""" This is the Django template system. How it works: The Lexer.tokenize() function converts a template string (i.e., a string containing markup with custom template tags) to tokens, which can be either plain text (TOKEN_TEXT), variables (TOKEN_VAR) or block statements (TOKEN_BLOCK). The Parser() class takes a list of tokens in its constructor, and its parse() method returns a compiled template -- which is, under the hood, a list of Node objects. Each Node is responsible for creating some sort of output -- e.g. simple text (TextNode), variable values in a given context (VariableNode), results of basic logic (IfNode), results of looping (ForNode), or anything else. The core Node types are TextNode, VariableNode, IfNode and ForNode, but plugin modules can define their own custom node types. Each Node has a render() method, which takes a Context and returns a string of the rendered node. For example, the render() method of a Variable Node returns the variable's value as a string. The render() method of an IfNode returns the rendered output of whatever was inside the loop, recursively. The Template class is a convenient wrapper that takes care of template compilation and rendering. Usage: The only thing you should ever use directly in this file is the Template class. Create a compiled template object with a template_string, then call render() with a context. In the compilation stage, the TemplateSyntaxError exception will be raised if the template doesn't have proper syntax. Sample code: >>> from django import template >>> s = u'{% if test %}

{{ varvalue }}

{% endif %}' >>> t = template.Template(s) (t is now a compiled template, and its render() method can be called multiple times with multiple contexts) >>> c = template.Context({'test':True, 'varvalue': 'Hello'}) >>> t.render(c) u'

Hello

' >>> c = template.Context({'test':False, 'varvalue': 'Hello'}) >>> t.render(c) u'' """ import re from inspect import getargspec from django.conf import settings from django.template.context import Context, RequestContext, ContextPopException from django.utils.importlib import import_module from django.utils.itercompat import is_iterable from django.utils.functional import curry, Promise from django.utils.text import smart_split, unescape_string_literal from django.utils.encoding import smart_unicode, force_unicode, smart_str from django.utils.translation import ugettext as _ from django.utils.safestring import SafeData, EscapeData, mark_safe, mark_for_escaping from django.utils.html import escape __all__ = ('Template', 'Context', 'RequestContext', 'compile_string') TOKEN_TEXT = 0 TOKEN_VAR = 1 TOKEN_BLOCK = 2 TOKEN_COMMENT = 3 # template syntax constants FILTER_SEPARATOR = '|' FILTER_ARGUMENT_SEPARATOR = ':' VARIABLE_ATTRIBUTE_SEPARATOR = '.' BLOCK_TAG_START = '{%' BLOCK_TAG_END = '%}' VARIABLE_TAG_START = '{{' VARIABLE_TAG_END = '}}' COMMENT_TAG_START = '{#' COMMENT_TAG_END = '#}' SINGLE_BRACE_START = '{' SINGLE_BRACE_END = '}' ALLOWED_VARIABLE_CHARS = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_.' # what to report as the origin for templates that come from non-loader sources # (e.g. strings) UNKNOWN_SOURCE="<unknown source>" # match a variable or block tag and capture the entire tag, including start/end delimiters tag_re = re.compile('(%s.*?%s|%s.*?%s|%s.*?%s)' % (re.escape(BLOCK_TAG_START), re.escape(BLOCK_TAG_END), re.escape(VARIABLE_TAG_START), re.escape(VARIABLE_TAG_END), re.escape(COMMENT_TAG_START), re.escape(COMMENT_TAG_END))) # global dictionary of libraries that have been loaded using get_library libraries = {} # global list of libraries to load by default for a new parser builtins = [] # True if TEMPLATE_STRING_IF_INVALID contains a format string (%s). None means # uninitialised. invalid_var_format_string = None class TemplateSyntaxError(Exception): def __str__(self): try: import cStringIO as StringIO except ImportError: import StringIO output = StringIO.StringIO() output.write(Exception.__str__(self)) # Check if we wrapped an exception and print that too. if hasattr(self, 'exc_info'): import traceback output.write('\n\nOriginal ') e = self.exc_info traceback.print_exception(e[0], e[1], e[2], 500, output) return output.getvalue() class TemplateDoesNotExist(Exception): pass class TemplateEncodingError(Exception): pass class VariableDoesNotExist(Exception): def __init__(self, msg, params=()): self.msg = msg self.params = params def __str__(self): return unicode(self).encode('utf-8') def __unicode__(self): return self.msg % tuple([force_unicode(p, errors='replace') for p in self.params]) class InvalidTemplateLibrary(Exception): pass class Origin(object): def __init__(self, name): self.name = name def reload(self): raise NotImplementedError def __str__(self): return self.name class StringOrigin(Origin): def __init__(self, source): super(StringOrigin, self).__init__(UNKNOWN_SOURCE) self.source = source def reload(self): return self.source class Template(object): def __init__(self, template_string, origin=None, name=''): try: template_string = smart_unicode(template_string) except UnicodeDecodeError: raise TemplateEncodingError("Templates can only be constructed from unicode or UTF-8 strings.") if settings.TEMPLATE_DEBUG and origin is None: origin = StringOrigin(template_string) self.nodelist = compile_string(template_string, origin) self.name = name def __iter__(self): for node in self.nodelist: for subnode in node: yield subnode def render(self, context): "Display stage -- can be called many times" return self.nodelist.render(context) def compile_string(template_string, origin): "Compiles template_string into NodeList ready for rendering" if settings.TEMPLATE_DEBUG: from debug import DebugLexer, DebugParser lexer_class, parser_class = DebugLexer, DebugParser else: lexer_class, parser_class = Lexer, Parser lexer = lexer_class(template_string, origin) parser = parser_class(lexer.tokenize()) return parser.parse() class Token(object): def __init__(self, token_type, contents): # token_type must be TOKEN_TEXT, TOKEN_VAR, TOKEN_BLOCK or TOKEN_COMMENT. self.token_type, self.contents = token_type, contents def __str__(self): return '<%s token: "%s...">' % \ ({TOKEN_TEXT: 'Text', TOKEN_VAR: 'Var', TOKEN_BLOCK: 'Block', TOKEN_COMMENT: 'Comment'}[self.token_type], self.contents[:20].replace('\n', '')) def split_contents(self): split = [] bits = iter(smart_split(self.contents)) for bit in bits: # Handle translation-marked template pieces if bit.startswith('_("') or bit.startswith("_('"): sentinal = bit[2] + ')' trans_bit = [bit] while not bit.endswith(sentinal): bit = bits.next() trans_bit.append(bit) bit = ' '.join(trans_bit) split.append(bit) return split class Lexer(object): def __init__(self, template_string, origin): self.template_string = template_string self.origin = origin def tokenize(self): "Return a list of tokens from a given template_string." in_tag = False result = [] for bit in tag_re.split(self.template_string): if bit: result.append(self.create_token(bit, in_tag)) in_tag = not in_tag return result def create_token(self, token_string, in_tag): """ Convert the given token string into a new Token object and return it. If in_tag is True, we are processing something that matched a tag, otherwise it should be treated as a literal string. """ if in_tag: if token_string.startswith(VARIABLE_TAG_START): token = Token(TOKEN_VAR, token_string[len(VARIABLE_TAG_START):-len(VARIABLE_TAG_END)].strip()) elif token_string.startswith(BLOCK_TAG_START): token = Token(TOKEN_BLOCK, token_string[len(BLOCK_TAG_START):-len(BLOCK_TAG_END)].strip()) elif token_string.startswith(COMMENT_TAG_START): token = Token(TOKEN_COMMENT, '') else: token = Token(TOKEN_TEXT, token_string) return token class Parser(object): def __init__(self, tokens): self.tokens = tokens self.tags = {} self.filters = {} for lib in builtins: self.add_library(lib) def parse(self, parse_until=None): if parse_until is None: parse_until = [] nodelist = self.create_nodelist() while self.tokens: token = self.next_token() if token.token_type == TOKEN_TEXT: self.extend_nodelist(nodelist, TextNode(token.contents), token) elif token.token_type == TOKEN_VAR: if not token.contents: self.empty_variable(token) filter_expression = self.compile_filter(token.contents) var_node = self.create_variable_node(filter_expression) self.extend_nodelist(nodelist, var_node,token) elif token.token_type == TOKEN_BLOCK: if token.contents in parse_until: # put token back on token list so calling code knows why it terminated self.prepend_token(token) return nodelist try: command = token.contents.split()[0] except IndexError: self.empty_block_tag(token) # execute callback function for this tag and append resulting node self.enter_command(command, token) try: compile_func = self.tags[command] except KeyError: self.invalid_block_tag(token, command) try: compiled_result = compile_func(self, token) except TemplateSyntaxError, e: if not self.compile_function_error(token, e): raise self.extend_nodelist(nodelist, compiled_result, token) self.exit_command() if parse_until: self.unclosed_block_tag(parse_until) return nodelist def skip_past(self, endtag): while self.tokens: token = self.next_token() if token.token_type == TOKEN_BLOCK and token.contents == endtag: return self.unclosed_block_tag([endtag]) def create_variable_node(self, filter_expression): return VariableNode(filter_expression) def create_nodelist(self): return NodeList() def extend_nodelist(self, nodelist, node, token): if node.must_be_first and nodelist: try: if nodelist.contains_nontext: raise AttributeError except AttributeError: raise TemplateSyntaxError("%r must be the first tag in the template." % node) if isinstance(nodelist, NodeList) and not isinstance(node, TextNode): nodelist.contains_nontext = True nodelist.append(node) def enter_command(self, command, token): pass def exit_command(self): pass def error(self, token, msg): return TemplateSyntaxError(msg) def empty_variable(self, token): raise self.error(token, "Empty variable tag") def empty_block_tag(self, token): raise self.error(token, "Empty block tag") def invalid_block_tag(self, token, command): raise self.error(token, "Invalid block tag: '%s'" % command) def unclosed_block_tag(self, parse_until): raise self.error(None, "Unclosed tags: %s " % ', '.join(parse_until)) def compile_function_error(self, token, e): pass def next_token(self): return self.tokens.pop(0) def prepend_token(self, token): self.tokens.insert(0, token) def delete_first_token(self): del self.tokens[0] def add_library(self, lib): self.tags.update(lib.tags) self.filters.update(lib.filters) def compile_filter(self, token): "Convenient wrapper for FilterExpression" return FilterExpression(token, self) def find_filter(self, filter_name): if filter_name in self.filters: return self.filters[filter_name] else: raise TemplateSyntaxError("Invalid filter: '%s'" % filter_name) class TokenParser(object): """ Subclass this and implement the top() method to parse a template line. When instantiating the parser, pass in the line from the Django template parser. The parser's "tagname" instance-variable stores the name of the tag that the filter was called with. """ def __init__(self, subject): self.subject = subject self.pointer = 0 self.backout = [] self.tagname = self.tag() def top(self): "Overload this method to do the actual parsing and return the result." raise NotImplementedError() def more(self): "Returns True if there is more stuff in the tag." return self.pointer < len(self.subject) def back(self): "Undoes the last microparser. Use this for lookahead and backtracking." if not len(self.backout): raise TemplateSyntaxError("back called without some previous parsing") self.pointer = self.backout.pop() def tag(self): "A microparser that just returns the next tag from the line." subject = self.subject i = self.pointer if i >= len(subject): raise TemplateSyntaxError("expected another tag, found end of string: %s" % subject) p = i while i < len(subject) and subject[i] not in (' ', '\t'): i += 1 s = subject[p:i] while i < len(subject) and subject[i] in (' ', '\t'): i += 1 self.backout.append(self.pointer) self.pointer = i return s def value(self): "A microparser that parses for a value: some string constant or variable name." subject = self.subject i = self.pointer if i >= len(subject): raise TemplateSyntaxError("Searching for value. Expected another value but found end of string: %s" % subject) if subject[i] in ('"', "'"): p = i i += 1 while i < len(subject) and subject[i] != subject[p]: i += 1 if i >= len(subject): raise TemplateSyntaxError("Searching for value. Unexpected end of string in column %d: %s" % (i, subject)) i += 1 res = subject[p:i] while i < len(subject) and subject[i] in (' ', '\t'): i += 1 self.backout.append(self.pointer) self.pointer = i return res else: p = i while i < len(subject) and subject[i] not in (' ', '\t'): if subject[i] in ('"', "'"): c = subject[i] i += 1 while i < len(subject) and subject[i] != c: i += 1 if i >= len(subject): raise TemplateSyntaxError("Searching for value. Unexpected end of string in column %d: %s" % (i, subject)) i += 1 s = subject[p:i] while i < len(subject) and subject[i] in (' ', '\t'): i += 1 self.backout.append(self.pointer) self.pointer = i return s # This only matches constant *strings* (things in quotes or marked for # translation). Numbers are treated as variables for implementation reasons # (so that they retain their type when passed to filters). constant_string = r""" (?:%(i18n_open)s%(strdq)s%(i18n_close)s| %(i18n_open)s%(strsq)s%(i18n_close)s| %(strdq)s| %(strsq)s) """ % { 'strdq': r'"[^"\\]*(?:\\.[^"\\]*)*"', # double-quoted string 'strsq': r"'[^'\\]*(?:\\.[^'\\]*)*'", # single-quoted string 'i18n_open' : re.escape("_("), 'i18n_close' : re.escape(")"), } constant_string = constant_string.replace("\n", "") filter_raw_string = r""" ^(?P%(constant)s)| ^(?P[%(var_chars)s]+|%(num)s)| (?:%(filter_sep)s (?P\w+) (?:%(arg_sep)s (?: (?P%(constant)s)| (?P[%(var_chars)s]+|%(num)s) ) )? )""" % { 'constant': constant_string, 'num': r'[-+\.]?\d[\d\.e]*', 'var_chars': "\w\." , 'filter_sep': re.escape(FILTER_SEPARATOR), 'arg_sep': re.escape(FILTER_ARGUMENT_SEPARATOR), } filter_re = re.compile(filter_raw_string, re.UNICODE|re.VERBOSE) class FilterExpression(object): r""" Parses a variable token and its optional filters (all as a single string), and return a list of tuples of the filter name and arguments. Sample: >>> token = 'variable|default:"Default value"|date:"Y-m-d"' >>> p = Parser('') >>> fe = FilterExpression(token, p) >>> len(fe.filters) 2 >>> fe.var This class should never be instantiated outside of the get_filters_from_token helper function. """ def __init__(self, token, parser): self.token = token matches = filter_re.finditer(token) var_obj = None filters = [] upto = 0 for match in matches: start = match.start() if upto != start: raise TemplateSyntaxError("Could not parse some characters: %s|%s|%s" % \ (token[:upto], token[upto:start], token[start:])) if var_obj is None: var, constant = match.group("var", "constant") if constant: try: var_obj = Variable(constant).resolve({}) except VariableDoesNotExist: var_obj = None elif var is None: raise TemplateSyntaxError("Could not find variable at start of %s." % token) elif var.find(VARIABLE_ATTRIBUTE_SEPARATOR + '_') > -1 or var[0] == '_': raise TemplateSyntaxError("Variables and attributes may not begin with underscores: '%s'" % var) else: var_obj = Variable(var) else: filter_name = match.group("filter_name") args = [] constant_arg, var_arg = match.group("constant_arg", "var_arg") if constant_arg: args.append((False, Variable(constant_arg).resolve({}))) elif var_arg: args.append((True, Variable(var_arg))) filter_func = parser.find_filter(filter_name) self.args_check(filter_name,filter_func, args) filters.append( (filter_func,args)) upto = match.end() if upto != len(token): raise TemplateSyntaxError("Could not parse the remainder: '%s' from '%s'" % (token[upto:], token)) self.filters = filters self.var = var_obj def resolve(self, context, ignore_failures=False): if isinstance(self.var, Variable): try: obj = self.var.resolve(context) except VariableDoesNotExist: if ignore_failures: obj = None else: if settings.TEMPLATE_STRING_IF_INVALID: global invalid_var_format_string if invalid_var_format_string is None: invalid_var_format_string = '%s' in settings.TEMPLATE_STRING_IF_INVALID if invalid_var_format_string: return settings.TEMPLATE_STRING_IF_INVALID % self.var return settings.TEMPLATE_STRING_IF_INVALID else: obj = settings.TEMPLATE_STRING_IF_INVALID else: obj = self.var for func, args in self.filters: arg_vals = [] for lookup, arg in args: if not lookup: arg_vals.append(mark_safe(arg)) else: arg_vals.append(arg.resolve(context)) if getattr(func, 'needs_autoescape', False): new_obj = func(obj, autoescape=context.autoescape, *arg_vals) else: new_obj = func(obj, *arg_vals) if getattr(func, 'is_safe', False) and isinstance(obj, SafeData): obj = mark_safe(new_obj) elif isinstance(obj, EscapeData): obj = mark_for_escaping(new_obj) else: obj = new_obj return obj def args_check(name, func, provided): provided = list(provided) plen = len(provided) # Check to see if a decorator is providing the real function. func = getattr(func, '_decorated_function', func) args, varargs, varkw, defaults = getargspec(func) # First argument is filter input. args.pop(0) if defaults: nondefs = args[:-len(defaults)] else: nondefs = args # Args without defaults must be provided. try: for arg in nondefs: provided.pop(0) except IndexError: # Not enough raise TemplateSyntaxError("%s requires %d arguments, %d provided" % (name, len(nondefs), plen)) # Defaults can be overridden. defaults = defaults and list(defaults) or [] try: for parg in provided: defaults.pop(0) except IndexError: # Too many. raise TemplateSyntaxError("%s requires %d arguments, %d provided" % (name, len(nondefs), plen)) return True args_check = staticmethod(args_check) def __str__(self): return self.token def resolve_variable(path, context): """ Returns the resolved variable, which may contain attribute syntax, within the given context. Deprecated; use the Variable class instead. """ return Variable(path).resolve(context) class Variable(object): r""" A template variable, resolvable against a given context. The variable may be a hard-coded string (if it begins and ends with single or double quote marks):: >>> c = {'article': {'section':u'News'}} >>> Variable('article.section').resolve(c) u'News' >>> Variable('article').resolve(c) {'section': u'News'} >>> class AClass: pass >>> c = AClass() >>> c.article = AClass() >>> c.article.section = u'News' (The example assumes VARIABLE_ATTRIBUTE_SEPARATOR is '.') """ def __init__(self, var): self.var = var self.literal = None self.lookups = None self.translate = False try: # First try to treat this variable as a number. # # Note that this could cause an OverflowError here that we're not # catching. Since this should only happen at compile time, that's # probably OK. self.literal = float(var) # So it's a float... is it an int? If the original value contained a # dot or an "e" then it was a float, not an int. if '.' not in var and 'e' not in var.lower(): self.literal = int(self.literal) # "2." is invalid if var.endswith('.'): raise ValueError except ValueError: # A ValueError means that the variable isn't a number. if var.startswith('_(') and var.endswith(')'): # The result of the lookup should be translated at rendering # time. self.translate = True var = var[2:-1] # If it's wrapped with quotes (single or double), then # we're also dealing with a literal. try: self.literal = mark_safe(unescape_string_literal(var)) except ValueError: # Otherwise we'll set self.lookups so that resolve() knows we're # dealing with a bonafide variable self.lookups = tuple(var.split(VARIABLE_ATTRIBUTE_SEPARATOR)) def resolve(self, context): """Resolve this variable against a given context.""" if self.lookups is not None: # We're dealing with a variable that needs to be resolved value = self._resolve_lookup(context) else: # We're dealing with a literal, so it's already been "resolved" value = self.literal if self.translate: return _(value) return value def __repr__(self): return "<%s: %r>" % (self.__class__.__name__, self.var) def __str__(self): return self.var def _resolve_lookup(self, context): """ Performs resolution of a real variable (i.e. not a literal) against the given context. As indicated by the method's name, this method is an implementation detail and shouldn't be called by external code. Use Variable.resolve() instead. """ current = context for bit in self.lookups: try: # dictionary lookup current = current[bit] except (TypeError, AttributeError, KeyError): try: # attribute lookup current = getattr(current, bit) if callable(current): if getattr(current, 'alters_data', False): current = settings.TEMPLATE_STRING_IF_INVALID else: try: # method call (assuming no args required) current = current() except TypeError: # arguments *were* required # GOTCHA: This will also catch any TypeError # raised in the function itself. current = settings.TEMPLATE_STRING_IF_INVALID # invalid method call except Exception, e: if getattr(e, 'silent_variable_failure', False): current = settings.TEMPLATE_STRING_IF_INVALID else: raise except (TypeError, AttributeError): try: # list-index lookup current = current[int(bit)] except (IndexError, # list index out of range ValueError, # invalid literal for int() KeyError, # current is a dict without `int(bit)` key TypeError, # unsubscriptable object ): raise VariableDoesNotExist("Failed lookup for key [%s] in %r", (bit, current)) # missing attribute except Exception, e: if getattr(e, 'silent_variable_failure', False): current = settings.TEMPLATE_STRING_IF_INVALID else: raise return current class Node(object): # Set this to True for nodes that must be first in the template (although # they can be preceded by text nodes. must_be_first = False def render(self, context): "Return the node rendered as a string" pass def __iter__(self): yield self def get_nodes_by_type(self, nodetype): "Return a list of all nodes (within this node and its nodelist) of the given type" nodes = [] if isinstance(self, nodetype): nodes.append(self) if hasattr(self, 'nodelist'): nodes.extend(self.nodelist.get_nodes_by_type(nodetype)) return nodes class NodeList(list): # Set to True the first time a non-TextNode is inserted by # extend_nodelist(). contains_nontext = False def render(self, context): bits = [] for node in self: if isinstance(node, Node): bits.append(self.render_node(node, context)) else: bits.append(node) return mark_safe(''.join([force_unicode(b) for b in bits])) def get_nodes_by_type(self, nodetype): "Return a list of all nodes of the given type" nodes = [] for node in self: nodes.extend(node.get_nodes_by_type(nodetype)) return nodes def render_node(self, node, context): return node.render(context) class TextNode(Node): def __init__(self, s): self.s = s def __repr__(self): return "" % smart_str(self.s[:25], 'ascii', errors='replace') def render(self, context): return self.s class VariableNode(Node): def __init__(self, filter_expression): self.filter_expression = filter_expression def __repr__(self): return "" % self.filter_expression def render(self, context): try: output = force_unicode(self.filter_expression.resolve(context)) except UnicodeDecodeError: # Unicode conversion can fail sometimes for reasons out of our # control (e.g. exception rendering). In that case, we fail quietly. return '' if (context.autoescape and not isinstance(output, SafeData)) or isinstance(output, EscapeData): return force_unicode(escape(output)) else: return force_unicode(output) def generic_tag_compiler(params, defaults, name, node_class, parser, token): "Returns a template.Node subclass." bits = token.split_contents()[1:] bmax = len(params) def_len = defaults and len(defaults) or 0 bmin = bmax - def_len if(len(bits) < bmin or len(bits) > bmax): if bmin == bmax: message = "%s takes %s arguments" % (name, bmin) else: message = "%s takes between %s and %s arguments" % (name, bmin, bmax) raise TemplateSyntaxError(message) return node_class(bits) class Library(object): def __init__(self): self.filters = {} self.tags = {} def tag(self, name=None, compile_function=None): if name == None and compile_function == None: # @register.tag() return self.tag_function elif name != None and compile_function == None: if(callable(name)): # @register.tag return self.tag_function(name) else: # @register.tag('somename') or @register.tag(name='somename') def dec(func): return self.tag(name, func) return dec elif name != None and compile_function != None: # register.tag('somename', somefunc) self.tags[name] = compile_function return compile_function else: raise InvalidTemplateLibrary("Unsupported arguments to Library.tag: (%r, %r)", (name, compile_function)) def tag_function(self,func): self.tags[getattr(func, "_decorated_function", func).__name__] = func return func def filter(self, name=None, filter_func=None): if name == None and filter_func == None: # @register.filter() return self.filter_function elif filter_func == None: if(callable(name)): # @register.filter return self.filter_function(name) else: # @register.filter('somename') or @register.filter(name='somename') def dec(func): return self.filter(name, func) return dec elif name != None and filter_func != None: # register.filter('somename', somefunc) self.filters[name] = filter_func return filter_func else: raise InvalidTemplateLibrary("Unsupported arguments to Library.filter: (%r, %r)", (name, filter_func)) def filter_function(self, func): self.filters[getattr(func, "_decorated_function", func).__name__] = func return func def simple_tag(self,func): params, xx, xxx, defaults = getargspec(func) class SimpleNode(Node): def __init__(self, vars_to_resolve): self.vars_to_resolve = map(Variable, vars_to_resolve) def render(self, context): resolved_vars = [var.resolve(context) for var in self.vars_to_resolve] return func(*resolved_vars) compile_func = curry(generic_tag_compiler, params, defaults, getattr(func, "_decorated_function", func).__name__, SimpleNode) compile_func.__doc__ = func.__doc__ self.tag(getattr(func, "_decorated_function", func).__name__, compile_func) return func def inclusion_tag(self, file_name, context_class=Context, takes_context=False): def dec(func): params, xx, xxx, defaults = getargspec(func) if takes_context: if params[0] == 'context': params = params[1:] else: raise TemplateSyntaxError("Any tag function decorated with takes_context=True must have a first argument of 'context'") class InclusionNode(Node): def __init__(self, vars_to_resolve): self.vars_to_resolve = map(Variable, vars_to_resolve) def render(self, context): resolved_vars = [var.resolve(context) for var in self.vars_to_resolve] if takes_context: args = [context] + resolved_vars else: args = resolved_vars dict = func(*args) if not getattr(self, 'nodelist', False): from django.template.loader import get_template, select_template if not isinstance(file_name, basestring) and is_iterable(file_name): t = select_template(file_name) else: t = get_template(file_name) self.nodelist = t.nodelist return self.nodelist.render(context_class(dict, autoescape=context.autoescape)) compile_func = curry(generic_tag_compiler, params, defaults, getattr(func, "_decorated_function", func).__name__, InclusionNode) compile_func.__doc__ = func.__doc__ self.tag(getattr(func, "_decorated_function", func).__name__, compile_func) return func return dec def get_library(module_name): lib = libraries.get(module_name, None) if not lib: try: mod = import_module(module_name) except ImportError, e: raise InvalidTemplateLibrary("Could not load template library from %s, %s" % (module_name, e)) try: lib = mod.register libraries[module_name] = lib except AttributeError: raise InvalidTemplateLibrary("Template library %s does not have a variable named 'register'" % module_name) return lib def add_to_builtins(module_name): builtins.append(get_library(module_name)) add_to_builtins('django.template.defaulttags') add_to_builtins('django.template.defaultfilters')