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//usr/lib/python2.4/site-packages/_xmlplus/xpath/ParsedExpr.py
######################################################################## # # File Name: ParsedExpr.py # # """ The implementation of all of the expression pared tokens. WWW: http://4suite.org/XPATH e-mail: support@4suite.org Copyright (c) 2000-2001 Fourthought Inc, USA. All Rights Reserved. See http://4suite.org/COPYRIGHT for license and copyright information """ import string, UserList, types from xml.dom import EMPTY_NAMESPACE from xml.dom.ext import SplitQName from xml.xpath import CompiletimeException, RuntimeException from xml.xpath import g_extFunctions from xml.xpath import ParsedNodeTest from xml.xpath import CoreFunctions, Conversions from xml.xpath import Util from xml.xpath import ParsedStep from xml.xpath import ParsedAxisSpecifier from xml.utils import boolean import Set class NodeSet(UserList.UserList): def __init__(self, data=None): UserList.UserList.__init__(self, data or []) def __repr__(self): st = '<NodeSet at %x: [' % id(self) if len(self): for i in self[:-1]: st = st + repr(i) + ', ' st = st + repr(self[-1]) st = st + ']>' return st class ParsedLiteralExpr: def __init__(self,literal): if len(literal) >= 2 and ( literal[0] in ['\'', '"'] and literal[0] == literal[-1]): literal = string.strip(literal)[1:-1] self._literal = literal def evaluate(self, context): return self._literal def pprint(self, indent=''): print indent + str(self) def __str__(self): return '<Literal at %x: %s>' % (id(self), repr(self)) def __repr__(self): return '"' + self._literal + '"' class ParsedNLiteralExpr(ParsedLiteralExpr): def __init__(self,nliteral): ParsedLiteralExpr.__init__(self,"") self._nliteral = nliteral self._literal = float(nliteral) def pprint(self, indent=''): print indent + str(self) def __str__(self): return '<Number at %x: %s>' % (id(self), repr(self)) def __repr__(self): return str(self._nliteral) class ParsedVariableReferenceExpr: def __init__(self,name): self._name = name self._key = SplitQName(name[1:]) return def evaluate(self, context): """Returns a string""" (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) try: return context.varBindings[expanded] except: raise RuntimeException(RuntimeException.UNDEFINED_VARIABLE, expanded[0], expanded[1]) def pprint(self, indent=''): print indent + str(self) def __str__(self): return '<Variable at %x: %s>' % (id(self), repr(self)) def __repr__(self): return self._name def ParsedFunctionCallExpr(name, args): name = string.strip(name) key = SplitQName(name) count = len(args) if count == 0: return FunctionCall(name, key, args) if count == 1: return FunctionCall1(name, key, args) if count == 2: return FunctionCall2(name, key, args) if count == 3: return FunctionCall3(name, key, args) return FunctionCallN(name, key, args) class FunctionCall: def __init__(self, name, key, args): self._name = name self._key = key self._args = args self._func = None def pprint(self, indent=''): print indent + str(self) for arg in self._args: arg.pprint(indent + ' ') def error(self, *args): raise Exception('Unknown function call: %s' % self._name) def evaluate(self, context): """Call the function""" if not self._func: (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) self._func = (g_extFunctions.get(expanded) or CoreFunctions.CoreFunctions.get(expanded, self.error)) try: result = self._func(context) except TypeError: raise RuntimeException(RuntimeException.WRONG_ARGUMENTS, str(expanded), '') return result def __getinitargs__(self): return (self._name, self._key, self._args) def __getstate__(self): state = vars(self).copy() del state['_func'] return state def __str__(self): return '<%s at %x: %s>' % (self.__class__.__name__, id(self), repr(self)) def __repr__(self): result = self._name + '(' if len(self._args): result = result + repr(self._args[0]) for arg in self._args[1:]: result = result + ', ' + repr(arg) return result + ')' class FunctionCall1(FunctionCall): def __init__(self, name, key, args): FunctionCall.__init__(self, name, key, args) self._arg0 = args[0] def evaluate(self, context): arg0 = self._arg0.evaluate(context) if not self._func: (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) self._func = (g_extFunctions.get(expanded) or CoreFunctions.CoreFunctions.get(expanded, self.error)) try: result = self._func(context, arg0) except TypeError: raise RuntimeException(RuntimeException.WRONG_ARGUMENTS, str(expanded), '') return result class FunctionCall2(FunctionCall): def __init__(self, name, key, args): FunctionCall.__init__(self, name, key, args) self._arg0 = args[0] self._arg1 = args[1] def evaluate(self, context): arg0 = self._arg0.evaluate(context) arg1 = self._arg1.evaluate(context) if not self._func: (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) self._func = (g_extFunctions.get(expanded) or CoreFunctions.CoreFunctions.get(expanded, self.error)) try: result = self._func(context, arg0, arg1) except TypeError: raise RuntimeException(RuntimeException.WRONG_ARGUMENTS, str(expanded), '') return result class FunctionCall3(FunctionCall): def __init__(self, name, key, args): FunctionCall.__init__(self, name, key, args) self._arg0 = args[0] self._arg1 = args[1] self._arg2 = args[2] def evaluate(self, context): arg0 = self._arg0.evaluate(context) arg1 = self._arg1.evaluate(context) arg2 = self._arg2.evaluate(context) if not self._func: (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) self._func = (g_extFunctions.get(expanded) or CoreFunctions.CoreFunctions.get(expanded, self.error)) try: result = self._func(context, arg0, arg1, arg2) except TypeError: raise RuntimeException(RuntimeException.WRONG_ARGUMENTS, str(expanded), '') return result class FunctionCallN(FunctionCall): def __init__(self, name, key, args): FunctionCall.__init__(self, name, key, args) def evaluate(self, context): args = [context] + map(lambda x, c=context: x.evaluate(c), self._args) if not self._func: (prefix, local) = self._key uri = context.processorNss.get(prefix) if prefix and not uri: raise RuntimeException(RuntimeException.UNDEFINED_PREFIX, prefix) expanded = (prefix and uri or EMPTY_NAMESPACE, local) self._func = (g_extFunctions.get(expanded) or CoreFunctions.CoreFunctions.get(expanded, self.error)) try: result = apply(self._func, args) except TypeError: raise RuntimeException(RuntimeException.WRONG_ARGUMENTS, str(expanded), '') return result #Node Set Expressions #These must return a node set class ParsedUnionExpr: def __init__(self,left,right): self._left = left self._right = right def pprint(self, indent=''): print indent + str(self) self._left.pprint(indent + ' ') self._right.pprint(indent + ' ') def evaluate(self, context): lSet = self._left.evaluate(context) if type(lSet) != type([]): raise "Left Expression does not evaluate to a node set" rSet = self._right.evaluate(context) if type(rSet) != type([]): raise "Right Expression does not evaluate to a node set" set = Set.Union(lSet, rSet) set = Util.SortDocOrder(set) return set def __str__(self): return '<UnionExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): return repr(self._left) + ' | ' + repr(self._right) class ParsedPathExpr: def __init__(self, descendant, left, right): self._left = left self._right = right if descendant: nt = ParsedNodeTest.ParsedNodeTest('node', '') axis = ParsedAxisSpecifier.ParsedAxisSpecifier('descendant-or-self') from xml.xpath import ParsedPredicateList pList = ParsedPredicateList.ParsedPredicateList([]) self._step = ParsedStep.ParsedStep(axis, nt, pList) else: self._step = None def pprint(self, indent=''): print indent + str(self) self._left.pprint(indent + ' ') self._right.pprint(indent + ' ') def evaluate(self, context): """Evaluate the left, then if op =// the parsedStep, then the right, push context each time""" """Returns a node set""" rt = self._left.evaluate(context) if type(rt) != type([]): raise "Invalid Expression for a PathExpr %s" % str(self._left) origState = context.copyNodePosSize() if self._step: res = [] l = len(rt) for ctr in range(l): r = rt[ctr] context.setNodePosSize((r,ctr+1,l)) subRt = self._step.select(context) res = Set.Union(res,subRt) rt = res res = [] l = len(rt) for ctr in range(l): r = rt[ctr] context.setNodePosSize((r,ctr+1,l)) subRt = self._right.select(context) if type(subRt) != type([]): raise Exception("Right Expression does not evaluate to a Node Set") res = Set.Union(res,subRt) context.setNodePosSize(origState) return res def __str__(self): return '<PathExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): op = self._step and '//' or '/' return repr(self._left) + op + repr(self._right) class ParsedFilterExpr: def __init__(self, filter, predicates): self._filter = filter self._predicates = predicates def evaluate(self, context): """ evaluate(context) -> node-set Evaluate our filter into a node set, filter that through the predicates. """ node_set = self._filter.evaluate(context) if type(node_set) != type([]): raise "ParsedFilterExpr: return value must evalute to a node-set" if node_set: node_set = self._predicates.filter(node_set, context, reverse=0) return node_set def pprint(self, indent=''): print indent + str(self) self._filter.pprint(indent + ' ') self._predicates.pprint(indent + ' ') def shiftContext(self,context,index,set,len,func): return func(context) def __str__(self): return '<FilterExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): return repr(self._filter) + repr(self._predicates) #Boolean Expressions #All will return a boolean value class ParsedOrExpr: def __init__(self, left, right): self._left = left self._right = right def pprint(self, indent=''): print indent + str(self) self._left.pprint(indent + ' ') self._right.pprint(indent + ' ') def evaluate(self, context): rt = Conversions.BooleanEvaluate(self._left, context) if not rt: rt = Conversions.BooleanEvaluate(self._right, context) return rt def __str__(self): return '<OrExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): return repr(self._left) +' or ' + repr(self._right) class ParsedAndExpr: def __init__(self,left,right): self._left = left self._right = right def evaluate(self, context): rt = Conversions.BooleanEvaluate(self._left, context) if rt: rt = Conversions.BooleanEvaluate(self._right, context) return rt def __str__(self): return '<AndExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): return repr(self._left) + ' and ' + repr(self._right) NumberTypes = [types.IntType, types.FloatType, types.LongType] class ParsedEqualityExpr: def __init__(self, op, left, right): self._op = op self._left = left self._right = right def evaluate(self, context): if self._op == '=': true = boolean.true false = boolean.false else: true = boolean.false false = boolean.true lrt = self._left.evaluate(context) rrt = self._right.evaluate(context) lType = type(lrt) rType = type(rrt) if lType == types.ListType == rType: #Node set to node set for right_curr in rrt: right_curr = Conversions.StringValue(right_curr) for left_curr in lrt: if right_curr == Conversions.StringValue(left_curr): return true return false elif lType == types.ListType or rType == types.ListType: func = None if lType == types.ListType: set = lrt val = rrt else: set = rrt val = lrt if type(val) in NumberTypes: func = Conversions.NumberValue elif boolean.IsBooleanType(val): func = Conversions.BooleanValue elif type(val) == types.StringType: func = Conversions.StringValue else: #Deal with e.g. RTFs val = Conversions.StringValue(val) func = Conversions.StringValue for n in set: if func(n) == val: return true return false if boolean.IsBooleanType(lrt) or boolean.IsBooleanType(rrt): rt = Conversions.BooleanValue(lrt) == Conversions.BooleanValue(rrt) elif lType in NumberTypes or rType in NumberTypes: rt = Conversions.NumberValue(lrt) == Conversions.NumberValue(rrt) else: rt = Conversions.StringValue(lrt) == Conversions.StringValue(rrt) if rt: # Due to the swapping of true/false, true might evaluate to 0 # We cannot compact this to 'rt and true or false' return true return false def pprint(self, indent=''): print indent + str(self) self._left.pprint(indent + ' ') self._right.pprint(indent + ' ') def __str__(self): return '<EqualityExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): if self._op == '=': op = ' = ' else: op = ' != ' return repr(self._left) + op + repr(self._right) class ParsedRelationalExpr: def __init__(self, opcode, left, right): self._op = opcode if isinstance(left, ParsedLiteralExpr): self._left = Conversions.NumberValue(left.evaluate(None)) self._leftLit = 1 else: self._left = left self._leftLit = 0 if isinstance(right, ParsedLiteralExpr): self._right = Conversions.NumberValue(right.evaluate(None)) self._rightLit = 1 else: self._right = right self._rightLit = 0 def evaluate(self, context): if self._leftLit: lrt = self._left else: lrt = Conversions.NumberValue(self._left.evaluate(context)) if self._rightLit: rrt = self._right else: rrt = Conversions.NumberValue(self._right.evaluate(context)) if self._op == 0: rt = (lrt < rrt) elif self._op == 1: rt = (lrt <= rrt) elif self._op == 2: rt = (lrt > rrt) elif self._op == 3: rt = (lrt >= rrt) return rt and boolean.true or boolean.false def pprint(self, indent=''): print indent + str(self) if type(self._left) == types.InstanceType: self._left.pprint(indent + ' ') else: print indent + ' ' + '<Primitive: %s>' % str(self._left) if type(self._right) == types.InstanceType: self._right.pprint(indent + ' ') else: print indent + ' ' + '<Primitive: %s>' % str(self._right) def __str__(self): return '<RelationalExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): if self._op == 0: op = ' < ' elif self._op == 1: op = ' <= ' elif self._op == 2: op = ' > ' elif self._op == 3: op = ' >= ' return repr(self._left) + op + repr(self._right) #Number Expressions class ParsedAdditiveExpr: def __init__(self, sign, left, right): self._sign = sign self._leftLit = 0 self._rightLit = 0 if isinstance(left, ParsedLiteralExpr): self._leftLit = 1 self._left = Conversions.NumberValue(left.evaluate(None)) else: self._left = left if isinstance(right, ParsedLiteralExpr): self._rightLit = 1 self._right = Conversions.NumberValue(right.evaluate(None)) else: self._right = right return def evaluate(self, context): '''returns a number''' if self._leftLit: lrt = self._left else: lrt = self._left.evaluate(context) lrt = Conversions.NumberValue(lrt) if self._rightLit: rrt = self._right else: rrt = self._right.evaluate(context) rrt = Conversions.NumberValue(rrt) return lrt + (rrt * self._sign) def __str__(self): return '<AdditiveExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): if self._sign > 0: op = ' + ' else: op = ' - ' return repr(self._left) + op + repr(self._right) from xml.xpath import Inf, NaN class ParsedMultiplicativeExpr: def __init__(self, opcode, left, right): self._op = opcode self._left = left self._right = right def evaluate(self, context): '''returns a number''' lrt = self._left.evaluate(context) lrt = Conversions.NumberValue(lrt) rrt = self._right.evaluate(context) rrt = Conversions.NumberValue(rrt) res = 0 if self._op == 0: res = lrt * rrt elif self._op == 1: if rrt == 0: res = NaN else: res = lrt / rrt elif self._op == 2: if rrt == 0: res = NaN else: res = lrt % rrt return res def __str__(self): return '<MultiplicativeExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): if self._op == 0: op = ' * ' elif self._op == 1: op = ' div ' elif self._op == 2: op = ' mod ' return repr(self._left) + op + repr(self._right) class ParsedUnaryExpr: def __init__(self,exp): self._exp = exp def evaluate(self, context): '''returns a number''' exp = self._exp.evaluate(context) exp = Conversions.NumberValue(exp) rt = exp * -1.0 return rt def __str__(self): return '<UnaryExpr at %x: %s>' % (id(self), repr(self)) def __repr__(self): return '-' + repr(self._exp)