolve_path(name, parent_path=parent_path) with self.lock: if name not in self.templates: self.templates[name] = self._create_template(name) return self.templates[name] def _create_template(self, name): raise NotImplementedError() class Loader(BaseLoader): """A template loader that loads from a single root directory. """ def __init__(self, root_directory, **kwargs): super(Loader, self).__init__(**kwargs) self.root = os.path.abspath(root_directory) def resolve_path(self, name, parent_path=None): if parent_path and not parent_path.startswith("<") and \ not parent_path.startswith("/") and \ not name.startswith("/"): current_path = os.path.join(self.root, parent_path) file_dir = os.path.dirname(os.path.abspath(current_path)) relative_path = os.path.abspath(os.path.join(file_dir, name)) if relative_path.startswith(self.root): name = relative_path[len(self.root) + 1:] return name def _create_template(self, name): path = os.path.join(self.root, name) with open(path, "rb") as f: template = Template(f.read(), name=name, loader=self) return template class DictLoader(BaseLoader): """A template loader that loads from a dictionary.""" def __init__(self, dict, **kwargs): super(DictLoader, self).__init__(**kwargs) self.dict = dict def resolve_path(self, name, parent_path=None): if parent_path and not parent_path.startswith("<") and \ not parent_path.startswith("/") and \ not name.startswith("/"): file_dir = posixpath.dirname(parent_path) name = posixpath.normpath(posixpath.join(file_dir, name)) return name def _create_template(self, name): return Template(self.dict[name], name=name, loader=self) class _Node(object): def each_child(self): return () def generate(self, writer): raise NotImplementedError() def find_named_blocks(self, loader, named_blocks): for child in self.each_child(): child.find_named_blocks(loader, named_blocks) class _File(_Node): def __init__(self, template, body): self.template = template self.body = body self.line = 0 def generate(self, writer): writer.write_line("def _tt_execute():", self.line) with writer.indent(): writer.write_line("_tt_buffer = []", self.line) writer.write_line("_tt_append = _tt_buffer.append", self.line) self.body.generate(writer) writer.write_line("return _tt_utf8('').join(_tt_buffer)", self.line) def each_child(self): return (self.body,) class _ChunkList(_Node): def __init__(self, chunks): self.chunks = chunks def generate(self, writer): for chunk in self.chunks: chunk.generate(writer) def each_child(self): return self.chunks class _NamedBlock(_Node): def __init__(self, name, body, template, line): self.name = name self.body = body self.template = template self.line = line def each_child(self): return (self.body,) def generate(self, writer): block = writer.named_blocks[self.name] with writer.include(block.template, self.line): block.body.generate(writer) def find_named_blocks(self, loader, named_blocks): named_blocks[self.name] = self _Node.find_named_blocks(self, loader, named_blocks) class _ExtendsBlock(_Node): def __init__(self, name): self.name = name class _IncludeBlock(_Node): def __init__(self, name, reader, line): self.name = name self.template_name = reader.name self.line = line def find_named_blocks(self, loader, named_blocks): included = loader.load(self.name, self.template_name) included.file.find_named_blocks(loader, named_blocks) def generate(self, writer): included = writer.loader.load(self.name, self.template_name) with writer.include(included, self.line): included.file.body.generate(writer) class _ApplyBlock(_Node): def __init__(self, method, line, body=None): self.method = method self.line = line self.body = body def each_child(self): return (self.body,) def generate(self, writer): method_name = "_tt_apply%d" % writer.apply_counter writer.apply_counter += 1 writer.write_line("def %s():" % method_name, self.line) with writer.indent(): writer.write_line("_tt_buffer = []", self.line) writer.write_line("_tt_append = _tt_buffer.append", self.line) self.body.generate(writer) writer.write_line("return _tt_utf8('').join(_tt_buffer)", self.line) writer.write_line("_tt_append(_tt_utf8(%s(%s())))" % ( self.method, method_name), self.line) class _ControlBlock(_Node): def __init__(self, statement, line, body=None): self.statement = statement self.line = line self.body = body def each_child(self): return (self.body,) def generate(self, writer): writer.write_line("%s:" % self.statement, self.line) with writer.indent(): self.body.generate(writer) # Just in case the body was empty writer.write_line("pass", self.line) class _IntermediateControlBlock(_Node): def __init__(self, statement, line): self.statement = statement self.line = line def generate(self, writer): # In case the previous block was empty writer.write_line("pass", self.line) writer.write_line("%s:" % self.statement, self.line, writer.indent_size() - 1) class _Statement(_Node): def __init__(self, statement, line): self.statement = statement self.line = line def generate(self, writer): writer.write_line(self.statement, self.line) class _Expression(_Node): def __init__(self, expression, line, raw=False): self.expression = expression self.line = line self.raw = raw def generate(self, writer): writer.write_line("_tt_tmp = %s" % self.expression, self.line) writer.write_line("if isinstance(_tt_tmp, _tt_string_types):" " _tt_tmp = _tt_utf8(_tt_tmp)", self.line) writer.write_line("else: _tt_tmp = _tt_utf8(str(_tt_tmp))", self.line) if not self.raw and writer.current_template.autoescape is not None: # In python3 functions like xhtml_escape return unicode, # so we have to convert to utf8 again. writer.write_line("_tt_tmp = _tt_utf8(%s(_tt_tmp))" % writer.current_template.autoescape, self.line) writer.write_line("_tt_append(_tt_tmp)", self.line) class _Module(_Expression): def __init__(self, expression, line): super(_Module, self).__init__("_tt_modules." + expression, line, raw=True) class _Text(_Node): def __init__(self, value, line, whitespace): self.value = value self.line = line self.whitespace = whitespace def generate(self, writer): value = self.value # Compress whitespace if requested, with a crude heuristic to avoid # altering preformatted whitespace. if "
    " not in value:
                value = filter_whitespace(self.whitespace, value)
    
            if value:
                writer.write_line('_tt_append(%r)' % escape.utf8(value), self.line)
    
    
    class ParseError(Exception):
        """Raised for template syntax errors.
    
        ``ParseError`` instances have ``filename`` and ``lineno`` attributes
        indicating the position of the error.
    
        .. versionchanged:: 4.3
           Added ``filename`` and ``lineno`` attributes.
        """
        def __init__(self, message, filename, lineno):
            self.message = message
            # The names "filename" and "lineno" are chosen for consistency
            # with python SyntaxError.
            self.filename = filename
            self.lineno = lineno
    
        def __str__(self):
            return '%s at %s:%d' % (self.message, self.filename, self.lineno)
    
    
    class _CodeWriter(object):
        def __init__(self, file, named_blocks, loader, current_template):
            self.file = file
            self.named_blocks = named_blocks
            self.loader = loader
            self.current_template = current_template
            self.apply_counter = 0
            self.include_stack = []
            self._indent = 0
    
        def indent_size(self):
            return self._indent
    
        def indent(self):
            class Indenter(object):
                def __enter__(_):
                    self._indent += 1
                    return self
    
                def __exit__(_, *args):
                    assert self._indent > 0
                    self._indent -= 1
    
            return Indenter()
    
        def include(self, template, line):
            self.include_stack.append((self.current_template, line))
            self.current_template = template
    
            class IncludeTemplate(object):
                def __enter__(_):
                    return self
    
                def __exit__(_, *args):
                    self.current_template = self.include_stack.pop()[0]
    
            return IncludeTemplate()
    
        def write_line(self, line, line_number, indent=None):
            if indent is None:
                indent = self._indent
            line_comment = '  # %s:%d' % (self.current_template.name, line_number)
            if self.include_stack:
                ancestors = ["%s:%d" % (tmpl.name, lineno)
                             for (tmpl, lineno) in self.include_stack]
                line_comment += ' (via %s)' % ', '.join(reversed(ancestors))
            print("    " * indent + line + line_comment, file=self.file)
    
    
    class _TemplateReader(object):
        def __init__(self, name, text, whitespace):
            self.name = name
            self.text = text
            self.whitespace = whitespace
            self.line = 1
            self.pos = 0
    
        def find(self, needle, start=0, end=None):
            assert start >= 0, start
            pos = self.pos
            start += pos
            if end is None:
                index = self.text.find(needle, start)
            else:
                end += pos
                assert end >= start
                index = self.text.find(needle, start, end)
            if index != -1:
                index -= pos
            return index
    
        def consume(self, count=None):
            if count is None:
                count = len(self.text) - self.pos
            newpos = self.pos + count
            self.line += self.text.count("\n", self.pos, newpos)
            s = self.text[self.pos:newpos]
            self.pos = newpos
            return s
    
        def remaining(self):
            return len(self.text) - self.pos
    
        def __len__(self):
            return self.remaining()
    
        def __getitem__(self, key):
            if type(key) is slice:
                size = len(self)
                start, stop, step = key.indices(size)
                if start is None:
                    start = self.pos
                else:
                    start += self.pos
                if stop is not None:
                    stop += self.pos
                return self.text[slice(start, stop, step)]
            elif key < 0:
                return self.text[key]
            else:
                return self.text[self.pos + key]
    
        def __str__(self):
            return self.text[self.pos:]
    
        def raise_parse_error(self, msg):
            raise ParseError(msg, self.name, self.line)
    
    
    def _format_code(code):
        lines = code.splitlines()
        format = "%%%dd  %%s\n" % len(repr(len(lines) + 1))
        return "".join([format % (i + 1, line) for (i, line) in enumerate(lines)])
    
    
    def _parse(reader, template, in_block=None, in_loop=None):
        body = _ChunkList([])
        while True:
            # Find next template directive
            curly = 0
            while True:
                curly = reader.find("{", curly)
                if curly == -1 or curly + 1 == reader.remaining():
                    # EOF
                    if in_block:
                        reader.raise_parse_error(
                            "Missing {%% end %%} block for %s" % in_block)
                    body.chunks.append(_Text(reader.consume(), reader.line,
                                             reader.whitespace))
                    return body
                # If the first curly brace is not the start of a special token,
                # start searching from the character after it
                if reader[curly + 1] not in ("{", "%", "#"):
                    curly += 1
                    continue
                # When there are more than 2 curlies in a row, use the
                # innermost ones.  This is useful when generating languages
                # like latex where curlies are also meaningful
                if (curly + 2 < reader.remaining() and
                        reader[curly + 1] == '{' and reader[curly + 2] == '{'):
                    curly += 1
                    continue
                break
    
            # Append any text before the special token
            if curly > 0:
                cons = reader.consume(curly)
                body.chunks.append(_Text(cons, reader.line,
                                         reader.whitespace))
    
            start_brace = reader.consume(2)
            line = reader.line
    
            # Template directives may be escaped as "{{!" or "{%!".
            # In this case output the braces and consume the "!".
            # This is especially useful in conjunction with jquery templates,
            # which also use double braces.
            if reader.remaining() and reader[0] == "!":
                reader.consume(1)
                body.chunks.append(_Text(start_brace, line,
                                         reader.whitespace))
                continue
    
            # Comment
            if start_brace == "{#":
                end = reader.find("#}")
                if end == -1:
                    reader.raise_parse_error("Missing end comment #}")
                contents = reader.consume(end).strip()
                reader.consume(2)
                continue
    
            # Expression
            if start_brace == "{{":
                end = reader.find("}}")
                if end == -1:
                    reader.raise_parse_error("Missing end expression }}")
                contents = reader.consume(end).strip()
                reader.consume(2)
                if not contents:
                    reader.raise_parse_error("Empty expression")
                body.chunks.append(_Expression(contents, line))
                continue
    
            # Block
            assert start_brace == "{%", start_brace
            end = reader.find("%}")
            if end == -1:
                reader.raise_parse_error("Missing end block %}")
            contents = reader.consume(end).strip()
            reader.consume(2)
            if not contents:
                reader.raise_parse_error("Empty block tag ({% %})")
    
            operator, space, suffix = contents.partition(" ")
            suffix = suffix.strip()
    
            # Intermediate ("else", "elif", etc) blocks
            intermediate_blocks = {
                "else": set(["if", "for", "while", "try"]),
                "elif": set(["if"]),
                "except": set(["try"]),
                "finally": set(["try"]),
            }
            allowed_parents = intermediate_blocks.get(operator)
            if allowed_parents is not None:
                if not in_block:
                    reader.raise_parse_error("%s outside %s block" %
                                             (operator, allowed_parents))
                if in_block not in allowed_parents:
                    reader.raise_parse_error(
                        "%s block cannot be attached to %s block" %
                        (operator, in_block))
                body.chunks.append(_IntermediateControlBlock(contents, line))
                continue
    
            # End tag
            elif operator == "end":
                if not in_block:
                    reader.raise_parse_error("Extra {% end %} block")
                return body
    
            elif operator in ("extends", "include", "set", "import", "from",
                              "comment", "autoescape", "whitespace", "raw",
                              "module"):
                if operator == "comment":
                    continue
                if operator == "extends":
                    suffix = suffix.strip('"').strip("'")
                    if not suffix:
                        reader.raise_parse_error("extends missing file path")
                    block = _ExtendsBlock(suffix)
                elif operator in ("import", "from"):
                    if not suffix:
                        reader.raise_parse_error("import missing statement")
                    block = _Statement(contents, line)
                elif operator == "include":
                    suffix = suffix.strip('"').strip("'")
                    if not suffix:
                        reader.raise_parse_error("include missing file path")
                    block = _IncludeBlock(suffix, reader, line)
                elif operator == "set":
                    if not suffix:
                        reader.raise_parse_error("set missing statement")
                    block = _Statement(suffix, line)
                elif operator == "autoescape":
                    fn = suffix.strip()
                    if fn == "None":
                        fn = None
                    template.autoescape = fn
                    continue
                elif operator == "whitespace":
                    mode = suffix.strip()
                    # Validate the selected mode
                    filter_whitespace(mode, '')
                    reader.whitespace = mode
                    continue
                elif operator == "raw":
                    block = _Expression(suffix, line, raw=True)
                elif operator == "module":
                    block = _Module(suffix, line)
                body.chunks.append(block)
                continue
    
            elif operator in ("apply", "block", "try", "if", "for", "while"):
                # parse inner body recursively
                if operator in ("for", "while"):
                    block_body = _parse(reader, template, operator, operator)
                elif operator == "apply":
                    # apply creates a nested function so syntactically it's not
                    # in the loop.
                    block_body = _parse(reader, template, operator, None)
                else:
                    block_body = _parse(reader, template, operator, in_loop)
    
                if operator == "apply":
                    if not suffix:
                        reader.raise_parse_error("apply missing method name")
                    block = _ApplyBlock(suffix, line, block_body)
                elif operator == "block":
                    if not suffix:
                        reader.raise_parse_error("block missing name")
                    block = _NamedBlock(suffix, block_body, template, line)
                else:
                    block = _ControlBlock(contents, line, block_body)
                body.chunks.append(block)
                continue
    
            elif operator in ("break", "continue"):
                if not in_loop:
                    reader.raise_parse_error("%s outside %s block" %
                                             (operator, set(["for", "while"])))
                body.chunks.append(_Statement(contents, line))
                continue
    
            else:
                reader.raise_parse_error("unknown operator: %r" % operator)