django1/django/template/smartif.py

"""
Parser and utilities for the smart 'if' tag
"""
import operator

# Using a simple top down parser, as described here:
#    http://effbot.org/zone/simple-top-down-parsing.htm.
# 'led' = left denotation
# 'nud' = null denotation
# 'bp' = binding power (left = lbp, right = rbp)

class TokenBase(object):
    """
    Base class for operators and literals, mainly for debugging and for throwing
    syntax errors.
    """
    id = None # node/token type name
    value = None # used by literals
    first = second = None # used by tree nodes

    def nud(self, parser):
        # Null denotation - called in prefix context
        raise parser.error_class(
            "Not expecting '%s' in this position in if tag." % self.id
        )

    def led(self, left, parser):
        # Left denotation - called in infix context
        raise parser.error_class(
            "Not expecting '%s' as infix operator in if tag." % self.id
        )

    def display(self):
        """
        Returns what to display in error messages for this node
        """
        return self.id

    def __repr__(self):
        out = [str(x) for x in [self.id, self.first, self.second] if x is not None]
        return "(" + " ".join(out) + ")"


def infix(bp, func):
    """
    Creates an infix operator, given a binding power and a function that
    evaluates the node
    """
    class Operator(TokenBase):
        lbp = bp

        def led(self, left, parser):
            self.first = left
            self.second = parser.expression(bp)
            return self

        def eval(self, context):
            try:
                return func(self.first.eval(context), self.second.eval(context))
            except Exception:
                # Templates shouldn't throw exceptions when rendering.  We are
                # most likely to get exceptions for things like {% if foo in bar
                # %} where 'bar' does not support 'in', so default to False
                return False

    return Operator


def prefix(bp, func):
    """
    Creates a prefix operator, given a binding power and a function that
    evaluates the node.
    """
    class Operator(TokenBase):
        lbp = bp

        def nud(self, parser):
            self.first = parser.expression(bp)
            self.second = None
            return self

        def eval(self, context):
            try:
                return func(self.first.eval(context))
            except Exception:
                return False

    return Operator


# Operator precedence follows Python.
# NB - we can get slightly more accurate syntax error messages by not using the
# same object for '==' and '='.

OPERATORS = {
    'or': infix(6, lambda x, y: x or y),
    'and': infix(7, lambda x, y: x and y),
    'not': prefix(8, operator.not_),
    'in': infix(9, lambda x, y: x in y),
    '=': infix(10, operator.eq),
    '==': infix(10, operator.eq),
    '!=': infix(10, operator.ne),
    '>': infix(10, operator.gt),
    '>=': infix(10, operator.ge),
    '<': infix(10, operator.lt),
    '<=': infix(10, operator.le),
}

# Assign 'id' to each:
for key, op in OPERATORS.items():
    op.id = key


class Literal(TokenBase):
    """
    A basic self-resolvable object similar to a Django template variable.
    """
    # IfParser uses Literal in create_var, but TemplateIfParser overrides
    # create_var so that a proper implementation that actually resolves
    # variables, filters etc is used.
    id = "literal"
    lbp = 0

    def __init__(self, value):
        self.value = value

    def display(self):
        return repr(self.value)

    def nud(self, parser):
        return self

    def eval(self, context):
        return self.value

    def __repr__(self):
        return "(%s %r)" % (self.id, self.value)


class EndToken(TokenBase):
    lbp = 0

    def nud(self, parser):
        raise parser.error_class("Unexpected end of expression in if tag.")

EndToken = EndToken()


class IfParser(object):
    error_class = ValueError

    def __init__(self, tokens):
        self.tokens = map(self.translate_tokens, tokens)
        self.pos = 0
        self.current_token = self.next()

    def translate_tokens(self, token):
        try:
            op = OPERATORS[token]
        except (KeyError, TypeError):
            return self.create_var(token)
        else:
            return op()

    def next(self):
        if self.pos >= len(self.tokens):
            return EndToken
        else:
            retval = self.tokens[self.pos]
            self.pos += 1
            return retval

    def parse(self):
        retval = self.expression()
        # Check that we have exhausted all the tokens
        if self.current_token is not EndToken:
            raise self.error_class("Unused '%s' at end of if expression." %
                                   self.current_token.display())
        return retval

    def expression(self, rbp=0):
        t = self.current_token
        self.current_token = self.next()
        left = t.nud(self)
        while rbp < self.current_token.lbp:
            t = self.current_token
            self.current_token = self.next()
            left = t.led(left, self)
        return left

    def create_var(self, value):
        return Literal(value)
Implemented 'smart if' template tag, allowing filters and various operators to be used in the 'if' tag Thanks to Chris Beaven for the initial patch, Fredrik Lundh for the basis of the parser methodology and Russell Keith-Magee for code reviews. There are some BACKWARDS INCOMPATIBILITIES in rare cases - in particular, if you were using the keywords 'and', 'or' or 'not' as variable names within the 'if' expression, which was previously allowed in some cases. git-svn-id: http://code.djangoproject.com/svn/django/trunk@11806 bcc190cf-cafb-0310-a4f2-bffc1f526a37 2009-12-10 06:40:36 +08:00			`"""`
			`Parser and utilities for the smart 'if' tag`
			`"""`
			`import operator`

			`# Using a simple top down parser, as described here:`
			`# http://effbot.org/zone/simple-top-down-parsing.htm.`
			`# 'led' = left denotation`
			`# 'nud' = null denotation`
			`# 'bp' = binding power (left = lbp, right = rbp)`

			`class TokenBase(object):`
			`"""`
			`Base class for operators and literals, mainly for debugging and for throwing`
			`syntax errors.`
			`"""`
			`id = None # node/token type name`
			`value = None # used by literals`
			`first = second = None # used by tree nodes`

			`def nud(self, parser):`
			`# Null denotation - called in prefix context`
			`raise parser.error_class(`
			`"Not expecting '%s' in this position in if tag." % self.id`
			`)`

			`def led(self, left, parser):`
			`# Left denotation - called in infix context`
			`raise parser.error_class(`
			`"Not expecting '%s' as infix operator in if tag." % self.id`
			`)`

			`def display(self):`
			`"""`
			`Returns what to display in error messages for this node`
			`"""`
			`return self.id`

			`def __repr__(self):`
			`out = [str(x) for x in [self.id, self.first, self.second] if x is not None]`
			`return "(" + " ".join(out) + ")"`


			`def infix(bp, func):`
			`"""`
			`Creates an infix operator, given a binding power and a function that`
			`evaluates the node`
			`"""`
			`class Operator(TokenBase):`
			`lbp = bp`

			`def led(self, left, parser):`
			`self.first = left`
			`self.second = parser.expression(bp)`
			`return self`

			`def eval(self, context):`
			`try:`
			`return func(self.first.eval(context), self.second.eval(context))`
			`except Exception:`
			`# Templates shouldn't throw exceptions when rendering. We are`
			`# most likely to get exceptions for things like {% if foo in bar`
			`# %} where 'bar' does not support 'in', so default to False`
			`return False`

			`return Operator`


			`def prefix(bp, func):`
			`"""`
			`Creates a prefix operator, given a binding power and a function that`
			`evaluates the node.`
			`"""`
			`class Operator(TokenBase):`
			`lbp = bp`

			`def nud(self, parser):`
			`self.first = parser.expression(bp)`
			`self.second = None`
			`return self`

			`def eval(self, context):`
			`try:`
			`return func(self.first.eval(context))`
			`except Exception:`
			`return False`

			`return Operator`


			`# Operator precedence follows Python.`
			`# NB - we can get slightly more accurate syntax error messages by not using the`
			`# same object for '==' and '='.`

			`OPERATORS = {`
			`'or': infix(6, lambda x, y: x or y),`
			`'and': infix(7, lambda x, y: x and y),`
			`'not': prefix(8, operator.not_),`
			`'in': infix(9, lambda x, y: x in y),`
			`'=': infix(10, operator.eq),`
			`'==': infix(10, operator.eq),`
			`'!=': infix(10, operator.ne),`
			`'>': infix(10, operator.gt),`
			`'>=': infix(10, operator.ge),`
			`'<': infix(10, operator.lt),`
			`'<=': infix(10, operator.le),`
			`}`

			`# Assign 'id' to each:`
			`for key, op in OPERATORS.items():`
			`op.id = key`


			`class Literal(TokenBase):`
			`"""`
			`A basic self-resolvable object similar to a Django template variable.`
			`"""`
			`# IfParser uses Literal in create_var, but TemplateIfParser overrides`
			`# create_var so that a proper implementation that actually resolves`
			`# variables, filters etc is used.`
			`id = "literal"`
			`lbp = 0`

			`def __init__(self, value):`
			`self.value = value`

			`def display(self):`
			`return repr(self.value)`

			`def nud(self, parser):`
			`return self`

			`def eval(self, context):`
			`return self.value`

			`def __repr__(self):`
			`return "(%s %r)" % (self.id, self.value)`


			`class EndToken(TokenBase):`
			`lbp = 0`

			`def nud(self, parser):`
			`raise parser.error_class("Unexpected end of expression in if tag.")`

			`EndToken = EndToken()`


			`class IfParser(object):`
			`error_class = ValueError`

			`def __init__(self, tokens):`
			`self.tokens = map(self.translate_tokens, tokens)`
			`self.pos = 0`
			`self.current_token = self.next()`

			`def translate_tokens(self, token):`
			`try:`
			`op = OPERATORS[token]`
			`except (KeyError, TypeError):`
			`return self.create_var(token)`
			`else:`
			`return op()`

			`def next(self):`
			`if self.pos >= len(self.tokens):`
			`return EndToken`
			`else:`
			`retval = self.tokens[self.pos]`
			`self.pos += 1`
			`return retval`

			`def parse(self):`
			`retval = self.expression()`
			`# Check that we have exhausted all the tokens`
			`if self.current_token is not EndToken:`
			`raise self.error_class("Unused '%s' at end of if expression." %`
			`self.current_token.display())`
			`return retval`

			`def expression(self, rbp=0):`
			`t = self.current_token`
			`self.current_token = self.next()`
			`left = t.nud(self)`
			`while rbp < self.current_token.lbp:`
			`t = self.current_token`
			`self.current_token = self.next()`
			`left = t.led(left, self)`
			`return left`

			`def create_var(self, value):`
			`return Literal(value)`